HIV-1 neutralizing antibodies in SHIV-infected macaques recapitulate structurally divergent modes of human V2 apex recognition with a single D gene

Author:

Roark Ryan S.,Habib Rumi,Gorman Jason,Li Hui,Connell Andrew Jesse,Bonsignori Mattia,Guo Yicheng,Hogarty Michael P.,Olia Adam S.,Sowers Kirsten,Zhang Baoshan,Bibollet-Ruche Frederic,Callaghan Sean,Carey John W.,Cerutti Gabriele,Harris Darcy R.,He Wanting,Lewis Emily,Liu Tracy,Mason Rosemarie D.,Park Younghoon,Rando Juliette M.,Singh Ajay,Wolff Jeremy,Lei Q. Paula,Louder Mark K.,Doria-Rose Nicole A.,Andrabi Raiees,Saunders Kevin O.,Seaman Michael S.,Haynes Barton F.,Kulp Daniel W.,Mascola John R.,Roederer Mario,Sheng ZizhangORCID,Hahn Beatrice H.,Shaw George M.,Kwong Peter D.,Shapiro Lawrence

Abstract

AbstractBroadly neutralizing antibodies targeting the V2 apex of the HIV-1 envelope trimer are among the most common specificities elicited in HIV-1-infected humans and simian-human immunodeficiency virus (SHIV)-infected macaques. To gain insight into the prevalent induction of these antibodies, we isolated and characterized 11 V2 apex-directed neutralizing antibody lineages from SHIV-infected rhesus macaques. Remarkably, all SHIV-induced V2 apex lineages were derived from reading frame two of the rhesus DH3-15*01 gene. Cryo-EM structures of envelope trimers in complex with antibodies from nine rhesus lineages revealed modes of recognition that mimicked three canonical human V2 apex-recognition modes. Notably, amino acids encoded by DH3-15*01 played divergent structural roles, inserting into a hole at the trimer apex, H-bonding to an exposed strand, or forming part of a loop scaffold. Overall, we identify a DH3-15*01-signature for rhesus V2 apex broadly neutralizing antibodies and show that highly selected genetic elements can play multiple roles in antigen recognition.HighlightsIsolated 11 V2 apex-targeted HIV-neutralizing lineages from 10 SHIV-infected Indian-origin rhesus macaquesCryo-EM structures of Fab-Env complexes for nine rhesus lineages reveal modes of recognition that mimic three modes of human V2 apex antibody recognitionAll SHIV-elicited V2 apex lineages, including two others previously published, derive from the same DH3-15*01 gene utilizing reading frame twoThe DH3-15*01 gene in reading frame two provides a necessary, but not sufficient, signature for V2 apex-directed broadly neutralizing antibodiesStructural roles played by DH3-15*01-encoded amino acids differed substantially in different lineages, even for those with the same recognition modePropose that the anionic, aromatic, and extended character of DH3-15*01 in reading frame two provides a selective advantage for V2 apex recognition compared to B cells derived from other D genes in the naïve rhesus repertoireDemonstrate that highly selected genetic elements can play multiple roles in antigen recognition, providing a structural means to enhance recognition diversity

Publisher

Cold Spring Harbor Laboratory

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