OBJECTIVES: The antiviral activity of CD4 miniproteins was evaluated as potential HIV microbicides, using relevant in vitro models. METHODS: Compounds were tested in a single-cycle HIV-1 pseudovirus assay and against replication competent HIV-1 in co-cultures of monocyte-derived dendritic cells (MO-DC) and CD4+ T cells. Cytotoxic activity was evaluated in an MTT assay. RESULTS: Monomeric miniproteins (M47 and M48) showed 50% effective concentration (EC(50)) values of 79-105 nM against a subtype B, CCR5 co-receptor-using Ba-L pseudovirus. Higher activity was found for the dimeric miniproteins M48D30, M48D50 and M48D100 (EC(50) between 15 and 30 nM), in contrast to the tetrameric miniproteins M48T30, M48T50 and M48T100 (EC(50) between 107 and 377 nM). The hetero-bivalent miniprotein M48-Hep and miniproteins that targeted the Phe-43 cavity on gp120 (M48-U1, M48-U2 and M48-U3) were highly active, with EC(50) values as low as 2 nM for M48-U1. All miniproteins showed high activity against CCR5 or CXCR4 co-receptor-using subtype B and CRF-01_A/E pseudoviruses. Many early M48-based compounds were much less active against subtype C pseudoviruses, whereas M48-U compounds that targeted the Phe-43 cavity were very active against all pseudoviruses, including subtype C. In MO-DC/CD4+ T cell co-cultures with replication-competent HIV-1 Ba-L, EC(50) values ranged between 13 and 1719 nM depending on the miniprotein, with M48-U1, M48-U2 and M48-U3 again being the most potent. Importantly, the latter compounds completely prevented viral replication by treating the cultures from 2 h before until 24 h after infection, at non-toxic concentrations of 66-6564 nM. CONCLUSIONS: These novel CD4 miniproteins might constitute a promising class of HIV microbicides.
OBJECTIVES: The antiviral activity of CD4 miniproteins was evaluated as potential HIV microbicides, using relevant in vitro models. METHODS: Compounds were tested in a single-cycle HIV-1 pseudovirus assay and against replication competent HIV-1 in co-cultures of monocyte-derived dendritic cells (MO-DC) and CD4+ T cells. Cytotoxic activity was evaluated in an MTT assay. RESULTS: Monomeric miniproteins (M47 and M48) showed 50% effective concentration (EC(50)) values of 79-105 nM against a subtype B, CCR5 co-receptor-using Ba-L pseudovirus. Higher activity was found for the dimeric miniproteins M48D30, M48D50 and M48D100 (EC(50) between 15 and 30 nM), in contrast to the tetrameric miniproteins M48T30, M48T50 and M48T100 (EC(50) between 107 and 377 nM). The hetero-bivalent miniprotein M48-Hep and miniproteins that targeted the Phe-43 cavity on gp120 (M48-U1, M48-U2 and M48-U3) were highly active, with EC(50) values as low as 2 nM for M48-U1. All miniproteins showed high activity against CCR5 or CXCR4 co-receptor-using subtype B and CRF-01_A/E pseudoviruses. Many early M48-based compounds were much less active against subtype C pseudoviruses, whereas M48-U compounds that targeted the Phe-43 cavity were very active against all pseudoviruses, including subtype C. In MO-DC/CD4+ T cell co-cultures with replication-competent HIV-1 Ba-L, EC(50) values ranged between 13 and 1719 nM depending on the miniprotein, with M48-U1, M48-U2 and M48-U3 again being the most potent. Importantly, the latter compounds completely prevented viral replication by treating the cultures from 2 h before until 24 h after infection, at non-toxic concentrations of 66-6564 nM. CONCLUSIONS: These novel CD4 miniproteins might constitute a promising class of HIV microbicides.
Authors: Priyamvada Acharya; Timothy S Luongo; Ivelin S Georgiev; Julie Matz; Stephen D Schmidt; Mark K Louder; Pascal Kessler; Yongping Yang; Krisha McKee; Sijy O'Dell; Lei Chen; Daniel Baty; Patrick Chames; Loïc Martin; John R Mascola; Peter D Kwong Journal: J Virol Date: 2013-07-10 Impact factor: 5.103
Authors: Grégoire Martin; Brian Burke; Robert Thaï; Antu K Dey; Olivier Combes; Oscar H P Ramos; Bernadette Heyd; Anthony R Geonnotti; David C Montefiori; Elaine Kan; Ying Lian; Yide Sun; Toufik Abache; Jeffrey B Ulmer; Hocine Madaoui; Raphaël Guérois; Susan W Barnett; Indresh K Srivastava; Pascal Kessler; Loïc Martin Journal: J Biol Chem Date: 2011-04-12 Impact factor: 5.157
Authors: Carlos G Moscoso; Yide Sun; Selina Poon; Li Xing; Elaine Kan; Loïc Martin; Dominik Green; Frank Lin; Anders G Vahlne; Susan Barnett; Indresh Srivastava; R Holland Cheng Journal: Proc Natl Acad Sci U S A Date: 2011-03-28 Impact factor: 11.205
Authors: Adi Moseri; Subramanyam Tantry; Fa-Xiang Ding; Fred Naider; Jacob Anglister Journal: AIDS Res Hum Retroviruses Date: 2012-12-26 Impact factor: 2.205
Authors: Laurence Morellato-Castillo; Priyamvada Acharya; Olivier Combes; Johan Michiels; Anne Descours; Oscar H P Ramos; Yongping Yang; Guido Vanham; Kevin K Ariën; Peter D Kwong; Loïc Martin; Pascal Kessler Journal: J Med Chem Date: 2013-06-11 Impact factor: 7.446
Authors: Amit Mor; Eugenia Segal; Brenda Mester; Boris Arshava; Osnat Rosen; Fa-Xiang Ding; Joseph Russo; Amnon Dafni; Fabian Schvartzman; Tali Scherf; Fred Naider; Jacob Anglister Journal: Biochemistry Date: 2009-04-21 Impact factor: 3.162