Cannabis sativa has been consumed for health and nutritional purposes for thousands of years. Many ancient civilizations – from the Chinese to the Greeks – included cannabis in their pharmacopoeia. Back then, no one questioned how or why cannabis relieved pain and calmed the spirits. It was a helpful ally – that’s all that mattered.
Fast forward to the 21st century. Scientists are trying to understand not only the molecular makeup of cannabis, but also how it interacts with the complex web of biological systems in our bodies. Yet, despite many exciting discoveries, we still know relatively little, especially when it comes to the interplay between cannabis and the immune system.
Some studies suggest that cannabinoids like THC and CBD are immunosuppressant, which can explain the relief experienced by medical cannabis users with autoimmune diseases and chronic inflammation. Other studies have shown that regular cannabis use can increase white blood cell counts in immunodeficiency disorders such as HIV, suggesting an immune-boosting effect.
It gets even more complicated when we consider that the effects of cannabis are mediated primarily by the endocannabinoid system, which scientists believe interacts with all biological activity, including our immune system.
The bottom line is that much remains to be discovered about how cannabis affects our immune system. Here’s some of what we know so far.
OUR IMMUNE SYSTEM: AN OVERVIEW
We are constantly exposed to infectious diseases, bacteria and viruses (antigens), all intent on running amok and wreaking havoc. Without any inbuilt defences to keep these invaders at bay, we’d all last about five minutes on this planet. Thank goodness we have an immune system: the complex network of cells, tissues and organs, running with military precision to keep us healthy.
A key player in the immune system’s arsenal are white blood cells or leukocytes, which seek out and destroy any unwanted visitors. Leukocytes can be divided into two groups: 1) lymphocytes (B cells and T cells) that destroy antigens and help the body to remember previous attackers; and 2) phagocytes that absorb and neutralize foreign intruders.
Many of us are familiar with T cells because of their relationship with the HIV virus, which wipes them out; this is what makes HIV patients vulnerable to normally harmless infections.
Our immune system also plays a key role in detecting malfunctioning cells inside our bodies, and, through the process of apoptosis or cell death, ensures that these cells do not continue to grow and become tumors.
Killing cells is a crucial element of a healthy functioning immune system, which maintains a delicate balance between growth and death. If, for example, there is too much cell death, autoimmune diseases can result, while too little can create the perfect environment for cancer.
THE ENDOCANNABINOID SYSTEM & THE IMMUNE SYSTEM
Optimum immune function entails a complex balancing act that relies on constant communication between our immune cells, tissues, and organs. With the discovery of the endocannabinoid system (ECS) in the 1990s, scientists have found another key piece of the puzzle.
The endocannabinoid system comprises two main G protein-coupled receptors (CB1 and CB2), endogenous ligands known as endocannabinoids (anandamide and 2-AG), plus the proteins that transport our endocannabinoids and the enzymes that break them down in the body.
The ECS is a homeostatic regulator – continually working to maintain a state of biological balance.
Endocannabinoids are produced on demand, travelling backwards across chemical synapses and modulating cell activity. This partly explains why the ECS has been termed a homeostatic regulator – continually working to maintain a state of biological balance.
The ECS regulates a plethora of physiological processes, including immune function and inflammation. Both CB1 and CB2 receptors can be found on immune cells, although there are between 10-100 times more CB2 receptors than CB1. Endocannabinoids act upon immune cells directly through the CB2 receptor.
CB2 receptor activation creates an anti-inflammatory effect and is therefore a therapeutic target for autoimmune disorders and neurodegenerative disease.1 However, any ECS immunosuppressant activity is thought to be transient, and can be overridden when necessary in the presence of infection.2
Scientists know that plant cannabinoids like tetrahydrocannabinol (THC) and cannabidiol (CBD) impact our health by interacting in different ways with the endocannabinoid system. Thus, it makes sense that consuming medical cannabis will also directly affect our immune system. But researchers are struggling to understand exactly how.
CANNABIS & THE IMMUNE SYSTEM
When we talk about cannabis, we’re dealing with upwards of 400 different molecules. These include the more frequently studied cannabinoids like THC and CBD, more than 100 other minor cannabinoids, dozens of terpenes, and a host of flavonoids – the combination of which varies according to the cannabis strain.
While most work has been carried out on individual cannabinoids, in particular THC and CBD, if you’re looking for some solid conclusions about how they affect the immune system, think again.
THC has been the focus of the bulk of research. THC binds to the CB2 receptor and activates it, which has an anti-inflammatory effect. This suggests that THC is immunosuppressant. Accordingly, THC is thought to show promise for autoimmune diseases, such as Crohn’s and multiple sclerosis. CBD, despite little binding affinity with cannabinoid receptors, is also considered to be immunosuppressant, reducing cytokine production3 and inhibiting T-cell function4.
But that’s only part of the story. A new wave of research and mounting anecdotal evidence points towards cannabinoids having an adaptive, immunomodulating effect, rather than just suppressing immune activity.
CANNABIS & HIV
Medical cannabis is a well-established palliative treatment for HIV thanks to the plant’s ability to reduce anxiety, improve appetite, and ease pain. But recent research takes THC’s role even further, suggesting that it can actually upregulate the immune system, potentially improving patient outcomes.
Initially, preclinical research had corroborated the view that THC was immunosuppressant in HIV, increasing viral load and worsening the disease.5 More recent research, however, has suggested immune-stimulating effects.
A 2011 study by Lousiana State University scientists revealed astonishing results when monkeys were given THC over 28 days prior to SIVinfection (the simian version of the virus). THC appeared to have some kind of protective effect, lengthening the lives of the monkeys and reducing viral load.6
Scientists discovered that infection-fighting immune cell counts were higher in HIVpatients using cannabis.
Additional research by the same team in 2014 took these findings one step further. This time monkeys were given THC for a period of seventeen months before SIV infection. Not only was there an increase in T-cells and a reduction in viral load, but THC appeared to have protected the monkeys against the intestinal damage commonly caused by the virus.7
These exciting results have also been replicated in humans. In a study conducted by researchers at universities in Virginia and Florida, CD4and CD8 white blood cell counts were compared in a sample of 95 HIV patients, some of whom were chronic cannabis users.8 Scientists discovered that both types of infection-fighting immune counts were higher in patients using cannabis, suggesting their immune systems had been bolstered by the plant.
CANNABIS, CANCER, & THE IMMUNE SYSTEM
Cancer will affect one in two of us at some point in our lifetime. There’s no hard and fast rule why it appears, but most cancers share the same mechanism.
Our immune system is primed to spot rogue cells and, through mechanisms such as apoptosis, eliminate any that might become tumors. Unfortunately, cancer cells can outwit our immune system by getting it to work in their favour.
Esther Martinez, a cannabinoid research scientist at Madrid’s Complutense University, describes a kind of crosstalk between cancer cells and the immune system. “When the tumor talks with immune cells, it reverses the signal,” she told Project CBD. “So, it’s like, ‘I’m here, and now I want you to work for me.’ And instead of attacking the tumor, it gives pro-survival signals, so the immune system around the cancer goes through a change. The tumors have the capacity to shut off the immune system.”
Cannabis oil, fresh cannabis flower, and a pink ribbon on a white background.
With the immune system unarmed, cancer cells grow uncontrollably. Until recently, the only approved anticancer weapons have been treatments like chemotherapy, which destroy not just the cancer cells, but also fast-growing, healthy cells.
It’s no surprise, then, that tremendous excitement lies around the antitumoral properties of the cannabis plant, in particular THC and CBD. In fact, it was Esther’s colleagues at the Complutense University, Manuel Guzman and Cristina Sanchez, who paved the way in investigating the cancer-killing effects of cannabinoids, primarily, but not exclusively through apoptosis.9
However, very little is known about the relationship between the immune system and cannabinoids in this process. One reason is that in many preclinical trials, human tumors grafted onto immunosuppressed mice are used to avoid rejection by their rodent hosts.
Some studies do exist using immune competent mice, such as Dr Wai Liu’s 2014 report, which examined the effects of THC and CBD on brain tumors when combined with radiotherapy. Not only were the tumors significantly reduced, but little if no immune suppression was witnessed in the study, according to Dr Liu, a London-based Research Fellow and cannabinoid Scientist.10
This is welcome news, as cannabinoids can also cause apoptosis in lymphocyte cells, potentially suppressing the immune system. The ability of cannabinoids to both suppress and bolster immune function lends credence to the idea that the endocannabinoid system is involved in immunomodulation, as Dr. Liu told Project CBD: “I suspect that cannabinoids are having a double-punch effect of 1) direct killing and 2) enhancing immunity by suppressing those immune cells that serve to hold back the immune-based killing cells.”
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