Washington D.C, Mar 31 (ANI): When handling a stressful situation, some people seem to be resilient, while others succumb to despair. But why? According to a new study, it is all in the brain.
Mapping the brain activity in mice when placed under stress, scientists have found that mice showing helpless behavior had vastly different brain activity from those displaying resilient behavior.
Certain patterns were revealed in the stressed brain and the scientists identified a list of brain areas that might have a critical role to play in stress-induced depression. Looking at these brain activities the study opens up possibilities for identifying new targets for the treatment of depression.
They explain that with the exception of a few brain areas, mice showing ‘helpless’ behaviour had an overall brain-wide reduction in the level of neuronal activation compared with mice showing ‘resilient’ behavior.
The authors further wrote that the helpless mice showed a strong trend of having higher similarity in whole-brain activity profile among individuals, suggesting that helplessness is represented by a more stereotypic brain-wide activation pattern
Moreover, those mice that showed helpless behavior had significantly lower levels of overall brain activity. The scientists found that this included the prefrontal cortex, a brain region associated with organizing our thoughts and actions, and which has been implicated in mood or anxiety disorders. The helpless group also showed lower brain activation in areas vital for processing emotion and motivation, areas important for defensive behavior, those key for stress coping and those associated with learning and memory.
However, there was one area of the brain that lit up more in helpless mice and that was the locus coeruleus. According to the study, this strongly suggests that the area has a significant role to play in stress-induced depression. It provides an opportunity for further study and could be significant for future treatments of depression.
“Our findings provide novel insights into brain circuits underlying a model of depression,” they explained. “It has the potential to guide future studies aimed at understanding the different roles specific brain regions play, as well as provide new targets for the development of new therapies.”
The study is published in Frontiers in Neural Circuits. (ANI)