Voytek Okreglak scite author profile

Phosphorylation of the α-subunit of initiation factor 2 (eIF2) controls protein synthesis by a conserved mechanism. In metazoa, distinct stress conditions activate different eIF2α kinases (PERK, PKR, GCN2, and HRI) that converge on phosphorylating a unique serine in eIF2α. This collection of signaling pathways is termed the ‘integrated stress response’ (ISR). eIF2α phosphorylation diminishes protein synthesis, while allowing preferential translation of some mRNAs. Starting with a cell-based screen for inhibitors of PERK signaling, we identified a small molecule, named ISRIB, that potently (IC50 = 5 nM) reverses the effects of eIF2α phosphorylation. ISRIB reduces the viability of cells subjected to PERK-activation by chronic endoplasmic reticulum stress. eIF2α phosphorylation is implicated in memory consolidation. Remarkably, ISRIB-treated mice display significant enhancement in spatial and fear-associated learning. Thus, memory consolidation is inherently limited by the ISR, and ISRIB releases this brake. As such, ISRIB promises to contribute to our understanding and treatment of cognitive disorders.DOI: http://dx.doi.org/10.7554/eLife.00498.001

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The WD repeat protein, Mdv1p, functions as a molecular adaptor by interacting with Dnm1p and Fis1p during mitochondrial fission

Tieu

et al. 2002

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Yeast mitochondrial fission is a multistep process during which the dynamin-related GTPase, Dnm1p, assembles into punctate structures that associate with the outer mitochondrial membrane and mediate mitochondrial division. Steps in the Dnm1p-dependent process of fission are regulated by the actions of the WD repeat protein, Mdv1p, and the mitochondrial outer membrane protein, Fis1p. Our previous studies suggested a model where Mdv1p functions to regulate fission at a post-Dnm1p assembly step and Fis1p functions at two distinct steps, at an early point, to regulate Dnm1p assembly, and later, together with Mdv1p, to facilitate Dnm1p-dependent mitochondrial fission. To test this model, we have examined the physical and functional relationship between Mdv1p and Fis1p and present genetic, biochemical, and two-hybrid data indicating that a Fis1p–Mdv1p complex is required to regulate mitochondrial fission. To further define the role of Mdv1p in fission, we examined the structural features of Mdv1p required for its interactions with Dnm1p and Fis1p. Data from two-hybrid analyses and GFP-tagged domains of Mdv1p indicate that it contains two functionally distinct domains that enable it to function as a molecular adaptor to regulate sequential interactions between Dnm1p and Fis1p and catalyze a rate-limiting step in mitochondrial fission.

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The conserved AAA-ATPase Msp1 confers organelle specificity to tail-anchored proteins

Okreglak

Walter

2014

Proc. Natl. Acad. Sci. U.S.A.

181

208

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Significance Membrane protein targeting to the endoplasmic reticulum, peroxisomes, and mitochondria requires specialized machinery to ensure the appropriate localization of proteins, which is important for defining organelle identity. Additional specificity is provided by sensing and degrading proteins that are mistargeted to an inappropriate compartment. One class of membrane proteins, which contain a hydrophobic segment at their extreme C terminus (called tail-anchored proteins), are prone to be mistargeted; however, how cells cope with this burden is unknown. In this work, we identify a conserved ATPase of the outer mitochondrial membrane, Msp1, which we propose functions as an extraction engine to remove and initiate degradation of an inappropriately targeted tail-anchored protein. In this way, Msp1 serves to enhance the fidelity of protein localization.

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Voytek Okreglak

Pharmacological brake-release of mRNA translation enhances cognitive memory

The WD repeat protein, Mdv1p, functions as a molecular adaptor by interacting with Dnm1p and Fis1p during mitochondrial fission

The conserved AAA-ATPase Msp1 confers organelle specificity to tail-anchored proteins

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