Brain‐derived neurotrophic factor protects neurons by stimulating mitochondrial function through protein kinase A

Author:

Swain Maryann1ORCID,K. Soman Smijin1ORCID,Tapia Kylea1,Dagda Raul Y.1,Dagda Ruben K.1

Affiliation:

1. Department of Pharmacology University of Nevada, Reno School of Medicine Reno Nevada USA

Abstract

AbstractBrain‐derived neurotrophic factor (BDNF) stimulates dendrite outgrowth and synaptic plasticity by activating downstream protein kinase A (PKA) signaling. Recently, BDNF has been shown to modulate mitochondrial respiration in isolated brain mitochondria, suggesting that BDNF can modulate mitochondrial physiology. However, the molecular mechanisms by which BDNF stimulates mitochondrial function in neurons remain to be elucidated. In this study, we surmised that BDNF binds to the TrkB receptor and translocates to mitochondria to govern mitochondrial physiology in a PKA‐dependent manner. Confocal microscopy and biochemical subcellular fractionation assays confirm the localization of the TrkB receptor in mitochondria. The translocation of the TrkB receptor to mitochondria was significantly enhanced upon treating primary cortical neurons with exogenous BDNF, leading to rapid PKA activation. Showing a direct role of BDNF in regulating mitochondrial structure/function, time‐lapse confocal microscopy in primary cortical neurons showed that exogenous BDNF enhances mitochondrial fusion, anterograde mitochondrial trafficking, and mitochondrial content within dendrites, which led to increased basal and ATP‐linked mitochondrial respiration and glycolysis as assessed by an XF24e metabolic analyzer. BDNF‐mediated regulation of mitochondrial structure/function requires PKA activity as treating primary cortical neurons with a pharmacological inhibitor of PKA or transiently expressing constructs that target an inhibitor peptide of PKA (PKI) to the mitochondrion abrogated BDNF‐mediated mitochondrial fusion and trafficking. Mechanistically, western/Phos‐tag blots show that BDNF stimulates PKA‐mediated phosphorylation of Drp1 and Miro‐2 to promote mitochondrial fusion and elevate mitochondrial content in dendrites, respectively. Effects of BDNF on mitochondrial function were associated with increased resistance of neurons to oxidative stress and dendrite retraction induced by rotenone. Overall, this study revealed new mechanisms of BDNF‐mediated neuroprotection, which entails enhancing mitochondrial health and function of neurons.image

Funder

National Institutes of Health

Publisher

Wiley

Subject

Cellular and Molecular Neuroscience,Biochemistry

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