Your search keyword '"Afam A. Okoye"' showing total 5 results

1. Early antiretroviral therapy in SIV-infected rhesus macaques reveals a multiphasic, saturable dynamic accumulation of the rebound competent viral reservoir

Author

Brandon F. Keele, Afam A. Okoye, Christine M. Fennessey, Benjamin Varco-Merth, Taina T. Immonen, Emek Kose, Andrew Conchas, Mykola Pinkevych, Leslie Lipkey, Laura Newman, Agatha Macairan, Marjorie Bosche, William J. Bosche, Brian Berkemeier, Randy Fast, Mike Hull, Kelli Oswald, Rebecca Shoemaker, Lorna Silipino, Robert J. Gorelick, Derick Duell, Alejandra Marenco, William Brantley, Jeremy Smedley, Michael Axthelm, Miles P. Davenport, Jeffrey D. Lifson, and Louis J. Picker

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Published

2024

2. Rapamycin limits CD4+ T cell proliferation in simian immunodeficiency virus–infected rhesus macaques on antiretroviral therapy

Author

Benjamin D. Varco-Merth, William Brantley, Alejandra Marenco, Derick D. Duell, Devin N. Fachko, Brian Richardson, Kathleen Busman-Sahay, Danica Shao, Walter Flores, Kathleen Engelman, Yoshinori Fukazawa, Scott W. Wong, Rebecca L. Skalsky, Jeremy Smedley, Michael K. Axthelm, Jeffrey D. Lifson, Jacob D. Estes, Paul T. Edlefsen, Louis J. Picker, Cheryl M.A. Cameron, Timothy J. Henrich, and Afam A. Okoye

Subjects

AIDS/HIV, Medicine

Abstract

Proliferation of latently infected CD4+ T cells with replication-competent proviruses is an important mechanism contributing to HIV persistence during antiretroviral therapy (ART). One approach to targeting this latent cell expansion is to inhibit mTOR, a regulatory kinase involved with cell growth, metabolism, and proliferation. Here, we determined the effects of chronic mTOR inhibition with rapamycin with or without T cell activation in SIV-infected rhesus macaques (RMs) on ART. Rapamycin perturbed the expression of multiple genes and signaling pathways important for cellular proliferation and substantially decreased the frequency of proliferating CD4+ memory T cells (TM cells) in blood and tissues. However, levels of cell-associated SIV DNA and SIV RNA were not markedly different between rapamycin-treated RMs and controls during ART. T cell activation with an anti-CD3LALA antibody induced increases in SIV RNA in plasma of RMs on rapamycin, consistent with SIV production. However, upon ART cessation, both rapamycin and CD3LALA–treated and control-treated RMs rebounded in less than 12 days, with no difference in the time to viral rebound or post-ART viral load set points. These results indicate that, while rapamycin can decrease the proliferation of CD4+ TM cells, chronic mTOR inhibition alone or in combination with T cell activation was not sufficient to disrupt the stability of the SIV reservoir.

Published

2022

3. The ingenol-based protein kinase C agonist GSK445A is a potent inducer of HIV and SIV RNA transcription

Author

Afam A. Okoye, Rémi Fromentin, Hiroshi Takata, Jessica H. Brehm, Yoshinori Fukazawa, Bryan Randall, Marion Pardons, Vincent Tai, Jun Tang, Jeremy Smedley, Michael Axthelm, Jeffrey D. Lifson, Louis J. Picker, David Favre, Lydie Trautmann, and Nicolas Chomont

Subjects

CD4(+) T-CELLS, RNA viruses, Transcription, Genetic, REVERSAL, Physiology, viruses, Pathology and Laboratory Medicine, Memory T cells, White Blood Cells, ANTIRETROVIRAL THERAPY, Immunodeficiency Viruses, Animal Cells, ANIMAL-MODEL, IN-VIVOACTIVATION, Medicine and Health Sciences, Biology (General), RHESUS MACAQUE RHADINOVIRUS, Protein Kinase C, LATENT-VIRUS REACTIVATION, T Cells, virus diseases, Virus Latency, Body Fluids, Viral Persistence and Latency, PROSTRATIN, Blood, SIV, Medical Microbiology, Viral Pathogens, Viruses, RNA, Viral, Simian Immunodeficiency Virus, Diterpenes, Cellular Types, Pathogens, Anatomy, Research Article, QH301-705.5, Immune Cells, Immunology, Cytotoxic T cells, Microbiology, Blood Plasma, Virology, Retroviruses, Genetics, Animals, Humans, Microbial Pathogens, Molecular Biology, Blood Cells, Lentivirus, Organisms, HIV, Biology and Life Sciences, Cell Biology, RC581-607, Macaca mulatta, Viral Replication, INFECTED INDIVIDUALS, Virus Activation, Parasitology, Immunologic diseases. Allergy

Abstract

Activation of the NF-κB signaling pathway by Protein Kinase C (PKC) agonists is a potent mechanism for human immunodeficiency virus (HIV) latency disruption in vitro. However, significant toxicity risks and the lack of evidence supporting their activity in vivo have limited further evaluation of PKC agonists as HIV latency-reversing agents (LRA) in cure strategies. Here we evaluated whether GSK445A, a stabilized ingenol-B derivative, can induce HIV/simian immunodeficiency virus (SIV) transcription and virus production in vitro and demonstrate pharmacological activity in nonhuman primates (NHP). CD4+ T cells from people living with HIV and from SIV+ rhesus macaques (RM) on antiretroviral therapy (ART) exposed in vitro to 25 nM of GSK445A produced cell-associated viral transcripts as well as viral particles at levels similar to those induced by PMA/Ionomycin, indicating that GSK445A can potently reverse HIV/SIV latency. Importantly, these concentrations of GSK445A did not impair the proliferation or survival of HIV-specific CD8+ T cells, but instead, increased their numbers and enhanced IFN-γ production in response to HIV peptides. In vivo, GSK445A tolerability was established in SIV-naïve RM at 15 μg/kg although tolerability was reduced in SIV-infected RM on ART. Increases in plasma viremia following GSK445A administration were suggestive of increased SIV transcription in vivo. Collectively, these results indicate that GSK445A is a potent HIV/SIV LRA in vitro and has a tolerable safety profile amenable for further evaluation in vivo in NHP models of HIV cure/remission., Author summary Antiretroviral therapy (ART) is not a definitive cure for HIV infection, in part, because the virus is able to integrate its genetic material in the host cell and remain in a dormant but fully replication-competent form during ART. These latently-infected cells can persist for long periods of time and remain hidden from the host’s immune system. If ART is stopped, the virus can reactivate from this pool of infected cells and resume HIV replication and disease progression. As such, finding and eliminating cells with latent HIV infection is priority for HIV cure research. One approach is to use compounds referred to as latency-reversing agents, that can induce HIV reactivation during ART. The goal of this approach is to facilitate elimination of infected cells by the virus itself once it reactivates or by the host’s immune system, once virus induction renders the cells detectable by the immune system, while also preventing the virus from infecting new cells due to the continued presence of ART. In this study we report on the activity of a novel latency-reversing agent called GSK445A, a potent activator of the enzyme protein kinase C (PKC). We show that GSK445A can induce HIV and simian immunodeficiency virus (SIV) latency reversal in vitro and has a tolerable saftey profile in nonhuman primates that should permit further testing of this PKC-agonist in strategies to cure HIV.

Published

2022

4. Impact of alemtuzumab-mediated lymphocyte depletion on SIV reservoir establishment and persistence.

Author

Benjamin Varco-Merth, Morgan Chaunzwa, Derick M Duell, Alejandra Marenco, William Goodwin, Rachel Dannay, Michael Nekorchuk, Danica Shao, Kathleen Busman-Sahay, Christine M Fennessey, Lorna Silipino, Michael Hull, William J Bosche, Randy Fast, Kelli Oswald, Rebecca Shoemaker, Rachele Bochart, Rhonda MacAllister, Caralyn S Labriola, Jeremy V Smedley, Michael K Axthelm, Miles P Davenport, Paul T Edlefsen, Jacob D Estes, Brandon F Keele, Jeffrey D Lifson, Sharon R Lewin, Louis J Picker, and Afam A Okoye

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Persistence of the rebound-competent viral reservoir (RCVR) within the CD4+ T cell compartment of people living with HIV remains a major barrier to HIV cure. Here, we determined the effects of the pan-lymphocyte-depleting monoclonal antibody (mAb) alemtuzumab on the RCVR in SIVmac239-infected rhesus macaques (RM) receiving antiretroviral therapy (ART). Alemtuzumab administered during chronic ART or at the time of ART initiation induced >95% depletion of circulating CD4+ T cells in peripheral blood and substantial CD4+ T cell depletion in lymph nodes. However, treatment was followed by proliferation and reconstitution of CD4+ T cells in blood, and despite ongoing ART, levels of cell-associated SIV DNA in blood and lymphoid tissues were not substantially different between alemtuzumab-treated and control RM after immune cell reconstitution, irrespective of the time of alemtuzumab treatment. Upon ART cessation, 19 of 22 alemtuzumab-treated RM and 13 of 13 controls rebounded with no difference in the time to rebound between treatment groups. Time to rebound and reactivation rate was associated with plasma viral loads (pVLs) at time of ART initiation, suggesting lymphocyte depletion had no durable impact on the RCVR. However, 3 alemtuzumab-treated RM that had lowest levels of pre-ART viremia, failed to rebound after ART withdrawal, in contrast to controls with similar levels of SIV replication. These observations suggest that alemtuzumab therapy has little to no ability to reduce well-established RCVRs but may facilitate RCVR destabilization when pre-ART virus levels are particularly low.

Published

2024

5. Timing of initiation of anti-retroviral therapy predicts post-treatment control of SIV replication.

Author

Mykola Pinkevych, Steffen S Docken, Afam A Okoye, Christine M Fennessey, Gregory Q Del Prete, Maria Pino, Justin L Harper, Michael R Betts, Mirko Paiardini, Brandon F Keele, and Miles P Davenport

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

One approach to 'functional cure' of HIV infection is to induce durable control of HIV replication after the interruption of antiretroviral therapy (ART). However, the major factors that determine the viral 'setpoint' level after treatment interruption are not well understood. Here we combine data on ART interruption following SIV infection for 124 total animals from 10 independent studies across 3 institutional cohorts to understand the dynamics and predictors of post-treatment viral control. We find that the timing of treatment initiation is an important determinant of both the peak and early setpoint viral levels after treatment interruption. During the first 3 weeks of infection, every day of delay in treatment initiation is associated with a 0.22 log10 copies/ml decrease in post-rebound peak and setpoint viral levels. However, delay in initiation of ART beyond 3 weeks of infection is associated with higher post-rebound setpoint viral levels. For animals treated beyond 3 weeks post-infection, viral load at ART initiation was the primary predictor of post-rebound setpoint viral levels. Potential alternative predictors of post-rebound setpoint viral loads including cell-associated DNA or RNA, time from treatment interruption to rebound, and pre-interruption CD8+ T cell responses were also examined in the studies where these data were available. This analysis suggests that optimal timing of treatment initiation may be an important determinant of post-treatment control of HIV.

Published

2023