Sal Butera

Efficacy of Postexposure Prophylaxis after Intravaginal Exposure of Pig-Tailed Macaques to a Human-Derived Retrovirus (Human Immunodeficiency Virus Type 2)

ABSTRACT Postexposure prophylaxis (PEP) after intravaginal exposure to human immunodeficiency virus (HIV) was investigated using the HIV type 2 (HIV-2)/pig-tailed macaque transmission model. PEP for 28 days with the reverse transcriptase inhibitor (R)-9-(2-phosphonylmethoxypropyl)adenine (PMPA; tenofovir) was initiated 12 to 72 h following HIV-2 exposure. Systemic infection was not evident in the 12- and 36-h groups, as defined by plasma viremia, cell-associated provirus, antibody responses, and lymph node virus. Breakthrough infection in the 72-h group was detected at week 16 post-virus exposure. These results demonstrate for the first time using a vaginal transmission model that early intervention after high-risk sexual exposures may prevent infection.

Multiple Vaginal Exposures to Low Doses of R5 Simian-Human Immunodeficiency Virus: Strategy to Study HIV Preclinical Interventions in Nonhuman Primates

A nonhuman-primate model of human immunodeficiency virus type 1 (HIV-1) infection that more closely emulates human heterosexual transmission by use of multiple exposures to low doses of virus is critical to better evaluate intervention strategies that include microbicides or vaccines. In this report, we describe such a system that uses female pig-tailed macaques exposed vaginally to a CCR5-using simian-human immunodeficiency virus (SHIV(SF162P3)) at weekly intervals. Results of dose-titration experiments indicated that 3 once-weekly exposures to 10 tissue culture infectious doses of SHIV(SF162P3) resulted in consistent transmission of virus and establishment of systemic infection. The efficacy of cellulose acetate phthalate (CAP) as a vaginal microbicide was evaluated by applying it to the vaginal vault of macaques (n = 4) 15 min before each weekly exposure to SHIV(SF162P3). One conclusion that can be drawn from the data derived from multiple exposures to virus is that CAP prevented infection in 12 of 13 possible chances for infection, over the course of 39 total exposures. Our findings provide a basis to refine monkey models for transmission of HIV-1, which may be relevant to preclinical evaluation for therapeutic interventions.

Development and evaluation of a vaginal ring device for sustained delivery of HIV microbicides to non‐human primates

Background  There is considerable interest in developing coitally independent, sustained release formulations for long‐term administration of HIV microbicides. Vaginal ring devices are at the forefront of this formulation strategy.

Repetitive exposures with simian/human immunodeficiency viruses : strategy to study HIV pre-clinical interventions in non-human primates

Background  Non‐human primate models for human immunodeficiency virus (HIV) infection represent a valuable pre‐clinical tool to evaluate interventions (e.g., topical microbicides, vaccines, and chemoprophylaxis) designed to prevent transmission or slow disease progression after infection. Standard transmission models use a single‐dose exposure with high, non‐physiologic levels of virus to approach 100% infection rates of control animals. These single‐exposure models do not represent the circumstances of mucosal HIV transmission in humans and may result in misleading data with regard to intervention efficacy. Therefore, we have developed a repetitive mucosal exposure model using doses of virus that better reflects human exposures.

Systemic and mucosal immunological responses during repeated mucosal SHIV162P3 challenges prior to and following infection in pigtailed macaques

Local and systemic immunological changes following vaginal HIV-1 exposures are poorly characterized and may influence susceptibility to infection. Therefore, we examined longitudinal mucosal, plasma cytokine profiles and viral-specific T-cell responses (vSTRs) before and during weekly repeated low-dose SHIV(SF162P3) viral challenges in six female pigtailed macaques, even in the absence of overt systemic infection. Following a single viral challenge, induction of several cytokines was detected consistently in cervico-vaginal lavages (CVL). With additional exposure and documented systemic infection, a hallmark of response profile was defined as peak levels in both CVL (MCP-1, MIP-1alpha, TNF-alpha, IL-1beta, IL-1RA and IL-8) and plasma cytokines (MCP-1, eotaxin and IL-1RA) in the macaques. In the periphery, vSTRs were observed within the first one or two viral challenges, but prior to the detection of systemic infection in 5/6 exposed pigtailed macaques. These findings provide valuable information regarding mucosal HIV-1 infection that may benefit microbicide research and development.

Direct stringency comparison of two macaque models (single‐high vs. repeat‐low) for mucosal HIV transmission using an identical anti‐HIV chemoprophylaxis intervention

Backgroud  In our previous work, oral chemoprophylaxis with tenofovir disoproxil fumarate (TDF) provided partial protection in rhesus macaques against repeated low‐dose (RL) intrarectal SHIV162p3 exposure.

Pig-tailed Macaques Infected with Human Immunodeficiency Virus (HIV) Type 2GB122 or Simian/HIV89.6p Express Virus in Semen during Primary Infection: New Model for Genital Tract Shedding and Transmission

Characterizing human immunodeficiency virus (HIV) expression in semen during primary infection remains essential to understanding the risk of sexual transmission. This investigation represents the first systematic evaluation of male genital tract shedding to use a nonhuman primate model, including the impact of exposure route and viral virulence. Male macaques were inoculated with either a chronic disease-causing virus (HIV-2(GB122); n=4 intravenous; n=4 intrarectal) or an acutely pathogenic simian/HIV strain (SHIV(89.6P); n=2 intravenous). All macaques were systemically infected, and seminal plasma virion-associated RNA (vRNA) levels were approximately 10-fold lower than those in blood. In HIV-2(GB122) infection, seminal virus was delayed by 1-2 weeks compared with that in blood. Intrarectal inoculation resulted in a shorter duration of seminal vRNA expression and intermittent seminal cell provirus. No delays, higher peaks ( approximately 50-fold), or longer durations in seminal virus expression were noted for SHIV(89.6P) infection. This novel model definitively establishes that virus dissemination results in early peak seminal levels and provides a basis for evaluating interventions targeting male genital tract expression.

Resistance to Simian HIV infection is associated with high plasma interleukin-8, RANTES and Eotaxin in a macaque model of repeated virus challenges.

Animal models for research on susceptibility to HIV are currently not available. Here we explore whether a macaque model of repeated low-dose rectal or vaginal virus challenges could be employed. We tested the hypothesis that susceptibility to Simian HIV is not merely stochastic in this model but rather is associated with identifiable host factors. Forty macaques required a median of 3.5 SHIVSF162P3 challenges for infection. We studied the association of their susceptibility with 13 predisposing plasma cytokines/chemokines (RANTES, Eotaxin, monocyte chemoattractant protein (MCP)-1, IL-7, MIP-1β, TNF-α, MIP-1α, granulocyte colony-stimulating factor, IL-8, interferon-γ, IL-17, IL-1β, IL-6). Higher plasma RANTES, IL-8, and Eotaxin were associated with lower susceptibility, that is, higher resistance to infection. In a group of macaques with low IL-8 and RANTES, a median 3 exposures were required to infect; whereas, when either IL-8 or RANTES were high, a median 12 exposures were required. Thus, susceptibility was associated with identifiable discrete host factors and was not stochastic. In addition, the macaque model identified key human resistance factors (RANTES, Eotaxin), but also revealed a novel association with resistance (IL-8). Future direct evaluation of these or other factors in the animal model may be beneficial for developing new immunomodulation strategies for HIV prevention.

Evaluation of the lymphocyte trafficking drug FTY720 in SHIVSF162P3-infected rhesus macaques

OBJECTIVES FTY720 causes retention of lymphocytes in lymphatic tissues. Previous studies revealed that FTY720 can decrease or eliminate chronic viral infections of mice. We address here whether therapeutic use of FTY720 in simian human immunodeficiency virus (SHIV)-infected rhesus macaques could also decrease viraemia. METHODS FTY720 was administered intravenously to three SHIV(SF162P3)-infected macaques at 39, 7 or 6 weeks of infection; three control macaques (47, 48 or 6 weeks of infection) did not receive drug. FTY720 was given at 0.004 mg/kg on days 0, 1, 2, 14, 15 and 16, followed by 0.1 mg/kg on days 28, 29, 30, 42, 43 and 44. Blood was collected seven times throughout and four times during 47 days of follow-up. RESULTS Only the 0.1 mg/kg dose resulted in a reduction in mean blood CD4+ T cells and B cells (to 33% and 27% of pre-drug levels, P=0.0024 and 0.003, respectively). FTY720 treatment did not lead to significant deviations from the natural pattern of viral control. Plasma viraemia progressed from a range of 10(4)-10(2) copies/mL before treatment to 10(4)-temporarily undetectable levels on the last day of treatment. SHIV(SF162P3) was not eliminated, however, as plasma viraemia and proviral DNA persisted during the follow-up. No significant alterations in T cell activity were noted throughout the drug course. CONCLUSIONS FTY720 administration had no detectable therapeutic effect at the doses and schedules outlined here, although blood CD4+ T cells and B cells were effectively reduced. Future work might reveal whether FTY720 could be beneficial in more pathogenic SHIV, simian immunodeficiency virus or HIV infections.

Short Communication: No Evidence of Occult SHIV Infection as Demonstrated by CD8+ Cell Depletion after Chemoprophylaxis-Induced Protection from Mucosal Infection in Rhesus Macaques

Preexposure prophylaxis (PrEP) with antiretroviral drugs constitutes a promising strategy for HIV prevention. Potent PrEP regimens with reverse transcriptase inhibitors can prevent detectable SHIV infection in a repeated low-dose macaque model that resembles human transmission, supporting plans to quickly move this approach into human trials. However, the possibility remains that extremely low levels of virus replication could nonetheless occur during PrEP and seed viral reservoirs in tissues. Therefore, seemingly protected macaques may harbor occult virus that may be initially contained by cytotoxic T cells, but could emerge later. To explore this possibility, we studied whether CD8(+) cells suppress viremia in four rhesus macaques apparently protected by daily or intermittent Truvada (FTC and tenofovir) during 14 low-dose, rectal SHIV(SF162P3) challenges and during a subsequent drug washout period. CD8(+) cells were efficiently ablated with antibodies in these and two additional control macaques that were previously infected but had reached undetectable virus set points. During 4 weeks of follow-up, all four macaques remained free of plasma viremia and provirus in blood lymphocytes. In contrast, plasma viremia resurged to 10(6) to 10(7) copies per milliliter within 2 weeks in both control macaques. Thus, these results indicate that the undetectable viremia in the PrEP-protected macaques was not due to CD8(+) cells that were containing a low-level infection. Rather, the PrEP treatment created conditions in which infection was prevented, eliminated, or controlled by unknown mechanisms. These data provide important information for PrEP usage to prevent HIV transmission, and fully support the continued pursuit of PrEP prevention measures in humans.