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• VRC-PG04b: Next generation sequencing was applied to a new donor C38 (different from donor NIH45) to identify VRC01 class bNAbs. VRC01 class heavy chains were selected through a cross-donor phylogenetic analysis. VRC01 class light chains were identified through a five-amino-acid sequence motif. (CDR L3 length of 5 amino acids and Q or E at position 96 (Kabat numbering) or position 4 within the CDR L3 sequence.) VRC-PG04b was used to compare the heavy & light chain sequences as a template of VRC01 class Ab. Zhu2013a (antibody sequence)
• VRC-PG04b: "Neutralization fingerprints" for 30 neutralizing antibodies were determined using a panel of 34 diverse HIV-1 strains. 10 antibody clusters were defined: VRC01-like, PG9-like, PGT128-like, 2F5-like, 10E8-like and separate clusters for b12, CD4, 2G12, HJ16, 8ANC195. This mAb belongs to VRC01-like cluster. Georgiev2013 (neutralization)
• VRC-PG04b: A computational tool (Antibody Database) identifying Env residues affecting antibody activity was developed. As input, the tool incorporates antibody neutralization data from large published pseudovirus panels, corresponding viral sequence data and available structural information. The model consists of a set of rules that provide an estimated IC₅₀ based on Env sequence data, and important residues are found by minimizing the difference between logarithms of actual and estimated IC₅₀. The program was validated by analysis of MAb 8ANC195, which had unknown specificity. Predicted critical N-glycosylation for 8ANC195 were confirmed in vitro and in humanized mice. The key associated residues for each MAb are summarized in the Table 1 of the paper and also in the Neutralizing Antibody Contexts & Features tool at Los Alamos Immunology Database. West2013 (glycosylation, computational epitope prediction)
• VRC-PG04b: Identification of broadly neutralizing antibodies, their epitopes on the HIV-1 spike, the molecular basis for their remarkable breadth, and the B cell ontogenies of their generation and maturation are reviewed. Ontogeny and structure-based classification is presented, based on MAb binding site, type (structural mode of recognition), class (related ontogenies in separate donors) and family (clonal lineage). This MAb's classification: gp120 CD4-binding site, CD4-mimicry by heavy chain, VRC01 class, VRC-PG04 family. Kwong2012 (review, structure, broad neutralizer)
• VRC-PG04b: This review discusses how analysis of infection and vaccine candidate-induced antibodies and their genes may guide vaccine design. This MAb is listed as CD4 binding site bnAb, isolated after 2009 by fluorescence-activated cell sorting (FACS) using a resurfaced core gp120 molecule (RSC3). Bonsignori2012b (vaccine antigen design, vaccine-induced immune responses, review)
• VRC-PG04: Existing structural and sequence data was analyzed. A set of signature features for potent VRC01-like (PVL) and almost PVL abs was proposed and verified by mutagenesis. VRC-PG04 has been referred as a PVL in discussing the breadth and potency of antiCD4 abs. Sequences of VRC01, NIH45-46 and VRC-PG04 revealed a striking correlation for the length of CDRL3 (5 residues). West2012a (antibody lineage)
• VRC-PG04b: Somatically related VRC01-like Mabs VRC-PG04 and PG04b were isolated from donor 74 infected with an A/D recombinant virus. PG04 and RG04b strongly bound to YU2 gp120 wild type and mutated proteins, HXB2 gp120 and antigenically resurfaced protein RSC3, but showed >100-fold less binding to δRSC3. Binding by each of the new antibodies to the CD4bs was competed by VRC01-03, by other CD4-binding-site antibodies and by CD4-Ig, but not by antibodies known to bind gp120 at other sites. Sequence analysis revealed that, like other VRC01-like antibodies, RG04 and RG04b heavy chains originated from precursor gene allele IGHV1-2*02. The light chains originated from an IGkV3 allele. VRC-PG04 and PG04b displayed a heavy-chain–variable gene (VH) mutation frequency of 30% relative to the germline IGHV1-2*02 allele, a level of affinity maturation similar to that previously observed with VRC01-03. Both PG04 and PH04b are potent neutralizers - PG04 neutralized 71% of 178 isolates, representing major HIV-1 clades. The structure of VRC-PG04 in complex with gp120 showed striking similarity with the previously determined complex with VRC01, despite low sequence identity and different donors. Heavy- and light-chain cross-pairing chimeras of VRC01, VRC03, VRC-PG04, VRC-CH31 with each other and with sequences obtained by deep sequencing could neutralize up to 90% of 20 clade A, B and C viruses. Wu2011 (antibody generation, neutralization, antibody sequence, structure)

References

Showing 7 of 7 references.

Isolation Paper
Wu2011 Xueling Wu, Tongqing Zhou, Jiang Zhu, Baoshan Zhang, Ivelin Georgiev, Charlene Wang, Xuejun Chen, Nancy S. Longo, Mark Louder, Krisha McKee, Sijy O'Dell, Stephen Perfetto, Stephen D. Schmidt, Wei Shi, Lan Wu, Yongping Yang, Zhi-Yong Yang, Zhongjia Yang, Zhenhai Zhang, Mattia Bonsignori, John A. Crump, Saidi H. Kapiga, Noel E. Sam, Barton F. Haynes, Melissa Simek, Dennis R. Burton, Wayne C. Koff, Nicole A. Doria-Rose, Mark Connors, NISC Comparative Sequencing Program, James C. Mullikin, Gary J. Nabel, Mario Roederer, Lawrence Shapiro, Peter D. Kwong, and John R. Mascola. Focused Evolution of HIV-1 Neutralizing Antibodies Revealed by Structures and Deep Sequencing. Science, 333(6049):1593-1602, 16 Sep 2011. PubMed ID: 21835983. Show all entries for this paper.

Bonsignori2012b Mattia Bonsignori, S. Munir Alam, Hua-Xin Liao, Laurent Verkoczy, Georgia D. Tomaras, Barton F. Haynes, and M. Anthony Moody. HIV-1 Antibodies from Infection and Vaccination: Insights for Guiding Vaccine Design. Trends Microbiol., 20(11):532-539, Nov 2012. PubMed ID: 22981828. Show all entries for this paper.

Georgiev2013 Ivelin S. Georgiev, Nicole A. Doria-Rose, Tongqing Zhou, Young Do Kwon, Ryan P. Staupe, Stephanie Moquin, Gwo-Yu Chuang, Mark K. Louder, Stephen D. Schmidt, Han R. Altae-Tran, Robert T. Bailer, Krisha McKee, Martha Nason, Sijy O'Dell, Gilad Ofek, Marie Pancera, Sanjay Srivatsan, Lawrence Shapiro, Mark Connors, Stephen A. Migueles, Lynn Morris, Yoshiaki Nishimura, Malcolm A. Martin, John R. Mascola, and Peter D. Kwong. Delineating Antibody Recognition in Polyclonal Sera from Patterns of HIV-1 Isolate Neutralization. Science, 340(6133):751-756, 10 May 2013. PubMed ID: 23661761. Show all entries for this paper.

Kwong2012 Peter D. Kwong and John R. Mascola. Human Antibodies that Neutralize HIV-1: Identification, Structures, and B Cell Ontogenies. Immunity, 37(3):412-425, 21 Sep 2012. PubMed ID: 22999947. Show all entries for this paper.

West2012a Anthony P. West, Jr., Ron Diskin, Michel C. Nussenzweig, and Pamela J. Bjorkman. Structural Basis for Germ-Line Gene Usage of a Potent Class of Antibodies Targeting the CD4-Binding Site of HIV-1 gp120. Proc. Natl. Acad. Sci. U.S.A., 109(30):E2083-E2090, 24 Jul 2012. PubMed ID: 22745174. Show all entries for this paper.

West2013 Anthony P. West, Jr., Louise Scharf, Joshua Horwitz, Florian Klein, Michel C. Nussenzweig, and Pamela J. Bjorkman. Computational Analysis of Anti-HIV-1 Antibody Neutralization Panel Data to Identify Potential Functional Epitope Residues. Proc. Natl. Acad. Sci. U.S.A., 110(26):10598-10603, 25 Jun 2013. PubMed ID: 23754383. Show all entries for this paper.

Zhu2013a Jiang Zhu, Xueling Wu, Baoshan Zhang, Krisha McKee, Sijy O'Dell, Cinque Soto, Tongqing Zhou, Joseph P. Casazza, NISC Comparative Sequencing Program, James C. Mullikin, Peter D. Kwong, John R. Mascola, and Lawrence Shapiro. De Novo Identification of VRC01 Class HIV-1-Neutralizing Antibodies by Next-Generation Sequencing of B-Cell Transcripts. Proc. Natl. Acad. Sci. U.S.A., 110(43):E4088-E4097, 22 Oct 2013. PubMed ID: 24106303. Show all entries for this paper.