The recent discovery that the human brain produces new neurons throughout life has led us to re-evaluate how we think about our brains and their plasticity, as well as examine potential new targets for psychiatric treatment.
In the narrow space between your ears, a roughly three-pound lump of tissue (composed mostly of water) contains everything that makes you who you are. Your brain is responsible for all of your memories, emotions, actions and aspirations. The human brain is also the source of all of our joy and misery, and understanding its workings offers hope for the amelioration of psychiatric suffering and, possibly, greater potential for happiness and enjoyment of life. However, one difficulty in dealing with the complexity of psychiatric disorders is that frequently multiple theories arise to help explain the origin or cause of any particular condition.
Depression is one example of this; there are many hypotheses attempting to explain this debilitating condition that affects more than 120 million people worldwide. One of the most widely-known theories is the 'monoaminergic theory' of depression, which focuses on neurotransmitters (chemicals used by neurons for communication) like serotonin. However, in this article I will try to give a brief review of a more recent theory, the 'neurogenic theory' of depression.
Up until relatively recently, it was believed that the brain stopped producing new neurons after development; as the famous neuroscientist Santiago Ramon y Cajal said around a century ago, "In the adult centers, the nerve paths are something fixed, and immutable: everything may die, nothing may be regenerated". However, the creation of new neurons in the mature brain, a process known as 'adult neurogenesis', was confirmed relatively recently in humans.
But there are some mysterious aspects to this phenomenon. For one thing, there initially seems to be only two clearly neurogenic areas in the brain; the olfactory bulb, and the dentate gyrus of the hippocampus. There's some early evidence to suggest other parts of the brain may be neurogenic as well, but even in these areas, the number of new cells produced seems to be limited at best. So this raises some questions; why just these few areas in particular, and not others? And what is the function of these new cells?
Although adult neurogenesis is still a relatively new discovery, it's become something of a hot topic in neuroscience, so we have some preliminary answers to the questions I just posed. For one thing, these new neurons seem to have special properties, in that immature neurons seem more 'plastic' or flexible in their firing responses than other cells. We also have some hints at their function, particularly with hippocampal neurogenesis; it's been shown to be involved in learning and memory and, most importantly for this entry, has been associated with emotional functioning.
This brings us back to the neurogenic theory of depression, an idea that essentially states that if the rate of production of these new 'special' neurons decreases, depressive symptoms may appear or be increased in severity, whereas increases in the rate of adult hippocampal neurogenesis can reduce the severity or appearance of depressive symptoms. Although this idea is only a few years old, there's some evidence supporting it. For one thing, factors that seem to make depression worse, such as stress, also decrease hippocampal neurogenesis, and factors that have been shown to improve depressive symptoms, such as antidepressant drugs and electroconvulsive treatment, also increase hippocampal neurogenesis. Human depressed patients also show decreased volume of the hippocampus. In addition, the delay between starting antidepressant medication and the amelioration of depressive symptoms, roughly four to six weeks, closely mirrors the time necessary for newly-proliferated cells spurred by this medicine to develop into functional neurons. And finally, experiments using animal models have shown that factors that increase neurogenesis also induce antidepressant behaviour.
So the neurogenic theory of depression, although it's still a relatively new idea, has the potential to offer exciting insight into depression and other psychiatric conditions, including treatment applications; if increasing the rate of neurogenesis can improve depression and depressive symptoms, then we can potentially develop new medications and treatments aimed specifically at increasing adult neurogenesis.
It's important to keep in mind that a lot of the theories scientists have developed concerning psychiatric illness are still preliminary, and a lot of important research is still needed before we can provide the definitive answers patients and their families are desperate to hear. However, the silver lining is that we're constantly getting closer to finding those answers, and offering hope to those searching for it.
Great piece! What a compelling and exciting, new theory!
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