In Vivo Substrate Diversity and Preference of Small Heat Shock Protein IbpB as Revealed by Using a Genetically Incorporated Photo-cross-linker

Xinmiao Fu,Xiaodong Shi,Linxuan Yan,Hanlin Zhang,Zengyi Chang

doi:10.1074/jbc.m113.501817

Xinmiao Fu, Xiaodong Shi + Show 3 more

Open Access

https://doi.org/10.1074/jbc.m113.501817

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Abstract

Small heat shock proteins (sHSPs), as ubiquitous molecular chaperones found in all forms of life, are known to be able to protect cells against stresses and suppress the aggregation of a variety of model substrate proteins under in vitro conditions. Nevertheless, it is poorly understood what natural substrate proteins are protected by sHSPs in living cells. Here, by using a genetically incorporated photo-cross-linker (p-benzoyl-l-phenylalanine), we identified a total of 95 and 54 natural substrate proteins of IbpB (an sHSP from Escherichia coli) in living cells with and without heat shock, respectively. Functional profiling of these proteins (110 in total) suggests that IbpB, although binding to a wide range of cellular proteins, has a remarkable substrate preference for translation-related proteins (e.g. ribosomal proteins and amino-acyl tRNA synthetases) and moderate preference for metabolic enzymes. Furthermore, these two classes of proteins were found to be more prone to aggregation and/or inactivation in cells lacking IbpB under stress conditions (e.g. heat shock). Together, our in vivo data offer novel insights into the chaperone function of IbpB, or sHSPs in general, and suggest that the preferential protection on the protein synthesis machine and metabolic enzymes may dominantly contribute to the well known protective effect of sHSPs on cell survival against stresses.

Highlights

The identity of natural substrate proteins of small heat shock proteins is poorly understood
We utilized the in vivo photocross-linking approach to characterize the substrate proteins of Small heat shock proteins (sHSPs) in living cells, and we identified over 100 natural substrate proteins for IbpB
We show that IbpB, able to protect a wide range of cellular proteins as commonly believed for sHSPs [32], remarkably shows a significant substrate preference to translation-related proteins and metabolic enzymes

Summary

Background

The identity of natural substrate proteins of small heat shock proteins is poorly understood. Small heat shock proteins (sHSPs), as ubiquitous molecular chaperones found in all forms of life, are known to be able to protect cells against stresses and suppress the aggregation of a variety of model substrate proteins under in vitro conditions It is poorly understood what natural substrate proteins are protected by sHSPs in living cells. By using a genetically incorporated photo-cross-linker (p-benzoyl-L-phenylalanine), we identified a total of 95 and 54 natural substrate proteins of IbpB (an sHSP from Escherichia coli) in living cells with and without heat shock, respectively Functional profiling of these proteins (110 in total) suggests that IbpB, binding to a wide range of cellular proteins, has a remarkable substrate preference for translation-related proteins (e.g. ribosomal proteins and amino-acyl tRNA synthetases) and moderate preference for metabolic enzymes. Our in vivo data offer critical insights into the chaperone function of sHSPs in cells

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DISCUSSION