In Vivo Binding and Retention of CD4-Specific DARPin 57.2 in Macaques

The recently described Designed Ankyrin Repeat Protein (DARPin) technology can produce highly selective ligands to a variety of biological targets at a low production cost.To investigate the in vivo use of DARPins for future application to novel anti-HIV strategies, we identified potent CD4-specific DARPins that recognize rhesus CD4 and followed the fate of intravenously injected CD4-specific DARPin 57.2 in rhesus macaques. The human CD4-specific DARPin 57.2 bound macaque CD4(+) cells and exhibited potent inhibitory activity against SIV infection in vitro. DARPin 57.2 or the control E3_5 DARPin was injected into rhesus macaques and the fate of cell-free and cell-bound CD4-specific DARPin was evaluated. DARPin-bound CD4(+) cells were detected in the peripheral blood as early as 30 minutes after the injection, decreasing within 6 hours and being almost undetectable within 24 hours. The amount of DARPin bound was dependent on the amount of DARPin injected. CD4-specific DARPin was also detected on CD4(+) cells in the lymph nodes within 30 minutes, which persisted with similar kinetics to blood. More extensive analysis using blood revealed that DARPin 57.2 bound to all CD4(+) cell types (T cells, monocytes, dendritic cells) in vivo and in vitro with the amount of binding directly proportional to the amount of CD4 on the cell surface. Cell-free DARPins were also detected in the plasma, but were rapidly cleared from circulation.We demonstrated that the CD4-specific DARPin can rapidly and selectively bind its target cells in vivo, warranting further studies on possible clinical use of the DARPin technology

Primary SIVsm isolates use the CCR5 coreceptor from sooty mangabeys naturally infected in West Africa: A comparison of coreceptor usage of primary SIVsm, HIV-2, and SIVmac

Genetically divergent strains of simian immunodeficiency virus (SIV) from macaques (mac), chimpanzees, and sooty mangabeys (SM) efficiently used rhesus and human CCR5 (R5), but not CXCR4 (xR4), for cell entry. Thus far, however, no studies have characterized primary SIVsm strains for their use of coreceptors derived from their own natural host. Coreceptor usage of two primary, blood-derived SIVsm isolates, SIVsmSL92b and SIVsmFNS from naturally infected sooty mangabeys, was determined. Primary SIVsm efficiently used SM- CCR5 expressed on HOS.CD4 and U87.CD4 cells. Sequence polymorphisms in CCR5 found in four sooty mangabeys did not alter viral entry. Unlike primary rhesus blood-derived R5-tropic SIVmac251, primary SM blood-derived R5-tropic SIVsm was strongly CD4 dependent. The SM-CXCR4 gene was fully functional for xR4-tropic primate lentiviruses, but was not used by primary SIVsm. Therefore, the lack of xR4 tropism among naturally occurring SIVsm strains was not due to CxCR4 gene defects in the natural host. SIVmac derived from four macaques with AIDS also did not use macaque- or SM-derived CXCR4, showing that xR4 tropism did not develop during progression to disease as for humans infected with HIV-1. Three of four primary HIV-2 strains used CCR5 from human, sooty mangabey, and macaque. The fourth, HIV-27924A, obtained from a patient with AIDS, was xR4-tropic. Because SIVmac is most closely related to HIV-2, SIVmac might be expected to mimic tropisms of HIV-2 infections. However, the correlation between xR4 tropism and AIDS may be a species-specific phenomenon limited to humans. The R5-tropic primary SIVsm and HIV-2 strains grew in CCR5-negative human PBMC, consistent with their use of non-CCR5 coreceptors. However, primary SIVsmSL92b did not use non-CCR5 coreceptors efficiently. The two primary SIVsm isolates replicated poorly in CEMx174 cells, which do not express CCR5, compared to CCR5-positive PM1 cells. SIVmac grew equally well in both cell lines. The findings show that SM-chemokine receptors are fully functional for virus entry and that multicoreceptor tropism is a common property of primary lentiviruses within the SIVsm/HIV-2 subfamily.link_to_subscribed_fulltex

Genetic characterization of new west african simian immunodeficiency virus sivsm: Geographic clustering of household-derived SIV strains with human immunodeficiency virus type 2 subtypes and genetically diverse viruses from a single feral sooty mangabey troop

It has been proposed that human immunodeficiency virus type 2 (HIV-2) originated from simian immunodeficiency viruses (SIVs) that are natural infections of sooty mangabeys (Cercocebus torquatus atys). To test this hypothesis, SIVs from eight sooty mangabeys, including six new viruses from West Africa, were genetically characterized. gag and env sequences showed that while the viruses of all eight sooty mangabeys belonged to the SIVsm/HIV-2 family, each was widely divergent from SIVs found earlier in captive monkeys at American primate centers. In two SIVs from sooty mangabeys discovered about 100 miles (ca. 161 Km) from each other in rural West Africa, the amino acids of a conserved gag p17-p26 region differed by 19.3%, a divergence greater than that in four of five clades of HIV-2 and in SIVs found in other African monkey species. Analysis of gag region sequences showed that feral mangabeys in one small troop harbored four distinct SIVs. Three of the newly found viruses were genetically divergent, showing as much genetic distance from each other as from the entire SIVsm/HIV-2 family. Sequencing and heteroduplex analysis of one feral animal-derived SIV showed a mosaic genome containing an env gene that was homologous with other feral SIVsm env genes in the troop but having a gag gene from another, distinct SIV. Surprisingly a gag phylogenetic tree based on nucleotide sequences showed that the African relatives closest to all three household-derived SIVs were HIV-2 subtypes D and E from humans in the same West African areas. In one case, the SIV/HIV-2 cluster was from the same village. The findings support the hypothesis that each HIV-2 subtype in West Africans originated from widely divergent SIVsm strains, transmitted by independent cross-species events in the same geographic locations.link_to_subscribed_fulltex

CD4+ lymphocytopenia in acute infection of Asian macaques by a vaginally transmissible subtype-C, CCR5-tropic simian/human immunodeficiency virus (SHIV)

An R5-tropic SHIVCHN19P4 was previously generated using a primary HIV-1 subtype-C envelope. We have further characterized this SHIV in two species of macaques. To determine whether this isolate is transmissible vaginally, female pigtailed macaques were inoculated with 2x103 TCID50 of SHIVCHN19P4 by the vaginal route. Animals became infected with a high peak plasma viremia (>107 viral copies/mL) and rapid seroconversion. The viremia was accompanied by CD4+ lymphocytopenia in the gut lamina propria lymphocyte (LPL) population. Comparable CD4+ T-cell loss was not seen in peripheral blood and colonic lymph nodes. These findings demonstrate a unique R5-tropic SHIV that can be used to study envelope-related issues in vaginal transmission of the most prevalent subtype of HIV-1. We also found that rhesus macaques intravenously inoculated with I x 103 TCID50 of SHIVCHN19P4 became infected and showed CD4+ lymphocytopenia in the gut LPL population. Despite inactivation of the vpu gene in SHIVCHN19P4, the virus appears to target mainly gut-associated lymphoid tissues during the initial stage of infection as has been described for SHIVSF162P, another R5-tropic (subtype B) recombinant virus. Our data indicate that the R5-mediated CD4+ lymphocytopenia in the gut is likely independent of HIV-1 genotypes and of the function of vpu at the acute phase of viral infection.link_to_subscribed_fulltex

Characterization of monoclonal antibodies that distinguish simian immunodeficiency virus isolates from each other and from human immunodeficiency virus types 1 and 2

Two monoclonal antibodies (MAbs) against p27 and one against p17 of simian immunodeficiency virus (SIV) from rhesus macaques were produced and characterized by reacting with disrupted, viral antigens on immunoblots. Human immunodeficiency virus type 1 (HIV-1), HIV-2 and SIV isolates from sooty mangabey, stump-tailed macaque, rhesus macaque and African green monkey (SIVSM, SIVStM, SIVMAC and SIVAGM) were used for comparative analysis. The p27 monoclonal antibodies HE3 and FA2 reacted with SIVMAC and SIVSM, but not with HIV-1, HIV-2, SIVStM and SIVAGM. The p17 monoclonal antibodies reacted with SIVMAC and SIVStM, but not HIV-1, HIV-2, SIVSM and SIVAGM. The differential reactivity of these monoclonal antibodies indicated that common conserved antigenic epitopes are shared between SIVMAC and SIVSM with respect to p27 MAbs and between SIVMAC and SIVStM with respect to p17. Since these MAbs reacted differently with the SIV isolates, they are useful reagents for comparative pathogenesis studies for differentiating SIV isolates