Your search keyword '"Odevall L"' showing total 9 results

1. Cellular proliferation maintains genetically intact and defective HIV-1 over time

Author

Horsburgh, B., primary, Hiener, B., additional, Eden, J.-S., additional, Lee, E., additional, Schlub, T., additional, von Stockenstrom, S., additional, Odevall, L., additional, Milush, J., additional, Liegler, T., additional, Hoh, R., additional, Fromentin, R., additional, Chomont, N., additional, Deeks, S., additional, Hecht, F., additional, and Palmer, S., additional

Published

2019

2. Activation of HIV Transcription with Short-Course Vorinostat in HIV-Infected Patients on Suppressive Antiretroviral Therapy

Author

Cullen, BR, Elliott, JH, Wightman, F, Solomon, A, Ghneim, K, Ahlers, J, Cameron, MJ, Smith, MZ, Spelman, T, McMahon, J, Velayudham, P, Brown, G, Roney, J, Watson, J, Prince, MH, Hoy, JF, Chomont, N, Fromentin, R, Procopio, FA, Zeidan, J, Palmer, S, Odevall, L, Johnstone, RW, Martin, BP, Sinclair, E, Deeks, SG, Hazuda, DJ, Cameron, PU, Sekaly, R-P, Lewin, SR, Cullen, BR, Elliott, JH, Wightman, F, Solomon, A, Ghneim, K, Ahlers, J, Cameron, MJ, Smith, MZ, Spelman, T, McMahon, J, Velayudham, P, Brown, G, Roney, J, Watson, J, Prince, MH, Hoy, JF, Chomont, N, Fromentin, R, Procopio, FA, Zeidan, J, Palmer, S, Odevall, L, Johnstone, RW, Martin, BP, Sinclair, E, Deeks, SG, Hazuda, DJ, Cameron, PU, Sekaly, R-P, and Lewin, SR

Abstract

UNLABELLED: Human immunodeficiency virus (HIV) persistence in latently infected resting memory CD4+ T-cells is the major barrier to HIV cure. Cellular histone deacetylases (HDACs) are important in maintaining HIV latency and histone deacetylase inhibitors (HDACi) may reverse latency by activating HIV transcription from latently infected CD4+ T-cells. We performed a single arm, open label, proof-of-concept study in which vorinostat, a pan-HDACi, was administered 400 mg orally once daily for 14 days to 20 HIV-infected individuals on suppressive antiretroviral therapy (ART). The primary endpoint was change in cell associated unspliced (CA-US) HIV RNA in total CD4+ T-cells from blood at day 14. The study is registered at ClinicalTrials.gov (NCT01365065). Vorinostat was safe and well tolerated and there were no dose modifications or study drug discontinuations. CA-US HIV RNA in blood increased significantly in 18/20 patients (90%) with a median fold change from baseline to peak value of 7.4 (IQR 3.4, 9.1). CA-US RNA was significantly elevated 8 hours post drug and remained elevated 70 days after last dose. Significant early changes in expression of genes associated with chromatin remodeling and activation of HIV transcription correlated with the magnitude of increased CA-US HIV RNA. There were no statistically significant changes in plasma HIV RNA, concentration of HIV DNA, integrated DNA, inducible virus in CD4+ T-cells or markers of T-cell activation. Vorinostat induced a significant and sustained increase in HIV transcription from latency in the majority of HIV-infected patients. However, additional interventions will be needed to efficiently induce virus production and ultimately eliminate latently infected cells. TRIAL REGISTRATION: ClinicalTrials.gov NCT01365065.

Published

2014

3. Cellular Activation, Differentiation, and Proliferation Influence the Dynamics of Genetically Intact Proviruses Over Time.

Author

Horsburgh BA, Hiener B, Fisher K, Lee E, Morgan H, Eden JS, von Stockenstrom S, Odevall L, Milush JM, Hoh R, Fromentin R, Chomont N, Hecht FM, Schlub TE, Deeks SG, and Palmer S

Subjects

CD4-Positive T-Lymphocytes, Cell Proliferation, DNA, Viral, Humans, Phylogeny, Proviruses genetics, HIV Infections, HIV-1 genetics

Abstract

Human immunodeficiency virus (HIV) persists in cells despite antiretroviral therapy; however, the influence of cellular mechanisms such as activation, differentiation, and proliferation upon the distribution of proviruses over time is unclear. To address this, we used full-length sequencing to examine proviruses within memory CD4+ T-cell subsets longitudinally in 8 participants. Over time, the odds of identifying a provirus increased in effector and decreased in transitional memory cells. In all subsets, more activated (HLA-DR-expressing) cells contained a higher frequency of intact provirus, as did more differentiated cells such as transitional and effector memory subsets. The proportion of genetically identical proviruses increased over time, indicating that cellular proliferation was maintaining the persistent reservoir; however, the number of genetically identical proviral clusters in each subset was stable. As such, key biological processes of activation, differentiation, and proliferation influence the dynamics of the HIV reservoir and must be considered during the development of any immune intervention., (© The Author(s) 2021. Published by Oxford University Press for the Infectious Diseases Society of America.)

Published

2022

4. High levels of genetically intact HIV in HLA-DR+ memory T cells indicates their value for reservoir studies.

Author

Horsburgh BA, Lee E, Hiener B, Eden JS, Schlub TE, von Stockenstrom S, Odevall L, Milush JM, Liegler T, Sinclair E, Hoh R, Boritz EA, Douek DC, Fromentin R, Chomont N, Deeks SG, Hecht FM, and Palmer S

Subjects

Adult, CD4-Positive T-Lymphocytes immunology, DNA, Viral, Female, HLA-DR Antigens genetics, Humans, Immunologic Memory, Male, Sequence Analysis, DNA, Sequence Analysis, RNA, Anti-HIV Agents administration & dosage, HIV Infections drug therapy, HIV-1 genetics, HIV-1 isolation & purification, HLA-DR Antigens analysis

Abstract

Objective: The contribution of HLA-DR+ memory CD4 T cells to the HIV reservoir during prolonged antiretroviral therapy is unclear as these cells are commonly excluded when assessing for replication-competent HIV. To address this issue, we examined the distribution of genetically intact HIV DNA within HLA-DR- and HLA-DR+ memory CD4 T cells and the RNA transcriptional profile of these cells during antiretroviral therapy., Design/methods: Full-length DNA sequencing was used to examine the HIV DNA landscape within HLA-DR+ and HLA-DR- memory CD4 T cells. RNA quantification and sequencing was used to interrogate the relationship between HLA-DR status and HIV RNA transcription., Results: HLA-DR+ CD4 T cells contained a high frequency of genetically intact HIV genomes, contributing over half of the genetically intact viral sequences to the reservoir. Expansions of genetically identical sequences were identified in all T-cell subsets, indicating that cellular proliferation maintains genetically intact and defective viral DNA during therapy. Intracellular HIV RNA levels in HLA-DR+ and HLA-DR- T cells were not statistically different by either long terminal repeat quantitative PCR quantification or single-genome RNA sequencing of the p6-RT region., Conclusion: The high proportion of intact viral DNA sequences in the proliferative HLA-DR+ subset suggests they are critical in maintaining HIV infection during effective therapy. As such, these cells should be included in any immune intervention targeting HIV during effective therapy.

Published

2020

5. Impact of Antiretroviral Therapy Duration on HIV-1 Infection of T Cells within Anatomic Sites.

Author

Lee E, von Stockenstrom S, Morcilla V, Odevall L, Hiener B, Shao W, Hartogensis W, Bacchetti P, Milush J, Liegler T, Sinclair E, Hatano H, Hoh R, Somsouk M, Hunt P, Boritz E, Douek D, Fromentin R, Chomont N, Deeks SG, Hecht FM, and Palmer S

Subjects

Adolescent, CD4-Positive T-Lymphocytes virology, Child, Child, Preschool, Cross-Sectional Studies, DNA, Viral, HIV-1 genetics, Humans, Lymph Nodes, Proviruses genetics, T-Lymphocyte Subsets virology, Viral Load, Viremia virology, Virus Replication drug effects, Anti-Retroviral Agents therapeutic use, Duration of Therapy, HIV Infections drug therapy, HIV Infections immunology, HIV-1 immunology

Abstract

Understanding the impact of antiretroviral therapy (ART) duration on HIV-infected cells is critical for developing successful curative strategies. To address this issue, we conducted a cross-sectional/inter-participant genetic characterization of HIV-1 RNA from pre- and on-therapy plasmas and HIV-1 DNA from CD4 + T cell subsets derived from peripheral blood (PB), lymph node (LN), and gut tissues of 26 participants after 3 to 17.8 years of ART. Our studies revealed in four acute/early participants who had paired PB and LN samples a substantial reduction in the proportion of HIV-infected cells per year on therapy within the LN. Extrapolation to all 12 acute/early participants estimated a much smaller reduction in the proportion of HIV-1-infected cells within LNs per year on therapy that was similar to that in the participants treated during chronic infection. LN-derived effector memory T (T EM ) cells contained HIV-1 DNA that was genetically identical to viral sequences derived from pre- and on-therapy plasma samples. The proportion of identical HIV-1 DNA sequences increased within PB-derived T EM cells. However, the infection frequency of T EM cells in PB was stable, indicating that cellular proliferation that compensates for T cell loss over time contributes to HIV-1 persistence. This study suggests that ART reduces HIV-infected T cells and that clonal expansion of HIV-infected cells maintains viral persistence. Importantly, LN-derived T EM cells are a probable source of HIV-1 genomes capable of producing infectious HIV-1 and should be targeted by future curative strategies. IMPORTANCE HIV-1 persists as an integrated genome in CD4 + memory T cells during effective therapy, and cessation of current treatments results in resumption of viral replication. To date, the impact of antiretroviral therapy duration on HIV-infected CD4 + T cells and the mechanisms of viral persistence in different anatomic sites is not clearly elucidated. In the current study, we found that treatment duration was associated with a reduction in HIV-infected T cells. Our genetic analyses revealed that CD4 + effector memory T (T EM ) cells derived from the lymph node appeared to contain provirus that was genetically identical to plasma-derived virions. Moreover, we found that cellular proliferation counterbalanced the decay of HIV-infected cells throughout therapy. The contribution of cellular proliferation to viral persistence is particularly significant in T EM cells. Our study emphasizes the importance of HIV-1 intervention and provides new insights into the location of memory T cells infected with HIV-1 DNA, which is capable of contributing to viremia., (Copyright © 2020 Lee et al.)

Published

2020

6. The Euvichol story - Development and licensure of a safe, effective and affordable oral cholera vaccine through global public private partnerships.

Author

Odevall L, Hong D, Digilio L, Sahastrabuddhe S, Mogasale V, Baik Y, Choi S, Kim JH, and Lynch J

Subjects

Administration, Oral, Cholera Vaccines administration & dosage, Cholera Vaccines therapeutic use, India, Republic of Korea, Sweden, Vietnam, Cholera immunology, Cholera prevention & control, Cholera Vaccines supply & distribution, Public-Private Sector Partnerships

Abstract

Cholera, a diarrheal disease primarily affecting vulnerable populations in developing countries, is estimated to cause disease in more than 2.5 million people and kill almost 100,000 annually. An oral cholera vaccine (OCV) has been available globally since 2001; the demand for this vaccine from affected countries has however been very low, due to various factors including vaccine price and mode of administration. The low demand for the vaccine and limited commercial incentives to invest in research and development of vaccines for developing country markets has kept the global supply of OCVs down. Since 1999, the International Vaccine Institute has been committed to make safe, effective and affordable OCVs accessible. Through a variety of partnerships with collaborators in Sweden, Vietnam, India and South Korea, and with public and private funding, IVI facilitated development and production of two affordable and WHO-prequalified OCVs and together with other stakeholders accelerated the introduction of these vaccines for the global public-sector market., (Copyright © 2018. Published by Elsevier Ltd.)

Published

2018

7. Identification of Genetically Intact HIV-1 Proviruses in Specific CD4 + T Cells from Effectively Treated Participants.

Author

Hiener B, Horsburgh BA, Eden JS, Barton K, Schlub TE, Lee E, von Stockenstrom S, Odevall L, Milush JM, Liegler T, Sinclair E, Hoh R, Boritz EA, Douek D, Fromentin R, Chomont N, Deeks SG, Hecht FM, and Palmer S

Subjects

Adult, Aged, Antiretroviral Therapy, Highly Active, Base Sequence, CD4-Positive T-Lymphocytes immunology, Disease Reservoirs virology, HIV Infections drug therapy, HIV Infections immunology, HIV Infections virology, Humans, Lymphocyte Count, Lymphocyte Subsets immunology, Lymphocyte Subsets virology, Male, Middle Aged, Phylogeny, Sequence Analysis, DNA, CD4-Positive T-Lymphocytes virology, HIV-1 genetics, Proviruses genetics

Abstract

Latent replication-competent HIV-1 persists in individuals on long-term antiretroviral therapy (ART). We developed the Full-Length Individual Proviral Sequencing (FLIPS) assay to determine the distribution of latent replication-competent HIV-1 within memory CD4 + T cell subsets in six individuals on long-term ART. FLIPS is an efficient, high-throughput assay that amplifies and sequences near full-length (∼9 kb) HIV-1 proviral genomes and determines potential replication competency through genetic characterization. FLIPS provides a genome-scale perspective that addresses the limitations of other methods that also genetically characterize the latent reservoir. Using FLIPS, we identified 5% of proviruses as intact and potentially replication competent. Intact proviruses were unequally distributed between T cell subsets, with effector memory cells containing the largest proportion of genetically intact HIV-1 proviruses. We identified multiple identical intact proviruses, suggesting a role for cellular proliferation in the maintenance of the latent HIV-1 reservoir., (Copyright © 2017 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2017

8. Longitudinal Genetic Characterization Reveals That Cell Proliferation Maintains a Persistent HIV Type 1 DNA Pool During Effective HIV Therapy.

Author

von Stockenstrom S, Odevall L, Lee E, Sinclair E, Bacchetti P, Killian M, Epling L, Shao W, Hoh R, Ho T, Faria NR, Lemey P, Albert J, Hunt P, Loeb L, Pilcher C, Poole L, Hatano H, Somsouk M, Douek D, Boritz E, Deeks SG, Hecht FM, and Palmer S

Subjects

Cell Proliferation, DNA, Viral isolation & purification, Humans, Longitudinal Studies, Lymph Nodes virology, Phylogeny, T-Lymphocyte Subsets cytology, T-Lymphocyte Subsets physiology, Anti-HIV Agents therapeutic use, DNA, Viral genetics, HIV Infections drug therapy, HIV Infections virology, HIV-1 genetics, T-Lymphocyte Subsets virology

Abstract

Background: The stability of the human immunodeficiency virus type 1 (HIV-1) reservoir and the contribution of cellular proliferation to the maintenance of the reservoir during treatment are uncertain. Therefore, we conducted a longitudinal analysis of HIV-1 in T-cell subsets in different tissue compartments from subjects receiving effective antiretroviral therapy (ART)., Methods: Using single-proviral sequencing, we isolated intracellular HIV-1 genomes derived from defined subsets of CD4(+) T cells from peripheral blood, gut-associated lymphoid tissue and lymph node tissue specimens from 8 subjects with virologic suppression during long-term ART at 2 time points (time points 1 and 2) separated by 7-9 months., Results: DNA integrant frequencies were stable over time (<4-fold difference) and highest in memory T cells. Phylogenetic analyses showed that subjects treated during chronic infection contained viral populations with up to 73% identical sequence expansions, only 3 of which were observed in specimens obtained before therapy. At time points 1 and 2, such clonally expanded populations were found predominantly in effector memory T cells from peripheral blood and lymph node tissue specimens., Conclusions: Memory T cells maintained a relatively constant HIV-1 DNA integrant pool that was genetically stable during long-term effective ART. These integrants appear to be maintained by cellular proliferation and longevity of infected cells, rather than by ongoing viral replication., (© The Author 2015. Published by Oxford University Press on behalf of the Infectious Diseases Society of America. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2015

9. Activation of HIV transcription with short-course vorinostat in HIV-infected patients on suppressive antiretroviral therapy.

Author

Elliott JH, Wightman F, Solomon A, Ghneim K, Ahlers J, Cameron MJ, Smith MZ, Spelman T, McMahon J, Velayudham P, Brown G, Roney J, Watson J, Prince MH, Hoy JF, Chomont N, Fromentin R, Procopio FA, Zeidan J, Palmer S, Odevall L, Johnstone RW, Martin BP, Sinclair E, Deeks SG, Hazuda DJ, Cameron PU, Sékaly RP, and Lewin SR

Subjects

Adult, CD4-Positive T-Lymphocytes immunology, Female, HIV Infections immunology, HIV Infections virology, HIV-1 immunology, HIV-1 physiology, Humans, Lymphocyte Activation drug effects, Male, Middle Aged, RNA, Viral genetics, Transcription, Genetic drug effects, Virus Latency drug effects, Vorinostat, CD4-Positive T-Lymphocytes virology, HIV Infections drug therapy, HIV-1 drug effects, Histone Deacetylase Inhibitors therapeutic use, Hydroxamic Acids therapeutic use, Virus Activation drug effects

Abstract

Unlabelled: Human immunodeficiency virus (HIV) persistence in latently infected resting memory CD4+ T-cells is the major barrier to HIV cure. Cellular histone deacetylases (HDACs) are important in maintaining HIV latency and histone deacetylase inhibitors (HDACi) may reverse latency by activating HIV transcription from latently infected CD4+ T-cells. We performed a single arm, open label, proof-of-concept study in which vorinostat, a pan-HDACi, was administered 400 mg orally once daily for 14 days to 20 HIV-infected individuals on suppressive antiretroviral therapy (ART). The primary endpoint was change in cell associated unspliced (CA-US) HIV RNA in total CD4+ T-cells from blood at day 14. The study is registered at ClinicalTrials.gov (NCT01365065). Vorinostat was safe and well tolerated and there were no dose modifications or study drug discontinuations. CA-US HIV RNA in blood increased significantly in 18/20 patients (90%) with a median fold change from baseline to peak value of 7.4 (IQR 3.4, 9.1). CA-US RNA was significantly elevated 8 hours post drug and remained elevated 70 days after last dose. Significant early changes in expression of genes associated with chromatin remodeling and activation of HIV transcription correlated with the magnitude of increased CA-US HIV RNA. There were no statistically significant changes in plasma HIV RNA, concentration of HIV DNA, integrated DNA, inducible virus in CD4+ T-cells or markers of T-cell activation. Vorinostat induced a significant and sustained increase in HIV transcription from latency in the majority of HIV-infected patients. However, additional interventions will be needed to efficiently induce virus production and ultimately eliminate latently infected cells., Trial Registration: ClinicalTrials.gov NCT01365065.

Published

2014