So what does marijuana do in the brain? It produces some excitatory behavioral changes, including euphoria, but it is not generally regarded as a stimulant. It can also produce some sedative effects but not to the extent of a barbiturate or alcohol. It produces mild analgesic effects (pain relief) as well, but this action is not related pharmacologically to the pain-relieving effects of opiates or aspirin.
Finally, marijuana produces hallucinations at high doses, but its structure does not resemble LSD or any other hallucinogen. Thus, marijuana’s effects on our body and brain are complex. Just how does it achieve these effects and are they beneficial? The chemicals contained within the marijuana plant cross the blood-brain barrier and bind to a receptor for the brain’s very own endogenous marijuana neurotransmitter system. If this were not true, then the marijuana plant would be popular only for its use in making rope, paper, and cloth.
The first endogenous marijuana compound found in the brain was called anandamide, from the Sanskrit word ananda meaning “bliss.” Anandamide interacts with specific receptor proteins to affect brain function. The great abundance of these receptors gives an indication of importance of the endogenous system in the regulation of the brain’s normal functioning. Recent investigations have also shown that stimulating the brain’s marijuana receptors may offer protection from the consequences of stroke, chronic pain, and neuroinflammation.
Surprisingly, it may also protect against some aspects of age-associated memory loss. Ordinarily, we do not view marijuana as being good for our brain and certainly not for making memories. How could a drug that clearly impairs memory while people are under its sway protect their brains from the consequences of aging? The answer likely has everything to do with the way that young and old brains function and a series of age-related changes in brain chemistry. When we are young, stimulating the brain’s marijuana receptors interfere with making memories. However, later in life, the brain gradually displays increasing evidence of inflammation and a dramatic decline in the production of new neurons, called neurogenesis, that are important for making new memories.
Research in my laboratory has demonstrated that stimulating the brain’s marijuana receptors may offer protection by reducing brain inflammation and by restoring neurogenesis. Thus, later in life, marijuana might actually help your brain, rather than harm it. It takes very little marijuana to produce benefits in the older brain; my colleague in France, Dr. Yannick Marchalant, coined the motto “a puff is enough” because it appears as though only a single puff each day is necessary to produce significant benefit. The challenge for pharmacologists in the future will be to isolate the beneficial effects of the marijuana plant from its psychoactive effects.