Skip to main content

New theory may explain cause of depression and improve treatments

New theory may explain cause of depression and improve treatments


Image result for mitochondria
A new area in depression research suggests dysfunction in mitochondria -- the main source of energy for cells -- could lead to major depression. Published in Frontiers in Neuroscience, this new insight to long-held theories on the causes of depression could lead to the development of novel and more effective antidepressant drugs.
Depression is a highly prevalent disorder affecting up to 20% of the population. It is commonly thought to be caused by a chemical imbalance in the brain, yet the specific biological mechanisms which lead to depression are not fully understood.
"Until now, most theories about the biological causes of depression have focused on the idea that depression is caused by an imbalance in neurotransmitters like serotonin," says Dr Lisa E. Kalynchuk, co-author of the review from the University of Victoria, Canada.
"However, antidepressants can increase serotonin levels almost immediately, yet take weeks to have a therapeutic effect on the symptoms of depression. This suggests serotonin is unlikely to be the root cause of depression."
Most antidepressant drugs used today are the same as those developed more than 50 years ago. In addition to the delayed onset of effective symptom relief, antidepressants only work in around half of patients -- and often have adverse side effects.
The team recognized the necessity for new and more effective treatments for depression. However, before new drugs can be developed, it is necessary to first understand the cellular causes of depression.
"Despite extensive research efforts, there is still a fundamental lack of understanding about the specific biological changes that give rise to depressive symptoms," explains Kalynchuk.
To better understand how depression arises, the researchers looked for specific causes within the brain cells. This led them to a small organelle found within brain cells called mitochondria. Mitochondria are the main source of energy for cells, but they also help to regulate brain function.
"Animal models showed that depression is associated with the decreased generation of new cells in the hippocampus -- a region of the adult brain known to regulate emotion, mood, cognition and stress," says Kalynchuk.
"As these are all implicated in depression, this originally led us to think that depression was caused by the deficiency in new cell generation. However, this theory does not explain all the research findings because depressive symptoms can occur in the absence of this deficiency.
"What we do know that this process is metabolically demanding and requires a lot of energy. This led us to suspect mitochondria as the root cause of depression, as they provide energy for cells."
The researchers believe the dysfunction of mitochondria can lead to a cascade of effects which result in depression. This idea offers new opportunity for the development of new antidepressant drugs which can normalize mitochondria function.
"This would be a completely novel approach that has little to do with what current anti-depressants are doing," says Kalynchuk. "It will take time to fully explore these ideas, but we hope it will open doors to new areas of research in the depression field and lead to the development of more effective antidepressant medication."
The research is part of a special article collection on mitochondrial dysfunction and neurodegeneration (www.frontiersin.org/research-topics/6047/mitochondrial-dysfunction-and-neurodegeneration).

Story Source:
Materials provided by FrontiersNote: Content may be edited for style and length.

Journal Reference:
  1. Josh Allen, Raquel Romay-Tallon, Kyle J. Brymer, Hector J. Caruncho, Lisa E. Kalynchuk. Mitochondria and Mood: Mitochondrial Dysfunction as a Key Player in the Manifestation of DepressionFrontiers in Neuroscience, 2018; 12 DOI: 10.3389/fnins.2018.00386

Comments

Popular posts from this blog

B-group vitamins can improve concentration among people with first episode psychosis

B-group vitamins can improve concentration among people with first episode psychosis take vitamins today B-group vitamins may be beneficial for maintaining concentration skills among people experiencing a first episode of psychosis, a study by researchers from Orygen, the National Centre of Excellence in Youth Mental Health, has found. take vitamins today The study, led by Dr Colin O'Donnell, now at Letterkenny University Hospital, and Dr Kelly Allott from Orygen, explored the impact of increasing a person's intake of vitamins B12, B6, and folic acid [vitamin B9] after studies in people with schizophrenia revealed that increased intake of these vitamins could decrease patients' levels of an amino acid called homocysteine and improve their symptoms. Dr Allott said elevated levels of homocysteine in people living with schizophrenia had been associated with more severe symptoms. "Given previous studies have shown that increasing the intake of vitamin B12, B6...

Master regulator in mitochondria is critical for muscle function and repair

Master regulator in mitochondria is critical for muscle function and repair When we exercise, our muscles can become fatigued, sore and even damaged with very strenuous activities, like running a marathon. Over time our muscles are able to repair themselves through a complex set of cellular processes within each muscle fiber. New research from the MitoCare Center at Thomas Jefferson University, in collaboration with the Center for Genetic Medicine Research at Children's National Health System in Washington D.C., has identified how MICU1, a protein in the mitochondria, the "powerhouses" of all cells, is critical in the maintenance of muscle size and function, and the repair of damaged muscle fibers. The findings point to a potential role of MICU1 in neuromuscular diseases. The study was published in  Cell Reports  on October 29th. The contraction and relaxation of our muscles is dependent on the proper balance of calcium ions inside each muscle fiber. Some of this ...

Mitochondria Has A Role In Cellular Copper Regulation

Mitochondria Has A Role In Cellular Copper Regulation Copper is an essential part of our lives. From copper pipes and wires - to important copper-containing proteins in the body, copper is necessary for healthy growth and neurological development. Researchers at the Montreal Neurological Institute at McGill University are studying how copper is processed in our bodies and its distinct role in early development. Their findings, published in a recent edition of the journal Cell Metabolism, identify a new role for two proteins involved with copper regulation. This study may lead to a better understanding of how to treat individuals affected by copper imbalances. "Copper is important in maintaining healthy cells. When copper is not properly regulated in the body it can lead to diseases of the liver, kidneys, brains and eyes," says Dr. Eric Shoubridge, a professor of Human Genetics at the Montreal Neurological Institute, McGill University and lead investigator. "W...