New biologically active compounds from cannabis

Scientists have isolated and identified nine new cannabinoids that have antifungal, anibacterial, and a variety of other biological activities.

By Yun Xie | Last updated April 7, 2009 9:27 AM CT

Humans have been using cannabis for thousands of years for medical treatments, spiritual purposes, textile manufacturing, and other reasons. In recent history, chemists have isolated many cannabinoids, the metabolites in cannabis sativa, and have described some of their biological activities. For example, some cannabinoids have potent effects on multidrug resistant bacteria and others are effective against pain. The structures of known cannabinoids also inspire chemists to create synthetic chemicals to mimic certain aspects of their function, like pain reduction, while providing a powerful medical effect and avoiding negative side effects.

Although a lot of work that has been done on cannabis, scientists have not identified every cannabinoid, so many research groups are continuing to identify and categorize the chemicals in cannabis. Samir Ross from the University of Mississippi led one such group in the discovery of nine new cannabinoids, and they published the structures and biological activities of these chemicals in an advanced article in the Journal of Natural Products.

The researchers grew plants from high-potency Mexican C. sativa seeds and harvested the whole buds of mature female plants. They performed chemical extraction and purification procedures on the plant material to isolate the nine cannabinoids. They then determined the molecular structures of these new chemicals using a variety of techniques, including 1D and 2D NMR, UV, and HRESIMS (high resolution electron spray ionization mass spectra).

After figuring out the chemical structures, it was crucial to know how useful these molecules might be in terms of medicinal properties. The first good news was that none of the cannabinoids were toxic to cells extracted from African green monkey kidneys, which meant that they have potential as drugs. Upon closer inspection, several of the compounds had respectable biological activities, as well.

Compound 5 had potent antileishmanial activity, which makes it a possible candidate against leishmaniasis, a parasitic disease that is spread by the bite of the sandfly. Compound 8 was effective at killing Staphylococcus aureus, a frequent cause of staph infections, and compound 7 had good activity against Candida albicans, a fungus that gives people oral and genital infections. The other cannabinoids weren’t as biologically active, but they all had some drug potential. For insistence, compounds 2 and 6 were mildly affective against MRSA, and compound 1 had some antimalarial activity.

The identification of these biologically relevant cannabinoids will give natural product chemists new ideas for future drugs. Even the less active ones can turn out to be useful, as chemists can make modifications of the structures that are more potent.

Journal of Natural Products, 2009.

http://arstechnica.com/science/news/2009/04/new-biologically-active-compounds-from-cannabis.ars

Killing bacteria with cannabis

Marijuana is a source of antibacterial agents that are potent against multidrug resistant bacteria.

By Yun Xie | Last updated August 26, 2008 3:31 PM CT


Pharmacists and chemists have found another use for the multipurpose cannabis as a source of antibacterial chemicals for multidrug resistant bacteria. Ironically, inhaling cannabis is known to damage the lung's ability to fend off invading pathogens, but the ingredients in cannabis, particularly the cannabinoids, have antiseptic properties. Although scattered research has been conducted since the 1950s, no comprehensive study existed that relates the structure of cannabinoids with antibacterial activity. Giovanni Appendino, Simon Gibbons, and coworkers attempted to remedy that problem by examining the activity of five common cannabinoids and their synthetic derivatives.

All five cannabinoids (THC, CBD, CBG, CBC, and CBN) were potent against bacteria. Notably, they performed well against bacteria that were known to be multidrug resistant, like the strains of MRSA that plagued U.K. hospitals. CBD and CBG have the most potential for consumer use because they are nonpsychotropic.

Besides identifying antibacterial capability, the researchers wanted to figure out why these cannabinoids are so good at killing bacteria. They obviously are very effective at specifically targeting some vital process in the bacteria.

Unfortunately, even after extensive work at modifying the cannabinoids and comparing their activities, that targeting mechanism remains a mystery. The scientists were able to figure out that the position of the n-pentyl chain (orange) relative to the terpenoid moiety (blue) serves to control lipid affinity.

These cannabinoids are promising enough to warrant rigorous clinical trials. They are applicable as topical antiseptics, biodegradable antibacterial compounds for cosmetics, and systematic antibacterial agents.

J. Nat. Prod., 2008. DOI: 10.1021/np8002673

http://arstechnica.com/science/news/2008/08/killing-bacteria-with-cannabis.ars

Holistic Biochemistry of Cannabinoids, by Robert Melamede, PhD

At 2004 Cannabis Therapeutics Conference, Dr. Melamede, University of Colorado, explains how the Endocannabinoid System functions as a "Global Homeostatic Regulator", balancing several organ systems. He hypothesises that, "Free Radicals are the Friction of Life. Endocannabinoids are the Oil of Life."

Conference hosted by Patients Out of Time. DVDs are available. http://MedicalCannabis.com

Medical Uses of Cannabinoids

http://www.endocannabinoid.net/

Marijuana may fight brain tumours

WASHINGTON: The main chemical in marijuana kills cancerous brain cells, offering hope for future anti-cancer therapies, say Spanish scientists.

A team led by Guillermo Velasco of Complutense University in Madrid, found that the active component of marijuana – tetrahydrocannabinol (THC) – kills tumour cells through a process called autophagy. This is the process that occurs when a cell self-destructs by digesting itself.

The research, which appears in the April edition of the Journal of Clinical Investigation, demonstrates that THC and related cannabinoids appear to be "a new family of potential anti-tumoral agents", the authors write.

Injecting THC

In the study the scientists conducted most of their research on mice, in which the growth of cancer was stimulated. But the researchers also looked at two patients suffering from a highly aggressive form of brain cancer who were enrolled in a clinical trial.

A mixture of THC in saline solution and injected it into each patient's tumour for 26 or 30 days, then the researchers took samples of the brain tumours. By analysing the tumours using electron microscopy, the researchers discovered that the cancer cells had been killed off while the normal cells stayed intact.

"Although these studies were only conducted in specimens from two patients," the researchers said, "they are in line with the preclinical evidence shown [in mice] and suggest that cannabinoid administration might also trigger autophagy-mediated cell death in human tumors."

Anti-cancer therapies

There have been previous studies that found cannabinoids curbed the growth of several types of tumours in rats and mice, but the mechanism by which is worked has been obscure until now.

Autophagy has a dual role in cancer: in some cases it promotes cancer cell survival and in other cases it inhibits cancer cell survival. This study identified the signalling route by which autophagy is activated for cell death.

The authors suggest that the study may prove useful in the development of future anti-cancer therapies based on THC or in the activation of the process that results in autophagy.

Nature Reviews Volume 3 October 2003

• CANNABINOIDS: POTENTIAL ANTICANCER AGENTS (pdf)

Manuel Guzmán

Cannabinoids — the active components of Cannabis sativa and their derivatives
palliative effects in cancer patients by preventing nausea, vomiting and pain and by stimulating appetite. In addition, these compounds have been shown to inhibit the growth of tumour cells in culture and animal models by modulating key cell-signalling pathways. Cannabinoids are usually well tolerated, and do not produce the generalized toxic effects of conventional chemotherapies.
So, could cannabinoids be used to develop new anticancer therapies?

Summary

• Cannabinoids, the active components of Cannabis sativa and their derivatives, act in the organism by mimicking endogenous substances, the endocannabinoids, that activate specific cannabinoid receptors. Cannabinoids exert palliative effects in patients with cancer and inhibit tumour growth in laboratory animals.

• The best-established palliative effect of cannabinoids in cancer patients is the inhibition of chemotherapy-induced nausea and vomiting.Today, capsules of Δ9-tetrahydrocannabinol (dronabinol (Marinol)) and its synthetic analogue nabilone (Cesamet) are approved for this purpose.

• Other potential palliative effects of cannabinoids in cancer patients — supported by Phase III clinical trials — include appetite stimulation and pain inhibition. In relation to the former, dronabinol is now prescribed for anorexia associated with weight loss in patients with AIDS.

• Cannabinoids inhibit tumour growth in laboratory animals. They do so by
modulating key cell-signalling pathways, thereby inducing direct growth arrest and death of tumour cells, as well as by inhibiting tumour angiogenesis and metastasis.

• Cannabinoids are selective antitumour compounds, as they can kill tumour cells without affecting their non-transformed counterparts. It is probable that cannabinoid receptors regulate cell-survival and cell-death pathways differently in tumour and nontumour cells.

• Cannabinoids have favourable drug-safety profiles and do not produce the generalized toxic effects of conventional chemotherapies. The use of cannabinoids in medicine, however, is limited by their psychoactive effects, and so cannabinoid-based therapies that are devoid of unwanted side effects are being designed.

• CANNABINOIDS: POTENTIAL ANTICANCER AGENTS (pdf)

Links

americanmarijuana.org

Cannabis and cannabinoids, by Dr Robert Melamede Ph.D.

• :Amsterdam Cannabis Ministry : Information on Cannabis : THC Ministry Amsterdam

• Cannabis and cannabinoids, by Dr Robert Melamede Ph.D.

  A doctor from the University of Colorado in America has an opinion on cannabis which will doubtless have the hardline anti-cannabis British government choking on their cornflakes.

  Until recently only a handful of yoghurt knitting, tree-hugging hippies would have dared utter anything positive about the much maligned and not very well understood cannabis plant.

  But over the last decade more and more scientists; people who are trained to understand the complex chemistry behind the human cannabinoid system, are putting the pieces of a huge jigsaw together.

  Slowly but surely the big picture gains clarity and whilst there are still a lot of pieces to put into the jigsaw before its finished, what we understand today is that cannabis is, and remains, outlawed for all the wrong reasons.
  Dr Robert Melamede Ph.D. is chairman of the Biology Department at UC, (University of Colorado) and he has dedicated his life to learning more on how the human cannabinoid system works.

  The Cannabinoid System has been around for over 600 million years.

  Before the Dinosaurs.

  The Cannabinoid System is continuously evolutioning and has been retained by all new species.

  Food and feeding is at the heart of the Cannabinoid System.

  1. Cannabinoids are in every living animal on the planet above Hydra and Mollusks, with the exception of insects. Bodies are homeostatically maintained by the Cannabinoid System.

  2. Mothers give their babies a booster shot of cannabinoids in mothers milk to give them the munchies because they have to learn to eat. (they've been fed thru the umbilical cord and did not have to know how to eat.)

  3. Mice lacking the CB1 receptors don't like any changes. If they are moved to another part of the cage they act upset and when they are put back to the original spot in the cage they relax, but if then put into another part of the cage they get upset again. Comment: I wonder if people, especially drug warriors, had their CB1 receptors blocked then they would resist change and the ones of us that have unblocked CB1 receptors enjoy the benefits of cannabinoids are a lot more relaxed and not paranoid about or over change. Interesting thought. It turns out that that thought is absolutely correct. Many people' brains are not capable of a good connection to the CB1 CB2 receptors.

  4. All new species utilize cannabinoids.

  5. By being alive and breathing air our bodies produce "free radicals". Cannabinoids help to reverse this action.

  6. Cannabinoids do kill brain cells, but the brain cells they kill are called "Glioma" or Cancer of the brain(Tumor). All other brain cells are protected and healed by cannabinoids. (Glioma cells cannot tolerate the action of cannabinoids)

  7. Cannabinoids protect against sunburn and skin cancer because of the CB1 receptors in our skin.

  8. Cannabinoids slow down the aging process. Mice that their brains respond to cannabinoids live longer and mice that have brains that block the CB1 receptors die younger.

  9. Activity in the evolutionary advanced areas of the brain is increased in cannabinoids receptors and promotes higher consciousness levels.

  10. Cannabinoids are even found in the white blood cells (CB2 receptors). The CB2 receptors are found predominantly on immunological cells and regulate the shift in the immune system to the anti-inflammatory mode.

  11. Cannabinoids protect the heart against Arythmia.

  12. The way it works on pain is there is specific nerves that deal with pain. They are called vanilloid-Receptors. Anandamide(sanscript word for "Blissful Amide"), the bodies internally produced marijuana binds with the nerve endings, reducing pain. Anandamides are produced internally by our bodies in response to a whole variety of conditions. As an example, Aspirin prevents the breakdown of Anandamide, the internally produced marijuana to activate & start working at easing pain. How many old lady's say they "WOULD NEVER" use marijuana & are actually using the equivalent of marijuana that their bodies produce as a natural activity, & don't even realize it. And how many politicians and citizens of the US do this also & aren't even aware they are condemning something that their bodies make naturally. Anecdotal evidence is valid because when a person smokes marijuana & it relieves their pain, then they smoke it again & it relieves their pain again it becomes a fact known only to that person, but nonetheless true.

  13. In the case of most autoimmune diseases, the bodies immune cells produces free radicals & is destroying it's own body as a foreign object. Cannabis pushes the immune system into anti inflammatory mode & helps slow the progression of that disease, thereby slowing down the aging process.

  14. Seizures are controlled by marijuana not only THC, but non-psychoactive cannabidiol.(CBD) The exact mechanism is not known, however HEMP is high in CBD's & can cancel out the psychoactive high of THC & at the same time benefits the user or smoker. Cannabinoids control everything in our bodies including our minds.

  15. There are many other things that Cannabinoids do in the body, besides attaching to the CB1 and CB2 receptors, the main cannabinoid receptors in the higher part of our brain. Cannabinoids affect our skin and other parts of our bodies.

  16. Pharmaceutical companies are working at sythesizing different cannabinoid components and different types of strains of marijuana. If they can succeed, then there will be more choices for you and I to choose from and we will be able to use what works best for our particular bodies.

  17. The natural course for mankind, because of the location of our CB1 CB2 the brains main receptors, is to be more stoned.

  18. Drug warriors are not doing what they are doing to us because they are intentionally evil, but because they are more primitive(obtuse comes to mind). They look at the world with fear and hostility not cooperativity and understanding.

  19. According to a brain function study of 150 depressed people Cannabis protects the brain against healthy cell death and it also protects Neurons.

  20. Cannabinoids dilate our brochial tubes and help asthsma sufferers to breath both in and out. Because of the balance that is maintained in our bodies for good health there are instances where it works backwards, where death is possible, if too much is smoked. This goes back to the effects of cannabinoids on individuals and if it doesn't work for you, you should not use it. There was some old studies that were done back in 1977 where "AEROSOLIZED THC" was used on patients. This is not what the government tells us when they say it's not medicine, but we are all familiar with the 7 government patients that are supplied marijuana to be used as medicine and we know the government is lying.

  Due to space constraints we're unable to publish the full text but we really can't recommend highly enough that you click the SOURCE link and read Dr Melamede's text in full. It provides solutions for a lot of unanaswered questions you may have about cannabis.

  Dr. Robert J. Melamede Ph.D. Chairman of the Biology Department of the University of Colorado:
  Conducting Scientific research on Cannabinoids

  University of Colorado
  1420 Austin Bluffs Parkway
  Room 232
  PO Box 7150
  Colorado Springs, CO 80933-7150

• Cannabis and cannabinoids, by Dr Robert Melamede Ph.D.

• :Amsterdam Cannabis Ministry : Information on Cannabis : THC Ministry Amsterdam

  Links

• Medical Uses of Cannabinoids | Evolutionism | Dr. Bob Melamede

• Dr. Bob's Homepage