J 2012

Charge Profile Analysis Reveals That Activation of Pro-apoptotic Regulators Bax and Bak Relies on Charge Transfer Mediated Allosteric Regulation

IONESCU, Crina-Maria, Radka SVOBODOVÁ VAŘEKOVÁ, Jochen HM PREHN, Heinrich J HUBER, Jaroslav KOČA et. al.

Basic information

Original name

Charge Profile Analysis Reveals That Activation of Pro-apoptotic Regulators Bax and Bak Relies on Charge Transfer Mediated Allosteric Regulation

Authors

IONESCU, Crina-Maria (642 Romania, belonging to the institution), Radka SVOBODOVÁ VAŘEKOVÁ (203 Czech Republic, belonging to the institution), Jochen HM PREHN (276 Germany), Heinrich J HUBER (40 Austria) and Jaroslav KOČA (203 Czech Republic, guarantor, belonging to the institution)

Edition

PLoS Computational Biology, San Francisco, PUBLIC LIBRARY SCIENCE, 2012, 1553-7358

Other information

Language

English

Type of outcome

Článek v odborném periodiku

Field of Study

10600 1.6 Biological sciences

Country of publisher

United States of America

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

Impact factor

Impact factor: 4.867

RIV identification code

RIV/00216224:14740/12:00057573

Organization unit

Central European Institute of Technology

UT WoS

000305965300033

Keywords in English

apoptosis; Bax; Bak; atomic charge; allostery

Tags

Tags

International impact, Reviewed
Změněno: 6/4/2013 21:05, Olga Křížová

Abstract

V originále

The pro-apoptotic proteins Bax and Bak are essential for executing programmed cell death (apoptosis), yet the mechanism of their activation is not properly understood at the structural level. For the first time in cell death research, we calculated intra-protein charge transfer in order to study the structural alterations and their functional consequences during Bax activation. Using an electronegativity equalization model, we investigated the changes in the Bax charge profile upon activation by a functional peptide of its natural activator protein, Bim. We found that charge reorganizations upon activator binding mediate the exposure of the functional sites of Bax, rendering Bax active. The affinity of the Bax C-domain for its binding groove is decreased due to the Arg94-mediated abrogation of the Ser184-Asp98 interaction. We further identified a network of charge reorganizations that confirms previous speculations of allosteric sensing, whereby the activation information is conveyed from the activation site, through the hydrophobic core of Bax, to the well-distanced functional sites of Bax. The network was mediated by a hub of three residues on helix 5 of the hydrophobic core of Bax. Sequence and structural alignment revealed that this hub was conserved in the Bak amino acid sequence, and in the 3D structure of folded Bak. Our results suggest that allostery mediated by charge transfer is responsible for the activation of both Bax and Bak, and that this might be a prototypical mechanism for a fast activation of proteins during signal transduction. Our method can be applied to any protein or protein complex in order to map the progress of allosteric changes through the proteins' structure.

Links

ED1.1.00/02.0068, research and development project
Name: CEITEC - central european institute of technology
GD301/09/H004, research and development project
Name: Molekulární a strukturní biologie vybraných cytostatik. Od mechanistických studií k chemoterapii rakoviny
Investor: Czech Science Foundation
286154, interní kód MU
Name: SYLICA - Synergies of Life and Material Sciences to Create a New Future (Acronym: SYLICA)
Investor: European Union, Capacities