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Mitochondrial Sirtuin Network Reveals Dynamic SIRT3-Dependent Deacetylation in Response to Membrane Depolarization.

Cell (2016-11-25)
Wen Yang, Koji Nagasawa, Christian Münch, Yingjie Xu, Kyle Satterstrom, Seungmin Jeong, Sebastian D Hayes, Mark P Jedrychowski, F Sejal Vyas, Elma Zaganjor, Virginia Guarani, Alison E Ringel, Steven P Gygi, J Wade Harper, Marcia C Haigis
RESUMEN

Mitochondrial sirtuins, SIRT3-5, are NAD+-dependent deacylases and ADP-ribosyltransferases that are critical for stress responses. However, a comprehensive understanding of sirtuin targets, regulation of sirtuin activity, and the relationships between sirtuins remains a key challenge in mitochondrial physiology. Here, we employ systematic interaction proteomics to elucidate the mitochondrial sirtuin protein interaction landscape. This work reveals sirtuin interactions with numerous functional modules within mitochondria, identifies candidate sirtuin substrates, and uncovers a fundamental role for sequestration of SIRT3 by ATP synthase in mitochondrial homeostasis. In healthy mitochondria, a pool of SIRT3 binds ATP synthase, but upon matrix pH reduction with concomitant loss of mitochondrial membrane potential, SIRT3 dissociates. This release correlates with rapid deacetylation of matrix proteins, and SIRT3 is required for recovery of membrane potential. In vitro reconstitution experiments, as well as analysis of CRISPR/Cas9-engineered cells, indicate that pH-dependent SIRT3 release requires H135 in the ATP5O subunit of ATP synthase. Our SIRT3-5 interaction network provides a framework for discovering novel biological functions regulated by mitochondrial sirtuins.

MATERIALES
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Millipore
Anti-HA−agarosa monoclonal antibody produced in mouse, clone HA-7, purified immunoglobulin, PBS suspension
Sigma-Aldrich
Anticuerpo anti-mitocondrias, clon 113-1, conjugado Alexa Fluor 488, clone 113-1, from mouse, ALEXA FLUOR 488
Supelco
(−)-Fenchone, analytical standard