Structure–function relationships explain CTCF zinc finger mutation phenotypes in cancer

Author:

Bailey Charles G.,Gupta Shailendra,Metierre Cynthia,Amarasekera Punkaja M. S.,O’Young Patrick,Kyaw Wunna,Laletin Tatyana,Francis Habib,Semaan Crystal,Sharifi Tabar Mehdi,Singh Krishna P.,Mullighan Charles G.,Wolkenhauer Olaf,Schmitz Ulf,Rasko John E. J.ORCID

Abstract

AbstractCCCTC-binding factor (CTCF) plays fundamental roles in transcriptional regulation and chromatin architecture maintenance. CTCF is also a tumour suppressor frequently mutated in cancer, however, the structural and functional impact of mutations have not been examined. We performed molecular and structural characterisation of five cancer-specific CTCF missense zinc finger (ZF) mutations occurring within key intra- and inter-ZF residues. Functional characterisation of CTCF ZF mutations revealed a complete (L309P, R339W, R377H) or intermediate (R339Q) abrogation as well as an enhancement (G420D) of the anti-proliferative effects of CTCF. DNA binding at select sites was disrupted and transcriptional regulatory activities abrogated. Molecular docking and molecular dynamics confirmed that mutations in residues specifically contacting DNA bases or backbone exhibited loss of DNA binding. However, R339Q and G420D were stabilised by the formation of new primary DNA bonds, contributing to gain-of-function. Our data confirm that a spectrum of loss-, change- and gain-of-function impacts on CTCF zinc fingers are observed in cell growth regulation and gene regulatory activities. Hence, diverse cellular phenotypes of mutant CTCF are clearly explained by examining structure–function relationships.

Funder

National Health and Medical Research Council

Cancer Council NSW

Cancer Institute NSW

National Cancer Institute

Bundesministerium für Bildung und Forschung

H2020 European Research Council

Publisher

Springer Science and Business Media LLC

Subject

Cell Biology,Cellular and Molecular Neuroscience,Pharmacology,Molecular Biology,Molecular Medicine

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