OBJECTIVES: To assess the potency, breadth of action, and mechanism of action of the polyclonal goat anti-HIV antibody, PEHRG214. DESIGN: Typical human antibody responses to HIV-1 infection are unable to neutralize virus efficiently, clear the infection, or prevent disease progression. However, more potent neutralizing antibodies may be capable of playing a pivotal role in controlling HIV replication in vivo. PEHRG214 is a polyclonal caprine antibody raised against purified HIV-associated proteins, such that epitopes that are immunologically silent in humans may potentially be recognized in another species. It has been administered safely to HIV-infected individuals in Phase I clinical trials. METHODS: The anti-HIV activity of PEHRG214 was assessed using neutralization and virion lysis assays. The target proteins for PEHRG214 activity were investigated using flow cytometry and by adsorption of anti-cell antibodies from the antibody cocktail. RESULTS: PEHRG214 strongly neutralized a diverse range of primary HIV-1 isolates, encompassing subtypes A to E and both CCR5 and CXCR4 phenotypes. Neutralization was enhanced by the presence of complement. PEHRG214 also induced complement-mediated lysis of all HIV-1 isolates tested, and recognized or cross-reacted with a number of host cell proteins. Lysis was abrogated by adsorption with T and/or B cells expressing GPI-linked proteins, but not by GPI-deficient B cells or red blood cells. CONCLUSIONS: PEHRG214 was found to potently neutralize and lyse HIV-1 particles. By targeting host cell proteins present in the viral envelope, which are conserved among all strains tested, PEHRG214 potentially opens up a highly novel means of eliminating circulating virus in infected individuals.
OBJECTIVES: To assess the potency, breadth of action, and mechanism of action of the polyclonal goat anti-HIV antibody, PEHRG214. DESIGN: Typical human antibody responses to HIV-1 infection are unable to neutralize virus efficiently, clear the infection, or prevent disease progression. However, more potent neutralizing antibodies may be capable of playing a pivotal role in controlling HIV replication in vivo. PEHRG214 is a polyclonal caprine antibody raised against purified HIV-associated proteins, such that epitopes that are immunologically silent in humans may potentially be recognized in another species. It has been administered safely to HIV-infected individuals in Phase I clinical trials. METHODS: The anti-HIV activity of PEHRG214 was assessed using neutralization and virion lysis assays. The target proteins for PEHRG214 activity were investigated using flow cytometry and by adsorption of anti-cell antibodies from the antibody cocktail. RESULTS: PEHRG214 strongly neutralized a diverse range of primary HIV-1 isolates, encompassing subtypes A to E and both CCR5 and CXCR4 phenotypes. Neutralization was enhanced by the presence of complement. PEHRG214 also induced complement-mediated lysis of all HIV-1 isolates tested, and recognized or cross-reacted with a number of host cell proteins. Lysis was abrogated by adsorption with T and/or B cells expressing GPI-linked proteins, but not by GPI-deficient B cells or red blood cells. CONCLUSIONS: PEHRG214 was found to potently neutralize and lyse HIV-1 particles. By targeting host cell proteins present in the viral envelope, which are conserved among all strains tested, PEHRG214 potentially opens up a highly novel means of eliminating circulating virus in infected individuals.
Authors: Jae-Ouk Kim; Bimal K Chakrabarti; Anuradha Guha-Niyogi; Mark K Louder; John R Mascola; Lakshmanan Ganesh; Gary J Nabel Journal: J Virol Date: 2006-11-08 Impact factor: 5.103
Authors: Erin E Verity; Dimitra Zotos; Kim Wilson; Catherine Chatfield; Victoria A Lawson; Dominic E Dwyer; Anthony Cunningham; Jennifer Learmont; Wayne Dyer; John Sullivan; Melissa Churchill; Steven L Wesselingh; Dana Gabuzda; Paul R Gorry; Dale A McPhee Journal: J Virol Date: 2007-06-13 Impact factor: 5.103
Authors: Alicia Arnott; Darren Jardine; Kim Wilson; Paul R Gorry; Kate Merlin; Patricia Grey; Matthew G Law; Elizabeth M Dax; Anthony D Kelleher; Don E Smith; Dale A McPhee Journal: PLoS One Date: 2010-09-09 Impact factor: 3.240
Authors: Cassandra D Kelly; Chris O'Loughlin; Frank B Gelder; Johnny W Peterson; Laurie E Sower; Nick M Cirino Journal: J Immune Based Ther Vaccines Date: 2007-10-22