Mariusz R. Wieckowski scite author profile

The voltage-dependent anion channel (VDAC) of the outer mitochondrial membrane mediates metabolic flow, Ca2+, and cell death signaling between the endoplasmic reticulum (ER) and mitochondrial networks. We demonstrate that VDAC1 is physically linked to the endoplasmic reticulum Ca2+-release channel inositol 1,4,5-trisphosphate receptor (IP3R) through the molecular chaperone glucose-regulated protein 75 (grp75). Functional interaction between the channels was shown by the recombinant expression of the ligand-binding domain of the IP3R on the ER or mitochondrial surface, which directly enhanced Ca2+ accumulation in mitochondria. Knockdown of grp75 abolished the stimulatory effect, highlighting chaperone-mediated conformational coupling between the IP3R and the mitochondrial Ca2+ uptake machinery. Because organelle Ca2+ homeostasis influences fundamentally cellular functions and death signaling, the central location of grp75 may represent an important control point of cell fate and pathogenesis.

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Isolation of mitochondria-associated membranes and mitochondria from animal tissues and cells

Wieckowski

et al. 2009

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Many cellular processes require the proper cooperation between mitochondria and the endoplasmic reticulum (ER). Several recent works show that their functional interactions rely on dynamic structural contacts between both organelles. Such contacts, called mitochondria-associated membranes (MAMs), are crucial for the synthesis and intracellular transport of phospholipids, as well as for intracellular Ca(2+) signaling and for the determination of mitochondrial structure. Although several techniques are available to isolate mitochondria, only few are specifically tuned to the isolation of MAM, containing unique regions of ER membranes attached to the outer mitochondrial membrane and mitochondria without contamination from other organelles (i.e., pure mitochondria). Here we provide optimized protocols to isolate these fractions from tissues and cells. These procedures require 4-5 h and can be easily modified and adapted to different tissues and cell types.

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Protein Kinase C ß and Prolyl Isomerase 1 Regulate Mitochondrial Effects of the Life-Span Determinant p66 ^Shc

Pinton

Rimessi

Marchi

et al. 2007

Science

438

423

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The 66-kilodalton isoform of the growth factor adapter Shc (p66Shc) translates oxidative damage into cell death by acting as reactive oxygen species (ROS) producer within mitochondria. However, the signaling link between cellular stress and mitochondrial proapoptotic activity of p66Shc was not known. We demonstrate that protein kinase C beta, activated by oxidative conditions in the cell, induces phosphorylation of p66Shc and triggers mitochondrial accumulation of the protein after it is recognized by the prolyl isomerase Pin1. Once imported, p66Shc causes alterations of mitochondrial Ca2+ responses and three-dimensional structure, thus inducing apoptosis. These data identify a signaling route that activates an apoptotic inducer shortening the life span and could be a potential target of pharmacological approaches to inhibit aging.

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