Evolutionary plasticity of SH3 domain binding by Nef proteins of the HIV-1/SIVcpz lentiviral lineage

6533b858fe1ef96bd12b63c5

RESEARCH PRODUCT

Evolutionary plasticity of SH3 domain binding by Nef proteins of the HIV-1/SIVcpz lentiviral lineage

Kristina Hopfensperger Kalle Saksela Kei Sato Daniel Sauter Rishikesh Lotke Zhe Zhao Perttu Permi Helena Tossavainen Riku Fagerlund Smitha Srinivasachar Badarinarayan Frank Kirchhoff

subject

RNA viruses virukset viruses Simian Acquired Immunodeficiency Syndrome HIV Infections Pathology and Laboratory Medicine SH3 domain White Blood Cells Immunodeficiency Viruses Animal Cells Medicine and Health Sciences Biology (General)Mammals Genetics 11832 Microbiology and virology 0303 health sciences Kinase 030302 biochemistry & molecular biology Eukaryota virus diseases Transfection 3. Good health SIV Medical Microbiology Viral Pathogens Viral evolution Viruses Vertebrates Proto-Oncogene Proteins c-hck Apes Simian Immunodeficiency Virus Pathogens Cellular Types Tyrosine kinase Research Article Primates kinaasit Evolutionary Immunology Lineage (genetic)QH301-705.5 Immune Cells Immunology evoluutio Biology Transfection Research and Analysis Methods HIV-tartunta Microbiology Viral Evolution Evolution Molecular src Homology Domains 03 medical and health sciences Virology Retroviruses Genetics Animals Humans Luciferase Amino Acid Sequence nef Gene Products Human Immunodeficiency Virus Chimpanzees Molecular Biology Techniques Microbial Pathogens Molecular Biology 030304 developmental biology Evolutionary Biology Blood Cells Sequence Homology Amino Acid Macrophages Lentivirus Organisms Biology and Life Sciences HIV Cell Biology RC581-607 Organismal Evolution 3121 General medicine internal medicine and other clinical medicine Microbial Evolution Amniotes HIV-1 Parasitology Salt bridge proteiinit Immunologic diseases. Allergy Zoology

description

The accessory protein Nef of human and simian immunodeficiency viruses (HIV and SIV) is an important pathogenicity factor known to interact with cellular protein kinases and other signaling proteins. A canonical SH3 domain binding motif in Nef is required for most of these interactions. For example, HIV-1 Nef activates the tyrosine kinase Hck by tightly binding to its SH3 domain. An archetypal contact between a negatively charged SH3 residue and a highly conserved arginine in Nef (Arg77) plays a key role here. Combining structural analyses with functional assays, we here show that Nef proteins have also developed a distinct structural strategy—termed the "R-clamp”—that favors the formation of this salt bridge via buttressing Arg77. Comparison of evolutionarily diverse Nef proteins revealed that several distinct R-clamps have evolved that are functionally equivalent but differ in the side chain compositions of Nef residues 83 and 120. Whereas a similar R-clamp design is shared by Nef proteins of HIV-1 groups M, O, and P, as well as SIVgor, the Nef proteins of SIV from the Eastern chimpanzee subspecies (SIVcpzP.t.s.) exclusively utilize another type of R-clamp. By contrast, SIV of Central chimpanzees (SIVcpzP.t.t.) and HIV-1 group N strains show more heterogenous R-clamp design principles, including a non-functional evolutionary intermediate of the aforementioned two classes. These data add to our understanding of the structural basis of SH3 binding and kinase deregulation by Nef, and provide an interesting example of primate lentiviral protein evolution.

year	journal	country	edition	language
2021-11-01

10.1371/journal.ppat.1009728 http://hdl.handle.net/10138/341050