Your search keyword '"Virus latency"' showing total 10,770 results

1. Rapid biphasic decay of intact and defective HIV DNA reservoir during acute treated HIV disease.

Author

Barbehenn, Alton, Shi, Lei, Shao, Junzhe, Hoh, Rebecca, Hartig, Heather, Pae, Vivian, Sarvadhavabhatla, Sannidhi, Donaire, Sophia, Sheikhzadeh, Caroline, Milush, Jeffrey, Laird, Gregory, Mathias, Mignot, Ritter, Kristen, Peluso, Michael, Martin, Jeffrey, Hecht, Frederick, Pilcher, Christopher, Cohen, Stephanie, Buchbinder, Susan, Havlir, Diane, Gandhi, Monica, Henrich, Timothy, Hatano, Hiroyu, Wang, Jingshen, Deeks, Steven, and Lee, Sulggi

Subjects

Humans, HIV Infections, DNA, Viral, Viral Load, CD4-Positive T-Lymphocytes, HIV-1, Male, Female, Virus Latency, Adult, CD4 Lymphocyte Count, Middle Aged, Anti-HIV Agents, Longitudinal Studies, Acute Disease, Models, Theoretical

Abstract

Despite antiretroviral therapy (ART), HIV persists in latently-infected cells (the HIV reservoir) which decay slowly over time. Here, leveraging >500 longitudinal samples from 67 people living with HIV (PLWH) treated during acute infection, we developed a mathematical model to predict reservoir decay from peripheral CD4 + T cells. Nonlinear generalized additive models demonstrated rapid biphasic decay of intact DNA (week 0-5: t1/2 ~ 2.83 weeks; week 5-24: t1/2 ~ 15.4 weeks) that extended out to 1 year. These estimates were ~5-fold faster than prior decay estimates among chronic treated PLWH. Defective DNA had a similar biphasic pattern, but data were more variable. Predicted intact and defective decay rates were faster for PLWH with earlier timing of ART initiation, higher initial CD4 + T cell count, and lower pre-ART viral load. In this study, we advanced our limited understanding of HIV reservoir decay at the time of ART initiation, informing future curative strategies targeting this critical time.

Published

2024

2. Gene expression and chromatin conformation of microglia in virally suppressed people with HIV

Author

Schlachetzki, Johannes CM, Gianella, Sara, Ouyang, Zhengyu, Lana, Addison J, Yang, Xiaoxu, O’Brien, Sydney, Challacombe, Jean F, Gaskill, Peter J, Jordan-Sciutto, Kelly L, Chaillon, Antoine, Moore, David, Achim, Cristian L, Ellis, Ronald J, Smith, Davey M, and Glass, Christopher K

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Sexually Transmitted Infections, HIV/AIDS, Neurosciences, Genetics, Infectious Diseases, 2.1 Biological and endogenous factors, Infection, Microglia, Humans, HIV Infections, Chromatin, Male, HIV-1, Virus Latency, RNA, Viral, Brain, Female, Adult, Middle Aged, Gene Expression, Viral Load, Biological sciences, Biomedical and clinical sciences

Abstract

The presence of HIV in sequestered reservoirs is a central impediment to a functional cure, allowing HIV to persist despite life-long antiretroviral therapy (ART), and driving a variety of comorbid conditions. Our understanding of the latent HIV reservoir in the central nervous system is incomplete, because of difficulties in accessing human central nervous system tissues. Microglia contribute to HIV reservoirs, but the molecular phenotype of HIV-infected microglia is poorly understood. We leveraged the unique "Last Gift" rapid autopsy program, in which people with HIV are closely followed until days or even hours before death. Microglial populations were heterogeneous regarding their gene expression profiles but showed similar chromatin accessibility landscapes. Despite ART, we detected occasional microglia containing cell-associated HIV RNA and HIV DNA integrated into open regions of the host's genome (∼0.005%). Microglia with detectable HIV RNA showed an inflammatory phenotype. These results demonstrate a distinct myeloid cell reservoir in the brains of people with HIV despite suppressive ART. Strategies for curing HIV and neurocognitive impairment will need to consider the myeloid compartment to be successful.

Published

2024

3. Immunological Considerations for the Development of an Effective Herpes Vaccine.

Author

Singer, Mahmoud and Husseiny, Mohamed

Subjects

CD8 T cells, adaptive immunity, herpes simplex virus (HSV), innate immunity, memory T cells, vaccine design, virus latency

Abstract

Research is underway to develop a vaccine to prevent and cure infection from herpes simplex virus (HSV). It emphasizes the critical need for immunization to address public health issues and the shortcomings of existing treatment options. Furthermore, studies on the HSV vaccine advance the field of immunology and vaccine creation, which may help in the battle against other viral illnesses. The current lack of such a vaccine is, in part, due to herpes viral latency in sensory ganglions. Current vaccines rely on tissue-resident memory CD8+ T cells, which are known to provide protection against subsequent HSV reinfection and reactivation without correlating with other immune subsets. For that reason, there is no effective vaccine that can provide protection against latent or recurrent herpes infection. This review focuses on conventional methods for evaluating the efficacy of a herpes vaccine using differential CD8+ T cells and important unaccounted immune aspects for designing an effective vaccine against herpes.

Published

2024

4. Mechanisms and efficacy of small molecule latency-promoting agents to inhibit HIV reactivation ex vivo.

Author

Janssens, Julie, Kim, Peggy, Kim, Sun, Wedrychowski, Adam, Kadiyala, Gayatri, Hunt, Peter, Deeks, Steven, Wong, Joseph, and Yukl, Steven

Subjects

Drug screens, Transcription, Virology, Humans, Virus Latency, Virus Activation, HIV Infections, HIV-1, Anti-HIV Agents, Phenanthrenes, Diterpenes, Epoxy Compounds, Leukocytes, Mononuclear, Transcription, Genetic, Lymphocyte Activation, RNA, Viral, Male, Pentacyclic Triterpenes

Abstract

Drugs that inhibit HIV transcription and/or reactivation of latent HIV have been proposed as a strategy to reduce HIV-associated immune activation or to achieve a functional cure, yet comparative studies are lacking. We evaluated 26 drugs, including drugs previously reported to inhibit HIV transcription (inhibitors of Tat-dependent HIV transcription, Rev, HSF-1/PTEF-b, HSP90, Jak/Stat, or SIRT1/Tat deacetylation) and other agents that were not tested before (inhibitors of PKC, NF-κB, SP-1, or histone acetyltransferase; NR2F1 agonists), elongation (inhibitors of CDK9/ PTEF-b), completion (inhibitors of PolyA-polymerase), or splicing (inhibitors of human splice factors). To investigate if those drugs would vary in their ability to affect different blocks to HIV transcription, we measured levels of initiated, elongated, midtranscribed, completed, and multiply spliced HIV RNA in PBMCs from antiretroviral therapy-suppressed individuals following ex vivo treatment with each drug and subsequent T cell activation. We identified new drugs that prevent HIV reactivation, including CDK and splicing inhibitors. While some drugs inhibited 1 or 2 steps, other drugs (CDK inhibitors, splicing inhibitors, tanespimycin, and triptolide) inhibited multiple stages of HIV transcription and blocked the production of supernatant viral RNA. These drugs and targets deserve further study in strategies aimed at reducing HIV-associated immune activation or achieving a functional cure.

Published

2024

5. CRISPR-Cas9 screen of E3 ubiquitin ligases identifies TRAF2 and UHRF1 as regulators of HIV latency in primary human T cells

Author

Rathore, Ujjwal, Haas, Paige, Kumar, Vigneshwari Easwar, Hiatt, Joseph, Haas, Kelsey M, Bouhaddou, Mehdi, Swaney, Danielle L, Stevenson, Erica, Zuliani-Alvarez, Lorena, McGregor, Michael J, Turner-Groth, Autumn, Olwal, Charles Ochieng', Bediako, Yaw, Braberg, Hannes, Soucheray, Margaret, Ott, Melanie, Eckhardt, Manon, Hultquist, Judd F, Marson, Alexander, Kaake, Robyn M, and Krogan, Nevan J

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, HIV/AIDS, Clinical Research, Infectious Diseases, Health Disparities, Sexually Transmitted Infections, Genetics, Minority Health, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, Aetiology, Infection, Humans, CCAAT-Enhancer-Binding Proteins, CD4-Positive T-Lymphocytes, CRISPR-Cas Systems, HIV Infections, TNF Receptor-Associated Factor 2, Ubiquitin-Protein Ligases, Ubiquitins, Virus Latency, Virus Replication, HIV, human immunodeficiency virus, ubiquitin E3 ligases, HIV latency, CRISPR screen, resting primary T cells, Microbiology, Biochemistry and cell biology, Medical microbiology

Abstract

During HIV infection of CD4+ T cells, ubiquitin pathways are essential to viral replication and host innate immune response; however, the role of specific E3 ubiquitin ligases is not well understood. Proteomics analyses identified 116 single-subunit E3 ubiquitin ligases expressed in activated primary human CD4+ T cells. Using a CRISPR-based arrayed spreading infectivity assay, we systematically knocked out 116 E3s from activated primary CD4+ T cells and infected them with NL4-3 GFP reporter HIV-1. We found 10 E3s significantly positively or negatively affected HIV infection in activated primary CD4+ T cells, including UHRF1 (pro-viral) and TRAF2 (anti-viral). Furthermore, deletion of either TRAF2 or UHRF1 in three JLat models of latency spontaneously increased HIV transcription. To verify this effect, we developed a CRISPR-compatible resting primary human CD4+ T cell model of latency. Using this system, we found that deletion of TRAF2 or UHRF1 initiated latency reactivation and increased virus production from primary human resting CD4+ T cells, suggesting these two E3s represent promising targets for future HIV latency reversal strategies.ImportanceHIV, the virus that causes AIDS, heavily relies on the machinery of human cells to infect and replicate. Our study focuses on the host cell's ubiquitination system which is crucial for numerous cellular processes. Many pathogens, including HIV, exploit this system to enhance their own replication and survival. E3 proteins are part of the ubiquitination pathway that are useful drug targets for host-directed therapies. We interrogated the 116 E3s found in human immune cells known as CD4+ T cells, since these are the target cells infected by HIV. Using CRISPR, a gene-editing tool, we individually removed each of these enzymes and observed the impact on HIV infection in human CD4+ T cells isolated from healthy donors. We discovered that 10 of the E3 enzymes had a significant effect on HIV infection. Two of them, TRAF2 and UHRF1, modulated HIV activity within the cells and triggered an increased release of HIV from previously dormant or "latent" cells in a new primary T cell assay. This finding could guide strategies to perturb hidden HIV reservoirs, a major hurdle to curing HIV. Our study offers insights into HIV-host interactions, identifies new factors that influence HIV infection in immune cells, and introduces a novel methodology for studying HIV infection and latency in human immune cells.

Published

2024

6. Kaposi’s sarcoma-associated herpesvirus (KSHV) LANA prevents KSHV episomes from degradation

Author

Nakajima, Ken-ichi, Inagaki, Tomoki, Espera, Jonna Magdallene, and Izumiya, Yoshihiro

Subjects

Microbiology, Biochemistry and Cell Biology, Biological Sciences, Human Genome, Emerging Infectious Diseases, Biotechnology, HIV/AIDS, Infectious Diseases, Genetics, Prevention, Infection, Humans, Antigens, Viral, DNA, Herpesvirus 8, Human, Indoleacetic Acids, Nucleotidyltransferases, Plasmids, Sarcoma, Kaposi, Virus Latency, Nuclear Proteins, KSHV, latency, episome, protein knockdown, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Protein knockdown with an inducible degradation system is a powerful tool for studying proteins of interest in living cells. Here, we adopted the auxin-inducible degron (AID) approach to detail Kaposi's sarcoma-associated herpesvirus (KSHV) latency-associated nuclear antigen (LANA) function in latency maintenance and inducible viral lytic gene expression. We fused the mini-auxin-inducible degron (mAID) tag at the LANA N-terminus with KSHV bacterial artificial chromosome 16 recombination, and iSLK cells were stably infected with the recombinant KSHV encoding mAID-LANA. Incubation with 5-phenyl-indole-3-acetic acid, a derivative of natural auxin, rapidly degraded LANA within 1.5 h. In contrast to our hypothesis, depletion of LANA alone did not trigger lytic reactivation but rather decreased inducible lytic gene expression when we stimulated reactivation with a combination of ORF50 protein expression and sodium butyrate. Decreased overall lytic gene induction seemed to be associated with a rapid loss of KSHV genomes in the absence of LANA. The rapid loss of viral genomic DNA was blocked by a lysosomal inhibitor, chloroquine. Furthermore, siRNA-mediated knockdown of cellular innate immune proteins, cyclic AMP-GMP synthase (cGAS) and simulator of interferon genes (STING), and other autophagy-related genes rescued the degradation of viral genomic DNA upon LANA depletion. Reduction of the viral genome was not observed in 293FT cells that lack the expression of cGAS. These results suggest that LANA actively prevents viral genomic DNA from sensing by cGAS-STING signaling axis, adding novel insights into the role of LANA in latent genome maintenance.IMPORTANCESensing of pathogens' components is a fundamental cellular immune response. Pathogens have therefore evolved strategies to evade such cellular immune responses. KSHV LANA is a multifunctional protein and plays an essential role in maintaining the latent infection by tethering viral genomic DNA to the host chromosome. We adopted the inducible protein knockdown approach and found that depletion of LANA induced rapid degradation of viral genomic DNA, which is mediated by innate immune DNA sensors and autophagy pathway. These observations suggest that LANA may play a role in hiding KSHV episome from innate immune DNA sensors. Our study thus provides new insights into the role of LANA in latency maintenance.

Published

2024

7. Kaposi’s sarcoma-associated herpesvirus terminal repeat regulates inducible lytic gene promoters

Author

Izumiya, Yoshihiro, Algalil, Adhraa, Espera, Jonna M, Miura, Hiroki, Izumiya, Chie, Inagaki, Tomoki, and Kumar, Ashish

Subjects

Biochemistry and Cell Biology, Biological Sciences, Emerging Infectious Diseases, Infectious Diseases, Lymphoma, Cancer, Hematology, Lymphatic Research, Rare Diseases, Genetics, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Infection, Generic health relevance, Humans, Herpesvirus 8, Human, Histones, Nucleosomes, Immediate-Early Proteins, Virus Latency, Antigens, Viral, Terminal Repeat Sequences, Gene Expression Regulation, Viral, Sarcoma, Kaposi, Kaposi's sarcoma-associated herpesvirus, transcriptional regulation, reactivation, RNA polymerases, latency, enhancer, BRD4, CHD4, herpesviruses, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

The Kaposi's sarcoma-associated herpesvirus (KSHV) genome consists of an approximately 140-kb unique coding region flanked by 30-40 copies of a 0.8-kb terminal repeat (TR) sequence. A gene enhancer recruits transcription-related enzymes by having arrays of transcription factor binding sites. Here, we show that KSHV TR possesses transcription regulatory function with latency-associated nuclear antigen (LANA). Cleavage under targets and release using nuclease demonstrated that TR fragments were occupied by LANA-interacting histone-modifying enzymes in naturally infected cells. The TR was enriched with histone H3K27 acetylation (H3K27Ac) and H3K4 tri-methylation (H3K4me3) modifications and also expressed nascent RNAs. The sites of H3K27Ac and H3K4me3 modifications were also conserved in the KSHV unique region among naturally infected primary effusion lymphoma cells. KSHV origin of lytic replication (Ori-Lyt) showed similar protein and histone modification occupancies with that of TR. In the Ori-Lyt region, the LANA and LANA-interacting proteins colocalized with an H3K27Ac-modified nucleosome along with paused RNA polymerase II. The KSHV transactivator KSHV replication and transcription activator (K-Rta) recruitment sites franked the LANA-bound nucleosome, and reactivation evicted the LANA-bound nucleosome. Including TR fragments in reporter plasmid enhanced inducible viral gene promoter activities independent of the orientations. In the presence of TR in reporter plasmids, K-Rta transactivation was drastically increased, while LANA acquired the promoter repression function. KSHV TR, therefore, functions as an enhancer for KSHV inducible genes. However, in contrast to cellular enhancers bound by multiple transcription factors, perhaps the KSHV enhancer is predominantly regulated by the LANA nuclear body.IMPORTANCEEnhancers are a crucial regulator of differential gene expression programs. Enhancers are the cis-regulatory sequences determining target genes' spatiotemporal and quantitative expression. Here, we show that Kaposi's sarcoma-associated herpesvirus (KSHV) terminal repeats fulfill the enhancer definition for KSHV inducible gene promoters. The KSHV enhancer is occupied by latency-associated nuclear antigen (LANA) and its interacting proteins, such as CHD4. Neighboring terminal repeat (TR) fragments to lytic gene promoters drastically enhanced KSHV replication and transcription activator and LANA transcription regulatory functions. This study, thus, proposes a new latency-lytic switch model in which TR accessibility to the KSHV gene promoters regulates viral inducible gene expression.

Published

2024

8. Defining the Effects of PKC Modulator HIV Latency-Reversing Agents on Natural Killer Cells

Author

Dimapasoc, Melanie, Moran, Jose A, Cole, Steve W, Ranjan, Alok, Hourani, Rami, Kim, Jocelyn T, Wender, Paul A, Marsden, Matthew D, and Zack, Jerome A

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, Genetics, HIV/AIDS, 2.1 Biological and endogenous factors, Aetiology, Acquired Immunodeficiency Syndrome, HIV-1, Immunity, Killer Cells, Natural, Protein Kinase C, Virus Latency, Clinical sciences, Medical microbiology

Abstract

BackgroundLatency reversing agents (LRAs) such as protein kinase C (PKC) modulators can reduce rebound-competent HIV reservoirs in small animal models. Furthermore, administration of natural killer (NK) cells following LRA treatment improves this reservoir reduction. It is currently unknown why the combination of a PKC modulator and NK cells is so potent and whether exposure to PKC modulators may augment NK cell function in some way.MethodsPrimary human NK cells were treated with PKC modulators (bryostatin-1, prostratin, or the designed, synthetic bryostatin-1 analog SUW133), and evaluated by examining expression of activation markers by flow cytometry, analyzing transcriptomic profiles by RNA sequencing, measuring cytotoxicity by co-culturing with K562 cells, assessing cytokine production by Luminex assay, and examining the ability of cytokines and secreted factors to independently reverse HIV latency by co-culturing with Jurkat-Latency (J-Lat) cells.ResultsPKC modulators increased expression of proteins involved in NK cell activation. Transcriptomic profiles from PKC-treated NK cells displayed signatures of cellular activation and enrichment of genes associated with the NFκB pathway. NK cell cytotoxicity was unaffected by prostratin but significantly decreased by bryostatin-1 and SUW133. Cytokines from PKC-stimulated NK cells did not induce latency reversal in J-Lat cell lines.ConclusionsAlthough PKC modulators have some significant effects on NK cells, their contribution in "kick and kill" strategies is likely due to upregulating HIV expression in CD4+ T cells, not directly enhancing the effector functions of NK cells. This suggests that PKC modulators are primarily augmenting the "kick" rather than the "kill" arm of this HIV cure approach.

Published

2024

9. Cell Intrinsic Determinants of Alpha Herpesvirus Latency and Pathogenesis in the Nervous System.

Author

Salazar, Stephanie, Luong, Khanh, and Koyuncu, Orkide

Subjects

alpha herpesvirus, latency, neuronal response, neurotropic virus, reactivation, Humans, Virus Latency, Alphaherpesvirinae, Axons, Virus Replication, Viral Proteins

Abstract

Alpha herpesvirus infections (α-HVs) are widespread, affecting more than 70% of the adult human population. Typically, the infections start in the mucosal epithelia, from which the viral particles invade the axons of the peripheral nervous system. In the nuclei of the peripheral ganglia, α-HVs establish a lifelong latency and eventually undergo multiple reactivation cycles. Upon reactivation, viral progeny can move into the nerves, back out toward the periphery where they entered the organism, or they can move toward the central nervous system (CNS). This latency-reactivation cycle is remarkably well controlled by the intricate actions of the intrinsic and innate immune responses of the host, and finely counteracted by the viral proteins in an effort to co-exist in the population. If this yin-yang- or Nash-equilibrium-like balance state is broken due to immune suppression or genetic mutations in the host response factors particularly in the CNS, or the presence of other pathogenic stimuli, α-HV reactivations might lead to life-threatening pathologies. In this review, we will summarize the molecular virus-host interactions starting from mucosal epithelia infections leading to the establishment of latency in the PNS and to possible CNS invasion by α-HVs, highlighting the pathologies associated with uncontrolled virus replication in the NS.

Published

2023

10. The hypoxia-regulated ectonucleotidase CD73 is a host determinant of HIV latency

Author

Sperber, Hannah S, Raymond, Kyle A, Bouzidi, Mohamed S, Ma, Tongcui, Valdebenito, Silvana, Eugenin, Eliseo A, Roan, Nadia R, Deeks, Steven G, Winning, Sandra, Fandrey, Joachim, Schwarzer, Roland, and Pillai, Satish K

Subjects

Biological Sciences, Infectious Diseases, HIV/AIDS, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, Infection, Good Health and Well Being, Humans, Adenosine, CD4-Positive T-Lymphocytes, HIV Infections, HIV-1, Virus Activation, Virus Latency, Virus Replication, CD39, CD73, CP: Immunology, CP: Microbiology, HIV cure, IL-8, adenosine, eradication, hypoxia, lymphoid tissues, persistence, reservoir, Biochemistry and Cell Biology, Medical Physiology, Biological sciences

Abstract

Deciphering the mechanisms underlying viral persistence is critical to achieving a cure for human immunodeficiency virus (HIV) infection. Here, we implement a systems approach to discover molecular signatures of HIV latently infected CD4+ T cells, identifying the immunosuppressive, adenosine-producing ectonucleotidase CD73 as a key surface marker of latent cells. Hypoxic conditioning, reflecting the lymphoid tissue microenvironment, increases the frequency of CD73+ CD4+ T cells and promotes HIV latency. Transcriptomic profiles of CD73+ CD4+ T cells favor viral quiescence, immune evasion, and cell survival. CD73+ CD4+ T cells are capable of harboring a functional HIV reservoir and reinitiating productive infection ex vivo. CD73 or adenosine receptor blockade facilitates latent HIV reactivation in vitro, mechanistically linking adenosine signaling to viral quiescence. Finally, tissue imaging of lymph nodes from HIV-infected individuals on antiretroviral therapy reveals spatial association between CD73 expression and HIV persistence in vivo. Our findings warrant development of HIV-cure strategies targeting the hypoxia-CD73-adenosine axis.

Published

2023

11. HIV-1 Remission: Accelerating the Path to Permanent HIV-1 Silencing.

Author

Kallas, Esper, Villa, Thomas, Strange, Richard, Mwesigwa, Betty, Furler OBrien, Robert, Nixon, Douglas, Ndhlovu, Lishomwa, Valente, Susana, Ott, Melanie, Lyons, Danielle, Kumar, Priti, Roan, Nadia, Defechereux, Patricia, Feschotte, Cedric, Lange, Ulrike, Murthy, Niren, Sameshima, Pauline, Verdin, Eric, Ake, Julie, Parsons, Matthew, Nath, Avindra, Gianella, Sara, and Smith, David

Subjects

HERV, HIV-1 cure, latency, transcriptional silencing, Humans, HIV-1, Virus Latency, Proviruses, Endogenous Retroviruses, HIV Infections, HIV Seropositivity, CD4-Positive T-Lymphocytes

Abstract

Despite remarkable progress, a cure for HIV-1 infection remains elusive. Rebound competent latent and transcriptionally active reservoir cells persevere despite antiretroviral therapy and rekindle infection due to inefficient proviral silencing. We propose a novel block-lock-stop approach, entailing long term durable silencing of viral expression towards an irreversible transcriptionally inactive latent provirus to achieve long term antiretroviral free control of the virus. A graded transformation of remnant HIV-1 in PLWH from persistent into silent to permanently defective proviruses is proposed, emulating and accelerating the natural path that human endogenous retroviruses (HERVs) take over millions of years. This hypothesis was based on research into delineating the mechanisms of HIV-1 latency, lessons from latency reversing agents and advances of Tat inhibitors, as well as expertise in the biology of HERVs. Insights from elite controllers and the availability of advanced genome engineering technologies for the direct excision of remnant virus set the stage for a rapid path to an HIV-1 cure.

Published

2023

12. The latent reservoir of inducible, infectious HIV-1 does not decrease despite decades of antiretroviral therapy.

Author

McMyn, Natalie, Varriale, Joseph, Fray, Emily, Zitzmann, Carolin, MacLeod, Hannah, Lai, Jun, Singhal, Anushka, Moskovljevic, Milica, Garcia, Mauro, Lopez, Brianna, Hariharan, Vivek, Rhodehouse, Kyle, Lynn, Kenneth, Tebas, Pablo, Mounzer, Karam, Montaner, Luis, Benko, Erika, Kovacs, Colin, Hoh, Rebecca, Simonetti, Francesco, Laird, Gregory, Ribeiro, Ruy, Perelson, Alan, Siliciano, Robert, Siliciano, Janet, and Deeks, Steven

Subjects

AIDS/HIV, Molecular biology, T cells, Virology, Humans, HIV-1, Anti-Retroviral Agents, HIV Infections, Virus Replication, Proviruses, CD4-Positive T-Lymphocytes, Viral Load, Virus Latency

Abstract

HIV-1 persists in a latent reservoir in resting CD4+ T cells despite antiretroviral therapy (ART). The reservoir decays slowly over the first 7 years of ART (t1/2 = 44 months). However, whether decay continues with long-term ART is unclear. Recent integration site studies indicate gradual selection against inducible, intact proviruses, raising speculation that decades of ART might allow treatment interruption without viral rebound. Therefore, we measured the reservoir in 42 people on long-term ART (mean 22 years) using a quantitative viral outgrowth assay. After 7 years of ART, there was no long-term decrease in the frequency of inducible, replication-competent proviruses but rather an increase with an estimated doubling time of 23 years. Another reservoir assay, the intact proviral DNA assay, confirmed that reservoir decay with t1/2 of 44 months did not continue with long-term ART. The lack of decay reflected proliferation of infected cells. Most inducible, replication-competent viruses (79.8%) had env sequences identical to those of other isolates from the same sample. Thus, although integration site analysis indicates changes in reservoir composition, the proliferation of CD4+ T cells counteracts decay, maintaining the frequency of inducible, replication-competent proviruses at roughly constant levels over the long term. These results reinforce the need for lifelong ART.

Published

2023

13. Secreted factors induced by PKC modulators do not indirectly cause HIV latency reversal

Author

Moran, Jose A, Ranjan, Alok, Hourani, Rami, Kim, Jocelyn T, Wender, Paul A, Zack, Jerome A, and Marsden, Matthew D

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, HIV/AIDS, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Aetiology, Infection, Animals, Humans, Virus Latency, HIV Infections, Bryostatins, Leukocytes, Mononuclear, CD4-Positive T-Lymphocytes, HIV-1, Cytokines, Virus Activation, HIV, PKC modulators, Latency reversal, Bryostatin-1, SUW133, Kick-and-kill approach, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

HIV can establish a long-lived latent infection in cells harboring integrated non-expressing proviruses. Latency reversing agents (LRAs), including protein kinase C (PKC) modulators, can induce expression of latent HIV, thereby reducing the latent reservoir in animal models. However, PKC modulators such as bryostatin-1 also cause cytokine upregulation in peripheral blood mononuclear cells (PBMCs), including cytokines that might independently reverse HIV latency. To determine whether cytokines induced by PKC modulators contribute to latency reversal, primary human PBMCs were treated with bryostatin-1 or the bryostatin analog SUW133, a superior LRA, and supernatant was collected. As anticipated, LRA-treated cell supernatant contained increased levels of cytokines compared to untreated cell supernatant. However, exposure of latently-infected cells with this supernatant did not result in latency reactivation. These results indicate that PKC modulators do not have significant indirect effects on HIV latency reversal in vitro and thus are targeted in their latency reversing ability.

Published

2023

14. A Camptothetin Analog, Topotecan, Promotes HIV Latency via Interference with HIV Transcription and RNA Splicing

Author

Mukim, Amey, Smith, Davey M, Deshmukh, Savitha, Qazi, Andrew A, and Beliakova-Bethell, Nadejda

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, HIV/AIDS, Cancer, Genetics, Infection, Humans, HIV Infections, Phosphoproteins, RNA Splicing, Serine-Arginine Splicing Factors, Topotecan, Virus Latency, HIV latency, block and lock, transcription, RNA splicing, intron retention, SRSF6, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Low level HIV transcription during modern antiretroviral therapy (ART) in persons with HIV is linked to residual inflammation and associated diseases, like cardiovascular disease and cancer. The "block and lock" approach to hold HIV in a state of deep latency may help decrease residual inflammation in a person with HIV on ART and thus improve health. A camptothecin analog topotecan (TPT) was previously implicated as an inhibitor of active HIV replication. Using an in vitro primary T cell model of HIV latency, we demonstrated that (i) TPT reduces HIV transcriptional activity in latently infected cells; (ii) downregulation of HIV RNA by TPT cannot be reversed by latency reversing agents; (iii) several primary and secondary mechanism of action of TPT may be involved in control of HIV replication; (iv) regulation of HIV RNA by TPT is dependent on splicing complexity; (v) increase in proportion of unspliced HIV transcripts was facilitated by intron retention and upregulation of splicing factors, specifically SRSF6, by TPT. Although high TPT dosing (10 μM) was needed to achieve the observed effects, viability of primary CD4+ T cells was not greatly affected. Because toxicity can be observed with TPT in persons with cancer, TPT is unlikely to be used as an anti-HIV agent in clinic, but our study provides proof that camptothetin has "block and lock" activity. Other camptothetin analogs, which are less toxic than TPT, should be designed and tested as HIV "block and lock" agents. IMPORTANCE HIV survives in a state of very low activity, called latency, for long periods in persons with HIV on antiretroviral therapy. This low activity of HIV is linked to residual inflammation and associated diseases, such as heart disease and cancer. New strategies are being explored to further silence the HIV provirus and suppress residual inflammation. This study provides strong evidence that the camptothetin analog, Topotecan, can reduce residual activity of HIV in an experimental model of HIV latency. While Topotecan itself is likely not suitable for use in the clinic due to its toxicity, other camptothetin analogs should be designed and investigated as "block and lock" agents.

Published

2023

15. HIV silencing and cell survival signatures in infected T cell reservoirs

Author

Clark, Iain C, Mudvari, Prakriti, Thaploo, Shravan, Smith, Samuel, Abu-Laban, Mohammad, Hamouda, Mehdi, Theberge, Marc, Shah, Sakshi, Ko, Sung Hee, Pérez, Liliana, Bunis, Daniel G, Lee, James S, Kilam, Divya, Zakaria, Saami, Choi, Sally, Darko, Samuel, Henry, Amy R, Wheeler, Michael A, Hoh, Rebecca, Butrus, Salwan, Deeks, Steven G, Quintana, Francisco J, Douek, Daniel C, Abate, Adam R, and Boritz, Eli A

Subjects

Genetics, Infectious Diseases, HIV/AIDS, Biotechnology, Aetiology, 2.1 Biological and endogenous factors, Infection, Humans, CD4-Positive T-Lymphocytes, Cell Proliferation, Cell Survival, DNA, Viral, Gene Expression Regulation, Viral, HIV Infections, HIV-1, Immunologic Memory, Microfluidics, Necroptosis, Signal Transduction, Transcriptome, Virus Latency, Anti-Retroviral Agents, General Science & Technology

Abstract

Rare CD4 T cells that contain HIV under antiretroviral therapy represent an important barrier to HIV cure1-3, but the infeasibility of isolating and characterizing these cells in their natural state has led to uncertainty about whether they possess distinctive attributes that HIV cure-directed therapies might exploit. Here we address this challenge using a microfluidic technology that isolates the transcriptomes of HIV-infected cells based solely on the detection of HIV DNA. HIV-DNA+ memory CD4 T cells in the blood from people receiving antiretroviral therapy showed inhibition of six transcriptomic pathways, including death receptor signalling, necroptosis signalling and antiproliferative Gα12/13 signalling. Moreover, two groups of genes identified by network co-expression analysis were significantly associated with HIV-DNA+ cells. These genes (n = 145) accounted for just 0.81% of the measured transcriptome and included negative regulators of HIV transcription that were higher in HIV-DNA+ cells, positive regulators of HIV transcription that were lower in HIV-DNA+ cells, and other genes involved in RNA processing, negative regulation of mRNA translation, and regulation of cell state and fate. These findings reveal that HIV-infected memory CD4 T cells under antiretroviral therapy are a distinctive population with host gene expression patterns that favour HIV silencing, cell survival and cell proliferation, with important implications for the development of HIV cure strategies.

Published

2023

16. Single-cell RNA sequencing reveals common and unique gene expression profiles in primary CD4+ T cells latently infected with HIV under different conditions

Author

Zhang, Xinlian, Qazi, Andrew A, Deshmukh, Savitha, Ventura, Roni Lobato, Mukim, Amey, and Beliakova-Bethell, Nadejda

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Immunology, Medical Microbiology, Genetics, Infectious Diseases, HIV/AIDS, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Humans, CD4-Positive T-Lymphocytes, Virus Activation, Virus Latency, HIV Infections, Transcriptome, HIV-1, Proviruses, Biomarkers, Sequence Analysis, RNA, HIV latency, single-cell RNA-seq, biomarker, gene expression profiling, in vitro models, viral tropism, HIV latency in vivo, Biochemistry and Cell Biology, Microbiology, Medical microbiology

Abstract

BackgroundThe latent HIV reservoir represents the major barrier to a cure. One curative strategy is targeting diseased cells for elimination based on biomarkers that uniquely define these cells. Single-cell RNA sequencing (scRNA-seq) has enabled the identification of gene expression profiles associated with disease at the single-cell level. Because HIV provirus in many cells during latency is not entirely silent, it became possible to determine gene expression patterns in a subset of cells latently infected with HIV.ObjectiveThe primary objective of this study was the identification of the gene expression profiles of single latently infected CD4+ T cells using scRNA-seq. Different conditions of latency establishment were considered. The identified profiles were then explored to prioritize the identified genes for future experimental validation.MethodsTo facilitate gene prioritization, three approaches were used. First, we characterized and compared the gene expression profiles of HIV latency established in different environments: in cells that encountered an activation stimulus and then returned to quiescence, and in resting cells that were infected directly via cell-to-cell viral transmission from autologous activated, productively infected cells. Second, we characterized and compared the gene expression profiles of HIV latency established with viruses of different tropisms, using an isogenic pair of CXCR4- and CCR5-tropic viruses. Lastly, we used proviral expression patterns in cells from people with HIV to more accurately define the latently infected cells in vitro.ResultsOur analyses demonstrated that a subset of genes is expressed differentially between latently infected and uninfected cells consistently under most conditions tested, including cells from people with HIV. Our second important observation was the presence of latency signatures, associated with variable conditions when latency was established, including cellular exposure and responsiveness to a T cell receptor stimulus and the tropism of the infecting virus.ConclusionCommon signatures, specifically genes that encode proteins localized to the cell surface, should be prioritized for further testing at the protein level as biomarkers for the ability to enrich or target latently infected cells. Cell- and tropism-dependent biomarkers may need to be considered in developing targeting strategies to ensure that all the different reservoir subsets are eliminated.

Published

2023

17. A modular CRISPR screen identifies individual and combination pathways contributing to HIV-1 latency

Author

Hsieh, Emily, Janssens, Derek H, Paddison, Patrick J, Browne, Edward P, Henikoff, Steve, OhAinle, Molly, and Emerman, Michael

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Biological Sciences, Immunology, Infectious Diseases, Genetics, HIV/AIDS, Infection, Humans, Histones, Nuclear Proteins, HIV-1, HIV Infections, Transcription Factors, Virus Latency, Clustered Regularly Interspaced Short Palindromic Repeats, HIV Seropositivity, Proviruses, CD4-Positive T-Lymphocytes, Homeodomain Proteins, Tumor Suppressor Proteins, Cell Cycle Proteins, Microbiology, Virology, Medical microbiology

Abstract

Transcriptional silencing of latent HIV-1 proviruses entails complex and overlapping mechanisms that pose a major barrier to in vivo elimination of HIV-1. We developed a new latency CRISPR screening strategy, called Latency HIV-CRISPR which uses the packaging of guideRNA-encoding lentiviral vector genomes into the supernatant of budding virions as a direct readout of factors involved in the maintenance of HIV-1 latency. We developed a custom guideRNA library targeting epigenetic regulatory genes and paired the screen with and without a latency reversal agent-AZD5582, an activator of the non-canonical NFκB pathway-to examine a combination of mechanisms controlling HIV-1 latency. A component of the Nucleosome Acetyltransferase of H4 histone acetylation (NuA4 HAT) complex, ING3, acts in concert with AZD5582 to activate proviruses in J-Lat cell lines and in a primary CD4+ T cell model of HIV-1 latency. We found that the knockout of ING3 reduces acetylation of the H4 histone tail and BRD4 occupancy on the HIV-1 LTR. However, the combination of ING3 knockout accompanied with the activation of the non-canonical NFκB pathway via AZD5582 resulted in a dramatic increase in initiation and elongation of RNA Polymerase II on the HIV-1 provirus in a manner that is nearly unique among all cellular promoters.

Published

2023

18. Drug Reaction with Eosinophilia and Systemic Symptoms (DRESS) Syndrome and Myocarditis: A Case Report and Literature Review on Fatal Complications of Reactivated Viral Infections.

Author

Tajerian, Amin, Pourvali, Ali, Movahedi, Masoud, Mohammadi, Maryam, Khansarinejad, Behzad, Pourmatin, Matin, Ghandi, Yazdan, and Daneshmand, Mohammad Ali

Subjects

*LITERATURE reviews, *VIRUS diseases, *MYOCARDITIS, *VIRUS reactivation, *SYMPTOMS, *POSTMORTEM changes

Abstract

Drug Reaction with Eosinophilia and Systemic Symptoms (DRESS) is a complex and potentially fatal hypersensitivity condition. We present a unique case report and literature review focusing on DRESS syndrome-associated myocarditis resulting from reactivated viral infections in a 21-year-old female. 3 weeks after 5-day oral co-trimoxazole consumption due to acne, she developed symptoms consistent with DRESS syndrome, including a generalized maculopapular rash. Despite prednisolone treatment, the patient developed fatal fulminant myocarditis linked to HHV-6 and CMV reactivation. The patient's death highlights the importance of early recognition and careful management of DRESS syndrome, especially considering the potential viral reactivation that can lead to severe complications. Postmortem investigations revealed that viral reactivation caused myocarditis. Careful consideration must be given to corticosteroid usage in DRESS treatment, as inappropriate prescribing may promote viral reactivation and subsequent complications. While high-dose corticosteroids initiated within the first week effectively suppress HHV-6 reactivation. Conversely, low-dose or late-start high-dose corticosteroids prove ineffective in preventing HHV-6 viremia. Late- onset or low- dose corticosteroids may lead to fatal complications following the primary viral reactivation. [ABSTRACT FROM AUTHOR]

Published

2024

19. People Living With HIV Have More Intact HIV DNA in Circulating CD4+ T Cells if They Have History of Pulmonary Tuberculosis

Author

Marc Antoine Jean Juste, Yvetot Joseph, Dominique Lespinasse, Alexandra Apollon, Parmida Jamshidi, Myung Hee Lee, Maureen Ward, Esther Brill, Yanique Duffus, Uche Chukwukere, Ali Danesh, Winiffer Alberto, Daniel Fitzgerald, Jean Pape, R Jones, and Kathryn Dupnik

Subjects

HIV, tuberculosis, virus latency, proviruses, Haiti, interleukin-1, Pathology, RB1-214, Immunologic diseases. Allergy, RC581-607

Abstract

Background: A primary barrier to curing HIV is the HIV reservoir. The leading infectious cause of death worldwide for people living with HIV is tuberculosis (TB), but we do not know how TB impacts the HIV reservoir. Methods: Participants in identification and validation cohorts were selected from previously enrolled studies at Groupe Haïtien d’Étude du Sarcome de Kaposi et des Infections Opportunistes (GHESKIO) in Port au Prince, Haiti. Intact and non-intact proviral DNA were quantified using droplet digital PCR of peripheral blood mononuclear cell (PBMC)-derived CD4+ T cells. Kruskal-Wallis tests were used to compare medians with tobit regression for censoring. Results: In the identification cohort, we found that people living with HIV with a history of active pulmonary TB (n=19) had higher levels of intact provirus than people living with HIV without a history of active TB (n=47) (median 762; IQR, 183-1173 vs 117; IQR, 24-279 intact provirus per million CD4, respectively; P=0.0001). This difference also was seen in the validation cohort (n=31), (median 102; IQR, 0-737 vs 0; IQR, 0-24.5 intact provirus per million CD4, P=0.03) for TB vs no-TB history groups, respectively. The frequencies of CD4+ T cells with any detectable proviral fragment was directly proportional to the levels of interleukin-1 beta (r=0.524, P= 0.0025) and interleukin-2 (r=0.622, P=0.0002). Conclusions: People living with HIV with a history of active pulmonary TB have more HIV provirus in their circulating CD4+ T cells, even years after TB cure. We need to characterize which CD4+ T cells are harboring intact provirus to consider the impact of T cell-targeting HIV cure interventions for people living in TB-endemic areas.

Published

2024

20. Integrated proteomics and transcriptomics analyses identify novel cell surface markers of HIV latency

Author

Beliakova-Bethell, Nadejda, Manousopoulou, Antigoni, Deshmukh, Savitha, Mukim, Amey, Richman, Douglas D, Garbis, Spiros D, and Spina, Celsa A

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Human Genome, Infectious Diseases, Biotechnology, Genetics, Sexually Transmitted Infections, HIV/AIDS, 2.2 Factors relating to the physical environment, Infection, CD4-Positive T-Lymphocytes, HIV Infections, HIV-1, Humans, Proteomics, Transcriptome, Virus Activation, Virus Latency, HIV latency, Biomarkers, Primary CD4+ T cells, Proteome, Quantitative proteomics, RNA-Seq, CEACAM1, PLXNB2, Primary CD4(+) T cells, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Elimination of the latent HIV cell reservoir may be possible, if the molecular identity of latently infected cells were fully elucidated. We conducted comprehensive molecular profiling, at the protein and RNA levels, of primary T cells latently infected with HIV in vitro. Isobaric labelling quantitative proteomics and RNA sequencing identified 1453 proteins and 618 genes, altered in latently infected cells compared to mock-infected controls (p

Published

2022

21. Willingness of Older Canadians with HIV to Participate in HIV Cure Research Near and After the End of Life: A Mixed-Method Study

Author

Lessard, David, Dubé, Karine, Bilodeau, Martin, Keeler, Patrick, Margolese, Shari, Rosenes, Ron, Sinyavskaya, Liliya, Durand, Madeleine, Benko, Erika, Kovacs, Colin, Guerlotté, Charlotte, Tharao, Wangari, Arnold, Keresa, Masching, Renée, Taylor, Darien, Sousa, José, Ostrowski, Mario, Taylor, Jeff, Kaytes, Andy, Smith, Davey, Gianella, Sara, Chomont, Nicolas, Angel, Jonathan B, Routy, Jean-Pierre, Cohen, Éric A, Lebouché, Bertrand, and Costiniuk, Cecilia T

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Behavioral and Social Science, Infectious Diseases, HIV/AIDS, Clinical Research, Generic health relevance, Infection, Good Health and Well Being, Aged, Biological Specimen Banks, Canada, Death, HIV Infections, HIV-1, Humans, Qualitative Research, Virus Latency, HIV, HIV cure, end-of-life research, research autopsy, mixed-methods research, Virology, Clinical sciences

Abstract

HIV cure research requires interrogating latent HIV reservoirs in deep tissues, which necessitates autopsies to avoid risks to participants. An HIV autopsy biobank would facilitate this research, but such research raises ethical issues and requires participant engagement. This study explores the willingness to participate in HIV cure research at the end of life. Participants include Canadians with HIV [people with HIV (PWHIV)] aged 55 years or older. Following a mixed-method study design, all participants completed a phone or online survey, and a subset of participants participated in in-depth phone or videoconference interviews. We produced descriptive statistics of quantitative data and a thematic analysis of qualitative data. Barriers and facilitators were categorized under domains of the Theoretical Domains Framework. From April 2020 to August 2021, 37 participants completed the survey (mean age = 69.9 years old; mean duration of HIV infection = 28.5 years), including 15 interviewed participants. About three quarters of participants indicated being willing to participate in hypothetical medical studies toward the end of life (n = 30; 81.1%), in HIV biobanking (n = 30; 81.1%), and in a research autopsy (n = 28; 75.7%) to advance HIV cure research, mainly for altruistic benefits. The main perceived risks had to do with physical pain and confidentiality. Barriers and facilitators were distributed across five domains: social/professional role and identity, environmental context and resources, social influences, beliefs about consequences, and capabilities. Participants wanted more information about study objectives and procedures, possible accommodations with their last will, and rationale for studies or financial interests funding studies. Our results indicate that older PWHIV would be willing to participate in HIV cure research toward the end of life, HIV biobanking, and research autopsy. However, a dialogue should be initiated to inform participants thoroughly about HIV cure studies, address concerns, and accommodate their needs and preferences. Additional work is required, likely through increased community engagement, to address educational needs.

Published

2022

22. KSHV Topologically Associating Domains in Latent and Reactivated Viral Chromatin

Author

Campbell, Mel, Chantarasrivong, Chanikarn, Yanagihashi, Yuichi, Inagaki, Tomoki, Davis, Ryan R, Nakano, Kazushi, Kumar, Ashish, Tepper, Clifford G, and Izumiya, Yoshihiro

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Cancer, Sexually Transmitted Infections, Genetics, HIV/AIDS, Human Genome, Biotechnology, Emerging Infectious Diseases, Cancer Genomics, Infectious Diseases, Generic health relevance, Infection, Chromatin, Gene Expression Regulation, Viral, Genome, Viral, Herpesvirus 8, Human, Humans, Trans-Activators, Virus Latency, CTCF, Capture Hi-C, epigenetics, KSHV, ORF50, TAD, genome organization, transcriptional regulation, Agricultural and Veterinary Sciences, Medical and Health Sciences, Virology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences

Abstract

Eukaryotic genomes are structurally organized via the formation of multiple loops that create gene expression regulatory units called topologically associating domains (TADs). Here we revealed the KSHV TAD structure at 500 bp resolution and constructed a 3D KSHV genomic structural model with 2 kb binning. The latent KSHV genome formed very similar genomic architectures in three different naturally infected PEL cell lines and in an experimentally infected epithelial cell line. The majority of the TAD boundaries were occupied by structural maintenance of chromosomes (SMC1) cohesin complex and CCCTC-binding factor (CTCF), and the KSHV transactivator was recruited to those sites during reactivation. Triggering KSHV gene expression decreased prewired genomic loops within the regulatory unit, while contacts extending outside of regulatory borders increased, leading to formation of a larger regulatory unit with a shift from repressive to active compartments (B to A). The 3D genomic structural model proposes that the immediate early promoter region is localized on the periphery of the 3D viral genome during latency, while highly inducible noncoding RNA regions moved toward the inner space of the structure, resembling the configuration of a "bird cage" during reactivation. The compartment-like properties of viral episomal chromatin structure and its reorganization during the transition from latency may help facilitate viral gene transcription. IMPORTANCE The 3D architecture of chromatin allows for efficient arrangement, expression, and replication of genetic material. The genomes of all organisms studied to date have been found to be organized through some form of tiered domain structures. However, the architectural framework of the genomes of large double-stranded DNA viruses such as the herpesvirus family has not been reported. Prior studies with Kaposi's sarcoma-associated herpesvirus (KSHV) have indicated that the viral chromatin shares many biological properties exhibited by the host cell genome, essentially behaving as a mini human chromosome. Thus, we hypothesized that the KSHV genome may be organized in a similar manner. In this report, we describe the domain structure of the latent and lytic KSHV genome at 500 bp resolution and present a 3D genomic structural model for KSHV under each condition. These results add new insights into the complex regulation of the viral life cycle.

Published

2022

23. Expression of the monocarboxylate transporter MCT1 is required for virus-specific mouse CD8+ T cell memory development.

Author

D'Aria, Stefania, Maquet, Céline, Shuang Li, Dhup, Suveera, Lepez, Anouk, Kohler, Arnaud, Van Hée, Vincent F., Dadhich, Rajesh K., Frenlère, Marine, Andris, Fabienne, Nemazanyy, Ivan, Sonveaux, Pierre, Machiels, Bénédicte, Gillet, Laurent, and Braun, Michel Y.

Subjects

*IMMUNOLOGIC memory, *MONOCARBOXYLATE transporters, *T-cell exhaustion, *PENTOSE phosphate pathway, *NUCLEOTIDE synthesis

Abstract

Lactate--proton symporter monocarboxylate transporter 1 (MCT1) facilitates lactic acid export from T cells. Here, we report that MCT1 is mandatory for the development of virus-specific CD8+ T cell memory. MCT1-deficient T cells were exposed to acute pneumovirus (pneumonia virus of mice, PVM) or persistent γ-herpesvirus (Murid herpesvirus 4, MuHV-4) infection. MCT1 was required for the expansion of virus-specific CD8+ T cells and the control of virus replication in the acute phase of infection. This situation prevented the subsequent development of virus-specific T cell memory, a necessary step in containing virus reactivation during γ-herpesvirus latency. Instead, persistent active infection drove virus-specific CD8+ T cells toward functional exhaustion, a phenotype typically seen in chronic viral infections. Mechanistically, MCT1 deficiency sequentially impaired lactic acid efflux from activated CD8+ T cells, caused an intracellular acidification inhibiting glycolysis, disrupted nucleotide synthesis in the upstream pentose phosphate pathway, and halted cell proliferation which, ultimately, promoted functional CD8+ T cell exhaustion instead of memory development. Taken together, our data demonstrate that MCT1 expression is mandatory for inducing T cell memory and controlling viral infection by CD8+ T cells. [ABSTRACT FROM AUTHOR]

Published

2024

24. Molecular Dissection of Herpes Simplex Virus Type 1 to Elucidate Molecular Mechanisms Behind Latency and Comparison of Its Codon Usage Patterns with Genes Modulated During Alzheimer's Disease as a Part of Host-Pathogen Interaction.

Author

Gurjar, Pankaj, Khan, Azmat Ali, Alanazi, Amer M., Vasil'ev, Vasilii G., Zouganelis, George, and Alexiou, Athanasios

Subjects

*HUMAN herpesvirus 1, *ALZHEIMER'S disease, *VARICELLA-zoster virus

Abstract

Background: Herpes simplex virus type 1 (HSV-1) is associated with Alzheimer's disease, which goes into a cycle of latency and reactivation. The present study was envisaged to understand the reasons for latency and specific molecular patterns present in the HSV-1. Objective: The objective is the molecular dissection of Herpes simplex virus type 1 to elucidate molecular mechanisms behind latency and compare its codon usage patterns with genes modulated during Alzheimer's disease as a part of host-pathogen interaction. Methods: In the present study, we tried to investigate the potential reasons for the latency of HSV-1 virus bioinformatically by determining the CpG patterns. Also, we investigated the codon usage pattern, the presence of rare codons, codon context, and protein properties. Results: The top 222 codon pairs graded based on their frequency in the HSV-1 genome revealed that with only one exception (CUG-UUU), all other codon pairs have codons ending with G/C. Considering it an extension of host-pathogen interaction, we compared HSV-1 codon usage with that of codon usage of genes modulated during Alzheimer's disease, and we found that CGT and TTT are only two codons that exhibited similar codon usage patterns and other codons showed statistically highly significant different codon preferences. Dinucleotide CpG tends to mutate to TpG, suggesting the presence of mutational forces and the imperative role of CpG methylation in HSV-1 latency. Conclusions: Upon comparison of codon usage between HSV-1 and Alzheimer's disease genes, no similarities in codon usage were found as a part of host-pathogen interaction. CpG methylation plays an imperative role in latency HSV-1. [ABSTRACT FROM AUTHOR]

Published

2024

25. Defining the Effects of PKC Modulator HIV Latency-Reversing Agents on Natural Killer Cells

Author

Melanie Dimapasoc, Jose Moran, Steve Cole, Alok Ranjan, Rami Hourani, Jocelyn Kim, Paul Wender, Matthew Marsden, and Jerome Zack

Subjects

Killer Cells, Natural, Protein Kinase C, HIV-1, Virus Latency, Immunity, Acquired Immunodeficiency Syndrome, Pathology, RB1-214, Immunologic diseases. Allergy, RC581-607

Abstract

Background: Latency reversing agents (LRAs) such as protein kinase C (PKC) modulators can reduce rebound-competent HIV reservoirs in small animal models. Furthermore, administration of natural killer (NK) cells following LRA treatment improves this reservoir reduction. It is currently unknown why the combination of a PKC modulator and NK cells is so potent and whether exposure to PKC modulators may augment NK cell function in some way. Methods: Primary human NK cells were treated with PKC modulators (bryostatin-1, prostratin, or the designed, synthetic bryostatin-1 analog SUW133), and evaluated by examining expression of activation markers by flow cytometry, analyzing transcriptomic profiles by RNA sequencing, measuring cytotoxicity by co-culturing with K562 cells, assessing cytokine production by Luminex assay, and examining the ability of cytokines and secreted factors to independently reverse HIV latency by co-culturing with Jurkat-Latency (J-Lat) cells. Results: PKC modulators increased expression of proteins involved in NK cell activation. Transcriptomic profiles from PKC-treated NK cells displayed signatures of cellular activation and enrichment of genes associated with the NFκB pathway. NK cell cytotoxicity was unaffected by prostratin but significantly decreased by bryostatin-1 and SUW133. Cytokines from PKC-stimulated NK cells did not induce latency reversal in J-Lat cell lines. Conclusions: Although PKC modulators have some significant effects on NK cells, their contribution in “kick and kill” strategies is likely due to upregulating HIV expression in CD4+ T cells, not directly enhancing the effector functions of NK cells. This suggests that PKC modulators are primarily augmenting the “kick” rather than the “kill” arm of this HIV cure approach.

Published

2024

26. Novel role of UHRF1 in the epigenetic repression of the latent HIV-1

Author

Verdikt, Roxane, Bendoumou, Maryam, Bouchat, Sophie, Nestola, Lorena, Pasternak, Alexander O, Darcis, Gilles, Avettand-Fenoel, Véronique, Vanhulle, Caroline, Aït-Ammar, Amina, Santangelo, Marion, Plant, Estelle, Le Douce, Valentin, Delacourt, Nadège, Cicilionytė, Aurelija, Necsoi, Coca, Corazza, Francis, Passaes, Caroline Pereira Bittencourt, Schwartz, Christian, Bizet, Martin, Fuks, François, Sáez-Cirión, Asier, Rouzioux, Christine, De Wit, Stéphane, Berkhout, Ben, Gautier, Virginie, Rohr, Olivier, and Van Lint, Carine

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Genetics, HIV/AIDS, Infectious Diseases, 2.1 Biological and endogenous factors, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, Acquired Immunodeficiency Syndrome, CCAAT-Enhancer-Binding Proteins, DNA Methylation, Decitabine, Epigenetic Repression, HIV Infections, HIV-1, Humans, Ubiquitin-Protein Ligases, Virus Latency, HIV-1 latency, Reactivation, UHRF1, Epigenetics, EGCG, Clinical Sciences, Public Health and Health Services, Clinical sciences, Epidemiology

Abstract

BackgroundThe multiplicity, heterogeneity, and dynamic nature of human immunodeficiency virus type-1 (HIV-1) latency mechanisms are reflected in the current lack of functional cure for HIV-1. Accordingly, all classes of latency-reversing agents (LRAs) have been reported to present variable ex vivo potencies. Here, we investigated the molecular mechanisms underlying the potency variability of one LRA: the DNA methylation inhibitor 5-aza-2'-deoxycytidine (5-AzadC).MethodsWe employed epigenetic interrogation methods (electrophoretic mobility shift assays, chromatin immunoprecipitation, Infinium array) in complementary HIV-1 infection models (latently-infected T-cell line models, primary CD4+ T-cell models and ex vivo cultures of PBMCs from HIV+ individuals). Extracellular staining of cell surface receptors and intracellular metabolic activity were measured in drug-treated cells. HIV-1 expression in reactivation studies was explored by combining the measures of capsid p24Gag protein, green fluorescence protein signal, intracellular and extracellular viral RNA and viral DNA.FindingsWe uncovered specific demethylation CpG signatures induced by 5-AzadC in the HIV-1 promoter. By analyzing the binding modalities to these CpG, we revealed the recruitment of the epigenetic integrator Ubiquitin-like with PHD and RING finger domain 1 (UHRF1) to the HIV-1 promoter. We showed that UHRF1 redundantly binds to the HIV-1 promoter with different binding modalities where DNA methylation was either non-essential, essential or enhancing UHRF1 binding. We further demonstrated the role of UHRF1 in the epigenetic repression of the latent viral promoter by a concerted control of DNA and histone methylations.InterpretationA better understanding of the molecular mechanisms of HIV-1 latency allows for the development of innovative antiviral strategies. As a proof-of-concept, we showed that pharmacological inhibition of UHRF1 in ex vivo HIV+ patient cell cultures resulted in potent viral reactivation from latency. Together, we identify UHRF1 as a novel actor in HIV-1 epigenetic silencing and highlight that it constitutes a new molecular target for HIV-1 cure strategies.FundingFunding was provided by the Belgian National Fund for Scientific Research (F.R.S.-FNRS, Belgium), the « Fondation Roi Baudouin », the NEAT (European AIDS Treatment Network) program, the Internationale Brachet Stiftung, ViiV Healthcare, the Télévie, the Walloon Region (« Fonds de Maturation »), « Les Amis des Instituts Pasteur à Bruxelles, asbl », the University of Brussels (Action de Recherche Concertée ULB grant), the Marie Skodowska Curie COFUND action, the European Union's Horizon 2020 research and innovation program under grant agreement No 691119-EU4HIVCURE-H2020-MSCA-RISE-2015, the French Agency for Research on AIDS and Viral Hepatitis (ANRS), the Sidaction and the "Alsace contre le Cancer" Foundation. This work is supported by 1UM1AI164562-01, co-funded by National Heart, Lung and Blood Institute, National Institute of Diabetes and Digestive and Kidney Diseases, National Institute of Neurological Disorders and Stroke, National Institute on Drug Abuse and the National Institute of Allergy and Infectious Diseases.

Published

2022

27. KSHV episome tethering sites on host chromosomes and regulation of latency-lytic switch by CHD4

Author

Kumar, Ashish, Lyu, Yuanzhi, Yanagihashi, Yuichi, Chantarasrivong, Chanikarn, Majerciak, Vladimir, Salemi, Michelle, Wang, Kang-Hsin, Inagaki, Tomoki, Chuang, Frank, Davis, Ryan R, Tepper, Clifford G, Nakano, Kazushi, Izumiya, Chie, Shimoda, Michiko, Nakajima, Ken-Ichi, Merleev, Alexander, Zheng, Zhi-Ming, Campbell, Mel, and Izumiya, Yoshihiro

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Infectious Diseases, Emerging Infectious Diseases, Cancer, Sexually Transmitted Infections, Genetics, Human Genome, HIV/AIDS, Infection, Antigens, Viral, Chromosomes, Herpesvirus 8, Human, Humans, Mi-2 Nucleosome Remodeling and Deacetylase Complex, Plasmids, RNA, Long Noncoding, Sarcoma, Kaposi, Tumor Microenvironment, Virus Latency, ADNP, CHD4, CP: Microbiology, ChAHP complex, DNA virus, KSHV, LANA, episome tethering, lncRNAs, mini-TurboID, viral reactivation, Biochemistry and Cell Biology, Medical Physiology, Biological sciences

Abstract

Kaposi sarcoma-associated herpesvirus (KSHV) establishes a latent infection in the cell nucleus, but where KSHV episomal genomes are tethered and the mechanisms underlying KSHV lytic reactivation are unclear. Here, we study the nuclear microenvironment of KSHV episomes and show that the KSHV latency-lytic replication switch is regulated via viral long non-coding (lnc)RNA-CHD4 (chromodomain helicase DNA binding protein 4) interaction. KSHV episomes localize with CHD4 and ADNP proteins, components of the cellular ChAHP complex. The CHD4 and ADNP proteins occupy the 5'-region of the highly inducible lncRNAs and terminal repeats of the KSHV genome together with latency-associated nuclear antigen (LANA). Viral lncRNA binding competes with CHD4 DNA binding, and KSHV reactivation sequesters CHD4 from the KSHV genome, which is also accompanied by detachment of KSHV episomes from host chromosome docking sites. We propose a model in which robust KSHV lncRNA expression determines the latency-lytic decision by regulating LANA/CHD4 binding to KSHV episomes.

Published

2022

28. Pembrolizumab induces HIV latency reversal in people living with HIV and cancer on antiretroviral therapy

Author

Uldrick, Thomas S, Adams, Scott V, Fromentin, Remi, Roche, Michael, Fling, Steven P, Gonçalves, Priscila H, Lurain, Kathryn, Ramaswami, Ramya, Wang, Chia-Ching Jackie, Gorelick, Robert J, Welker, Jorden L, O'Donoghue, Liz, Choudhary, Harleen, Lifson, Jeffrey D, Rasmussen, Thomas A, Rhodes, Ajantha, Tumpach, Carolin, Yarchoan, Robert, Maldarelli, Frank, Cheever, Martin A, Sékaly, Rafick, Chomont, Nicolas, Deeks, Steven G, and Lewin, Sharon R

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, Genetics, Cancer, HIV/AIDS, 2.2 Factors relating to the physical environment, Aetiology, Infection, Antibodies, Monoclonal, Humanized, CD4-Positive T-Lymphocytes, HIV Infections, HIV-1, Humans, Neoplasms, Phylogeny, Programmed Cell Death 1 Receptor, RNA, Virus Latency, Biological Sciences, Medical and Health Sciences, Medical biotechnology, Biomedical engineering

Abstract

In people living with HIV (PLWH) on antiretroviral therapy (ART), virus persists in a latent form where there is minimal transcription or protein expression. Latently infected cells are a major barrier to curing HIV. Increasing HIV transcription and viral production in latently infected cells could facilitate immune recognition and reduce the pool of infected cells that persist on ART. Given that programmed cell death protein 1 (PD-1) expressing CD4+ T cells are preferentially infected with HIV in PLWH on ART, we aimed to determine whether administration of antibodies targeting PD-1 would reverse HIV latency in vivo. We therefore evaluated the impact of intravenous administration of pembrolizumab every 3 weeks on HIV latency in 32 PLWH and cancer on ART. After the first infusion of anti-PD-1, we observed a median 1.32-fold increase in unspliced HIV RNA and 1.61-fold increase in unspliced RNA:DNA ratio in sorted blood CD4+ T cells compared to baseline. We also observed a 1.65-fold increase in plasma HIV RNA. The frequency of CD4+ T cells with inducible virus evaluated using the tat/rev limiting dilution assay was higher after 6 cycles compared to baseline. Phylogenetic analyses of HIV env sequences in a participant who developed low concentrations of HIV viremia after 6 cycles of pembrolizumab did not demonstrate clonal expansion of HIV-infected cells. These data are consistent with anti-PD-1 being able to reverse HIV latency in vivo and support the rationale for combining anti-PD-1 with other interventions to reduce the HIV reservoir.

Published

2022

29. The CMV-encoded G protein-coupled receptors M33 and US28 play pleiotropic roles in immune evasion and alter host T cell responses.

Author

White, Timothy, Bonavita, Cassie, Stanfield, Brent, Farrell, Helen, Davis-Poynter, Nicholas, and Cardin, Rhonda

Subjects

Cytomegalovirus (CMV), T cell memory, Viral G protein-coupled receptor, memory inflation, viral latency, Humans, Animals, Mice, Immune Evasion, Virus Latency, Cytomegalovirus, Receptors, G-Protein-Coupled, CD8-Positive T-Lymphocytes, Cytomegalovirus Infections

Abstract

INTRODUCTION: Human cytomegalovirus (HCMV) is a global health threat due to its ubiquity and lifelong persistence in infected people. During latency, host CD8+ T cell responses to HCMV continue to increase in a phenomenon known as memory inflation. We used murine CMV (MCMV) as a model for HCMV to characterize the memory inflation response to wild-type MCMV (KP) and a latency-defective mutant (ΔM33stop), which lacks M33, an MCMV chemokine receptor homolog. M33 is essential for normal reactivation from latency and this was leveraged to determine whether reactivation in vivo contributes to T cell memory inflation. METHODS: Mice were infected with wild-type or mutant MCMV and T cell responses were analyzed by flow cytometry at acute and latent time points. Ex vivo reactivation and cytotoxicity assays were carried out to further investigate immunity and virus replication. Quantitative reverse-transcriptase polymerase chain reaction (q-RTPCR) was used to examine gene expression during reactivation. MHC expression on infected cells was analyzed by flow cytometry. Finally, T cells were depleted from latently-infected B cell-deficient mice to examine the in vivo difference in reactivation between wild-type and ΔM33stop. RESULTS: We found that ΔM33stop triggers memory inflation specific for peptides derived from the immediate-early protein IE1 but not the early protein m164, in contrast to wild-type MCMV. During ex vivo reactivation, gene expression in DM33stop-infected lung tissues was delayed compared to wild-type virus. Normal gene expression was partially rescued by substitution of the HCMV US28 open reading frame in place of the M33 gene. In vivo depletion of T cells in immunoglobulin heavy chain-knockout mice resulted in reactivation of wild-type MCMV, but not ΔM33stop, confirming the role of M33 during reactivation from latency. Further, we found that M33 induces isotype-specific downregulation of MHC class I on the cell surface suggesting previously unappreciated roles in immune evasion. DISCUSSION: Our results indicate that M33 is more polyfunctional than previously appreciated. In addition to its role in reactivation, which had been previously described, we found that M33 alters viral gene expression, host T cell memory inflation, and MHC class I expression. US28 was able to partially complement most functions of M33, suggesting that its role in HCMV infection may be similarly pleotropic.

Published

2022

30. G-Quadruplex DNA and Other Non-Canonical B-Form DNA Motifs Influence Productive and Latent HIV-1 Integration and Reactivation Potential

Author

Ajoge, Hannah O, Kohio, Hinissan P, Paparisto, Ermela, Coleman, Macon D, Wong, Kemen, Tom, Sean K, Bain, Katie L, Berry, Charles C, Arts, Eric J, and Barr, Stephen D

Subjects

Microbiology, Biological Sciences, HIV/AIDS, Genetics, Human Genome, Infectious Diseases, Aetiology, 2.2 Factors relating to the physical environment, Infection, Humans, G-Quadruplexes, HIV-1, Nucleotide Motifs, DNA, B-Form, HIV Infections, Virus Latency, DNA, Proviruses, HIV Seropositivity, HIV, integration, latency, provirus reactivation, non-B DNA, guanine-quadruplex (G4) DNA, LEDGF, p75, CPSF6, reservoir, LEDGF/p75

Abstract

The integration of the HIV-1 genome into the host genome is an essential step in the life cycle of the virus and it plays a critical role in the expression, long-term persistence, and reactivation of HIV expression. To better understand the local genomic environment surrounding HIV-1 proviruses, we assessed the influence of non-canonical B-form DNA (non-B DNA) on the HIV-1 integration site selection. We showed that productively and latently infected cells exhibit different integration site biases towards non-B DNA motifs. We identified a correlation between the integration sites of the latent proviruses and non-B DNA features known to potently influence gene expression (e.g., cruciform, guanine-quadruplex (G4), triplex, and Z-DNA). The reactivation potential of latent proviruses with latency reversal agents also correlated with their proximity to specific non-B DNA motifs. The perturbation of G4 structures in vitro using G4 structure-destabilizing or -stabilizing ligands resulted in a significant reduction in integration within 100 base pairs of G4 motifs. The stabilization of G4 structures increased the integration within 300-500 base pairs from G4 motifs, increased integration near transcription start sites, and increased the proportion of latently infected cells. Moreover, we showed that host lens epithelium-derived growth factor (LEDGF)/p75 and cleavage and polyadenylation specificity factor 6 (CPSF6) influenced the distribution of integration sites near several non-B DNA motifs, especially G4 DNA. Our findings identify non-B DNA motifs as important factors that influence productive and latent HIV-1 integration and the reactivation potential of latent proviruses.

Published

2022

31. HIV-1 latency is established preferentially in minimally activated and non-dividing cells during productive infection of primary CD4 T cells

Author

Soto, Paula C, Terry, Valeri H, Lewinski, Mary K, Deshmukh, Savitha, Beliakova-Bethell, Nadejda, and Spina, Celsa A

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, HIV/AIDS, Aetiology, 2.1 Biological and endogenous factors, 2.2 Factors relating to the physical environment, Infection, CD4-Positive T-Lymphocytes, HIV Infections, HIV Seropositivity, HIV-1, Humans, Virus Latency, Virus Replication, General Science & Technology

Abstract

Latently infected CD4 T cells form a stable reservoir of HIV that leads to life-long viral persistence; the mechanisms involved in establishment of this latency are not well understood. Three scenarios have been proposed: 1) an activated, proliferating cell becomes infected and reverts back to a resting state; 2) an activated cell becomes infected during its return to resting; or 3) infection is established directly in a resting cell. The aim of this study was, therefore, to investigate the relationship between T cell activation and proliferation and the establishment of HIV latency. Isolated primary CD4 cells were infected at different time points before or after TCR-induced stimulation. Cell proliferation within acutely infected cultures was tracked using CFSE viable dye over 14 days; and cell subsets that underwent varying degrees of proliferation were isolated at end of culture by flow cytometric sorting. Recovered cell subpopulations were analyzed for the amount of integrated HIV DNA, and the ability to produce virus, upon a second round of cell stimulation. We show that cell cultures exposed to virus, prior to stimulus addition, contained the highest levels of integrated and replication-competent provirus after returning to quiescence; whereas, cells infected during the height of cell proliferation retained the least. Cells that did not divide or exhibited limited division, following virus exposure and stimulation contained greater amounts of integrated and inducible HIV than did cells that had divided many times. Based on these results, co-culture experiments were conducted to demonstrate that latent infection could be established directly in non-dividing cells via cell-to-cell transmission from autologous productively infected cells. Together, the findings from our studies implicate the likely importance of direct infection of sub-optimally activated T cells in establishment of latently infected reservoirs in vivo, especially in CD4 lymphocytes that surround productive viral foci within immune tissue microenvironments.

Published

2022

32. Parallel analysis of transcription, integration, and sequence of single HIV-1 proviruses

Author

Einkauf, Kevin B, Osborn, Matthew R, Gao, Ce, Sun, Weiwei, Sun, Xiaoming, Lian, Xiaodong, Parsons, Elizabeth M, Gladkov, Gregory T, Seiger, Kyra W, Blackmer, Jane E, Jiang, Chenyang, Yukl, Steven A, Rosenberg, Eric S, Yu, Xu G, and Lichterfeld, Mathias

Subjects

Biotechnology, Genetics, Infectious Diseases, Human Genome, HIV/AIDS, Clinical Research, Infection, Aged, Base Sequence, Biological Evolution, Chromatin, Clone Cells, DNA, Viral, Epigenesis, Genetic, Female, HIV-1, Humans, Ionomycin, Male, Middle Aged, Phylogeny, Proviruses, RNA, Viral, Tetradecanoylphorbol Acetate, Transcription, Genetic, Virus Integration, Virus Latency, HIV RNA transcription, HIV reservoir, antiretroviral treatment, chromosomal integration site, epigenetics, proviruses, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

HIV-1-infected cells that persist despite antiretroviral therapy (ART) are frequently considered "transcriptionally silent," but active viral gene expression may occur in some cells, challenging the concept of viral latency. Applying an assay for profiling the transcriptional activity and the chromosomal locations of individual proviruses, we describe a global genomic and epigenetic map of transcriptionally active and silent proviral species and evaluate their longitudinal evolution in persons receiving suppressive ART. Using genome-wide epigenetic reference data, we show that proviral transcriptional activity is associated with activating epigenetic chromatin features in linear proximity of integration sites and in their inter- and intrachromosomal contact regions. Transcriptionally active proviruses were actively selected against during prolonged ART; however, this pattern was violated by large clones of virally infected cells that may outcompete negative selection forces through elevated intrinsic proliferative activity. Our results suggest that transcriptionally active proviruses are dynamically evolving under selection pressure by host factors.

Published

2022

33. Novel assays to investigate the mechanisms of latent infection with HIV-2

Author

Lu, Michael D, Telwatte, Sushama, Kumar, Nitasha, Ferreira, Fernanda, Martin, Holly Anne, Kadiyala, Gayatri Nikhila, Wedrychowski, Adam, Moron-Lopez, Sara, Chen, Tsui-Hua, Goecker, Erin A, Coombs, Robert W, Lu, Chuanyi M, Wong, Joseph K, Tsibris, Athe, and Yukl, Steven A

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, HIV/AIDS, Genetics, Infectious Diseases, Aetiology, 2.2 Factors relating to the physical environment, Infection, Good Health and Well Being, HIV Infections, HIV Seropositivity, HIV-1, HIV-2, Humans, Latent Infection, Virus Latency, General Science & Technology

Abstract

Although there have been great advancements in the field of HIV treatment and prevention, there is no cure. There are two types of HIV: HIV-1 and HIV-2. In addition to genetic differences between the two types of HIV, HIV-2 infection causes a slower disease progression, and the rate of new HIV-2 infections has dramatically decreased since 2003. Like HIV-1, HIV-2 is capable of establishing latent infection in CD4+ T cells, thereby allowing the virus to evade viral cytopathic effects and detection by the immune system. The mechanisms underlying HIV latency are not fully understood, rendering this a significant barrier to development of a cure. Using RT-ddPCR, we previously demonstrated that latent infection with HIV-1 may be due to blocks to HIV transcriptional elongation, distal transcription/polyadenylation, and multiple splicing. In this study, we describe the development of seven highly-specific RT-ddPCR assays for HIV-2 that can be applied to the study of HIV-2 infections and latency. We designed and validated seven assays targeting different HIV-2 RNA regions along the genome that can be used to measure the degree of progression through different blocks to HIV-2 transcription and splicing. Given that HIV-2 is vastly understudied relative to HIV-1 and that it can be considered a model of a less virulent infection, application of these assays to studies of HIV-2 latency may inform new therapies for HIV-2, HIV-1, and other retroviruses.

Published

2022

34. Latency reversal plus natural killer cells diminish HIV reservoir in vivo

Author

Kim, Jocelyn T, Zhang, Tian-Hao, Carmona, Camille, Lee, Bryanna, Seet, Christopher S, Kostelny, Matthew, Shah, Nisarg, Chen, Hongying, Farrell, Kylie, Soliman, Mohamed SA, Dimapasoc, Melanie, Sinani, Michelle, Blanco, Kenia Yazmin Reyna, Bojorquez, David, Jiang, Hong, Shi, Yuan, Du, Yushen, Komarova, Natalia L, Wodarz, Dominik, Wender, Paul A, Marsden, Matthew D, Sun, Ren, and Zack, Jerome A

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, Sexually Transmitted Infections, Biotechnology, HIV/AIDS, 5.1 Pharmaceuticals, Infection, Animals, Anti-HIV Agents, Bone Marrow, CD4-Positive T-Lymphocytes, Coculture Techniques, Female, HIV Infections, HIV-1, Host-Pathogen Interactions, Humans, Killer Cells, Natural, Male, Mice, Mice, Transgenic, Protein Kinase C, Protein Kinase Inhibitors, Spleen, Viral Load, Viremia, Virus Latency, Virus Replication

Abstract

HIV is difficult to eradicate due to the persistence of a long-lived reservoir of latently infected cells. Previous studies have shown that natural killer cells are important to inhibiting HIV infection, but it is unclear whether the administration of natural killer cells can reduce rebound viremia when anti-retroviral therapy is discontinued. Here we show the administration of allogeneic human peripheral blood natural killer cells delays viral rebound following interruption of anti-retroviral therapy in humanized mice infected with HIV-1. Utilizing genetically barcoded virus technology, we show these natural killer cells efficiently reduced viral clones rebounding from latency. Moreover, a kick and kill strategy comprised of the protein kinase C modulator and latency reversing agent SUW133 and allogeneic human peripheral blood natural killer cells during anti-retroviral therapy eliminated the viral reservoir in a subset of mice. Therefore, combinations utilizing latency reversal agents with targeted cellular killing agents may be an effective approach to eradicating the viral reservoir.

Published

2022

35. Immunological Considerations for the Development of an Effective Herpes Vaccine

Author

Mahmoud Singer and Mohamed I. Husseiny

Subjects

vaccine design, herpes simplex virus (HSV), virus latency, innate immunity, adaptive immunity, CD8 T cells, Biology (General), QH301-705.5

Abstract

Research is underway to develop a vaccine to prevent and cure infection from herpes simplex virus (HSV). It emphasizes the critical need for immunization to address public health issues and the shortcomings of existing treatment options. Furthermore, studies on the HSV vaccine advance the field of immunology and vaccine creation, which may help in the battle against other viral illnesses. The current lack of such a vaccine is, in part, due to herpes viral latency in sensory ganglions. Current vaccines rely on tissue-resident memory CD8+ T cells, which are known to provide protection against subsequent HSV reinfection and reactivation without correlating with other immune subsets. For that reason, there is no effective vaccine that can provide protection against latent or recurrent herpes infection. This review focuses on conventional methods for evaluating the efficacy of a herpes vaccine using differential CD8+ T cells and important unaccounted immune aspects for designing an effective vaccine against herpes.

Published

2024

36. HIV-1 Genomes Are Enriched in Memory CD4+ T-Cells with Short Half-Lives

Author

Morcilla, Vincent, Bacchus-Souffan, Charline, Fisher, Katie, Horsburgh, Bethany A, Hiener, Bonnie, Wang, Xiao Qian, Schlub, Timothy E, Fitch, Mark, Hoh, Rebecca, Hecht, Frederick M, Martin, Jeffrey N, Deeks, Steven G, Hellerstein, Marc K, McCune, Joseph M, Hunt, Peter W, and Palmer, Sarah

Subjects

Infectious Diseases, HIV/AIDS, Infection, Adult, CD4-Positive T-Lymphocytes, Disease Reservoirs, Genome, Viral, HIV Infections, HIV-1, Half-Life, Humans, Immunological Memory Cells, Lymphocyte Count, Male, Middle Aged, Proviruses, Virus Latency, cell proliferation, cellular half-life, human immunodeficiency virus, persistence, Microbiology

Abstract

Future HIV-1 curative therapies require a thorough understanding of the distribution of genetically-intact HIV-1 within T-cell subsets during antiretroviral therapy (ART) and the cellular mechanisms that maintain this reservoir. Therefore, we sequenced near-full-length HIV-1 genomes and identified genetically-intact and genetically-defective genomes from resting naive, stem-cell memory, central memory, transitional memory, effector memory, and terminally-differentiated CD4+ T-cells with known cellular half-lives from 11 participants on ART. We find that a higher infection frequency with any HIV-1 genome was significantly associated with a shorter cellular half-life, such as transitional and effector memory cells. A similar enrichment of genetically-intact provirus was observed in these cells with relatively shorter half-lives. We found that effector memory and terminally-differentiated cells also had significantly higher levels of expansions of genetically-identical sequences, while only transitional and effector memory cells contained genetically-intact proviruses that were part of a cluster of identical sequences. Expansions of identical sequences were used to infer cellular proliferation from clonal expansion. Altogether, this indicates that specific cellular mechanisms such as short half-life and proliferative potential contribute to the persistence of genetically-intact HIV-1. IMPORTANCE The design of future HIV-1 curative therapies requires a more thorough understanding of the distribution of genetically-intact HIV-1 within T-cell subsets as well as the cellular mechanisms that maintain this reservoir. These genetically-intact and presumably replication-competent proviruses make up the latent HIV-1 reservoir. Our investigations into the possible cellular mechanisms maintaining the HIV-1 reservoir in different T-cell subsets have revealed a link between the half-lives of T-cells and the level of proviruses they contain. Taken together, we believe our study shows that more differentiated and proliferative cells, such as transitional and effector memory T-cells, contain the highest levels of genetically-intact proviruses, and the rapid turnover rate of these cells contributes to the expansion of genetically-intact proviruses within them. Therefore, our study delivers an in-depth assessment of the cellular mechanisms, such as cellular proliferation and half-life, that contribute to and maintain the latent HIV-1 reservoir.

Published

2021

37. Assessing the Suitability of Next-Generation Viral Outgrowth Assays to Measure Human Immunodeficiency Virus 1 Latent Reservoir Size.

Author

Mellors, John, Deeks, Steven, Lai, Jun, Beg, Subul, Siliciano, Janet, Pagliuzza, Amélie, Chomont, Nicolas, Lackman-Smith, Carol, Ptak, Roger, Busch, Michael, Stone, Mars, Rosenbloom, Daniel, Deng, Xutao, Dimapasoc, Melanie, Keating, Sheila, Bakkour, Sonia, Bacchetti, Peter, and Richman, Douglas

Subjects

HIV cure, HIV reservoir, IUPM, Inducible HIV RNA, assay comparison, latency, leukapheresis, quantitative viral out growth assay (QVOA), Antiretroviral Therapy, Highly Active, CD4-Positive T-Lymphocytes, Case-Control Studies, HIV Infections, HIV Reverse Transcriptase, HIV-1, High-Throughput Nucleotide Sequencing, Humans, Leukapheresis, Viral Load, Virus Latency, Virus Replication

Abstract

BACKGROUND: Evaluations of human immunodeficiency virus (HIV) curative interventions require reliable and efficient quantification of replication-competent latent reservoirs. The classic quantitative viral outgrowth assay (QVOA) has been regarded as the reference standard, although prohibitively resource and labor intensive. We compared 6 next-generation viral outgrowth assays, using polymerase chain reaction or ultrasensitive p24 to assess their suitability as scalable proxies for QVOA. METHODS: Next-generation QVOAs were compared with classic QVOA using single leukapheresis-derived samples from 5 antiretroviral therapy-suppressed HIV-infected participants and 1 HIV-uninfected control; each laboratory tested blinded batches of 3 frozen and 1 fresh sample. Markov chain Monte Carlo methods estimated extra-Poisson variation at aliquot, batch, and laboratory levels. Models also estimated the effect of testing frozen versus fresh samples. RESULTS: Next-generation QVOAs had similar estimates of variation to QVOA. Assays with ultrasensitive readout reported higher infectious units per million values than classic QVOA. Within-batch testing had 2.5-fold extra-Poisson variation (95% credible interval [CI], 2.1-3.5-fold) for next-generation assays. Between-laboratory variation increased extra-Poisson variation to 3.4-fold (95% CI, 2.6-5.4-fold). Frozen storage did not substantially alter infectious units per million values (-18%; 95% CI, -52% to 39%). CONCLUSIONS: The data offer cautious support for use of next-generation QVOAs as proxies for more laborious QVOA, while providing greater sensitivities and dynamic ranges. Measurement of latent reservoirs in eradication strategies would benefit from high throughput and scalable assays.

Published

2021

38. Assessing suitability of next-generation viral outgrowth assays as proxies for classic QVOA to measure HIV-1 latent reservoir size

Author

Stone, Mars, Rosenbloom, Daniel, Bacchetti, Peter, Deng, Xutao, Dimapasoc, Melanie, Keating, Sheila, Bakkour, Sonia, Richman, Douglas, Mellors, John, Deeks, Steven, Lai, Jun, Beg, Subul, Siliciano, Janet, Pagliuzza, Amélie, Chomont, Nicolas, Lackman-Smith, Carol, Ptak, Roger G, and Busch, Michael P

Subjects

Clinical Trials and Supportive Activities, HIV/AIDS, Clinical Research, Infectious Diseases, Infection, Good Health and Well Being, Antiretroviral Therapy, Highly Active, CD4-Positive T-Lymphocytes, Case-Control Studies, HIV Infections, HIV Reverse Transcriptase, HIV-1, High-Throughput Nucleotide Sequencing, Humans, Leukapheresis, Viral Load, Virus Latency, Virus Replication, HIV reservoir, quantitative viral out growth assay, assay comparison, IUPM, latency, leukapheresis, HIV cure, Inducible HIV RNA, Biological Sciences, Medical and Health Sciences, Microbiology

Abstract

BackgroundEvaluations of human immunodeficiency virus (HIV) curative interventions require reliable and efficient quantification of replication-competent latent reservoirs. The "classic" quantitative viral outgrowth assay (QVOA) has been regarded as the reference standard, although prohibitively resource and labor intensive. We compared 6 "next-generation" viral outgrowth assays, using polymerase chain reaction or ultrasensitive p24 to assess their suitability as scalable proxies for QVOA.MethodsNext-generation QVOAs were compared with classic QVOA using single leukapheresis-derived samples from 5 antiretroviral therapy-suppressed HIV-infected participants and 1 HIV-uninfected control; each laboratory tested blinded batches of 3 frozen and 1 fresh sample. Markov chain Monte Carlo methods estimated extra-Poisson variation at aliquot, batch, and laboratory levels. Models also estimated the effect of testing frozen versus fresh samples.ResultsNext-generation QVOAs had similar estimates of variation to QVOA. Assays with ultrasensitive readout reported higher infectious units per million values than classic QVOA. Within-batch testing had 2.5-fold extra-Poisson variation (95% credible interval [CI], 2.1-3.5-fold) for next-generation assays. Between-laboratory variation increased extra-Poisson variation to 3.4-fold (95% CI, 2.6-5.4-fold). Frozen storage did not substantially alter infectious units per million values (-18%; 95% CI, -52% to 39%).ConclusionsThe data offer cautious support for use of next-generation QVOAs as proxies for more laborious QVOA, while providing greater sensitivities and dynamic ranges. Measurement of latent reservoirs in eradication strategies would benefit from high throughput and scalable assays.

Published

2021

39. Impact of anti-PD-1 and anti-CTLA-4 on the HIV reservoir in people living with HIV with cancer on antiretroviral therapy: The AIDS Malignancy Consortium-095 study

Author

Rasmussen, Thomas A, Rajdev, Lakshmi, Rhodes, Ajantha, Dantanarayana, Ashanti, Tennakoon, Surekha, Chea, Socheata, Spelman, Tim, Lensing, Shelly, Rutishauser, Rachel, Bakkour, Sonia, Busch, Michael, Siliciano, Janet D, Siliciano, Robert F, Einstein, Mark H, Dittmer, Dirk P, Chiao, Elizabeth, Deeks, Steven, Durand, Christine, and Lewin, Sharon R

Subjects

Genetics, HIV/AIDS, Infectious Diseases, Clinical Research, Cancer, Infection, Acquired Immunodeficiency Syndrome, CTLA-4 Antigen, HIV Infections, HIV-1, Humans, Neoplasms, Programmed Cell Death 1 Receptor, Virus Latency, HIV, HIV latency, anti-PD-1, anti-CTLA-4, anti–CTLA-4, anti–PD-1, Biological Sciences, Medical and Health Sciences, Microbiology

Abstract

BackgroundAntibodies to programmed cell death 1 (PD-1) and cytotoxic T-lymphocyte-associated protein 4 (CTLA-4) may perturb human immunodeficiency virus (HIV) persistence during antiretroviral therapy (ART) by reversing HIV latency and/or boosting HIV-specific immunity, leading to clearance of infected cells. We tested this hypothesis in a clinical trial of anti-PD-1 alone or in combination with anti-CTLA-4 in people living with HIV (PLWH) and cancer.MethodsThis was a substudy of the AIDS Malignancy Consortium 095 Study. ART-suppressed PLWH with advanced malignancies were assigned to nivolumab (anti-PD-1) with or without ipilimumab (anti-CTLA-4). In samples obtained preinfusion and 1 and 7 days after the first and fourth doses of immune checkpoint blockade (ICB), we quantified cell-associated unspliced (CA-US) HIV RNA and HIV DNA. Plasma HIV RNA was quantified during the first treatment cycle. Quantitative viral outgrowth assay (QVOA) to estimate the frequency of replication-competent HIV was performed before and after ICB for participants with samples available.ResultsOf 40 participants, 33 received nivolumab and 7 nivolumab plus ipilimumab. Whereas CA-US HIV RNA did not change with nivolumab monotherapy, we detected a median 1.44-fold increase (interquartile range, 1.16-1.89) after the first dose of nivolumab and ipilimumab combination therapy (P = .031). There was no decrease in the frequency of cells containing replication-competent HIV, but in the 2 individuals on combination ICB for whom we had longitudinal QVOA, we detected decreases of 97% and 64% compared to baseline.ConclusionsAnti-PD-1 alone showed no effect on HIV latency or the latent HIV reservoir, but the combination of anti-PD-1 and anti-CTL-4 induced a modest increase in CA-US HIV RNA and may potentially eliminate cells containing replication-competent HIV.Clinical trials registrationNCT02408861.

Published

2021

40. Tissue‐specific differences in HIV DNA levels and mechanisms that govern HIV transcription in blood, gut, genital tract and liver in ART‐treated women

Author

Moron‐Lopez, Sara, Xie, Guorui, Kim, Peggy, Siegel, David A, Lee, Sulggi, Wong, Joseph K, Price, Jennifer C, Elnachef, Najwa, Greenblatt, Ruth M, Tien, Phyllis C, Roan, Nadia R, and Yukl, Steven A

Subjects

HIV/AIDS, Digestive Diseases, Genetics, Infectious Diseases, Clinical Research, Infection, DNA, Female, Genitalia, HIV Infections, HIV-1, Humans, Leukocytes, Mononuclear, Liver, Male, RNA, Viral, HIV, virus latency, RNA, women, intestines, cervix uteri, liver, Clinical Sciences, Public Health and Health Services, Other Medical and Health Sciences

Abstract

IntroductionSex-specific differences affect multiple aspects of HIV infection, yet few studies have quantified HIV levels in tissues from women. Since an HIV functional cure will likely require a major reduction of infected cells from most tissues, we measured total and intact HIV DNA and the HIV transcription profile in blood, gut, genital tract and liver from HIV-positive antiretroviral therapy (ART) -treated women.MethodsPeripheral blood mononuclear cells (PBMC) and biopsies from the gastrointestinal (ileum, colon, rectosigmoid +/- liver) and genital (ectocervix, endocervix and endometrium) tracts were collected from 6 ART-treated (HIV RNA

Published

2021

41. A highly multiplexed droplet digital PCR assay to measure the intact HIV-1 proviral reservoir

Author

Levy, Claire N, Hughes, Sean M, Roychoudhury, Pavitra, Reeves, Daniel B, Amstuz, Chelsea, Zhu, Haiying, Huang, Meei-Li, Wei, Yulun, Bull, Marta E, Cassidy, Noah AJ, McClure, Jan, Frenkel, Lisa M, Stone, Mars, Bakkour, Sonia, Wonderlich, Elizabeth R, Busch, Michael P, Deeks, Steven G, Schiffer, Joshua T, Coombs, Robert W, Lehman, Dara A, Jerome, Keith R, and Hladik, Florian

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Sexually Transmitted Infections, Infectious Diseases, HIV/AIDS, Clinical Research, Infection, DNA, Viral, HIV Infections, HIV Seropositivity, HIV-1, Humans, Polymerase Chain Reaction, Proviruses, Viral Load, Virus Latency, HIV cure, HIV reservoir, IPDA, digital PCR, genital mucosa, intact proviral DNA assay, intestinal mucosa, multiplexing, rectal, viral outgrowth assay, Biomedical and clinical sciences

Abstract

Quantifying the replication-competent HIV reservoir is essential for evaluating curative strategies. Viral outgrowth assays (VOAs) underestimate the reservoir because they fail to induce all replication-competent proviruses. Single- or double-region HIV DNA assays overestimate it because they fail to exclude many defective proviruses. We designed two triplex droplet digital PCR assays, each with 2 unique targets and 1 in common, and normalize the results to PCR-based T cell counts. Both HIV assays are specific, sensitive, and reproducible. Together, they estimate the number of proviruses containing all five primer-probe regions. Our 5-target results are on average 12.1-fold higher than and correlate with paired quantitative VOA (Spearman's ρ = 0.48) but estimate a markedly smaller reservoir than previous DNA assays. In patients on antiretroviral therapy, decay rates in blood CD4+ T cells are faster for intact than for defective proviruses, and intact provirus frequencies are similar in mucosal and circulating T cells.

Published

2021

42. Multiply spliced HIV RNA is a predictive measure of virus production ex vivo and in vivo following reversal of HIV latency

Author

Zerbato, Jennifer M, Khoury, Georges, Zhao, Wei, Gartner, Matthew J, Pascoe, Rachel D, Rhodes, Ajantha, Dantanarayana, Ashanti, Gooey, Megan, Anderson, Jenny, Bacchetti, Peter, Deeks, Steven G, McMahon, James, Roche, Michael, Rasmussen, Thomas A, Purcell, Damian FJ, and Lewin, Sharon R

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Clinical Research, Genetics, HIV/AIDS, Sexually Transmitted Infections, Infectious Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Anti-Retroviral Agents, CD4-Positive T-Lymphocytes, Cell Proliferation, HIV Infections, HIV-1, Histone Deacetylase Inhibitors, Humans, Polyhydroxyalkanoates, RNA Splicing, RNA, Viral, Tetradecanoylphorbol Acetate, Virus Latency, Vorinostat, HIV, Multiply-spliced HIV RNA, Reservoir, Shock and kill, Latency reversal, Biomarker, Clinical Sciences, Public Health and Health Services, Clinical sciences, Epidemiology

Abstract

BackgroundOne strategy being pursued to clear latently infected cells that persist in people living with HIV (PLWH) on antiretroviral therapy (ART) is to activate latent HIV infection with a latency reversing agent (LRA). Surrogate markers that accurately measure virus production following an LRA are needed.MethodsWe quantified cell-associated unspliced (US), multiply spliced (MS) and supernatant (SN) HIV RNA by qPCR from total and resting CD4+ T cells isolated from seven PLWH on ART before and after treatment ex vivo with different LRAs, including histone deacetylase inhibitors (HDACi). MS and plasma HIV RNA were also quantified from PLWH on ART (n-11) who received the HDACi panobinostat.FindingsIn total and resting CD4+ T cells from PLWH on ART, detection of US RNA was common while detection of MS RNA was infrequent. Primers used to detect MS RNA, in contrast to US RNA, bound sites of the viral genome that are commonly mutated or deleted in PLWH on ART. Following ex vivo stimulation with LRAs, we identified a strong correlation between the fold change increase in SN and MS RNA, but not the fold change increase in SN and US RNA. In PLWH on ART who received panobinostat, MS RNA was significantly higher in samples with detectable compared to non0detectable plasma HIV RNA.InterpretationFollowing administration of an LRA, quantification of MS RNA is more likely to reflect an increase in virion production and is therefore a better indicator of meaningful latency reversal.FundingNHMRC, NIH DARE collaboratory.

Published

2021

43. Intact Human Immunodeficiency Virus (HIV) Reservoir Estimated by the Intact Proviral DNA Assay Correlates With Levels of Total and Integrated DNA in the Blood During Suppressive Antiretroviral Therapy.

Author

Papasavvas, Emmanouil, Azzoni, Livio, Ross, Brian N, Fair, Matthew, Yuan, Zhe, Gyampoh, Kwasi, Mackiewicz, Agnieszka, Sciorillo, Amanda C, Pagliuzza, Amelie, Lada, Steven M, Wu, Guoxin, Goh, Shih Lin, Bahnck-Teets, Carolyn, Holder, Daniel J, Zuck, Paul D, Damra, Mohammad, Lynn, Kenneth M, Tebas, Pablo, Mounzer, Karam, Kostman, Jay R, Abdel-Mohsen, Mohamed, Richman, Douglas, Chomont, Nicolas, Howell, Bonnie J, and Montaner, Luis J

Subjects

Infectious Diseases, HIV/AIDS, Genetics, Clinical Research, Infection, Good Health and Well Being, CD4-Positive T-Lymphocytes, DNA, Viral, HIV Infections, HIV-1, Humans, Proviruses, Virus Latency, HIV latency, IPDA, TILDA, p24, integrated HIV, Integrated HIV, Biological Sciences, Medical and Health Sciences, Microbiology

Abstract

Accurate characterization of the HIV reservoir is imperative to develop an effective cure. HIV was measured in antiretroviral therapy-suppressed individuals using the intact proviral DNA assay (IPDA), along with assays for total or integrated HIV DNA, and inducible HIV RNA or p24. Intact provirus correlated with total and integrated HIV.

Published

2021

44. Antigen-driven clonal selection shapes the persistence of HIV-1 infected CD4+ T cells in vivo

Author

Simonetti, Francesco R, Zhang, Hao, Soroosh, Garshasb P, Duan, Jiayi, Rhodehouse, Kyle, Hill, Alison L, Beg, Subul A, McCormick, Kevin, Raymond, Hayley E, Nobles, Christopher L, Everett, John K, Kwon, Kyungyoon J, White, Jennifer A, Lai, Jun, Margolick, Joseph B, Hoh, Rebecca, Deeks, Steven G, Bushman, Frederic D, Siliciano, Janet D, and Siliciano, Robert F

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Infectious Diseases, Sexually Transmitted Infections, Clinical Research, HIV/AIDS, 2.1 Biological and endogenous factors, Aetiology, Infection, Adult, CD4-Positive T-Lymphocytes, Clonal Selection, Antigen-Mediated, Female, HIV Infections, HIV-1, Humans, Male, Virus Integration, Virus Latency, gag Gene Products, Human Immunodeficiency Virus, AIDS/HIV, Adaptive immunity, Clonal selection, T cells, Medical and Health Sciences, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Clonal expansion of infected CD4+ T cells is a major mechanism of HIV-1 persistence and a barrier to achieving a cure. Potential causes are homeostatic proliferation, effects of HIV-1 integration, and interaction with antigens. Here, we show that it is possible to link antigen responsiveness, the full proviral sequence, the integration site, and the T cell receptor β-chain (TCRβ) sequence to examine the role of recurrent antigenic exposure in maintaining the HIV-1 reservoir. We isolated CMV- and Gag-responding CD4+ T cells from 10 treated individuals. Proviral populations in CMV-responding cells were dominated by large clones, including clones harboring replication-competent proviruses. TCRβ repertoires showed high clonality driven by converging adaptive responses. Although some proviruses were in genes linked to HIV-1 persistence (BACH2, STAT5B, MKL1), the proliferation of infected cells under antigenic stimulation occurred regardless of the site of integration. Paired TCRβ and integration site analysis showed that infection could occur early or late in the course of a clone's response to antigen and could generate infected cell populations too large to be explained solely by homeostatic proliferation. Together, these findings implicate antigen-driven clonal selection as a major factor in HIV-1 persistence, a finding that will be a difficult challenge to eradication efforts.

Published

2021

45. Micro RNA Targets in HIV Latency: Insights into Novel Layers of Latency Control

Author

Heinson, Ashley I, Woo, Jeongmin, Mukim, Amey, White, Cory H, Moesker, Bastiaan, Bosque, Alberto, Spina, Celsa A, Woelk, Christopher H, Macarthur, Ben D, and Beliakova-Bethell, Nadejda

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Genetics, Infectious Diseases, Biotechnology, HIV/AIDS, Aetiology, 2.1 Biological and endogenous factors, Infection, Gene Expression Profiling, HIV Infections, HIV-1, Humans, MicroRNAs, RNA, Long Noncoding, Virus Latency, HIV latency, microRNA, miRNA, small RNA sequencing, RNA-Seq, p53 signaling, Clinical Sciences, Virology, Clinical sciences

Abstract

Despite the considerable progress that has been made in identifying cellular factors and pathways that contribute to establishment and maintenance of the latent HIV reservoir, it remains the major obstacle to eradicating this virus. Most recently, noncoding genes have been implicated in regulation of HIV expression. In this study, small RNA sequencing was used to profile expression of microRNAs (miRNAs) in a primary CD4+ T cell in vitro model of HIV latency. Previously, we have shown that protein-coding genes dysregulated in this model were enriched for the p53 signaling pathway, which was confirmed experimentally. We further found a link between p53 signaling and dysregulated long noncoding RNAs. In this study, we hypothesized that miRNAs may provide an additional level of regulation of the p53 signaling pathway during HIV latency. Twenty-six miRNAs were identified to be dysregulated in our latency model. A subset of these miRNAs was validated by real-time quantitative polymerase chain reaction. Predicted messenger RNA (mRNA) targets and cellular pathways enriched for mRNA targets were identified using several analytical methods. Our analyses showed that many protein-coding genes and pathways targeted by dysregulated miRNAs have relevance to regulation of HIV expression or establishment of HIV latency. The p53 signaling pathway was found among pathways that were targeted by dysregulated miRNAs at a greater level than expected by chance. This study provides a mechanistic insight into regulation of the p53 pathway through miRNAs that may contribute to the establishment of latency.

Published

2021

46. CRISPR Interference Efficiently Silences Latent and Lytic Viral Genes in Kaposi’s Sarcoma-Associated Herpesvirus-Infected Cells

Author

Brackett, Kevin, Mungale, Ameera, Lopez-Isidro, Mary, Proctor, Duncan A, Najarro, Guillermo, and Arias, Carolina

Subjects

Biological Sciences, Genetics, Biotechnology, HIV/AIDS, Emerging Infectious Diseases, Cancer, Infectious Diseases, Human Genome, 2.1 Biological and endogenous factors, Aetiology, Infection, Cell Line, Cells, Cultured, Clustered Regularly Interspaced Short Palindromic Repeats, Gene Editing, Gene Expression Regulation, Viral, Gene Silencing, Genes, Reporter, Genes, Viral, Herpesviridae Infections, Herpesvirus 8, Human, Humans, RNA, Guide, CRISPR-Cas Systems, Virus Activation, Virus Latency, KSHV, CRISPR-interference, dCas9-KRAB, Kaposi's sarcoma-associated herpesvirus, gene expression, gene silencing, Kaposi’s sarcoma-associated herpesvirus, Microbiology

Abstract

Uncovering viral gene functions requires the modulation of gene expression through overexpression or loss-of-function. CRISPR interference (CRISPRi), a modification of the CRISPR-Cas9 gene editing technology, allows specific and efficient transcriptional silencing without genetic ablation. CRISPRi has been used to silence eukaryotic and prokaryotic genes at the single-gene and genome-wide levels. Here, we report the use of CRISPRi to silence latent and lytic viral genes, with an efficiency of ~80-90%, in epithelial and B-cells carrying multiple copies of the Kaposi's sarcoma-associated herpesvirus (KSHV) genome. Our results validate CRISPRi for the analysis of KSHV viral elements, providing a functional genomics tool for studying virus-host interactions.

Published

2021

47. White matter of perinatally HIV infected older youths shows low frequency fluctuations that may reflect glial cycling

Author

Sarma, Manoj K, Pal, Amrita, Keller, Margaret A, Welikson, Tamara, Ventura, Joseph, Michalik, David E, Nielsen-Saines, Karin, Deville, Jaime, Kovacs, Andrea, Operskalski, Eva, Church, Joseph A, Macey, Paul M, Biswal, Bharat, and Thomas, M Albert

Subjects

Medical Microbiology, Biomedical and Clinical Sciences, Immunology, HIV/AIDS, Mental Health, Infectious Diseases, Neurosciences, Clinical Research, Pediatric, Behavioral and Social Science, Brain Disorders, 2.1 Biological and endogenous factors, Aetiology, Mental health, Infection, Neurological, Good Health and Well Being, Adolescent, Adult, Brain, Brain Mapping, Child, Cognition Disorders, Cognitive Dysfunction, Female, HIV Infections, HIV-1, Humans, Infectious Disease Transmission, Vertical, Magnetic Resonance Imaging, Male, Neuroglia, Viral Load, Virus Latency, White Matter, Young Adult

Abstract

In perinatally HIV-infected (PHIV) children, neurodevelopment occurs in the presence of HIV-infection, and even with combination antiretroviral therapy (cART) the brain can be a reservoir for latent HIV. Consequently, patients often demonstrate long-term cognitive deficits and developmental delay, which may be reflected in altered functional brain activity. Our objective was to examine brain function in PHIV on cART by quantifying the amplitude of low frequency fluctuations (ALFF) and regional homogeneity (ReHo). Further, we studied ALFF and ReHo changes with neuropsychological performance and measures of immune health including CD4 count and viral loads in the HIV-infected youths. We found higher ALFF and ReHo in cerebral white matter in the medial orbital lobe for PHIV (N = 11, age mean ± sd = 22.5 ± 2.9 years) compared to controls (N = 16, age = 22.5 ± 3.0 years), with age and gender as co-variates. Bilateral cerebral white matter showed increased spontaneous regional activity in PHIV compared to healthy controls. No brain regions showed lower ALFF or ReHo in PHIV compared to controls. Higher log10 viral load was associated with higher ALFF and ReHo in PHIV in bilateral cerebral white matter and right cerebral white matter respectively after masking the outcomes intrinsic to the brain regions that showed significantly higher ALFF and ReHo in the PHIV compared to the control. Reductions in social cognition and abstract thinking in PHIV were correlated with higher ALFF at the left cerebral white matter in the left medial orbital gyrus and higher ReHo at the right cerebral white matter in the PHIV patients. Although neuroinflammation and associated neuro repair were not directly measured, the findings support their potential role in PHIV impacting neurodevelopment and cognition.

Published

2021

48. CpG Methylation Profiles of HIV-1 Proviral DNA in Individuals on ART

Author

Boltz, Valerie F, Ceriani, Cristina, Rausch, Jason W, Shao, Wei, Bale, Michael J, Keele, Brandon F, Hoh, Rebecca, Milush, Jeffrey M, Deeks, Steve G, Maldarelli, Frank, Kearney, Mary F, and Coffin, John M

Subjects

Microbiology, Biological Sciences, HIV/AIDS, Health Disparities, Genetics, Infectious Diseases, Sexually Transmitted Infections, Aetiology, 2.1 Biological and endogenous factors, Infection, Antiretroviral Therapy, Highly Active, CpG Islands, DNA Methylation, DNA, Viral, Gene Expression Regulation, Viral, Genome, Viral, Genomics, HIV Infections, HIV Long Terminal Repeat, HIV-1, Humans, Proviruses, Virus Latency, CpG dinucleotide methylation, HIV latency, single genome sequencing, RNA expression, transcriptional silencing

Abstract

The latent HIV-1 reservoir is comprised of stably integrated and intact proviruses with limited to no viral transcription. It has been proposed that latent infection may be maintained by methylation of pro-viral DNA. Here, for the first time, we investigate the cytosine methylation of a replication competent provirus (AMBI-1) found in a T cell clone in a donor on antiretroviral therapy (ART). Methylation profiles of the AMBI-1 provirus were compared to other proviruses in the same donor and in samples from three other individuals on ART, including proviruses isolated from lymph node mononuclear cells (LNMCs) and peripheral blood mononuclear cells (PBMCs). We also evaluated the apparent methylation of cytosines outside of CpG (i.e., CpH) motifs. We found no evidence for methylation in AMBI-1 or any other provirus tested within the 5' LTR promoter. In contrast, CpG methylation was observed in the env-tat-rev overlapping reading frame. In addition, we found evidence for differential provirus methylation in cells isolated from LNMCs vs. PBMCs in some individuals, possibly from the expansion of infected cell clones. Finally, we determined that apparent low-level methylation of CpH cytosines is consistent with occasional bisulfite reaction failures. In conclusion, our data do not support the proposition that latent HIV infection is associated with methylation of the HIV 5' LTR promoter.

Published

2021

49. Retraction: ‘RNA editing of microRNA prevents RNA-induced silencing complex recognition of target mRNA’ (2015), by Cui et al.

Subjects

RNA editing, miRNA-induced silencing complex, virus latency, adenosine deaminase acting on RNA, Biology (General), QH301-705.5

Published

2023

50. Human Papillomavirus Intermittence and Risk Factors Associated With First Detections and Redetections in the Ludwig-McGill Cohort Study of Adult Women.

Author

Malagón, Talía, Trottier, Helen, El-Zein, Mariam, Villa, Luisa L, Franco, Eduardo L, and Study, Ludwig-McGill Cohort

Subjects

*HUMAN papillomavirus, *COHORT analysis, *LATENT infection, *CERVICAL intraepithelial neoplasia, *GENITAL warts, *REGRESSION analysis, *PAPILLOMAVIRUS diseases

Abstract

Background We assessed the incidence and risk factors for first detection and redetection with the same human papillomavirus (HPV) genotype, and prevalence of cytological lesions during HPV redetections. Methods The Ludwig-McGill cohort study followed women aged 18–60 years from São Paulo, Brazil in 1993–1997 for up to 10 years. Women provided cervical samples for cytology testing and HPV DNA testing at each visit. A redetection was defined as a recurring genotype-specific HPV positive result after 1 or more intervening negative visits. Predictors of genotype-specific redetection were assessed using adjusted hazard ratios (aHR) with Cox regression modeling. Results In total, 2184 women contributed 2368 incident HPV genotype-specific first detections and 308 genotype-specific redetections over a median follow-up of 6.5 years. The cumulative incidence of redetection with the same genotype was 6.6% at 1 year and 14.8% at 5 years after the loss of positivity of the first detection. Neither age (aHR 0.90; 95% confidence interval [CI],.54–1.47 for ≥45 years vs < 25 years) nor new sexual partner acquisition (aHR 0.98; 95% CI,.70–1.35) were statistically associated with genotype-specific redetection. High-grade squamous intraepithelial lesion prevalence was similar during first HPV detections (2.9%) and redetection (3.2%). Conclusions Our findings suggest many HPV redetections were likely reactivations of latent recurring infections. [ABSTRACT FROM AUTHOR]

Published

2023