Structural Insights into the Folding Defects of Oncogenic pVHL Lead to Correction of Its Function In Vitro

Merav D. Shmueli; Lee Schnaider; Daniel Rosenblum; Gal Herzog; Ehud Gazit; Daniel Segal

doi:10.1371/journal.pone.0066333

Structural Insights into the Folding Defects of Oncogenic pVHL Lead to Correction of Its Function In Vitro

Merav D. Shmueli, Lee Schnaider, Daniel Rosenblum, Gal Herzog, Ehud Gazit, Daniel Segal

Tel Aviv University

Research output: Contribution to journal › Article › peer-review

Abstract

Loss of function mutations in the von Hippel-Lindau (pVHL) tumor suppressor protein are tumorigenic. In silico analysis of the structure and folding of WT pVHL identified in its core an aromatic tetrahedron, essential for stabilizing the protein. The mutations disrupt the aromatic tetrahedron, leading to misfolding of pVHL. Using biophysical methods we confirmed the in silico predictions, demonstrating that mutant pVHL proteins have lower stability than the WT, distort the core domain and as a result reduce the ability of the protein to bind its target HIF-1α. Using bacterial pVHL-EGFP based assay we screened for osmolytes capable of restoring folding of mutant pVHL. Among them, Arginine was the most effective and was verified by in vitro assays as a potent re-folder of pVHL. This resulted in functional restoration of the mutant proteins to the level of the WT.

Original language	English
Article number	e66333
Journal	PLoS ONE
Volume	8
Issue number	6
DOIs	https://doi.org/10.1371/journal.pone.0066333
State	Published - 20 Jun 2013

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title = "Structural Insights into the Folding Defects of Oncogenic pVHL Lead to Correction of Its Function In Vitro",

abstract = "Loss of function mutations in the von Hippel-Lindau (pVHL) tumor suppressor protein are tumorigenic. In silico analysis of the structure and folding of WT pVHL identified in its core an aromatic tetrahedron, essential for stabilizing the protein. The mutations disrupt the aromatic tetrahedron, leading to misfolding of pVHL. Using biophysical methods we confirmed the in silico predictions, demonstrating that mutant pVHL proteins have lower stability than the WT, distort the core domain and as a result reduce the ability of the protein to bind its target HIF-1α. Using bacterial pVHL-EGFP based assay we screened for osmolytes capable of restoring folding of mutant pVHL. Among them, Arginine was the most effective and was verified by in vitro assays as a potent re-folder of pVHL. This resulted in functional restoration of the mutant proteins to the level of the WT.",

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AU - Shmueli, Merav D.

AU - Schnaider, Lee

AU - Rosenblum, Daniel

AU - Herzog, Gal

AU - Gazit, Ehud

AU - Segal, Daniel

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AB - Loss of function mutations in the von Hippel-Lindau (pVHL) tumor suppressor protein are tumorigenic. In silico analysis of the structure and folding of WT pVHL identified in its core an aromatic tetrahedron, essential for stabilizing the protein. The mutations disrupt the aromatic tetrahedron, leading to misfolding of pVHL. Using biophysical methods we confirmed the in silico predictions, demonstrating that mutant pVHL proteins have lower stability than the WT, distort the core domain and as a result reduce the ability of the protein to bind its target HIF-1α. Using bacterial pVHL-EGFP based assay we screened for osmolytes capable of restoring folding of mutant pVHL. Among them, Arginine was the most effective and was verified by in vitro assays as a potent re-folder of pVHL. This resulted in functional restoration of the mutant proteins to the level of the WT.

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Structural Insights into the Folding Defects of Oncogenic pVHL Lead to Correction of Its Function In Vitro

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