Last data update: Dec 09, 2024. (Total: 48320 publications since 2009)
Records 1-15 (of 15 Records) |
Query Trace: Vishwanathan S[original query] |
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Broadly neutralizing antibody-mediated protection against SHIV infection among macaques with vaginal sexually transmitted infections
Garber DA , Guenthner P , Zhao C , Mitchell J , Ellis S , Jia H , Manganare M , Gazumyan A , Seaman MS , Vishwanathan SA , Heneine W , McNicholl JM . AIDS 2023 37 (5) 723-731 OBJECTIVE: Sexually transmitted infections (STIs) increase mucosal HIV infection risk and have the potential to reduce preexposure prophylaxis efficacy. Clinical trials of a broadly neutralizing antibody (bNAb) provided proof-of-concept that passive immunization against HIV can be efficacious in people. We sought to evaluate preclinically the protective efficacy of passive bNAb immunization against simian-human immunodeficiency virus (SHIV) infection in the context of concurrent vaginal STIs. DESIGN: Using a macaque model of combined ulcerative and nonulcerative vaginal STIs caused by Treponema pallidum, Chlamydia trachomatis, and Trichomonas vaginalis, we determined the protection that passively administered bNAb 10-1074 conferred against repeated vaginal SHIV challenges and compared correlates of protection to contemporaneous and historical controls without STIs. METHODS: Plasma viremia was monitored via RT-qPCR assay. Concentrations of 10-1074 were determined longitudinally in plasma samples via TZM-bl pseudovirus neutralization assay. RESULTS: Among macaques with vaginal STIs, a single subcutaneous injection of 10-1074 durably protected against vaginal SHIV acquisition, as compared with untreated controls. Interestingly, the median plasma concentration of 10-1074 at the time of SHIV breakthrough among macaques with STIs was significantly higher (10-fold) than that previously observed among 10-1074-treated macaques in the absence of STIs. CONCLUSION: Passive immunization with 10-1074 conferred significant protection against repeated vaginal SHIV challenges among macaques harboring vaginal STIs. However, our findings suggest that higher bNAb concentrations may be required for prophylaxis when STIs are present. Our findings potentially impact dose selection for the clinical development of bNAbs and highlight the importance of additional preclinical efficacy testing in STI models. |
Sexually transmitted infections and depot medroxyprogesterone acetate do not impact protection from SHIV acquisition by long-acting cabotegravir in macaques
Vishwanathan SA , Zhao C , Luthra R , Khalil GK , Morris MM , Dinh C , Gary MJ , Mitchell J , Spreen WR , Pereira LE , Heneine W , García-Lerma JG , McNicholl JM . AIDS 2021 36 (2) 169-176 OBJECTIVE: We had previously shown that long-acting cabotegravir (CAB-LA) injections fully protected macaques from vaginal simian HIV (SHIV) infection. Here, we reassessed CAB-LA efficacy in the presence of depot medroxyprogesterone acetate and multiple sexually transmitted infections (STI) that are known to increase HIV susceptibility in women. DESIGN: Two macaque models of increasing vaginal STI severity were used for efficacy assessment. METHODS: The first study (n = 11) used a double STI model that had repeated exposures to two vaginal STI, Chlamydia trachomatis (CT) and Trichomonas vaginalis (TV). Six animals were CAB-LA treated and 5 were controls. The second study (n = 9) included a triple STI model with repeated exposures to CT, TV and syphilis, and the contraceptive, depot medroxyprogesterone acetate (DMPA). Six animals were CAB-LA treated and three were controls. All animals received up to 14 vaginal SHIV challenges. A survival analysis was performed to compare the number of SHIV challenges to infection in the drug-treated group compared to untreated controls over time. RESULTS: All 6 CAB-LA treated animals in both models, the double STI or the triple STI-DMPA model, remained protected after 14 SHIV vaginal challenges while the untreated animals became SHIV-infected after a median of 2 challenges (log-rank p < 0.001) or 1 challenge (log-rank p = 0.002), respectively. Both models recapitulated human STI disease, with vaginal discharge, ulcers and seroconversion. CONCLUSION: In these high and sustained susceptibility models spanning more than 3 months, CAB-LA maintained complete efficacy, demonstrating robustness of the CAB-LA dose used in clinical trials, and suggesting its insensitivity to multiple STIs and DMPA. |
A nonhuman primate model for rectally transmitted syphilis
Tansey C , Zhao C , Hopkins A , Ritter JM , Fakile YF , Pillay A , Katz SS , Pereira L , Mitchell J , Deyounks F , Kersh EN , McNicholl JM , Vishwanathan SA . J Infect Dis 2018 217 (7) 1139-1144 Among men who have sex with men (MSM), those with a diagnosis of syphilis or other rectal sexually transmitted infections (STIs) are at a higher risk for human immunodeficiency virus acquisition, which is concerning given the large increase in recently reported syphilis cases in the United States. We have developed the first nonhuman primate model for rectally transmitted syphilis by exposing simian/human immunodeficiency virus-infected and naive rhesus macaques to Treponema pallidum in the rectum. All animals showed mucosal lesions, systemic dissemination, and seroconversion (treponemal antibodies). This model would be valuable for studying the manifestations of and interventions for T. pallidum infection, with and without human immunodeficiency virus coinfection. |
Progestin-based contraception regimens modulate expression of putative HIV risk factors in the vaginal epithelium of pig-tailed Macaques.
Bosinger SE , Tharp GK , Patel NB , Zhao C , Payne TL , Dietz Ostergaard S , Butler K , Ellis S , Johnson RL , Kersh EN , McNicholl JM , Vishwanathan SA . Am J Reprod Immunol 2018 80 (4) e13029 PROBLEM: In women, the use of progestin-based contraception may increase the risk of vaginal HIV acquisition. We previously showed in macaques that there is a significantly higher simian-human immunodeficiency virus (SHIV) acquisition rate in the luteal phase of the menstrual cycle, which presents a naturally high-progesterone state, and this may be attributable to altered expression of innate immune factors. We hypothesized that progestin-based contraception, especially depot medroxyprogesterone acetate (DMPA), would, in a similar way, affect mucosal immune factors that influence HIV acquisition risk. METHOD OF STUDY: We used a pig-tailed macaque model to evaluate the effects of two progestin-based contraceptives, DMPA, and levonorgestrel (LNG)/ethinyl estradiol (EE)-based combined oral contraceptives (COCs), on innate mucosal factors. We compared the vaginal epithelial thickness data from previous studies and used cytokine profiling and microarray analysis to evaluate contraception-induced molecular changes in the vagina. RESULTS: The administration of DMPA caused a reduction in the thickness of the vaginal epithelium relative to that of the follicular or luteal phase. DMPA also induced a significant increase in vaginal levels of the anti-inflammatory cytokine IL-10. Both DMPA- and LNG-based contraception induced a signature of gene expression similar to that of the luteal phase, only more exacerbated, including widespread downregulation of antiviral genes. CONCLUSION: The use of progestin-based contraception might engender a milieu that poses an increased risk of HIV acquisition as compared to both the luteal and follicular phases of the menstrual cycle. |
A macaque model for rectal lymphogranuloma venereum and non-lymphogranuloma venereum Chlamydia trachomatis: Impact on rectal simian/human immunodeficiency virus acquisition
Vishwanathan SA , Aubert RD , Morris MR , Zhao C , Philips C , Khalil GM , Deyounks F , Kelley K , Ritter JM , Chen CY , Kersh EN , McNicholl JM . Sex Transm Dis 2017 44 (9) 551-556 BACKGROUND: Sustained genital tract inflammation caused by sexually transmitted infections (STIs) is known to increase risk of vaginal human immunodeficiency virus (HIV) infections but, to our knowledge, there are no nonhuman primate studies that have evaluated its link to rectal HIV acquisition. METHODS: Rhesus macaques inoculated with Chlamydia trachomatis (CT) (serovars LGV-L2 and CT-E; n = 7) or saline (n = 7) received up to 20 rectal challenges twice a week of simian/HIV immunodeficiency virus (SHIVSF162p3). SHIV viremia was determined by real-time PCR and Chlamydia infection by APTIMA Combo 2 testing. The rectal cytokine-chemokine levels were evaluated by multiplex bead assays. RESULTS: Rectal Chlamydia infection was maintained throughout the study. We did not observe significant differences (P = 1.0) in frequency of SHIV acquisition between the STI and control arms. It took fewer SHIV challenges to infect the STI animals although the difference was not significant (P = 0.59). There were no significant differences in peak plasma viremia between STI and control arms (P = 0.63). The association of plasma viremia with rectal shedding was significantly different by arm (P = 0.038). CONCLUSIONS: In the first such study in a macaque model, we did not observe an increased risk of SHIV acquisition due to rectal Chlamydia coinfection. This macaque model can be further developed and expanded to better investigate the impact of different rectal STIs on HIV acquisition. |
Cataloguing of Potential HIV Susceptibility Factors during the Menstrual Cycle of Pig-Tailed Macaques by Using a Systems Biology Approach
Vishwanathan SA , Burgener A , Bosinger SE , Tharp GK , Guenthner PC , Patel NB , Birse K , Hanson DL , Westmacott GR , Henning T , Radzio J , Garcia-Lerma JG , Ball TB , McNicholl JM , Kersh EN . J Virol 2015 89 (18) 9167-77 Our earlier studies in pig-tailed macaques demonstrated varying SHIV susceptibility during the menstrual cycle, likely caused by cyclic variations in immune responses in the female genital tract. There is concern that high-dose, long-lasting, injectable progestin-based contraception could mimic the high-progesterone luteal phase and predispose women to HIV-1 acquisition and transmission. In this study, we adopted a systems biology approach employing proteomics (tandem mass spectrometry), transcriptomics (RNA microarray hybridization), and other specific protein assays (enzyme-linked immunosorbent assays and multiplex chemokine-cytokine measurements) to characterize the effects of hormonal changes on the expression of innate factors and secreted proteins in the macaque vagina. Several antiviral factors and pathways (including acute phase response signaling and complement system) were overexpressed in the follicular phase. Conversely, during the luteal phase there were factors overexpressed (including moesins, syndecans, integrins, among others) that could play direct or indirect roles in enhancing HIV-1 infection. Thus, our study showed that specific pathways and proteins/genes might be working in tandem to regulate innate immunity, thus fostering further investigation and future design of approaches to help counter HIV-1 acquisition in the female genital tract. IMPORTANCE: HIV infection in women is poorly understood. High levels of the hormone progesterone may make women more vulnerable to infection. This could be the case during the menstrual cycle, when using hormone-based birth control, or during pregnancy. The biological basis for increased HIV vulnerability is not known. We used an animal model with high risk for infection during periods of high progesterone. Genital secretions and tissues were studied during the menstrual cycle. Our goal was to identify biological factors upregulated at high progesterone levels, and we indeed show an upregulation of genes and proteins which enhance the ability of HIV to infect when progesterone is high. In contrast, during low progesterone periods, we find more HIV inhibitory factors. This basic research study contributes to our understanding of mechanisms that may regulate HIV infection in females under hormonal influences. Such knowledge is needed for the development of novel prevention strategies. |
Macaque models of enhanced susceptibility to HIV
Henning TR , McNicholl JM , Vishwanathan SA , Kersh EN . Virol J 2015 12 (1) 90 There are few nonhuman primate models of enhanced HIV susceptibility. Such models can improve comprehension of HIV acquisition risk factors and provide rigorous testing platforms for preclinical prevention strategies. This paper reviews past, current, and proposed research on macaque HIV acquisition risk models and identifies areas where modeling is significantly lacking. We compare different experimental approaches and provide practical considerations for designing macaque susceptibility studies. Modifiable (mucosal and systemic coinfections, hormonal contraception, and rectal lubricants) and non-modifiable (hormonal fluctuations) risk factors are highlighted. Risk acquisition models via vaginal, rectal, and penile challenge routes are discussed. There is no consensus on the best statistical model for evaluating increased susceptibility, and additional research is required. The use of enhanced susceptibility macaque models would benefit multiple facets of the HIV research field, including basic acquisition and pathogenesis studies as well as the vaccine and other biomedical preventions pipeline. |
Rectal application of a highly osmolar personal lubricant in a macaque model induces acute cytotoxicity but does not increase risk of SHIV infection
Vishwanathan SA , Morris MR , Wolitski RJ , Luo W , Rose CE , Blau DM , Tsegaye T , Zaki SR , Garber DA , Jenkins LT , Henning TC , Patton DL , Hendry RM , McNicholl JM , Kersh EN . PLoS One 2015 10 (4) e0120021 BACKGROUND: Personal lubricant use is common during anal intercourse. Some water-based products with high osmolality and low pH can damage genital and rectal tissues, and the polymer polyquaternium 15 (PQ15) can enhance HIV replication in vitro. This has raised concerns that lubricants with such properties may increase STD/HIV infection risk, although in vivo evidence is scarce. We use a macaque model to evaluate rectal cytotoxicity and SHIV infection risk after use of a highly osmolar (>8,000 mOsm/kg) water-based lubricant with pH of 4.4, and containing PQ15. METHODS: Cytotoxicity was documented by measuring inflammatory cytokines and epithelial tissue sloughing during six weeks of repeated, non-traumatic lubricant or control buffer applications to rectum and anus. We measured susceptibility to SHIVSF162P3 infection by comparing virus doses needed for rectal infection in twenty-one macaques treated with lubricant or control buffer 30 minutes prior to virus exposure. RESULTS: Lubricant increased pro-inflammatory cytokines and tissue sloughing while control buffer (phosphate buffered saline; PBS) did not. However, the estimated AID50 (50% animal infectious dose) was not different in lubricant- and control buffer-treated macaques (p = 0.4467; logistic regression models). CONCLUSIONS: Although the test lubricant caused acute cytotoxicity in rectal tissues, it did not increase susceptibility to infection in this macaque model. Thus neither the lubricant-induced type/extent of inflammation nor the presence of PQ15 affected infection risk. This study constitutes a first step in the in vivo evaluation of lubricants with regards to HIV transmission. |
Viremic control is independent of repeated low-dose SHIV exposures
Henning TR , Hanson D , Vishwanathan SA , Butler K , Dobard C , Garcia-Lerma G , Radzio J , Smith J , McNicholl JM , Kersh EN . AIDS Res Hum Retroviruses 2014 30 (11) 1125-9 The repeat low-dose virus challenge model is commonly used in nonhuman primate studies of HIV transmission and biomedical preventions. For some viruses or challenge routes, it is uncertain whether the repeated exposure design might induce virus-directed innate or adaptive immunity that could affect infection or viremic outcomes. Retrospective cohorts of male Indian rhesus (n=40) and female pigtail (n=46) macaques enrolled in repeat low-dose rectal or vaginal SHIVSF162p3 challenge studies, respectively, were studied to compare the relationship between the number of previous exposures and peak plasma SHIV RNA levels or viral load area under the curve (AUC), surrogate markers of viral control. Repeated mucosal exposures of 10 or 50 TCID50 of virus for rectal and vaginal exposures, respectively, were performed. Virus levels were measured by quantitative reverse-transcriptase real-time PCR. The cumulative number of SHIVSF162p3 exposures did not correlate with observed peak virus levels or with AUC in rectally challenged rhesus macaques [peak: rho (rho)=0.04, p=0.8; AUC: rho=0.33, p=0.06] or vaginally challenged pigtail macaques (peak: rho=-0.09, p=0.7; AUC: rho=0.11, p=0.6). Infections in these models occur independently of exposure history and provide assurance that neither inoculation route nor number of exposures required for infection correlates with postinfection viremia. These data also indicate that both the vaginal and rectal repeated low-dose virus exposure models using SHIVSF162p3 provide a reliable system for nonhuman primate studies. |
SHIV susceptibility changes during the menstrual cycle of pigtail macaques
Kersh EN , Henning T , Vishwanathan SA , Morris M , Butler K , Adams DR , Guenthner P , Srinivasan P , Smith J , Radzio J , Garcia-Lerma JG , Dobard C , Heneine W , McNicholl J . J Med Primatol 2014 43 (5) 310-6 BACKGROUND: Hormonal changes during menstrual cycling may affect susceptibility to HIV. METHODS: We determined the simian human immunodeficiency virus (SHIV) acquisition time point in 43 cycling pigtail macaques infected by repeated vaginal virus exposures initiated randomly in the cycle. RESULTS: SHIV infection was first detected in the follicular phase in 38 macaques (88%), and in the luteal phase in five macaques (12%), indicating a statistically significant timing difference. Assuming a 7-day eclipse phase, most infections occurred during or following a high-progesterone period associated with menstruation, vaginal epithelium thinning, and suppressed mucosal immunity. CONCLUSIONS: This raises questions whether other high-progesterone conditions (pregnancy, hormonal contraception) similarly affect HIV risk. |
Non-human primate models of hormonal contraception and HIV
McNicholl JM , Henning TC , Vishwanathan SA , Kersh EN . Am J Reprod Immunol 2014 71 (6) 513-22 PROBLEM: Recent concerns that hormonal contraception (HC) may increase risk of HIV acquisition has led to keen interest in using non-human primates (NHP) to understand the underlying mechanism and the magnitude of the risk. This is, in part, because some experiments which would be difficult or logistically impossible in women are more easily conducted in NHP. METHOD OF STUDY: NHP models of HIV can inform HIV acquisition and pathogenesis research and identify and evaluate biomedical preventions and treatments for HIV/AIDS. Widely used species include rhesus, pigtail, and cynomolgous macaques. RESULTS: This paper reviews past, current and proposed NHP research around the intersection of HIV and HC. CONCLUSION: NHP research may lead to the identification of hormonally regulated biomarkers that correlate with HIV-acquisition risk, to a ranking of existing or next-generation HC along an HIV-acquisition risk profile, and inform research around new biomedical preventions for HIV. |
Evaluation of pigtail macaques as a model for the effects of copper intrauterine devices on HIV infection
Engel RM , Morris M , Henning T , Ritter JM , Jones TL , Dietz S , Ayers J , Vishwanathan SA , Jenkins L , Zaki S , Wildemeersch D , Garber D , Powell N , Michael Hendry R , McNicholl J , Kersh EN . J Med Primatol 2013 43 (5) 349-59 BACKGROUND: Long-acting, hormonal contraception may increase HIV risk. Copper intrauterine devices (IUDs) could serve as non-hormonal alternatives. We pilot a pigtail macaque model for evaluating HIV susceptibility factors during copper IUD use. METHODS: Frameless and flexible GyneFix(R) copper IUDs were surgically implanted into three SHIVSF 162p3 -positive macaques via hysterotomy and monitored for up to 4 months. Four macaques served as non-IUD controls. RESULTS: All animals retained the devices without complications. No consistent change in vaginal viral RNA or inflammatory cytokines was seen. Two animals had altered menstrual cycles and experienced marked thinning of vaginal epithelium after IUD insertion. Histological examination of uterine tissue at necropsy revealed endometrial ulceration and lymphocytic inflammation with glandular loss at sites of direct IUD contact. CONCLUSIONS: Although the need for insertion surgery could limit its usefulness, this model will allow studies on copper IUDs and SHIV shedding, disease progression, and HIV susceptibility factors. |
Evaluation of the lymphocyte trafficking drug FTY720 in vaginal tissues
Tsuiki A , Luo W , Henning T , Vishwanathan S , Dinh C , Adams D , Sweeney E , Mitchell J , Bachman S , Sharma P , Powell N , Hendry M , McNicholl J , Kersh E . J Med Primatol 2013 42 (2) 89-100 BACKGROUND: FTY720 is an immunomodulatory agent that reduces lymphocytes in peripheral tissues and circulation. Such agents may be effective as vaginal microbicides for HIV prevention. Systemic or vaginal application of FTY720 may reduce lymphocyte concentrations in genital tissues, reducing HIV target cell numbers. METHODS: Five female pigtail macaques received topical vaginal gel FTY720 (n = 2), intravenous (IV) FTY720 (n = 2), or placebo gel (n = 1) in this pilot study. Circulating and mucosal lymphocytes and genital mucosa, cytokines, and tissue histology were analyzed to document topical and IV FTY720 effects. RESULTS: Topical and IV FTY720 appeared to decrease the levels of cervicovaginal IL-8, IL-1ra, and genital inflammatory cells. Small sample size precluded statistical analysis. Topical administration had no overt adverse effects. CONCLUSIONS: This study introduces FTY720 as an immunomodulatory agent for the vaginal mucosa, compares topical effects to those of IV administration, and provides the basis for future studies involving FTY720 for HIV prevention. |
Longitudinal assessment of pigtailed macaque lower genital tract microbiota by pyrosequencing reveals dissimilarity to the genital microbiota of healthy humans
Spear GT , Kersh E , Guenthner P , Vishwanathan SA , Gilbert D , Zariffard MR , Mirmonsef P , Landay A , Zheng L , Gillevet P . AIDS Res Hum Retroviruses 2012 28 (10) 1244-9 Vaginal bacterial communities play an important role in human health and have been shown to influence HIV infection. Pigtailed macaques (Macaca nemestrina) are used as an animal model of HIV vaginal infection of women. Since the bacterial microbiota could influence retrovirus infection of pigtailed macaques, the genital microbiota in 10 cycling macaques was determined by pyrosequencing. The microbiota of all macaques was polymicrobial with a median of 13 distinct genera. Strikingly, the genera Sneathia and Fusobacterium, both in the phylum Fusobacteria, accounted for 18.9% and 13.3% of sequences while the next most frequent were Prevotella (5.6%), Porphyromonas (4.1%), Atopobium (3.6%), and Parvimonas (2.6%). Sequences corresponding to Lactobacillus comprised only 2.2% of sequences on average and were essentially all L. amylovorus. Longitudinal sampling of the 10 macaques over an 8-week period, which spanned at least one full ovulatory cycle, showed a generally stable presence of the major types of bacteria with some exceptions. These studies show that the microbiota of the pigtailed macaques is substantially dissimilar to that found in most healthy humans, where the genital microbiota is usually dominated by Lactobacillus sp. The polymicrobial makeup of the macaque bacterial populations, the paucity of lactobacilli, and the specific types of bacteria present suggest that the pigtailed macaque microbiota could influence vaginal retrovirus infection. |
High susceptibility to repeated, low-dose, vaginal SHIV exposure late in the luteal phase of the menstrual cycle of pigtail macaques
Vishwanathan SA , Guenthner PC , Lin CY , Dobard C , Sharma S , Adams DR , Otten RA , Heneine W , Hendry RM , McNicholl JM , Kersh EN . J Acquir Immune Defic Syndr 2011 57 (4) 261-4 Fluctuations in susceptibility to HIV or SHIV during the menstrual cycle are currently not fully documented. To address this, time point of infection was determined in 19 adult female pigtail macaques vaginally challenged during their undisturbed menstrual cycles with repeated, low-dose SHIVSF162P3 exposures. Eighteen macaques (95%) first displayed viremia in the follicular phase, as compared to 1 macaque (5%) in the luteal phase (p<0.0001). Due to a viral eclipse phase, we estimated a window of most frequent virus transmission between days 24-31 of the menstrual cycle, in the late luteal phase. Thus, susceptibility to vaginal SHIV infection is significantly elevated in the second half of the menstrual cycle when progesterone levels are high, and when local immunity may be low. Such susceptibility windows have been postulated before but not definitively documented. Our data support findings of higher susceptibility to HIV in women during progesterone-dominated periods including pregnancy and contraceptive use. |
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