Health

    Mental Health & Neurology

    Mental Disorders, Anxiety & Depression

    Brain Mechanisms & Psychology

Post-Doctoral Fellowships

Switzerland

2019.12.31

Resilience to depression: the role of mitochondrial dynamics regulatory proteins

Affecting around 350 million people worldwide, depression is the most prevalent and complex psychiatric disorder and remains a devastating illness. The World Health Organization projects that by 2020 it will be the highest contributor to the global burden of disease. Yet our understanding of its mechanisms is still limited. Moreover, the existence of high rates (around 40%) of non-responsive patients to current  pharmacotherapies necessitates development of novel and more effective strategies to treat depression. Increasing evidence suggests that depression is highly associated with impaired mitochondrial function (NB: mitochondria’s most prominent roles are to produce energy of the cell) in the brain such as decreased respiration, bioenergetics defects, imbalanced antioxidant defense mechanism, and altered mitochondrial dynamics. Human observations report that more than 50% of patients with mitochondrial diseases exhibit clinical symptoms of depression, and depressive symptoms often precede the other symptoms of the underlying mitochondrial disease. However, the underlying cellular and molecular mechanisms remain unresolved.
Recent studies have demonstrated a link between depression susceptibility and mitochondrial dysfunction in the nucleus accumbens (NAc), a crucial mood-and reward-regulatory brain region. Dr. Sriparna Ghosal, an AXA Research Fund grantee at École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland, has recently gained significant insight into the mechanisms underpinning this connection, and opened up the perspective to target mitofusin 1 (MFN1), a key mitochondrial fusion protein involved in maintaining mitochondrial dynamics and health, to ameliorate depression-related deficits. Her project, she explains: “aims to unravel how mitofusin 1 deficiency increases susceptibility to depression, from cellular level, to neuronal activity and brain circuitry and ultimately behavior”.

The overall objective of this undertaking is to identify novel molecular underpinnings of depression that will allow for the development of more effective therapeutic interventions. “A successful outcome of the research, Dr. Ghosal points out, will establish a major conceptual advancement in understanding the neural and mitochondrial basis of depression and several other mitochondrial dysfunction-induced affective disorders”.

Sriparna
GHOSAL

Institution

École Polytechnique Fédérale de Lausanne

Country

Switzerland

Nationality

Indian

ORCID Open Researcher and Contributor ID, a unique and persistent identifier to researchers

Related articles

Health

Mental Health & Neurology

Societal Challenges

Mental Disorders, Anxiety & Depression

Social Cohesion & Community Building

Joint Research Initiative

Belgium

2021.08.31

Towards a Sustainable Return to Work after Burnout or Depression

The COVID-19-crisis is likely to impact even further the number of people suffering from such disorders and their return to... Read more

Lode
GODDERIS

University of KU Leuven

Health

Mental Health & Neurology

Pandemics & Infectious Diseases

Women's Health

Covid-19

Mental Disorders, Anxiety & Depression

Pregnancy & Maternal Health

Neurodevelopmental Disorders

AXA Award

Spain

2020.08.31

The Effects of the COVID-19 Pandemic on the Mental Health of Mothers and Newborns

 Early results are expected in less than 12 months and will help bridge a critical gap in research. Indeed, “in... Read more

Maria
FORASTER

ISGlobal Barcelona Institute for Global Health

Health

Mental Health & Neurology

Pandemics & Infectious Diseases

Mental Disorders, Anxiety & Depression

Covid-19

AXA Award

Spain

2020.08.31

Coping With the Pandemics: What Works Best to Reduce Anxiety & Depression

The results of this longitudinal study will allow Dr. Radua to produce evidence-based, clear, and specific recommendations on effective coping... Read more

Joaquim
RADUA

August Pi i Sunyer Biomedical Research Institute