PURPOSE OF REVIEW: To consider how nonhuman primate (NHP) model systems can best contribute to HIV vaccine development. RECENT FINDINGS: We review the traditional roles of NHP model systems in vaccine development and compare this with how NHP models have been used in HIV vaccine research and development. Comparisons of the immune responses elicited by cellular immune response-inducing vaccines in macaques and humans illustrate the value of primate studies for the relative ranking of HIV vaccine concepts for their likely immunogenicity in humans. The unusual structures (e.g. long complementarity-determining regions) of known broadly neutralizing HIV antibodies (bNAbs) suggest that it is critical to test candidate env immunogens in NHPs, whose germline antibody repertoires resemble those of humans. Recent clinical efficacy trial results question the utility of existing NHP challenge models in predicting HIV vaccine efficacy in humans, and highlight the need to further develop models in which acquisition of infection can be reliably evaluated. When evaluated in models using low virus dose challenges that better approximate human sexual exposure to HIV - some vaccine and passive NAb interventions appear to protect against acquisition of infection. SUMMARY: NHP models have important roles in the preclinical evaluation, optimization, and ranking of novel HIV immunogens. The apparent vaccine efficacy observed using low virus dose challenge models provides an opportunity to investigate the correlates of protection.
PURPOSE OF REVIEW: To consider how nonhuman primate (NHP) model systems can best contribute to HIV vaccine development. RECENT FINDINGS: We review the traditional roles of NHP model systems in vaccine development and compare this with how NHP models have been used in HIV vaccine research and development. Comparisons of the immune responses elicited by cellular immune response-inducing vaccines in macaques and humans illustrate the value of primate studies for the relative ranking of HIV vaccine concepts for their likely immunogenicity in humans. The unusual structures (e.g. long complementarity-determining regions) of known broadly neutralizing HIV antibodies (bNAbs) suggest that it is critical to test candidate env immunogens in NHPs, whose germline antibody repertoires resemble those of humans. Recent clinical efficacy trial results question the utility of existing NHP challenge models in predicting HIV vaccine efficacy in humans, and highlight the need to further develop models in which acquisition of infection can be reliably evaluated. When evaluated in models using low virus dose challenges that better approximate human sexual exposure to HIV - some vaccine and passive NAb interventions appear to protect against acquisition of infection. SUMMARY: NHP models have important roles in the preclinical evaluation, optimization, and ranking of novel HIV immunogens. The apparent vaccine efficacy observed using low virus dose challenge models provides an opportunity to investigate the correlates of protection.
Authors: Alessandra Gavazza; George Lubas; Arthur Fridman; Daniela Peruzzi; Joseph A Impellizeri; Laura Luberto; Emanuele Marra; Giuseppe Roscilli; Gennaro Ciliberto; Luigi Aurisicchio Journal: Hum Gene Ther Date: 2013-08 Impact factor: 5.695
Authors: Josephine H Cox; Maria G Ferrari; Patricia Earl; James R Lane; Linda L Jagodzinski; Victoria R Polonis; Ellen G Kuta; Jean D Boyer; Silvia Ratto-Kim; Leigh-Anne Eller; Doan-Trang Pham; Lydia Hart; David Montefiori; Guido Ferrari; Stephanie Parrish; David B Weiner; Bernard Moss; Jerome H Kim; Deborah Birx; Thomas C VanCott Journal: Vaccine Date: 2012-01-09 Impact factor: 3.641
Authors: Mohammed Asmal; Sophie Lane; Meijuan Tian; Gabrielle Nickel; Colin Venner; Brennan Dirk; Jimmy Dikeakos; Corinne Luedemann; Linh Mach; Harikrishnan Balachandran; Adam Buzby; Srinivas Rao; Norman Letvin; Yong Gao; Eric J Arts Journal: Virology Date: 2016-10-07 Impact factor: 3.616
Authors: Christopher Sundling; Zhenhai Zhang; Ganesh E Phad; Zizhang Sheng; Yimeng Wang; John R Mascola; Yuxing Li; Richard T Wyatt; Lawrence Shapiro; Gunilla B Karlsson Hedestam Journal: J Immunol Date: 2014-03-12 Impact factor: 5.422