Showing posts with label synthetic marijuana. Show all posts
Showing posts with label synthetic marijuana. Show all posts

Saturday, July 26, 2014

Getting Spiced


Synthetic cannabis is stronger than it used to be.

First published 10/07/2013

I wish I could stop writing blog posts about Spice, as the family of synthetic cannabinoids has become known. I wish young people would stop taking these drugs, and stick to genuine marijuana, which is far safer. I wish that politicians and proponents of the Drug War would lean in a bit and help, by knocking off the testing for marijuana in most circumstances, so the difficulty of detecting Spice products isn’t a significant factor in their favor. I wish synthetic cannabinoids weren’t research chemicals, untested for safety in humans, so that I could avoid having to sound like an alarmist geek on the topic.  I wish I didn’t have to discuss the clinical toxicity of more powerful synthetic cannabinoids like JWH-122 and JWH-210. I wish talented chemists didn’t have to spend precious time and lab resources laboriously characterizing the various metabolic pathways of these drugs, in an effort to understand their clinical consequences. I wish Spice drugs didn’t make regular cannabis look so good by comparison, and serve as an argument in favor of more widespread legalization of organic marijuana.

A German study, published in Addiction, seems to demonstrate that “from 2008 to 2011 a shift to the extremely potent synthetic cannabinoids JWH-122 and JWH-210 occurred…. Symptoms were mostly similar to adverse effects after high-dose cannabis. However, agitation, seizures, hypertension, emesis, and hypokalemia  [low blood potassium] also occurred—symptoms which are usually not seen even after high doses of cannabis.”

The German patients in the study were located through the Poison Information Center, and toxicological analysis was performed in the Institute of Forensic Medicine at the University Medical Center Freiburg. Only two study subjects had appreciable levels of actual THC in their blood. Alcohol and other confounders were factored out. First-time consumers were at elevated risk for unintended overdose consequences, since tolerance to Spice drug side effects does develop, as it does with marijuana.

Clinically, the common symptom was tachycardia, with hearts rates as high as 170 beats per minute. Blurred vision, hallucinations and agitation were also reported, but this cluster of symptoms is also seen in high-dose THC cases that turn up in emergency rooms. The same with nausea, the most common gastrointestinal complaint logged by the researchers.

But in 29 patients in whom the presence of synthetic cannabinoids was verified, some of the symptoms seem unique to the Spice drugs. The synthetic cannabinoids caused, in at least one case, an epileptic seizure. Hypertension and low potassium were also seen more often with the synthetics. After the introduction of the more potent forms, JWH-122 and JWH-210, the symptom set expanded to include “generalized seizures, myocloni [muscle spasms] and muscle pain, elevation of creatine kinase and hypokalemia.” The researchers note that seizures induced by marijuana are almost unheard of. In fact, studies have shown that marijuana has anticonvulsive properties, one of the reason it is popular with cancer patients being treated with radiation therapy.

And there are literally hundreds of other synthetic cannabinoid chemicals waiting in the wings. What is going on? Two things. First, synthetic cannabinoids, unlike THC itself, are full agonists at CB1 receptors. THC is only a partial agonist. What this means is that, because of the greater affinity for cannabinoid receptors, synthetic cannabinoids are, in general, stronger than marijuana—strong enough, in fact, to be toxic, possibly even lethal. Secondly, CB1 receptors are everywhere in the brain and body. The human cannabinoid type-1 receptor is one of the most abundant receptors in the central nervous system and is found in particularly high density in brain areas involving cognition and memory.

The Addiction paper by Maren Hermanns-Clausen and colleagues at the Freiburg University Medical Center in Germany is titled “Acute toxicity due to the confirmed consumption of synthetic cannabinoids,” and is worth quoting at some length:

The central nervous excitation with the symptoms agitation, panic attack, aggressiveness and seizure in our case series is remarkable, and may be typical for these novel synthetic cannabinoids. It is somewhat unlikely that co-consumption of amphetamine-like drugs was responsible for the excitation, because such co-consumption occurred in only two of our cases. The appearance of myocloni and generalized tonic-clonic seizures is worrying. These effects are also unexpected because phytocannabinoids [marijuana] show anticonvulsive actions in humans and in animal models of epilepsy.

The reason for all this may be related to the fact that low potassium was observed “in about one-third of the patients of our case series.” Low potassium levels in the blood can cause muscle spasms, abnormal heart rhythms, and other unpleasant side effects.

One happier possibility that arises from the research is that the fierce affinity of synthetic cannabinoids for CB1 receptors could be used against them. “A selective CB1 receptor antagonist,” Hermanns-Clausen and colleagues write, “for example rimonabant, would immediately reverse the acute toxic effects of the synthetic cannabinoids.”

The total number of cases in the study was low, and we can’t assume that everyone who smokes a Spice joint will suffer from epileptic seizures. But we can say that synthetic cannabinoids in the recreational drug market are becoming stronger, are appearing in ever more baffling combinations, and have made the matter of not taking too much a central issue, unlike marijuana, where taking too much leads to nausea, overeating, and sleep.

(See my post “Spiceophrenia” for a discussion of the less-compelling evidence for synthetic cannabinoids and psychosis).

Hermanns-Clausen M., Kneisel S., Hutter M., Szabo B. & Auwärter V. (2013). Acute intoxication by synthetic cannabinoids - Four case reports, Drug Testing and Analysis,   n/a-n/a. DOI: 10.1002/dta.1483

Graphics Credit: http://www.aacc.org/

Monday, October 7, 2013

Spiced: Synthetic Cannabis Keeps Getting Stronger


Case reports of seizures in Germany from 2008 to 2011.

I wish I could stop writing blog posts about Spice, as the family of synthetic cannabinoids has become known. I wish young people would stop taking these drugs, and stick to genuine marijuana, which is far safer. I wish that politicians and proponents of the Drug War would lean in a bit and help, by knocking off the testing for marijuana in most circumstances, so the difficulty of detecting Spice products isn’t a significant factor in their favor. I wish synthetic cannabinoids weren’t research chemicals, untested for safety in humans, so that I could avoid having to sound like an alarmist geek on the topic.  I wish I didn’t have to discuss the clinical toxicity of more powerful synthetic cannabinoids like JWH-122 and JWH-210. I wish talented chemists didn’t have to spend precious time and lab resources laboriously characterizing the various metabolic pathways of these drugs, in an effort to understand their clinical consequences. I wish Spice drugs didn’t make regular cannabis look so good by comparison, and serve as an argument in favor of more widespread legalization of organic marijuana.

A German study, published in Addiction, seems to demonstrate that “from 2008 to 2011 a shift to the extremely potent synthetic cannabinoids JWH-122 and JWH-210 occurred…. Symptoms were mostly similar to adverse effects after high-dose cannabis. However, agitation, seizures, hypertension, emesis, and hypokalemia  [low blood potassium] also occurred—symptoms which are usually not seen even after high doses of cannabis.”

The German patients in the study were located through the Poison Information Center, and toxicological analysis was performed in the Institute of Forensic Medicine at the University Medical Center Freiburg. Only two study subjects had appreciable levels of actual THC in their blood. Alcohol and other confounders were factored out. First-time consumers were at elevated risk for unintended overdose consequences, since tolerance to Spice drug side effects does develop, as it does with marijuana.

Clinically, the common symptom was tachycardia, with hearts rates as high as 170 beats per minute. Blurred vision, hallucinations and agitation were also reported, but this cluster of symptoms is also seen in high-dose THC cases that turn up in emergency rooms. The same with nausea, the most common gastrointestinal complaint logged by the researchers.

But in 29 patients in whom the presence of synthetic cannabinoids was verified, some of the symptoms seem unique to the Spice drugs. The synthetic cannabinoids caused, in at least one case, an epileptic seizure. Hypertension and low potassium were also seen more often with the synthetics. After the introduction of the more potent forms, JWH-122 and JWH-210, the symptom set expanded to include “generalized seizures, myocloni [muscle spasms] and muscle pain, elevation of creatine kinase and hypokalemia.” The researchers note that seizures induced by marijuana are almost unheard of. In fact, studies have shown that marijuana has anticonvulsive properties, one of the reason it is popular with cancer patients being treated with radiation therapy.

And there are literally hundreds of other synthetic cannabinoid chemicals waiting in the wings. What is going on? Two things. First, synthetic cannabinoids, unlike THC itself, are full agonists at CB1 receptors. THC is only a partial agonist. What this means is that, because of the greater affinity for cannabinoid receptors, synthetic cannabinoids are, in general, stronger than marijuana—strong enough, in fact, to be toxic, possibly even lethal. Secondly, CB1 receptors are everywhere in the brain and body. The human cannabinoid type-1 receptor is one of the most abundant receptors in the central nervous system and is found in particularly high density in brain areas involving cognition and memory.

The Addiction paper by Maren Hermanns-Clausen and colleagues at the Freiburg University Medical Center in Germany is titled “Acute toxicity due to the confirmed consumption of synthetic cannabinoids,” and is worth quoting at some length:

The central nervous excitation with the symptoms agitation, panic attack, aggressiveness and seizure in our case series is remarkable, and may be typical for these novel synthetic cannabinoids. It is somewhat unlikely that co-consumption of amphetamine-like drugs was responsible for the excitation, because such co-consumption occurred in only two of our cases. The appearance of myocloni and generalized tonic-clonic seizures is worrying. These effects are also unexpected because phytocannabinoids [marijuana] show anticonvulsive actions in humans and in animal models of epilepsy.

The reason for all this may be related to the fact that low potassium was observed “in about one-third of the patients of our case series.” Low potassium levels in the blood can cause muscle spasms, abnormal heart rhythms, and other unpleasant side effects.

One happier possibility that arises from the research is that the fierce affinity of synthetic cannabinoids for CB1 receptors could be used against them. “A selective CB1 receptor antagonist,” Hermanns-Clausen and colleagues write, “for example rimonabant, would immediately reverse the acute toxic effects of the synthetic cannabinoids.”

The total number of cases in the study was low, and we can’t assume that everyone who smokes a Spice joint will suffer from epileptic seizures. But we can say that synthetic cannabinoids in the recreational drug market are becoming stronger, are appearing in ever more baffling combinations, and have made the matter of not taking too much a central issue, unlike marijuana, where taking too much leads to nausea, overeating, and sleep.

(See my post “Spiceophrenia” for a discussion of the less-compelling evidence for synthetic cannabinoids and psychosis).

Hermanns-Clausen M., Kneisel S., Hutter M., Szabo B. & Auwärter V. (2013). Acute intoxication by synthetic cannabinoids - Four case reports, Drug Testing and Analysis,   n/a-n/a. DOI:

Graphics Credit: http://www.aacc.org/

Monday, August 13, 2012

Synthetic Drugs: Collected Posts


Catching up with bath salts and spice.


The Low Down on the New Highs: Not all bath salts are alike.

“You’re 16 hours into your 24-hour shift on the medic unit, and you find yourself responding to an “unknown problem” call.... Walking up to the patient, you note a slender male sitting wide-eyed on the sidewalk. His skin is noticeably flushed and diaphoretic, and he appears extremely tense. You notice slight tremors in his upper body, a clenched jaw and a vacant look in his eyes.... As you begin to apply the blood pressure cuff, the patient begins violently resisting and thrashing about on the sidewalk—still handcuffed. Nothing seems to calm him, and he simultaneously bangs his head on the sidewalk and tries to kick you...” [Go here]


The New Highs: Are Bath Salts Addictive? What we know and don’t know about synthetic speed.

Call bath salts a new trend, if you insist. Do they cause psychosis? Are they “super-LSD?” The truth is, they are a continuation of a 70-year old trend: speed. Lately, we’ve been fretting about the Adderall Generation, but every population cohort has had its own confrontation with the pleasures and perils of speed: Ritalin, ice, Methedrine, crystal meth, IV meth, amphetamine, Dexedrine, Benzedrine… and so it goes. For addicts: Speed kills. Those two words were found all over posters in the Haight Ashbury district of San Francisco, a few years too late to do the residents much good…. [Go here]


Bath Salts” and Ecstasy Implicated in Kidney Injuries: “A potentially life-threatening situation.”

Earlier this month, state officials became alarmed by a cluster of puzzling health problems that had suddenly popped up in Casper, Wyoming, population 55,000. Three young people had been hospitalized with kidney injuries, and dozens of others were allegedly suffering from vomiting and back pain after smoking or snorting an herbal product sold as “blueberry spice.” The Poison Review reported that the outbreak was presently under investigation by state medical officials.  “At this point we are viewing use of this drug as a potentially life-threatening situation,” said Tracy Murphy, Wyoming state epidemiologist…. [Go here]


The Triumph of Synthetics: Designer stimulants surpass heroin and cocaine.

A troubling report by the United Nations Office on Drugs and Crime (UNODC) shows that amphetamine-type stimulants (ATS) have, for the first time, become more popular around the world than heroin and cocaine. Marijuana remains the most popular illegal drug in the world, and the use of amphetamines has fallen sharply in the U.S., but the world trend represents the worldwide triumph of synthetic drug design over the plant-based “hard drugs” of the past…. [Go here]



Marijuana: The New Generation: What’s in that “Spice” packet?

They first turned up in Europe and the U.K.; those neon-colored foil packets labeled “Spice,” sold in small stores and novelty shops, next to the 2 oz. power drinks and the caffeine pills. Unlike the stimulants known as mephedrone or M-Cat, or the several variations on the formula for MDMA—both of which have also been marketed as Spice and “bath salts”—the bulk of the new products in the Spice line were synthetic versions of cannabis…. [Go here]


An Interview with Pharmacologist David Kroll: On synthetic marijuana, organic medicines, and drugs of the future.

Herewith, a 5-question interview with pharmacologist David Kroll, Ph.D., Professor and Chair of Pharmaceutical Science at North Carolina Central University in Durham, and a well-known blogger in the online science community. A cancer pharmacologist whose field is natural products—he’s currently involved in a project to explore the potential anticancer action of chemicals found in milk thistle and various sorts of fungi—Dr. Kroll received his Ph.D. from the University of Florida, and completed his postdoctoral fellowship in Medical Oncology and Molecular Endocrinology at the University of Colorado School of Medicine. He went on to spend the first nine years of his independent research and teaching career at the University of Colorado School of Pharmacy, where he taught all aspects of pharmacology, from central nervous system-active drugs, to anticancer and antiviral medications…. [Go here]


Mephedrone, the New Drug in Town: Bull market for quasi-legal designer highs.

Most people in the United States have never heard of it. Very few have ever tried it. But if Europe is any kind of leading indicator for synthetic drugs (and it is), then America will shortly have a chance to get acquainted with mephedrone, a.k.a. Drone, MCAT, 4-methylmethcathinone (4-MMC), and Meow Meow--the latter nickname presumably in honor of its membership in the cathinone family, making it chemically similar in some ways to amphetamine and ephedrine. But its users often refer to effects more commonly associated with Ecstasy (MDMA), both the good (euphoria, empathy, talkativeness) and the bad (blood pressure spikes, delusions, drastic changes in body temperature)…. [Go here]


Tracking Synthetic Highs: UN office monitors designer drug trade.

Produced by the United Nations Office on Drugs and Crime (UNODC), the Global SMART Update  (PDF) for October provides interim reports of emerging trends in synthetic drug use. The report does not concern itself with cocaine, heroin, marijuana, alcohol, or tobacco. “Unlike plant-based drugs,” says the report, “synthetic drugs are quickly evolving with new designer drugs appearing on the market each year.” The update deals primarily with amphetamine-type stimulants, but also includes newer designer drugs such as mephedrone, atypical synthetics like ketamine, synthetic opioids like fentanyl, and old standbys like LSD…. [Go here]


The New Cannabinoids: Army fears influx of synthetic marijuana.

It’s a common rumor: Spice, as the new synthetic cannabis-like products are usually called, will get you high--but will allow you to pass a drug urinalysis. And for this reason, rumor has it, Spice is becoming very popular in exactly the places it might be least welcomed: Police stations, fire departments—and army bases. What the hell is this stuff? [Go here]

Photo credit: http://gizmodo.com/

photo credit 2: http://www.clemson.edu/

Wednesday, November 2, 2011

Marijuana: The New Generation

  
What’s in that “Spice” packet?

They first turned up in Europe and the U.K.; those neon-colored foil packets labeled “Spice,” sold in small stores and novelty shops, next to the 2 oz. power drinks and the caffeine pills. Unlike the stimulants known as mephedrone or M-Cat, or the several variations on the formula for MDMA—both of which have also been marketed as Spice and “bath salts”—the bulk of the new products in the Spice line were synthetic versions of cannabis.

The new forms of synthetic cannabis tickle the same brain receptors as THC does, and are sometimes capable of producing feelings of well-being, empathy, and euphoria—in other words, pretty much the same effects that draw people to pot. But along the way, users began turning up in the emergency room, something that very rarely happens in the case of smoked marijuana. The symptoms were similar to adverse effects some people experience with marijuana, but greatly exaggerated: extreme anxiety and paranoia, and heart palpitations.

As it turns out, there is a very real difference between smoking Purple Kush and snorting “Banana Cream Nuke” out of a metallic packet. The difference lies in the manner in which the brain’s receptors for cannabinoids are stimulated by the new cannabis compounds. When things goes wrong at the CB1 and CB2 receptors, and the mix isn’t right, the results may not be euphoria, giggles, short-term memory loss, and the munchies, but rather “nausea, anxiety, agitation/panic attacks, ResearchBlogging.orgtachycardia, paranoid ideation, and hallucinations.” Furthermore, the Spice variants do not contain cannabidiol, a cannabis ingredient that has been shown to reduce anxiety in animal models, and reduces THC-induced anxiety in human volunteers. The authors of a recent study suggest that the “lack of this cannabinoid in Spice drugs may exacerbate the detrimental effects of these herbal mixtures on emotion and sociability.”

What concerned the researchers was that, in addition to reports of cognitive deficits and emotional alterations and gastrointestinal effects, emergency room physicians were reporting wildly elevated heart rates, extremely high blood pressure, chest pains, and fever. Fattore and Fratta report that “two adolescents died in the USA after ingestion of a Spice product called ‘K2,’” one due to a coronary ischemic event, and the other due to suicide. What’s going on?

In a paper for Frontiers in Behavioral Neuroscience called “Beyond THC: the new generation of cannabinoid designer drugs,” Liana Fattore and Walter Fratta of the University Of Cagliari in Monserrato, Italy, identified more than 140 different products marketed as Spice, and laid out the extreme variability found in composition and potency. Like a mutating virus, they came to the U.S., starting in early 2009, a new strain seemingly every week: Spice, K2, Spice Gold, Silver, Arctic Spice, Genie, Dream, and dozens of others, the naming and renaming suggesting nothing so much as the proliferating strains of high-end marijuana: Skunk, Haze, Silver Haze, Amnesia, AK-47. Synthetic marijuana comes mainly from manufacturers in Asia, and second generation chemicals have already been put on a to-be-banned list by the DEA. States have jumped all over the problem with duplicate legislation, despite the fact that experts believe a majority of sales take place over the Internet. A third generation of synthetic cannabis variants, which are sprinkled on an herbal base and meant to be snorted, are openly sold and touted as legal. And they are legal, depending upon which one you buy, and where you buy it. Synthetic cannabis is still readily available, affordably packaged, and right on the shelf, or ready for purchase online—unlike the frequently vague and sometimes shady process of scoring a bag of weed. In the beginning, at least, the new drugs were perceived by youthful users as safer than other drugs.

But the most crucial attribute of Spice and related products is that they are not detectable in urine and blood samples. You can cruise all night on Spice, and test clean the next day at work. The kind of cannabis in Spice doesn’t read out on anybody’s drug tests as marijuana. That requires the presence of THC—and the new synthetics don’t have any.

There are four different categories of chemicals used in the manufacture of “cannabimimetic” drugs. The first and best known is the so-called JWH series of “novel cannabinoids” synthesized by John W. Huffman at Clemson University in the 1980s. The most widely used variant is an extremely potent version known as JWH-018.  While JWH-018 is, chemically speaking, not structurally like THC at all, it snaps onto CB1 and CB2 receptors more fiercely than THC itself. The CP-compounds, the second class of synthetic compounds, were developed back in the 1970s by Pfizer, when that firm was actively engaged in testing cannabis-like compounds for commercial potential, a program they later dropped. The best-known example is CP-47,497. While CP-47,497 lacks the chemical structure of classic cannabinoids, it is anywhere from 3 to 28 times more potent than THC, and shows classic THC-like effects in animal studies. The next group is known as HU-compounds, because they originated at Hebrew University, where much of the early work on the mechanisms of THC took place. The last category consists of chemicals in the family of benzoylindoles, which also show an affinity for cannabinoid receptors.

JWH-018, the most common form of synthetic cannabis, and now widely illegal, is considerably more potent than THC—4 times stronger at the CB1 receptor, and 10 times stronger at the less familiar CB2 receptor. The CB2 receptor seems to have a lot to do with pain perception and inflammation, which is why researchers continue to investigate it. But CB2 receptors contribute only indirectly to the classic marijuana high, which is all about THC’s affinity for CB1 receptors, and the effects of using drugs with a very strong affinity for CB2 receptors is not well documented. And therein might lie the source of the problem—or, as Fattore and Fratta describe it, “the greater prevalence of adverse effects observed with JWH-018-containing products relative to marijuana.” A popular compound of the second kind, HU-210, has frequently been found in herbal mixtures available in the U.S. and U.K. According to the study, “the pharmacological effects of HU-210 in vivo are also exceptionally long lasting, and in animal models it has been shown to negatively affect learning and memory processes as well as sexual behavior.”

That, in a nutshell, is what the kids are smoking these days. But wait, there’s more: Besides synthetic cannabinoids, herbs and vitamins, researchers have found opioids like tramadol, opioid receptor-active compounds like Kratom (Mitragyna speciosa), and oleamide, a fatty acid derivative with psychoactive properties. (A combination of oleamide and JWH-018 has been sold as “Aroma.”) Indentifying which of these active ingredients is part of any particular packet of “legal highs” is further complicated by manufacturers’ tendency to mix the ingredients together with various organic compounds—everything from nicotine to masking agents like vitamin E. In fact, almost anything that might make it more difficult for forensic labs to pry it all apart: alfalfa, comfrey leaf, passionflower, horehound, etc. Banana Cream Nuke, which was purchased in an American smoke shop, and made two young girls very sick, contained 15 varieties of synthetic cannabis—but none of the herbal ingredients actually listed on the label.

Unlike the partial activation of CB1 receptors by THC, which takes place when people smoke marijuana, “synthetic cannabinoids identified so far in Spice products have been shown to act as full agonists with increased potency, thus leading to longer durations of action and an increased likelihood of adverse effects.” When it comes to cannabis, users are far better off smoking the real thing, from a harm reduction standpoint, and staying clear of these unpredictable synthetic substitutes.

Graphics Credit: http://www.cityblends.info/2011/10/beyond-thc.html

Fattore, L., & Fratta, W. (2011). Beyond THC: The New Generation of Cannabinoid Designer Drugs Frontiers in Behavioral Neuroscience, 5 DOI: 10.3389/fnbeh.2011.00060

Thursday, September 22, 2011

An Interview with Pharmacologist David Kroll


On synthetic marijuana, organic medicines, and drugs of the future.

(Second post in the “Five-Question Interview” series.)

Back in July, Addiction Inbox ran a fascinating 5-question interview with clinical and research psychologist Vaughan Bell. The post touched on abnormal brain function, drugs, hallucinations, and addiction. It was a blast.

The huge and multi-talented staff here at Addiction Inbox has hopes of making this a semi-regular feature, since there is no shortage of interesting and accomplished people out there who can sometimes be successfully pestered into answering broad-ranging questions about drugs and addiction for an obscure science blog.

Herewith, a 5-question interview with pharmacologist David Kroll, Ph.D., Professor and Chair of Pharmaceutical Science at North Carolina Central University in Durham, and a well-known blogger in the online science community.

A cancer pharmacologist whose field is natural products—he’s currently involved in a project to explore the potential anticancer action of chemicals found in milk thistle and various sorts of fungi—Dr. Kroll received his Ph.D. from the University of Florida, and completed his postdoctoral fellowship in Medical Oncology and Molecular Endocrinology at the University of Colorado School of Medicine. He went on to spend the first nine years of his independent research and teaching career at the University of Colorado School of Pharmacy, where he taught all aspects of pharmacology, from central nervous system-active drugs, to anticancer and antiviral medications. He has also worked as a research pharmacologist for the Research Triangle Institute, and for SmithKline and French Laboratories. He’s responsible for Terra Sigillata—a natural products pharmacology and chemistry blog—and Take As Directed, his personal blog. He is also co-author of Breast Cancer Recurrence and Advanced Disease: Comprehensive Expert Guidance.


1. You’ve been writing about the new synthetic marijuana products on your blog, Terra Sigillata, since they first leaked into the drug underground. Can you briefly explain the origin of these “fake” cannabis chemicals, and the work done by the Huffman lab?

Every area of CNS pharmacology has chemists who try to figure out the smallest possible chemical structure that can have a biological effect. In fact, this is a longstanding practice of any area of pharmacology. Huffman was an excellent chemist who in the 1990s was trying to figure out the most important part of the active component of marijuana that might have psychotropic effects. These compounds made by him and his students, surprisingly simple ones, I prefer to call cannabimimetics since they mimic the effect of the more complex cannabinoids in marijuana. These basic chemistry and pharmacology studies are what ultimately lead to new drugs in every field - a facet of chemistry called "structure-activity relationships" or SAR.

But since they are simple, they are relatively easy to make - some of Huffman's work at Clemson was actually done by undergraduate chemistry majors. So, it was no surprise that they would be picked up by clandestine drug marketers, even though cannabis (UK) and marijuana (US) are freely available. The attraction to users was, until recently, that Huffman compounds (prefixed with "JWH-" for his initials) could not be detected in urine by routine drug testing. Hence, incense products containing these compounds have been called “probationer's weed.”

2. In a recent guest blog post for Scientific American titled “Drugs from the Crucible of Nature,” you remind us that several hundred common drugs are modified natural products. What stands in the way of discovering, isolating, and testing more of these plant drugs?

Fully 25% of all pharmaceuticals can trace their roots to natural products: chemicals made by plants, bacteria, fungi, and marine creatures that possess biological effects in mammals. The first ones we recognized as humans were those which altered our perception of reality or our ability to adapt to the strenuous, pre-modern life: hallucinogens for religious purposes and stimulants to support physical activity and suppress hunger. Over time, we found other drugs that treated pain (opiates), heart failure or "dropsy" (digitalis), or cancerous lesions (podophyllin from the Penobscot Native Americans).

We know today that natural products have much greater chemical diversity than drugs made by man and are useful additions to the study of new drug targets. However, naturally-occurring drugs sometimes have major drawbacks: they are difficult to make in the laboratory or require large amounts of their natural source to be commercially viable, they can have undesired effects that may not be apparent from traditional uses, or they require chemical modifications to be safer, more resistant to metabolism, and to become patentable intellectual property.

Over the last 10-15 years, the short-term, investor- and market-driven view of pharmaceutical companies has led the big firms to eliminate their natural product research programs. Today, much of the discovery of naturally occurring drugs has been left to academic researchers and small companies where many former pharma researchers reside. Once we get compounds that may be viewed as "druggable" by the pharmaceutical industry or the National Cancer Institute (in the US), they can then move to clinical trials.

3. Psychoactive plant drugs like the poppy played a major role in the development of modern pharmacology and neurology. One school of thought says that psychoactive drugs are overprescribed, addictive, and ineffective panaceas. The other side views such drugs as targeted, effective, and increasingly sophisticated treatments for diseases once thought to be untreatable. Have we become a nation of crazed pill heads, or is this simply pharmaceutical medicine on the march?

I have a middle-of-the-road view on this topic. As you know (and my blog readers will know) my father suffered from alcoholism that was comorbid with clinical depression. Real, biochemically-based depression has been undertreated in Western societies, in part due to the stigma that admitting mental disorders is somehow viewed as compromising one's intellect. Nothing could be farther from the truth, of course. Some of the most brilliant and creative minds in all fields have suffered from depression, mania, and, sadly, ended their lives early by suicide.

So, drugs certainly have their place for those unfairly dealt a hand of bad brain biochemistry. We should not view this as any worse than getting the bad genes for hypertension or diabetes. The problem seems to be those with mild-to-moderate psychiatric disorders, many of which can be managed without drugs but that require personal effort in the form of psychotherapy, cognitive behavioral therapy, or other flavors of hard, personal work. As Americans, what do we want? The hard work or the pill? If we want to lose weight, do we want exercise, caloric restriction, or a pill? Hence, we are the ones who are complicit with pharmaceutical companies. We want the pill rather than the hard work and the companies supply that demand. Anyone who doesn't realize that we as a society facilitate what we demonize in pharmaceutical companies is just simply in denial.

4. It’s increasingly obvious that our legal and cultural approaches to addictive drugs have not been successful. What’s your take on the drug war, and on the problematic distinction between “legal” and “illegal” drugs of abuse?

My primary research field is cancer drugs, but my teaching brings me into the realm of drugs of abuse, simply because so many of those drugs are naturally-occurring. So, my views must be taken in that perspective. In the US, I think that it is morally difficult to justify the legality of addictive drugs like alcohol and tobacco while restricting other psychoactive compounds. I do not advocate for other drugs to be used recreationally. I just feel that US laws need to be consistent. Our experiment with criminalizing alcohol was an abysmal failure that fostered organized crime. Our continued experiment with criminalizing other drugs has been equally a failure. However, I am very much against a libertarian argument that society should be free to determine what they want because, frankly, many drugs impair one's decision-making ability.

But I like your question: many drugs declared illegal for recreational use are among the most useful therapeutics for pain, especially the pain associated with surgery and cancer. My greater humanistic concern is that our society's zero tolerance approach to drugs that "could" be illegal is that people who need them for their desired effect often go without. Undermanagement of pain is the major casualty of the war on drugs. No, let me fix that. People who suffer unnecessarily from pain when useful drugs could be used are the major casualties of the war on drugs.

5. What’s going on in pharmaceutical research these days that has you excited?

When I was graduating with my toxicology degree in 1985 from the Philadelphia College of Pharmacy and Science, I asked my chairman Dr. Gary Lage where I should expect new drugs to come from. His words of wisdom were that I should pay close attention—not to drug companies, but rather to major advances in physiology. Learning that the kidney played a role in red blood cell count led to the use of erythropoeitin for anemia caused by renal failure and chemotherapy.

Today, I see major drug targets in the epigenome—the part of genetics that is affected by environmental influences. We are all stuck with the static part of our inherited DNA—the exact base sequences and their polymorphisms and mutations. However, we're learning that those things can be modified by diet, environmental exposures, and, yes, drugs. The epigenome is a broad target for a multitude of diseases, never more complicated but never more promising.

Friday, July 22, 2011

Drug Links, Various


It’s summer vacation. Did I turn off the stove?


Some recent posts I wrote before ending my run as editor of TheFix.com News Blog:

Drugging the Elderly
Why seniors take too many of the wrong medications at the wrong dose.

Never Heard of Kratom? You Will.
A plant from Thailand with opiate-like properties is the latest "designer drug" speeding its way through America.

How Binge Drinking Causes Fetal Damage
Studies in mice show that alcohol is toxic to DNA in the absence of two specialized enzymes.

Senators Blast Feds for Border Scandal
Botched gun-smuggling scheme put weapons in the hands of Mexican drug thugs, endangered informants, and may have gotten agents killed.

Testimonials to Betty Ford
In the wake of Mrs. Ford’s death, celebrities and politicians tell their personal stories about her work in raising awareness of addiction and recovery.

New Synthetic Marijuana Arrives to Replace Spice, K2
Designers are already busy with the second generation of cannabis-like drugs.

Crack and Coke Will Finally Receive the Same Legal Penalties
Civil rights leaders charged that the legal system's intense obsession with crack amped up minority arrests, but had no scientific basis. Turns out they were right.

Miracle-Gro Goes After the Medical Marijuana Market
It’s just quasi-legal cooperative organic gardening, right? All $1.7 billion of it.

(R.I.P. Amy Winehouse)

Wednesday, November 24, 2010

DEA Slaps Temporary Ban on Spice and Other “Fake Pot” Products


Synthetic cannabis now illegal for one year.

The material below is excerpted directly from the official press release of the U.S Drug Enforcement Administration Public Affairs Office:

The United States Drug Enforcement Administration (DEA) is using its emergency scheduling authority to temporarily control five chemicals (JWH-018, JWH-073, JWH-200, CP-47,497, and cannabicyclohexanol) used to make “fake pot” products.  Except as authorized by law, this action will make possessing and selling these chemicals or the products that contain them illegal in the U.S. for at least one year while the DEA and the United States Department of Health and Human Services (DHHS) further study whether these chemicals and products should be permanently controlled. 

A Notice of Intent to Temporarily Control was published in the Federal Register today to alert the public to this action. After no fewer than 30 days, DEA will publish in the Federal Register a Final Rule to Temporarily Control these chemicals for at least 12 months with the possibility of a six-month extension. They will be designated as Schedule I substances, the most restrictive category, which is reserved for unsafe, highly abused substances with no medical usage.

Over the past year, smokable herbal blends marketed as being “legal” and providing a marijuana-like high, have become increasingly popular, particularly among teens and young adults.  These products consist of plant material that has been coated with research chemicals that mimic THC, the active ingredient in marijuana, and are sold at a variety of retail outlets, in head shops and over the Internet.  These chemicals, however, have not been approved by the FDA for human consumption and there is no oversight of the manufacturing process.  Brands such as “Spice,” “K2,” “Blaze,” and “Red X Dawn” are labeled as incense to mask their intended purpose.

Graphics Credit: http://thefreshscent.com/

Friday, October 29, 2010

Tracking Synthetic Highs



UN office monitors designer drug trade.

Produced by the United Nations Office on Drugs and Crime (UNODC), the Global SMART Update  (PDF) for October provides interim reports of emerging trends in synthetic drug use. The report does not concern itself with cocaine, heroin, marijuana, alcohol, or tobacco. “Unlike plant-based drugs,” says the report, “synthetic drugs are quickly evolving with new designer drugs appearing on the market each year.” The update deals primarily with amphetamine-type stimulants, but also includes newer designer drugs such as mephedrone, atypical synthetics like ketamine, synthetic opioids like fentanyl, and old standbys like LSD.

I have summarized some of the findings below:

The first methamphetamine lab in 15 years has been discovered in Japan. Japanese law enforcement seized a suspected residential methamphetamine laboratory outside of Tokyo, the first such seizure since 1995. Two Iranian nationals were arrested. Given the continuously high price of imported crystalline methamphetamine in Japan, there is an increased likelihood that more domestic manufacturers could emerge.

Record ketamine seizures and use has been reported by Taiwan province of China. The FDA reports that ketamine seizures in the first five months of 2010 alone totaled 1465 KG, nearly 300 KG more than last year. Concurrent increases in use were also noted.

The first methamphetamine laboratory in Turkey was discovered. Local media reported the seizure of the lab, in the southern part of the country. The facility reportedly planned to manufacture 100,000 tablets for retail sale at USD 13.40 apiece. In 2009, Turkey reported its first seizures of methamphetamine totaling 103 KG at Istanbul’s airport, which has become a transit point for methamphetamine traffic from Iran to markets in East Asia.

Law enforcement faces unique challenges when dealing with synthetic drug analogs. Customs officers at Prague’s Ruzyne airport reported arresting a Polish national for transporting a substance initially testing positive for ephedrone, a controlled synthetic stimulant. Confirmatory tests, however, revealed the substance to be mephedrone, an analogue not under international control. The event illustrates the challenges law enforcement face when encountering new synthetic substances not under national or international control.

Amphetamine breathalyzer tests may soon be possible, say Swedish researchers. The June issue of the Journal of Analytical Toxicology report reported that the first breath test for methamphetamine and amphetamine detection was successfully conducted in Sweden. Drugs in the exhaled breath are captured in a filter and analyzed using a combination of liquid chromatography and mass spectrometry. Experimental trials on amphetamine-dependent patients admitted to hospital urgency rooms for overdose provided the same results as traditional drug tests.

The U.S. is expanding controls on precursor chemicals for fentanyl and LSD. The Drug Enforcement Administration (DEA) has designated a compound called ANPP as a precursor chemical for fentanyl, an extremely potent synthetic analgesic. Earlier this year, the DEA proposed new controls over ergocristine, a chemical precursor sometimes used in the manufacture of LSD. Clandestine laboratories in the United States employ it as a substitute for ergotamine and ergometrine, both of which are already under international control.

The U.S. indicts 15 people in one of the largest MDMA busts ever. The U.S. Department of Justice announced that a federal grand jury indicted 15 men linked to one of the country's largest ecstasy manufacturing and trafficking rings. Two storage facilities were also seized during the investigation, yielding about 710,000 MDMA tablets. Law enforcement authorities seized more than 1.1 million tablets in all. Authorities believe that the group had been responsible for the distribution of hundreds of thousands of MDMA tablets each month.

Belize stops large shipments of methamphetamine precursors bound for Mexico. Customs authorities in Belize reportedly stopped two large shipments of phenylacetic acid (PAA), or roughly 46 metric tons. Phenylacetic acid can be used in the manufacture of methamphetamine. Reports suggest the chemical came from China and was ultimately destined for Mexico.

Graphics Credit: http://www.unodc.org/



Monday, October 11, 2010

The New Cannabinoids



Army fears influx of synthetic marijuana

It’s a common rumor: Spice, as the new synthetic cannabis-like products are usually called, will get you high--but will allow you to pass a drug urinalysis. And for this reason, rumor has it, Spice is becoming very popular in exactly the places it might be least welcomed: Police stations, fire departments—and army bases.

What the hell is this stuff?

Little is known about spice and other synthetic twists on basic cannabinoid molecules. We do know that the near-cannabis compounds are hard to detect, and even harder to legislate against without closing down avenues of legitimate research. It appears evident that a number of cannabinoid compounds are in circulation, and the precise nature of any given dose is difficult to determine. Much like trying the brown acid, or the joint laced with PCP, the effects vary widely. There are numerous anecdotal reports that spice and its cousins are extremely dose dependent.

The best coverage of Spice, K2, and similar “legal highs” has been generated by science bloggers—especially David Kroll at Terra Sigillata, DrugMonkey at DrugMonkey blog,  and Dr. Leigh at Neurodynamics.  Readers are advised to consult these links for the most comprehensive coverage of this emerging drug issue.

David Kroll  aptly summarized what we know about the "fake weed."

"Synthetic marijuana, marketed as K2 or spice, is an herbal substance sold as an incense or smoking material that remains legal in much of the United States but is being increasingly banned at the state and local levels. The products contain one or more synthetic compounds that behave similarly to the primary psychoactive constituent of marijuana, delta nine tetrahydrocannabinol or THC.”

Kroll writes that JWH–018 is "one of over 100 indoles, pyrroles, and indenes synthesized by the Huffman laboratory to develop cannabimimetics, drugs that mimic the effect of cannabinoids such as THC.”

Furthermore: “The compound most commonly found in these products is a chemical first synthesized by the well-known Clemson University organic chemist, Prof. John W Huffman: the eponymous JW H–018. Another compound, found in spice products sold in Germany, is an analog of CP-47, 497, a cannabinoid developed by Pfizer over 20 years ago."

The cannabimimetics are back.

Unfortunately, the chemical compositions vary, as do the effects, all of which is unpleasantly reminiscent of PCP problems in the past. To gain a better perspective on the matter, I spoke with Joe Gould, a staff writer for the Army Times  who has been covering the issue of Spice use in the Armed Forces. Gould has written extensively on the case of Spc. Bryan Roudebush, who attacked his girlfriend in Hawaii while under the influence of Spice. Roudebush had been home from an Iraq deployment for a year when the incident occurred. Two earlier experiences with spice had produced marijuana-like effects. But for Roudebush, the third time was not the charm: He beat his girlfriend and tried to throw her out a window while experiencing what he described as a trance-like state.

“What we were told by the folks at the Army Criminal Investigation Lab is that it started showing up on bases,” said Gould, “and the investigators on the bases were baffled, and the crime lab wasn’t sure what it was at first.”

What investigators discovered was “all that really defines a synthetic cannabinoid is that it activates cannabinoid receptors. We know what THC does. But the chemical composition is not THC. There are all these different strains. Some of the state laws we’ve been seeing, they’re targeting specific varieties of this stuff, but there are other varieties that the law doesn’t know about yet. So I think what the Army has done, intentionally or not, it has sort of skirted this whole question by just calling it all Spice.”

As for the Roudebush case, Gould said: “The first two times he tried it, it was very much like pot. And then the third time, by his and his girlfriend’s description, he goes into a violent trance. They think it was just a different variety. It’s kind of a mystery. What was in that batch? Why did it affect him the way it did? It just goes to how little is known about the drug. You don’t know from one batch to another.”

The U.S. Army currently has no specific testing program in place for Spice. Can you pass a drug test on Spice? “That’s what we heard,” Gould told me. “A researcher from NIH told us exactly that—they believe that the reason it’s popular, the reason they’ve seen officials using it, is because it can’t be tested for.” Despite this, Gould said he knew of “at least nine Commands that have individually passed regulations to target Spice.”

Gould downplayed any talk of an epidemic of usage, and made clear that his research shows that Spice usage is not rampant. “It’s not entirely clear how many soldiers are using Spice. The Army’s not really tracking the use of Spice. Each of these commands passed these regulations either because they saw a problem, or because they were trying to get out in front of what could potentially be a problem.”

Too far out in front for Phillip Cave, a Virginia attorney who has represented military personnel in cases involving Spice. Gould quotes Cave calling the whole thing a “witch hunt,” noting that alcohol is freely available on base, and that researchers do not yet knew whether Spice and its analogs are unsafe or addictive—and they are illegal in only a handful of states at present. Cave also objects to the fact that most cases have been resolved by an Article 15 discharge from service.

“The European Union study says there is the potential for abuse,” said Gould. “How bad it gets, we won’t know until we see more studies.”

Hand-in-hand with restrictions on Spice have come crackdowns on the use of Salvia, a plant responsible for brief but intense bouts of hallucinogenic effects. “The state laws have tended to tackle the two at once,” according to Gould.  “Like the state legislatures, the Army has a patchwork of bans they’re putting out there, and there also hitting Salvia. But what I was told by the folks at the lab was that they’re not seeing it in the same kinds of numbers. It’s been sporadic at best.”
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