Your search keyword '"Karim, Farina"' showing total 184 results

1. B cell heterogeneity in human tuberculosis highlights compartment-specific phenotype and functional roles

Author

Krause, Robert, Ogongo, Paul, Tezera, Liku, Ahmed, Mohammed, Mbano, Ian, Chambers, Mark, Ngoepe, Abigail, Magnoumba, Magalli, Muema, Daniel, Karim, Farina, Khan, Khadija, Lumamba, Kapongo, Nargan, Kievershen, Madansein, Rajhmun, Steyn, Adrie, Shalek, Alex K., Elkington, Paul, and Leslie, Al

Published

2024

2. Clearance of persistent SARS-CoV-2 associates with increased neutralizing antibodies in advanced HIV disease post-ART initiation

Author

Karim, Farina, Riou, Catherine, Bernstein, Mallory, Jule, Zesuliwe, Lustig, Gila, van Graan, Strauss, Keeton, Roanne S., Upton, Janine-Lee, Ganga, Yashica, Khan, Khadija, Reedoy, Kajal, Mazibuko, Matilda, Govender, Katya, Thambu, Kershnee, Ngcobo, Nokuthula, Venter, Elizabeth, Makhado, Zanele, Hanekom, Willem, von Gottberg, Anne, Hoque, Monjurul, Karim, Quarraisha Abdool, Abdool Karim, Salim S., Manickchund, Nithendra, Magula, Nombulelo, Gosnell, Bernadett I., Lessells, Richard J., Moore, Penny L., Burgers, Wendy A., de Oliveira, Tulio, Moosa, Mahomed-Yunus S., and Sigal, Alex

Published

2024

3. Dysfunctional bronchoalveolar effector memory CD8+ T cells in tuberculosis-exposed people living with antiretroviral-naïve HIV infection

Author

Mthembu, Maphe, Claassen, Helgard, Khuzwayo, Sharon, Voillet, Valentin, Naidoo, Anneta, Spillner, Jule S., Nyamande, Kennedy, Khan, Dilshaad Fakey, Maharaj, Priya, Mitha, Mohammed, Mhlane, Zoey, Karim, Farina, Andersen-Nissen, Erica, Ndung’u, Thumbi, Pollara, Gabriele, and Wong, Emily B.

Published

2024

4. Evolution and neutralization escape of the SARS-CoV-2 BA.2.86 subvariant

Author

Khan, Khadija, Lustig, Gila, Römer, Cornelius, Reedoy, Kajal, Jule, Zesuliwe, Karim, Farina, Ganga, Yashica, Bernstein, Mallory, Baig, Zainab, Jackson, Laurelle, Mahlangu, Boitshoko, Mnguni, Anele, Nzimande, Ayanda, Stock, Nadine, Kekana, Dikeledi, Ntozini, Buhle, van Deventer, Cindy, Marshall, Terry, Manickchund, Nithendra, Gosnell, Bernadett I., Lessells, Richard J., Karim, Quarraisha Abdool, Abdool Karim, Salim S., Moosa, Mahomed-Yunus S., de Oliveira, Tulio, von Gottberg, Anne, Wolter, Nicole, Neher, Richard A., and Sigal, Alex

Published

2023

5. Infection pre-Ad26.COV2.S-vaccination primes greater class switching and reduced CXCR5 expression by SARS-CoV-2-specific memory B cells

Author

Krause, Robert G. E., Moyo-Gwete, Thandeka, Richardson, Simone I., Makhado, Zanele, Manamela, Nelia P., Hermanus, Tandile, Mkhize, Nonhlanhla N., Keeton, Roanne, Benede, Ntombi, Mennen, Mathilda, Skelem, Sango, Karim, Farina, Khan, Khadija, Riou, Catherine, Ntusi, Ntobeko A. B., Goga, Ameena, Gray, Glenda, Hanekom, Willem, Garrett, Nigel, Bekker, Linda-Gail, Groll, Andreas, Sigal, Alex, Moore, Penny L., Burgers, Wendy A., and Leslie, Alasdair

Published

2023

6. Omicron infection enhances Delta antibody immunity in vaccinated persons

Author

Khan, Khadija, Karim, Farina, Cele, Sandile, Reedoy, Kajal, San, James Emmanuel, Lustig, Gila, Tegally, Houriiyah, Rosenberg, Yuval, Bernstein, Mallory, Jule, Zesuliwe, Ganga, Yashica, Ngcobo, Nokuthula, Mazibuko, Matilda, Mthabela, Ntombifuthi, Mhlane, Zoey, Mbatha, Nikiwe, Miya, Yoliswa, Giandhari, Jennifer, Ramphal, Yajna, Naidoo, Taryn, Sivro, Aida, Samsunder, Natasha, Kharsany, Ayesha B. M., Amoako, Daniel, Bhiman, Jinal N., Manickchund, Nithendra, Abdool Karim, Quarraisha, Magula, Nombulelo, Abdool Karim, Salim S., Gray, Glenda, Hanekom, Willem, von Gottberg, Anne, Milo, Ron, Gosnell, Bernadett I., Lessells, Richard J., Moore, Penny L., de Oliveira, Tulio, Moosa, Mahomed-Yunus S., and Sigal, Alex

Published

2022

7. T cell responses to SARS-CoV-2 spike cross-recognize Omicron

Author

Keeton, Roanne, Tincho, Marius B., Ngomti, Amkele, Baguma, Richard, Benede, Ntombi, Suzuki, Akiko, Khan, Khadija, Cele, Sandile, Bernstein, Mallory, Karim, Farina, Madzorera, Sharon V., Moyo-Gwete, Thandeka, Mennen, Mathilda, Skelem, Sango, Adriaanse, Marguerite, Mutithu, Daniel, Aremu, Olukayode, Stek, Cari, du Bruyn, Elsa, Van Der Mescht, Mieke A., de Beer, Zelda, de Villiers, Talita R., Bodenstein, Annie, van den Berg, Gretha, Mendes, Adriano, Strydom, Amy, Venter, Marietjie, Giandhari, Jennifer, Naidoo, Yeshnee, Pillay, Sureshnee, Tegally, Houriiyah, Grifoni, Alba, Weiskopf, Daniela, Sette, Alessandro, Wilkinson, Robert J., de Oliveira, Tulio, Bekker, Linda-Gail, Gray, Glenda, Ueckermann, Veronica, Rossouw, Theresa, Boswell, Michael T., Bihman, Jinal, Moore, Penny L., Sigal, Alex, Ntusi, Ntobeko A. B., Burgers, Wendy A., and Riou, Catherine

Published

2022

8. Omicron BA.4/BA.5 escape neutralizing immunity elicited by BA.1 infection

Author

Khan, Khadija, Karim, Farina, Ganga, Yashica, Bernstein, Mallory, Jule, Zesuliwe, Reedoy, Kajal, Cele, Sandile, Lustig, Gila, Amoako, Daniel, Wolter, Nicole, Samsunder, Natasha, Sivro, Aida, San, James Emmanuel, Giandhari, Jennifer, Tegally, Houriiyah, Pillay, Sureshnee, Naidoo, Yeshnee, Mazibuko, Matilda, Miya, Yoliswa, Ngcobo, Nokuthula, Manickchund, Nithendra, Magula, Nombulelo, Karim, Quarraisha Abdool, von Gottberg, Anne, Abdool Karim, Salim S., Hanekom, Willem, Gosnell, Bernadett I., Lessells, Richard J., de Oliveira, Tulio, Moosa, Mahomed-Yunus S., and Sigal, Alex

Published

2022

9. Author Correction: Omicron BA.4/BA.5 escape neutralizing immunity elicited by BA.1 infection

Author

Khan, Khadija, Karim, Farina, Ganga, Yashica, Bernstein, Mallory, Jule, Zesuliwe, Reedoy, Kajal, Cele, Sandile, Lustig, Gila, Amoako, Daniel, Wolter, Nicole, Samsunder, Natasha, Sivro, Aida, San, James Emmanuel, Giandhari, Jennifer, Tegally, Houriiyah, Pillay, Sureshnee, Naidoo, Yeshnee, Mazibuko, Matilda, Miya, Yoliswa, Ngcobo, Nokuthula, Manickchund, Nithendra, Magula, Nombulelo, Karim, Quarraisha Abdool, von Gottberg, Anne, Abdool Karim, Salim S., Hanekom, Willem, Gosnell, Bernadett I., Lessells, Richard J., de Oliveira, Tulio, Moosa, Mahomed-Yunus S., and Sigal, Alex

Published

2022

10. Myeloid cell expression of CD200R is modulated in active TB disease and regulates Mycobacterium tuberculosis infection in a biomimetic model

Author

Ahmed, Mohamed, primary, Tezera, Liku B., additional, Herbert, Nicholas, additional, Chambers, Mark, additional, Reichmann, Michaela T., additional, Nargan, Kievershen, additional, Kloverpris, Henrik, additional, Karim, Farina, additional, Hlatshwayo, Mbali, additional, Madensein, Rajhmun, additional, Habesh, Munir, additional, Hoque, Monjural, additional, Steyn, Adrie J.C., additional, Elkington, Paul T., additional, and Leslie, Alasdair J., additional

Published

2024

11. Omicron extensively but incompletely escapes Pfizer BNT162b2 neutralization

Author

Cele, Sandile, Jackson, Laurelle, Khoury, David S., Khan, Khadija, Moyo-Gwete, Thandeka, Tegally, Houriiyah, San, James Emmanuel, Cromer, Deborah, Scheepers, Cathrine, Amoako, Daniel G., Karim, Farina, Bernstein, Mallory, Lustig, Gila, Archary, Derseree, Smith, Muneerah, Ganga, Yashica, Jule, Zesuliwe, Reedoy, Kajal, Hwa, Shi-Hsia, Giandhari, Jennifer, Blackburn, Jonathan M., Gosnell, Bernadett I., Abdool Karim, Salim S., Hanekom, Willem, von Gottberg, Anne, Bhiman, Jinal N., Lessells, Richard J., Moosa, Mahomed-Yunus S., Davenport, Miles P., de Oliveira, Tulio, Moore, Penny L., and Sigal, Alex

Published

2022

12. Myeloid cell expression of CD200R is modulated in active TB disease and regulates Mycobacterium tuberculosis infection in a biomimetic model

Author

Ahmed, Mohamed, Tezera, Liku B., Herbert, Nicholas, Chambers, Mark, Reichmann, Michaela T., Nargan, Kievershen, Kloverpris, Henrik, Karim, Farina, Hlatshwayo, Mbali, Madensein, Rajhmun, Habesh, Munir, Hoque, Monjural, Steyn, Adrie J.C., Elkington, Paul T., Leslie, Alasdair J., Ahmed, Mohamed, Tezera, Liku B., Herbert, Nicholas, Chambers, Mark, Reichmann, Michaela T., Nargan, Kievershen, Kloverpris, Henrik, Karim, Farina, Hlatshwayo, Mbali, Madensein, Rajhmun, Habesh, Munir, Hoque, Monjural, Steyn, Adrie J.C., Elkington, Paul T., and Leslie, Alasdair J.

Abstract

A robust immune response is required for resistance to pulmonary tuberculosis (TB), the primary disease caused by Mycobacterium tuberculosis (Mtb). However, pharmaceutical inhibition of T cell immune checkpoint molecules can result in the rapid development of active disease in latently infected individuals, indicating the importance of T cell immune regulation. In this study, we investigated the potential role of CD200R during Mtb infection, a key immune checkpoint for myeloid cells. Expression of CD200R was consistently downregulated on CD14+ monocytes in the blood of subjects with active TB compared to healthy controls, suggesting potential modulation of this important anti-inflammatory pathway. In homogenized TB-diseased lung tissue, CD200R expression was highly variable on monocytes and CD11b+HLA-DR+ macrophages but tended to be lowest in the most diseased lung tissue sections. This observation was confirmed by fluorescent microscopy, which showed the expression of CD200R on CD68+ macrophages surrounding TB lung granuloma and found expression levels tended to be lower in macrophages closest to the granuloma core and inversely correlated with lesion size. Antibody blockade of CD200R in a biomimetic 3D granuloma-like tissue culture system led to significantly increased Mtb growth. In addition, Mtb infection in this system reduced gene expression of CD200R. These findings indicate that regulation of myeloid cells via CD200R is likely to play an important part in the immune response to TB and may represent a potential target for novel therapeutic intervention.

Published

2024

13. Detailed phenotyping reveals diverse and highly skewed neutrophil subsets in both the blood and airways during active tuberculosis infection.

Author

Nhamoyebonde, Shepherd, Chambers, Mark, Ndlovu, Lerato, Karim, Farina, Mazibuko, Matilda, Mhlane, Zoey, Madziwa, Lindiwe, Moosa, Yunus, Moodley, Sashen, Hoque, Monjurul, and Leslie, Alasdair

Subjects

NEUTROPHILS, TUBERCULOSIS, PHENOTYPIC plasticity, PHAGOCYTOSIS, INFECTION

Abstract

Introduction: Neutrophils play a complex and important role in the immunopathology of TB. Data suggest they are protective during early infection but become a main driver of immunopathology if infection progresses to active disease. Neutrophils are now recognized to exist in functionally diverse states, but little work has been done on how neutrophil states or subsets are skewed in TB disease. Methods: To address this, we carried out comprehensive phenotyping by flow cytometry of neutrophils in the blood and airways of individuals with active pulmonary TB with and without HIV co-infection recruited in Durban, South Africa. Results: Active TB was associated with a profound skewing of neutrophils in the blood toward phenotypes associated with activation and apoptosis, reduced phagocytosis, reverse transmigration, and immune regulation. This skewing was also apparently in airway neutrophils, particularly the regulatory subsets expressing PDL-1 and LOX-1. HIV co-infection did not impact neutrophil subsets in the blood but was associated with a phenotypic change in the airways and a reduction in key neutrophil functional proteins cathelicidin and arginase 1. Discussion: Active TB is associated with profound skewing of blood and airway neutrophils and suggests multiple mechanisms by which neutrophils may exacerbate the immunopathology of TB. These data indicate potential avenues for reducing neutrophil-mediated lung pathology at the point of diagnosis. [ABSTRACT FROM AUTHOR]

Published

2024

14. Low pre-existing endemic human coronavirus (HCoV-NL63)-specific T cell frequencies are associated with impaired SARS-CoV-2-specific T cell responses in people living with HIV

Author

Ng’uni, Tiza L., primary, Musale, Vernon, additional, Nkosi, Thandeka, additional, Mandolo, Jonathan, additional, Mvula, Memory, additional, Michelo, Clive, additional, Karim, Farina, additional, Moosa, Mohomed Yunus S., additional, Khan, Khadija, additional, Jambo, Kondwani Charles, additional, Hanekom, Willem, additional, Sigal, Alex, additional, Kilembe, William, additional, and Ndhlovu, Zaza M., additional

Published

2024

15. Differential skewing of donor-unrestricted and [gamma[delta] T cell repertoires in tuberculosis-infected human lungs

Author

Ogongo, Paul, Steyn, Adrie J.C., Karim, Farina, Dullabh, Kaylesh J., Awala, Ismael, Madansein, Rajhmun, Leslie, Alasdair, and Behar, Samuel M.

Subjects

Antigens, Tuberculosis vaccines, BCG, Tuberculosis, T cells, Vaccines, HIV, Surgery, Comorbidity, Diseases, Health care industry

Abstract

Unconventional T cells that recognize mycobacterial antigens are of great interest as potential vaccine targets against tuberculosis (TB). This includes donor-unrestricted T cells (DURTs), such as mucosa-associated invariant T cells (MAITs), CD1-restricted T cells, and [gamma][delta] T cells. We exploited the distinctive nature of DURTs and [gamma][delta] T cell receptors (TCRs) to investigate the involvement of these T cells during TB in the human lung by global TCR sequencing. Making use of surgical lung resections, we investigated the distribution, frequency, and characteristics of TCR[delta] in lung tissue and matched blood from individuals infected with TB. Despite depletion of MAITs and certain CD1-restricted T cells from the blood, we found that the DURT repertoire was well preserved in the lungs, irrespective of disease status or HIV coinfection. The TCR[delta] repertoire, in contrast, was highly skewed in the lungs, where it was dominated by V[delta]1 and distinguished by highly localized clonal expansions, consistent with the nonrecirculating lung-resident [gamma][delta] T cell population. These data show that repertoire sequencing is a powerful tool for tracking T cell subsets during disease., Introduction Tuberculosis (TB), caused by Mycobacterium tuberculosis (Mtb), remains the leading cause of death from an infectious agent (Global Tuberculosis Report, WHO, 2018 (1). Although treatable with antibiotics, there is [...]

Published

2020

16. Author Correction: T cell responses to SARS-CoV-2 spike cross-recognize Omicron

Author

Keeton, Roanne, Tincho, Marius B., Ngomti, Amkele, Baguma, Richard, Benede, Ntombi, Suzuki, Akiko, Khan, Khadija, Cele, Sandile, Bernstein, Mallory, Karim, Farina, Madzorera, Sharon V., Moyo-Gwete, Thandeka, Mennen, Mathilda, Skelem, Sango, Adriaanse, Marguerite, Mutithu, Daniel, Aremu, Olukayode, Stek, Cari, du Bruyn, Elsa, Van Der Mescht, Mieke A., de Beer, Zelda, de Villiers, Talita R., Bodenstein, Annie, van den Berg, Gretha, Mendes, Adriano, Strydom, Amy, Venter, Marietjie, Giandhari, Jennifer, Naidoo, Yeshnee, Pillay, Sureshnee, Tegally, Houriiyah, Grifoni, Alba, Weiskopf, Daniela, Sette, Alessandro, Wilkinson, Robert J., de Oliveira, Tulio, Bekker, Linda-Gail, Gray, Glenda, Ueckermann, Veronica, Rossouw, Theresa, Boswell, Michael T., Bhiman, Jinal N., Moore, Penny L., Sigal, Alex, Ntusi, Ntobeko A. B., Burgers, Wendy A., and Riou, Catherine

Published

2022

17. Group 3 innate lymphoid cells mediate early protective immunity against tuberculosis

Author

Ardain, Amanda, Domingo-Gonzalez, Racquel, Das, Shibali, Kazer, Samuel W., Howard, Nicole C., Singh, Alveera, Ahmed, Mushtaq, Nhamoyebonde, Shepherd, Rangel-Moreno, Javier, Ogongo, Paul, Lu, Lan, Ramsuran, Duran, de la Luz Garcia-Hernandez, Maria, K. Ulland, Tyler, Darby, Matthew, Park, Eugene, Karim, Farina, Melocchi, Laura, Madansein, Rajhmun, Dullabh, Kaylesh Jay, Dunlap, Micah, Marin-Agudelo, Nancy, Ebihara, Takashi, Ndung’u, Thumbi, Kaushal, Deepak, Pym, Alexander S., Kolls, Jay K., Steyn, Adrie, Zúñiga, Joaquín, Horsnell, William, Yokoyama, Wayne M., Shalek, Alex K., Kløverpris, Henrik N., Colonna, Marco, Leslie, Alasdair, and Khader, Shabaana A.

Published

2019

18. Low pre-existing endemic human coronavirus (HCoVNL63)-specific T cell frequencies are associated with impaired SARS-CoV-2-specific T cell responses in people living with HIV.

Author

Ng'uni, Tiza L., Musale, Vernon, Nkosi, Thandeka, Mandolo, Jonathan, Mvula, Memory, Michelo, Clive, Karim, Farina, Moosa, Mohomed Yunus S., Khan, Khadija, Jambo, Kondwani Charles, Hanekom, Willem, Sigal, Alex, Kilembe, William, and Ndhlovu, Zaza M.

Subjects

T cells, HIV-positive persons, CORONAVIRUSES, COVID-19, SARS-CoV-2

Abstract

Background: Understanding how HIV affects SARS-CoV-2 immunity is crucial for managing COVID-19 in sub-Saharan populations due to frequent coinfections. Our previous research showed that unsuppressed HIV is associated with weaker immune responses to SARS-CoV-2, but the underlying mechanisms are unclear. We investigated how pre-existing T cell immunity against an endemic human coronavirus HCoV-NL63 impacts SARS-CoV-2 T cell responses in people living with HIV (PLWH) compared to uninfected individuals, and how HIV-related T cell dysfunction influences responses to SARS-CoV-2 variants. Methods: We used flow cytometry to measure T cell responses following PBMC stimulation with peptide pools representing beta, delta, wild-type, and HCoVNL63 spike proteins. Luminex bead assay was used to measure circulating plasma chemokine and cytokine levels. ELISA and MSD V-PLEX COVID-19 Serology and ACE2 Neutralization assays were used to measure humoral responses. Results: Regardless of HIV status, we found a strong positive correlation between responses to HCoV-NL63 and SARS-CoV-2. However, PLWH exhibited weaker CD4+ T cell responses to both HCoV-NL63 and SARS-CoV-2 than HIVuninfected individuals. PLWH also had higher proportions of functionally exhausted (PD-1high) CD4+ T cells producing fewer proinflammatory cytokines (IFNg and TNFa) and had elevated plasma IL-2 and IL-12(p70) levels compared to HIV-uninfected individuals. HIV status didn't significantly affect IgG antibody levels against SARS-CoV-2 antigens or ACE2 binding inhibition activity. Conclusion: Our results indicate that the decrease in SARS-CoV-2 specific T cell responses in PLWH may be attributable to reduced frequencies of pre-existing cross-reactive responses. However, HIV infection minimally affected the quality and magnitude of humoral responses, and this could explain why the risk of severe COVID-19 in PLWH is highly heterogeneous. [ABSTRACT FROM AUTHOR]

Published

2024

19. Failure to decrease HbA1c levels following TB treatment is associated with elevated Th1/Th17 CD4+ responses

Author

Krause, Robert, primary, Warren, Christian M., additional, Simmons, Joshua D., additional, Rebeiro, Peter F., additional, Maruri, Fernanda, additional, Karim, Farina, additional, Sterling, Timothy R., additional, Koethe, John R., additional, Leslie, Al, additional, and van der Heijden, Yuri F., additional

Published

2023

20. Discrepancy between Mtb-specific IFN-γ and IgG responses in HIV-positive people with low CD4 counts

Author

Mthembu, Maphe, primary, Bowman, Kathryn A., additional, Davies, Leela R.L., additional, Khuzwayo, Sharon, additional, Mazibuko, Lusanda, additional, Bassett, Thierry, additional, Ramjit, Dirhona, additional, Mhlane, Zoey, additional, Karim, Farina, additional, Alter, Galit, additional, Ndung'u, Thumbi, additional, and Wong, Emily B., additional

Published

2023

21. Tissue-resident-like [CD4.sup.+] T cells secreting IL-17 control Mycobacterium tuberculosis in the human lung

Author

Ogongo, Paul, Tezera, Liku B., Ardain, Amanda, Nhamoyebonde, Shepherd, Ramsuran, Duran, Singh, Alveera, Ngoepe, Abigail, Karim, Farina, Naidoo, Taryn, Khan, Khadija, Dullabh, Kaylesh J., Fehlings, Michael, Lee, Boon Heng, Nardin, Alessandra, Arlehamn, Cecilia S. Lindestam, Sette, Alessandro, Behar, Samuel M., Steyn, Adrie J.C., Madansein, Rajhmun, Kloverpris, Henrik N., Elkington, Paul T., and Leslie, Alasdair

Subjects

Pulmonary tuberculosis -- Development and progression, CD4 lymphocytes -- Physiological aspects -- Health aspects, Mycobacterium tuberculosis -- Physiological aspects -- Control, Health care industry

Abstract

T cell immunity is essential for the control of tuberculosis (TB), an important disease of the lung, and is generally studied in humans using peripheral blood cells. Mounting evidence, however, indicates that tissue-resident memory T cells (Trms) are superior at controlling many pathogens, including Mycobacterium tuberculosis (M. tuberculosis), and can be quite different from those in circulation. Using freshly resected lung tissue, from individuals with active or previous TB, we identified distinct [CD4.sup.+] and [CD8.sup.+] Trm-like clusters within TB-diseased lung tissue that were functional and enriched for IL- 17-producing cells. M. tuberculosis-specific [CD4.sup.+] T cells producing TNF-[alpha], IL-2, and IL-17 were highly expanded in the lung compared with matched blood samples, in which [IL-17.sup.+] cells were largely absent. Strikingly, the frequency of M. tuberculosis-specific lung T cells making IL-17, but not other cytokines, inversely correlated with the plasma IL-1[beta] levels, suggesting a potential link with disease severity. Using a human granuloma model, we showed the addition of either exogenous IL-17 or IL-2 enhanced immune control of M. tuberculosis and was associated with increased NO production. Taken together, these data support an important role for M. tuberculosis-specific Trm-like, IL-17-producing cells in the immune control of M. tuberculosis in the human lung., Introduction Tuberculosis (TB), caused by the bacterium Mycobacterium tuberculosis (M. tuberculosis), remains a leading cause of death from infectious disease worldwide (1). Despite the availability of anti-TB treatment, difficulties in [...]

Published

2021

22. HIV specific CD8+ TRM-like cells in tonsils express exhaustive signatures in the absence of natural HIV control

Author

Fardoos, Rabiah, primary, Nyquist, Sarah K., additional, Asowata, Osaretin E., additional, Kazer, Samuel W., additional, Singh, Alveera, additional, Ngoepe, Abigail, additional, Giandhari, Jennifer, additional, Mthabela, Ntombifuthi, additional, Ramjit, Dirhona, additional, Singh, Samita, additional, Karim, Farina, additional, Buus, Søren, additional, Anderson, Frank, additional, Porterfield, J. Zachary, additional, Sibiya, Andile L., additional, Bipath, Rishan, additional, Moodley, Kumeshan, additional, Kuhn, Warren, additional, Berger, Bonnie, additional, Nguyen, Son, additional, de Oliveira, Tulio, additional, Ndung’u, Thumbi, additional, Goulder, Philip, additional, Shalek, Alex K., additional, Leslie, Alasdair, additional, and Kløverpris, Henrik N., additional

Published

2022

23. Omicron extensively but incompletely escapes Pfizer BNT162b2 neutralization

Author

Cele, Sandile, Jackson, Laurelle, Khoury, David S., Khan, Khadija, Moyo-Gwete, Thandeka, Tegally, Houriiyah, San, James Emmanuel, Cromer, Deborah, Scheepers, Cathrine, Amoako, Daniel G., Karim, Farina, Bernstein, Mallory, Lustig, Gila, Archary, Derseree, Smith, Muneerah, Ganga, Yashica, Jule, Zesuliwe, Reedoy, Kajal, Hwa, Shi Hsia, Giandhari, Jennifer, Blackburn, Jonathan M., Gosnell, Bernadett I., Abdool Karim, Salim S., Hanekom, Willem, Davies, Mary Ann, Hsiao, Marvin, Martin, Darren, Mlisana, Koleka, Wibmer, Constantinos Kurt, Williamson, Carolyn, York, Denis, Harrichandparsad, Rohen, Herbst, Kobus, Jeena, Prakash, Khoza, Thandeka, Kløverpris, Henrik, Leslie, Alasdair, Madansein, Rajhmun, Magula, Nombulelo, Manickchund, Nithendra, Marakalala, Mohlopheni, Mazibuko, Matilda, Moshabela, Mosa, Mthabela, Ntombifuthi, Naidoo, Kogie, Ndhlovu, Zaza, Ndung’u, Thumbi, Ngcobo, Nokuthula, Nyamande, Kennedy, and Patel, Vinod

Subjects

Multidisciplinary

Abstract

The emergence of the SARS-CoV-2 variant of concern Omicron (Pango lineage B.1.1.529), first identified in Botswana and South Africa, may compromise vaccine effectiveness and lead to re-infections1. Here we investigated Omicron escape from neutralization by antibodies from South African individuals vaccinated with Pfizer BNT162b2. We used blood samples taken soon after vaccination from individuals who were vaccinated and previously infected with SARS-CoV-2 or vaccinated with no evidence of previous infection. We isolated and sequence-confirmed live Omicron virus from an infected person and observed that Omicron requires the angiotensin-converting enzyme 2 (ACE2) receptor to infect cells. We compared plasma neutralization of Omicron relative to an ancestral SARS-CoV-2 strain and found that neutralization of ancestral virus was much higher in infected and vaccinated individuals compared with the vaccinated-only participants. However, both groups showed a 22-fold reduction in vaccine-elicited neutralization by the Omicron variant. Participants who were vaccinated and had previously been infected exhibited residual neutralization of Omicron similar to the level of neutralization of the ancestral virus observed in the vaccination-only group. These data support the notion that reasonable protection against Omicron may be maintained using vaccination approaches.

Published

2021

24. Similar Antibody Responses Against Severe Acute Respiratory Syndrome Coronavirus 2 in Individuals Living Without and with Human Immunodeficiency Virus on Antiretroviral Therapy during the First South African Infection Wave

Author

Snyman, Jumari, Hwa, Shi Hsia, Krause, Robert, Muema, Daniel, Reddy, Tarylee, Ganga, Yashica, Karim, Farina, Leslie, Alasdair, Sigal, Alex, Ndung'U, Thumbi, Archary, Moherndran, Dullabh, Kaylesh J., Goulder, Philip, Harling, Guy, Harrichandparsad, Rohen, Herbst, Kobus, Jeena, Prakash, Khoza, Thandeka, Klein, Nigel, Kloverpris, Henrik, Madansein, Rajhmun, Marakalala, Mohlopheni, Mazibuko, Matilda, Moshabela, Mosa, Mthabela, Ntombifuthi, Naidoo, Kogie, Ndhlovu, Zaza, Nyamande, Kennedy, Padayatchi, Nesri, Patel, Vinod, Smit, Theresa, Steyn, Adrie, Wong, Emily, Snyman, Jumari, Hwa, Shi Hsia, Krause, Robert, Muema, Daniel, Reddy, Tarylee, Ganga, Yashica, Karim, Farina, Leslie, Alasdair, Sigal, Alex, Ndung'U, Thumbi, Archary, Moherndran, Dullabh, Kaylesh J., Goulder, Philip, Harling, Guy, Harrichandparsad, Rohen, Herbst, Kobus, Jeena, Prakash, Khoza, Thandeka, Klein, Nigel, Kloverpris, Henrik, Madansein, Rajhmun, Marakalala, Mohlopheni, Mazibuko, Matilda, Moshabela, Mosa, Mthabela, Ntombifuthi, Naidoo, Kogie, Ndhlovu, Zaza, Nyamande, Kennedy, Padayatchi, Nesri, Patel, Vinod, Smit, Theresa, Steyn, Adrie, and Wong, Emily

Abstract

Background: There is limited understanding of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pathogenesis in African populations with a high burden of infectious disease comorbidities such as human immunodeficiency virus (HIV). The kinetics, magnitude, and duration of virus-specific antibodies and B-cell responses in people living with HIV (PLWH) in sub-Saharan Africa have not been fully characterized. Methods: We longitudinally followed SARS-CoV-2-infected individuals in Durban, KwaZulu-Natal, South Africa, and characterized SARS-CoV-2 receptor-binding domain-specific immunoglobulin (Ig) M, IgG, and IgA weekly for 1 month and at 3 months post-diagnosis. Thirty of 72 (41.7%) were PLWH, 25/30 (83%) of whom were on antiretroviral therapy (ART) with full HIV suppression. Plasma neutralization was determined using a live virus neutralization assay, and antibody-secreting cell population frequencies were determined by flow cytometry. Results: Similar seroconversion rates, time to peak antibody titer, peak magnitude, and durability of anti-SARS-CoV-2 IgM, IgG, and IgA were observed in people not living with HIV and PLWH with complete HIV suppression on ART. In addition, similar potency in a live virus neutralization assay was observed in both groups. Loss of IgA was significantly associated with age (P =. 023) and a previous diagnosis of tuberculosis (P=.018). Conclusions: Similar antibody responses and neutralization potency in people not living with HIV and PLWH on stable ART in an African setting suggest that coronavirus disease 2019 (COVID-19) natural infections may confer comparable antibody immunity in these groups. This provides hope that COVID-19 vaccines will be effective in PLWH on stable ART.

Published

2022

25. HIV skews the SARS-CoV-2 B cell response towards an extrafollicular maturation pathway

Author

Krause, Robert, Snyman, Jumari, Shi-Hsia, Hwa, Muema, Daniel, Karim, Farina, Ganga, Yashica, Ngoepe, Abigail, Zungu, Yenzekile, Gazy, Inbal, Bernstein, Mallory, Khan, Khadija, Mazibuko, Matilda, Mthabela, Ntombifuthi, Ramjit, Dirhona, Limbo, Oliver, Jardine, Joseph, Sok, Devin, Wilson, Ian A., Hanekom, Willem, Sigal, Alex, Kløverpris, Henrik, Ndung'u, Thumbi, Leslie, Alasdair, Krause, Robert, Snyman, Jumari, Shi-Hsia, Hwa, Muema, Daniel, Karim, Farina, Ganga, Yashica, Ngoepe, Abigail, Zungu, Yenzekile, Gazy, Inbal, Bernstein, Mallory, Khan, Khadija, Mazibuko, Matilda, Mthabela, Ntombifuthi, Ramjit, Dirhona, Limbo, Oliver, Jardine, Joseph, Sok, Devin, Wilson, Ian A., Hanekom, Willem, Sigal, Alex, Kløverpris, Henrik, Ndung'u, Thumbi, and Leslie, Alasdair

Abstract

Background: HIV infection dysregulates the B cell compartment, affecting memory B cell formation and the antibody response to infection and vaccination. Understanding the B cell response to SARS-CoV-2 in people living with HIV (PLWH) may explain the increased morbidity, reduced vaccine efficacy, reduced clearance, and intra-host evolution of SARS-CoV-2 observed in some HIV-1 coinfections. Methods: We compared B cell responses to COVID-19 in PLWH and HIV negative (HIV-ve) patients in a cohort recruited in Durban, South Africa, during the first pandemic wave in July 2020 using detailed flow cytometry phenotyping of longitudinal samples with markers of B cell maturation, homing, and regulatory features. Results: This revealed a coordinated B cell response to COVID-19 that differed significantly between HIV-ve and PLWH. Memory B cells in PLWH displayed evidence of reduced germinal centre (GC) activity, homing capacity, and class-switching responses, with increased PD-L1 expression, and decreased Tfh frequency. This was mirrored by increased extrafollicular (EF) activity, with dynamic changes in activated double negative (DN2) and activated naïve B cells, which correlated with anti-RBD-titres in these individuals. An elevated SARS-CoV-2-specific EF response in PLWH was confirmed using viral spike and RBD bait proteins. Conclusions: Despite similar disease severity, these trends were highest in participants with uncon-trolled HIV, implicating HIV in driving these changes. EF B cell responses are rapid but give rise to lower affinity antibodies, less durable long-term memory, and reduced capacity to adapt to new variants. Further work is needed to determine the long-term effects of HIV on SARS-CoV-2 immunity, particularly as new variants emerge.

Published

2022

26. HIV specific CD8+ TRM-like cells in tonsils express exhaustive signatures in the absence of natural HIV control

Author

Fardoos, Rabiah, Nyquist, Sarah K., Asowata, Osaretin E., Kazer, Samuel W., Singh, Alveera, Ngoepe, Abigail, Giandhari, Jennifer, Mthabela, Ntombifuthi, Ramjit, Dirhona, Singh, Samita, Karim, Farina, Buus, Søren, Anderson, Frank, Porterfield, J. Zachary, Sibiya, Andile L., Bipath, Rishan, Moodley, Kumeshan, Kuhn, Warren, Berger, Bonnie, Nguyen, Son, de Oliveira, Tulio, Ndung’u, Thumbi, Goulder, Philip, Shalek, Alex K., Leslie, Alasdair, Kløverpris, Henrik N., Fardoos, Rabiah, Nyquist, Sarah K., Asowata, Osaretin E., Kazer, Samuel W., Singh, Alveera, Ngoepe, Abigail, Giandhari, Jennifer, Mthabela, Ntombifuthi, Ramjit, Dirhona, Singh, Samita, Karim, Farina, Buus, Søren, Anderson, Frank, Porterfield, J. Zachary, Sibiya, Andile L., Bipath, Rishan, Moodley, Kumeshan, Kuhn, Warren, Berger, Bonnie, Nguyen, Son, de Oliveira, Tulio, Ndung’u, Thumbi, Goulder, Philip, Shalek, Alex K., Leslie, Alasdair, and Kløverpris, Henrik N.

Abstract

Lymphoid tissues are an important HIV reservoir site that persists in the face of antiretroviral therapy and natural immunity. Targeting these reservoirs by harnessing the antiviral activity of local tissue-resident memory (TRM) CD8+ T-cells is of great interest, but limited data exist on TRM-like cells within lymph nodes of people living with HIV (PLWH). Here, we studied tonsil CD8+ T-cells obtained from PLWH and uninfected controls from South Africa. We show that these cells are preferentially located outside the germinal centers (GCs), the main reservoir site for HIV, and display a low cytolytic and a transcriptionally TRM-like profile distinct from blood CD8+ T-cells. In PLWH, CD8+ TRM-like cells are expanded and adopt a more cytolytic, activated, and exhausted phenotype not reversed by antiretroviral therapy (ART). This phenotype was enhanced in HIV-specific CD8+ T-cells from tonsils compared to matched blood suggesting a higher antigen burden in tonsils. Single-cell transcriptional and clonotype resolution showed that these HIV-specific CD8+ T-cells in the tonsils express heterogeneous signatures of T-cell activation, clonal expansion, and exhaustion ex-vivo. Interestingly, this signature was absent in a natural HIV controller, who expressed lower PD-1 and CXCR5 levels and reduced transcriptional evidence of T-cell activation, exhaustion, and cytolytic activity. These data provide important insights into lymphoid tissue-derived HIV-specific CD8+ TRM-like phenotypes in settings of HIV remission and highlight their potential for immunotherapy and targeting of the HIV reservoirs.

Published

2022

27. Innate Lymphoid Cell Activation and Sustained Depletion in Blood and Tissue of Children Infected with HIV from Birth Despite Antiretroviral Therapy

Author

Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Koch Institute for Integrative Cancer Research at MIT, Ragon Institute of MGH, MIT and Harvard, Singh, Alveera, Kazer, Samuel W, Roider, Julia, Krista, Kami C, Millar, Jane, Asowata, Osaretin E, Ngoepe, Abigail, Ramsuran, Duran, Fardoos, Rabiah, Ardain, Amanda, Muenchhoff, Maximilian, Kuhn, Warren, Karim, Farina, Ndung’u, Thumbi, Shalek, Alex K, Goulder, Philip, Leslie, Alasdair, Kløverpris, Henrik N, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Koch Institute for Integrative Cancer Research at MIT, Ragon Institute of MGH, MIT and Harvard, Singh, Alveera, Kazer, Samuel W, Roider, Julia, Krista, Kami C, Millar, Jane, Asowata, Osaretin E, Ngoepe, Abigail, Ramsuran, Duran, Fardoos, Rabiah, Ardain, Amanda, Muenchhoff, Maximilian, Kuhn, Warren, Karim, Farina, Ndung’u, Thumbi, Shalek, Alex K, Goulder, Philip, Leslie, Alasdair, and Kløverpris, Henrik N

Abstract

© 2020 The Author(s) Innate lymphoid cells (ILCs) are important for response to infection and for immune development in early life. HIV infection in adults depletes circulating ILCs, but the impact on children infected from birth remains unknown. We study vertically HIV-infected children from birth to adulthood and find severe and persistent depletion of all circulating ILCs that, unlike CD4+ T cells, are not restored by long-term antiretroviral therapy unless initiated at birth. Remaining ILCs upregulate genes associated with cellular activation and metabolic perturbation. Unlike HIV-infected adults, ILCs are also profoundly depleted in tonsils of vertically infected children. Transcriptional profiling of remaining ILCs reveals ongoing cell-type-specific activity despite antiretroviral therapy. Collectively, these data suggest an important and ongoing role for ILCs in lymphoid tissue of HIV-infected children from birth, where persistent depletion and sustained transcriptional activity are likely to have long-term immune consequences that merit further investigation.

Published

2022

28. Publisher Correction: Group 3 innate lymphoid cells mediate early protective immunity against tuberculosis

Author

Ardain, Amanda, Domingo-Gonzalez, Racquel, Das, Shibali, Kazer, Samuel W., Howard, Nicole C., Singh, Alveera, Ahmed, Mushtaq, Nhamoyebonde, Shepherd, Rangel-Moreno, Javier, Ogongo, Paul, Lu, Lan, Ramsuran, Duran, de la Luz Garcia-Hernandez, Maria, Ulland, Tyler K., Darby, Matthew, Park, Eugene, Karim, Farina, Melocchi, Laura, Madansein, Rajhmun, Dullabh, Kaylesh Jay, Dunlap, Micah, Marin-Agudelo, Nancy, Ebihara, Takashi, Ndung’u, Thumbi, Kaushal, Deepak, Pym, Alexander S., Kolls, Jay K., Steyn, Adrie, Zúñiga, Joaquín, Horsnell, William, Yokoyama, Wayne M., Shalek, Alex K., Kløverpris, Henrik N., Colonna, Marco, Leslie, Alasdair, and Khader, Shabaana A.

Published

2019

29. Elevated IP-10 at the Protein and Gene Level Associates With Pulmonary TB

Author

Fisher, Kimone L., primary, Moodley, Denelle, additional, Rajkumar-Bhugeloo, Kerishka, additional, Baiyegunhi, Omolara O., additional, Karim, Farina, additional, Ndlovu, Hlumani, additional, Ndung’u, Thumbi, additional, and Marakalala, Mohlopheni J., additional

Published

2022

30. SARS-CoV-2 Omicron has extensive but incomplete escape of Pfizer BNT162b2 elicited neutralization and requires ACE2 for infection

Author

Cele, Sandile, Jackson, Laurelle, Khoury, David S., Khan, Khadija, Moyo-Gwete, Thandeka, Tegally, Houriiyah, San, James Emmanuel, Cromer, Deborah, Scheepers, Cathrine, Amoako, Daniel, Karim, Farina, Bernstein, Mallory, Lustig, Gila, Archary, Derseree, Smith, Muneerah, Ganga, Yashica, Jule, Zesuliwe, Reedoy, Kajal, Hwa, Shi-Hsia, Giandhari, Jennifer, Blackburn, Jonathan M., Gosnell, Bernadett I., Abdool Karim, Salim S., Hanekom, Willem, von Gottberg, Anne, Bhiman, Jinal, Lessells, Richard J., Moosa, Mahomed-Yunus S., Davenport, Miles P., de Oliveira, Tulio, Moore, Penny L., and Sigal, Alex

Subjects

Article

Abstract

The emergence of SARS-CoV-2 Omicron, first identified in Botswana and South Africa, may compromise vaccine effectiveness and the ability of antibodies triggered by previous infection to protect against re-infection (1). Here we investigated whether Omicron escapes antibody neutralization in South Africans, either previously SARS-CoV-2 infected or uninfected, who were vaccinated with Pfizer BNT162b2. We also investigated if Omicron requires the ACE2 receptor to infect cells. We isolated and sequence confirmed live Omicron virus from an infected person in South Africa and compared plasma neutralization of this virus relative to an ancestral SARS-CoV-2 strain with the D614G mutation, observing that Omicron still required ACE2 to infect. For neutralization, blood samples were taken soon after vaccination, so that vaccine elicited neutralization was close to peak. Neutralization capacity of the D614G virus was much higher in infected and vaccinated versus vaccinated only participants but both groups had 22-fold Omicron escape from vaccine elicited neutralization. Previously infected and vaccinated individuals had residual neutralization predicted to confer 73% protection from symptomatic Omicron infection, while those without previous infection were predicted to retain only about 35%. Both groups were predicted to have substantial protection from severe disease. These data support the notion that high neutralization capacity elicited by a combination of infection and vaccination, and possibly boosting, could maintain reasonable effectiveness against Omicron. A waning neutralization response is likely to decrease vaccine effectiveness below these estimates. However, since protection from severe disease requires lower neutralization levels and involves T cell immunity, such protection may be maintained.

Published

2021

31. A SARS-CoV-2 variant elicits an antibody response with a shifted immunodominance hierarchy

Author

Greaney, Allison J., primary, Starr, Tyler N., additional, Eguia, Rachel T., additional, Loes, Andrea N., additional, Khan, Khadija, additional, Karim, Farina, additional, Cele, Sandile, additional, Bowen, John E., additional, Logue, Jennifer K., additional, Corti, Davide, additional, Veesler, David, additional, Chu, Helen Y., additional, Sigal, Alex, additional, and Bloom, Jesse D., additional

Published

2022

32. SARS-CoV-2 prolonged infection during advanced HIV disease evolves extensive immune escape

Author

Cele, Sandile, primary, Karim, Farina, additional, Lustig, Gila, additional, San, James Emmanuel, additional, Hermanus, Tandile, additional, Tegally, Houriiyah, additional, Snyman, Jumari, additional, Moyo-Gwete, Thandeka, additional, Wilkinson, Eduan, additional, Bernstein, Mallory, additional, Khan, Khadija, additional, Hwa, Shi-Hsia, additional, Tilles, Sasha W., additional, Singh, Lavanya, additional, Giandhari, Jennifer, additional, Mthabela, Ntombifuthi, additional, Mazibuko, Matilda, additional, Ganga, Yashica, additional, Gosnell, Bernadett I., additional, Karim, Salim S. Abdool, additional, Hanekom, Willem, additional, Van Voorhis, Wesley C., additional, Ndung’u, Thumbi, additional, Lessells, Richard J., additional, Moore, Penny L., additional, Moosa, Mahomed-Yunus S., additional, de Oliveira, Tulio, additional, and Sigal, Alex, additional

Published

2022

33. Irreversible depletion of intestinal CD4+ T cells is associated with T cell activation during chronic HIV infection

Author

Asowata, Osaretin E., primary, Singh, Alveera, additional, Ngoepe, Abigail, additional, Herbert, Nicholas, additional, Fardoos, Rabiah, additional, Reddy, Kavidha, additional, Zungu, Yenzekile, additional, Nene, Faith, additional, Mthabela, Ntombifuthi, additional, Ramjit, Dirhona, additional, Karim, Farina, additional, Govender, Katya, additional, Ndung’u, Thumbi, additional, Porterfield, J. Zachary, additional, Adamson, John H., additional, Madela, Fusi G., additional, Manzini, Vukani T., additional, Anderson, Frank, additional, Leslie, Alasdair, additional, and Kløverpris, Henrik N., additional

Published

2021

34. T cell derived HIV-1 is present in the CSF in the face of suppressive antiretroviral therapy

Author

Lustig, Gila, primary, Cele, Sandile, additional, Karim, Farina, additional, Derache, Anne, additional, Ngoepe, Abigail, additional, Khan, Khadija, additional, Gosnell, Bernadett I., additional, Moosa, Mahomed-Yunus S., additional, Ntshuba, Ntombi, additional, Marais, Suzaan, additional, Jeena, Prakash M., additional, Govender, Katya, additional, Adamson, John, additional, Kløverpris, Henrik, additional, Gupta, Ravindra K., additional, Harrichandparsad, Rohen, additional, Patel, Vinod B., additional, and Sigal, Alex, additional

Published

2021

35. HIV specific CD8+ TRM-like cells in tonsils express exhaustive signatures in the absence of natural HIV control.

Author

Fardoos, Rabiah, Nyquist, Sarah K., Asowata, Osaretin E., Kazer, Samuel W., Singh, Alveera, Ngoepe, Abigail, Giandhari, Jennifer, Mthabela, Ntombifuthi, Ramjit, Dirhona, Singh, Samita, Karim, Farina, Buus, Søren, Anderson, Frank, Porterfield, J. Zachary, Sibiya, Andile L., Bipath, Rishan, Moodley, Kumeshan, Kuhn, Warren, Berger, Bonnie, and Son Nguyen

Subjects

TONSILS, HIV, LYMPHOID tissue, NATURAL immunity, GERMINAL centers

Abstract

Lymphoid tissues are an important HIV reservoir site that persists in the face of antiretroviral therapy and natural immunity. Targeting these reservoirs by harnessing the antiviral activity of local tissue-resident memory (TRM) CD8+ T-cells is of great interest, but limited data exist on TRM-like cells within lymph nodes of people living with HIV (PLWH). Here, we studied tonsil CD8+ T-cells obtained from PLWH and uninfected controls from South Africa. We show that these cells are preferentially located outside the germinal centers (GCs), the main reservoir site for HIV, and display a low cytolytic and a transcriptionally TRM-like profile distinct from blood CD8+ T-cells. In PLWH, CD8+ TRM-like cells are expanded and adopt a more cytolytic, activated, and exhausted phenotype not reversed by antiretroviral therapy (ART). This phenotype was enhanced in HIV-specific CD8+ T-cells from tonsils compared to matched blood suggesting a higher antigen burden in tonsils. Single-cell transcriptional and clonotype resolution showed that these HIV-specific CD8+ T-cells in the tonsils express heterogeneous signatures of T-cell activation, clonal expansion, and exhaustion ex-vivo. Interestingly, this signature was absent in a natural HIV controller, who expressed lower PD-1 and CXCR5 levels and reduced transcriptional evidence of T-cell activation, exhaustion, and cytolytic activity. These data provide important insights into lymphoid tissue-derived HIV-specific CD8+ TRM-like phenotypes in settings of HIV remission and highlight their potential for immunotherapy and targeting of the HIV reservoirs. [ABSTRACT FROM AUTHOR]

Published

2022

36. HIV infection drives interferon signaling within intestinal SARS-CoV-2 target cells

Author

Fardoos, Rabiah, primary, Asowata, Osaretin E., additional, Herbert, Nicholas, additional, Nyquist, Sarah K., additional, Zungu, Yenzekile, additional, Singh, Alveera, additional, Ngoepe, Abigail, additional, Mbano, Ian M., additional, Mthabela, Ntombifuthi, additional, Ramjit, Dirhona, additional, Karim, Farina, additional, Kuhn, Warren, additional, Madela, Fusi G., additional, Manzini, Vukani T., additional, Anderson, Frank, additional, Berger, Bonnie, additional, Pers, Tune H., additional, Shalek, Alex K., additional, Leslie, Alasdair, additional, and Kløverpris, Henrik N., additional

Published

2021

37. Irreversible depletion of intestinal CD4+ T cells is associated with T cell activation during chronic HIV infection

Author

Asowata, Osaretin E., Singh, Alveera, Ngoepe, Abigail, Herbert, Nicholas, Fardoos, Rabiah, Reddy, Kavidha, Zungu, Yenzekile, Nene, Faith, Mthabela, Ntombifuthi, Ramjit, Dirhona, Karim, Farina, Govender, Katya, Ndung’u, Thumbi, Zachary Porterfield, J., Adamson, John H., Madela, Fusi G., Manzini, Vukani T., Anderson, Frank, Leslie, Alasdair, Kløverpris, Henrik N., Asowata, Osaretin E., Singh, Alveera, Ngoepe, Abigail, Herbert, Nicholas, Fardoos, Rabiah, Reddy, Kavidha, Zungu, Yenzekile, Nene, Faith, Mthabela, Ntombifuthi, Ramjit, Dirhona, Karim, Farina, Govender, Katya, Ndung’u, Thumbi, Zachary Porterfield, J., Adamson, John H., Madela, Fusi G., Manzini, Vukani T., Anderson, Frank, Leslie, Alasdair, and Kløverpris, Henrik N.

Abstract

HIV infection in the human gastrointestinal (GI) tract is thought to be central to HIV progression, but knowledge of this interaction is primarily limited to cohorts within Westernized countries. Here, we present a large cohort recruited from high HIV endemic areas in South Africa and found that people living with HIV (PLWH) presented at a younger age for investigation in the GI clinic. We identified severe CD4+ T cell depletion in the GI tract, which was greater in the small intestine than in the large intestine and not correlated with years on antiretroviral treatment (ART) or plasma viremia. HIV-p24 staining showed persistent viral expression, particularly in the colon, despite full suppression of plasma viremia. Quantification of mucosal antiretroviral (ARV) drugs revealed no differences in drug penetration between the duodenum and colon. Plasma markers of gut barrier breakdown and immune activation were elevated irrespective of HIV, but peripheral T cell activation was inversely correlated with loss of gut CD4+ T cells in PLWH alone. T cell activation is a strong predictor of HIV progression and independent of plasma viral load, implying that the irreversible loss of GI CD4+ T cells is a key event in the HIV pathogenesis of PLWH in South Africa, yet the underlying mechanisms remain unknown.

Published

2021

38. T cell derived HIV-1 is present in the CSF in the face of suppressive antiretroviral therapy

Author

Lustig, Gila, Cele, Sandile, Karim, Farina, Derache, Anne, Ngoepe, Abigail, Khan, Khadija, Gosnell, Bernadett I., Moosa, Mahomed Yunus S., Ntshuba, Ntombi, Marais, Suzaan, Jeena, Prakash M., Govender, Katya, Adamson, John, Kløverpris, Henrik, Gupta, Ravindra K., Harrichandparsad, Rohen, Patel, Vinod B., Sigal, Alex, Lustig, Gila, Cele, Sandile, Karim, Farina, Derache, Anne, Ngoepe, Abigail, Khan, Khadija, Gosnell, Bernadett I., Moosa, Mahomed Yunus S., Ntshuba, Ntombi, Marais, Suzaan, Jeena, Prakash M., Govender, Katya, Adamson, John, Kløverpris, Henrik, Gupta, Ravindra K., Harrichandparsad, Rohen, Patel, Vinod B., and Sigal, Alex

Abstract

HIV cerebrospinal fluid (CSF) escape, where HIV is suppressed in blood but detectable in CSF, occurs when HIV persists in the CNS despite antiretroviral therapy (ART). To determine the virus producing cell type and whether lowered CSF ART levels are responsible for CSF escape, we collected blood and CSF from 156 neurosymptomatic participants from Durban, South Africa. We observed that 28% of participants with an undetectable HIV blood viral load showed CSF escape. We detected host cell surface markers on the HIV envelope to determine the cellular source of HIV in participants on the first line regimen of efavirenz, emtricitabine, and tenofovir. We confirmed CD26 as a marker which could differentiate between T cells and macrophages and microglia, and quantified CD26 levels on the virion surface, comparing the result to virus from in vitro infected T cells or macrophages. The measured CD26 level was consistent with the presence of T cell produced virus. We found no significant differences in ART concentrations between CSF escape and fully suppressed individuals in CSF or blood, and did not observe a clear association with drug resistance mutations in CSF virus which would allow HIV to replicate. Hence, CSF HIV in the face of ART may at least partly originate in CD4+ T cell populations.

Published

2021

39. HIV infection drives interferon signaling within intestinal SARS-CoV-2 target cells

Author

Fardoos, Rabiah, Asowata, Osaretin E., Herbert, Nicholas, Nyquist, Sarah K., Zungu, Yenzekile, Singh, Alveera, Ngoepe, Abigail, Mbano, Ian M., Mthabela, Ntombifuthi, Ramjit, Dirhona, Karim, Farina, Kuhn, Warren, Madela, Fusi G., Manzini, Vukani T., Anderson, Frank, Berger, Bonnie, Pers, Tune H., Shalek, Alex K., Leslie, Alasdair, Kløverpris, Henrik N., Fardoos, Rabiah, Asowata, Osaretin E., Herbert, Nicholas, Nyquist, Sarah K., Zungu, Yenzekile, Singh, Alveera, Ngoepe, Abigail, Mbano, Ian M., Mthabela, Ntombifuthi, Ramjit, Dirhona, Karim, Farina, Kuhn, Warren, Madela, Fusi G., Manzini, Vukani T., Anderson, Frank, Berger, Bonnie, Pers, Tune H., Shalek, Alex K., Leslie, Alasdair, and Kløverpris, Henrik N.

Abstract

SARS-CoV-2 infects epithelial cells of the human gastrointestinal (GI) tract and causes related symptoms. HIV infection impairs gut homeostasis and is associated with an increased risk of COVID-19 fatality. To investigate the potential link between these observations, we analyzed singlecell transcriptional profiles and SARS-CoV-2 entry receptor expression across lymphoid and mucosal human tissue from chronically HIV-infected individuals and uninfected controls. Absorptive gut enterocytes displayed the highest coexpression of SARS-CoV-2 receptors ACE2, TMPRSS2, and TMPRSS4, of which ACE2 expression was associated with canonical interferon response and antiviral genes. Chronic treated HIV infection was associated with a clear antiviral response in gut enterocytes and, unexpectedly, with a substantial reduction of ACE2 and TMPRSS2 target cells. Gut tissue from SARS-CoV-2-infected individuals, however, showed abundant SARS-CoV-2 nucleocapsid protein in both the large and small intestine, including an HIV-coinfected individual. Thus, upregulation of antiviral response genes and downregulation of ACE2 and TMPRSS2 in the GI tract of HIV-infected individuals does not prevent SARS-CoV-2 infection in this compartment. The impact of these HIVassociated intestinal mucosal changes on SARS-CoV-2 infection dynamics, disease severity, and vaccine responses remains unclear and requires further investigation.

Published

2021

40. HIV infection drives interferon signaling within intestinal SARS-CoV-2 target cells

Author

Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Koch Institute for Integrative Cancer Research at MIT, Ragon Institute of MGH, MIT and Harvard, Massachusetts Institute of Technology. Computational and Systems Biology Program, Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Mathematics, Fardoos, Rabiah, Asowata, Osaretin E, Herbert, Nicholas, Nyquist, Sarah K, Zungu, Yenzekile, Singh, Alveera, Ngoepe, Abigail, Mbano, Ian M, Mthabela, Ntombifuthi, Ramjit, Dirhona, Karim, Farina, Kuhn, Warren, Madela, Fusi G, Manzini, Vukani T, Anderson, Frank, Berger, Bonnie, Pers, Tune H, Shalek, Alex K, Leslie, Alasdair, Kløverpris, Henrik N, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Koch Institute for Integrative Cancer Research at MIT, Ragon Institute of MGH, MIT and Harvard, Massachusetts Institute of Technology. Computational and Systems Biology Program, Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Massachusetts Institute of Technology. Department of Mathematics, Fardoos, Rabiah, Asowata, Osaretin E, Herbert, Nicholas, Nyquist, Sarah K, Zungu, Yenzekile, Singh, Alveera, Ngoepe, Abigail, Mbano, Ian M, Mthabela, Ntombifuthi, Ramjit, Dirhona, Karim, Farina, Kuhn, Warren, Madela, Fusi G, Manzini, Vukani T, Anderson, Frank, Berger, Bonnie, Pers, Tune H, Shalek, Alex K, Leslie, Alasdair, and Kløverpris, Henrik N

Abstract

SARS-CoV-2 infects epithelial cells of the human gastrointestinal (GI) tract and causes related symptoms. HIV infection impairs gut homeostasis and is associated with an increased risk of COVID-19 fatality. To investigate the potential link between these observations, we analyzed single-cell transcriptional profiles and SARS-CoV-2 entry receptor expression across lymphoid and mucosal human tissue from chronically HIV-infected individuals and uninfected controls. Absorptive gut enterocytes displayed the highest coexpression of SARS-CoV-2 receptors ACE2, TMPRSS2, and TMPRSS4, of which ACE2 expression was associated with canonical interferon response and antiviral genes. Chronic treated HIV infection was associated with a clear antiviral response in gut enterocytes and, unexpectedly, with a substantial reduction of ACE2 and TMPRSS2 target cells. Gut tissue from SARS-CoV-2-infected individuals, however, showed abundant SARS-CoV-2 nucleocapsid protein in both the large and small intestine, including an HIV-coinfected individual. Thus, upregulation of antiviral response genes and downregulation of ACE2 and TMPRSS2 in the GI tract of HIV-infected individuals does not prevent SARS-CoV-2 infection in this compartment. The impact of these HIV-associated intestinal mucosal changes on SARS-CoV-2 infection dynamics, disease severity, and vaccine responses remains unclear and requires further investigation.

Published

2021

41. Unsuppressed HIV infection impairs T cell responses to SARS-CoV-2 infection and abrogates T cell cross-recognition.

Author

Nkosi, Thandeka, Chasara, Caroline, Papadopoulos, Andrea O., Nguni, Tiza L., Karim, Farina, Moosa, Mahomed-Yunus S., Gazy, Inbal, Jambo, Kondwani, Hanekom, Willem, Sigal, Alex, and Ndhlovu, Zaza M.

Published

2022

42. Effect of Dysglycemia on Urinary Lipid Mediator Profiles in Persons With Pulmonary Tuberculosis.

Author

Arriaga, María B., Karim, Farina, Queiroz, Artur T.L., Araújo-Pereira, Mariana, Barreto-Duarte, Beatriz, Sales, Caio, Moosa, Mahomed-Yunus S., Mazibuko, Matilda, Milne, Ginger L., Maruri, Fernanda, Henrique Serezani, Carlos, Koethe, John R., Figueiredo, Marina C., Kritski, Afrânio L., Cordeiro-Santos, Marcelo, Rolla, Valeria C., Sterling, Timothy R., Leslie, Alasdair, and Andrade, Bruno B.

Abstract

Background: Oxidized lipid mediators such as eicosanoids play a central role in the inflammatory response associated with tuberculosis (TB) pathogenesis. Diabetes mellitus (DM) leads to marked changes in lipid mediators in persons with TB. However, the associations between diabetes-related changes in lipid mediators and clearance of M. tuberculosis (Mtb) among persons on anti-TB treatment (ATT) are unknown. Quantification of urinary eicosanoid metabolites can provide insights into the circulating lipid mediators involved in Mtb immune responses. Methods: We conducted a multi-site prospective observational study among adults with drug-sensitive pulmonary TB and controls without active TB; both groups had subgroups with or without dysglycemia at baseline. Participants were enrolled from RePORTBrazil (Salvador site) and RePORT-South Africa (Durban site) and stratified according to TB status and baseline glycated hemoglobin levels: a) TB-dysglycemia (n=69); b) TBnormoglycemia (n=64); c) non-TB/dysglycemia (n=31); d) non-TB/non-dysglycemia (n=29). We evaluated the following urinary eicosanoid metabolites: 11α-hydroxy-9,15- dioxo-2,3,4,5-tetranor-prostane-1,20-dioic acid (major urinary metabolite of prostaglandin E2, PGE-M), tetranor-PGE1 (metabolite of PGE2, TN-E), 9α-hydroxy11,15-dioxo-2,3,4,5-tetranor-prostane-1,20-dioic acid (metabolite of PGD2, PGD-M), 11-dehydro-thromboxane B2 (11dTxB2), 2,3-dinor-6-keto-PGF1α (prostaglandin I metabolite, PGI-M), and leukotriene E4 (LTE4). Comparisons between the study groups were performed at three time points: before ATT and 2 and 6 months after initiating therapy. Results: PGE-M and LTE4 values were consistently higher at all three time-points in the TB-dysglycemia group compared to the other groups (p<0.001). In addition, there was a significant decrease in PGI-M and LTE4 levels from baseline to month 6 in the TBdysglycemia and TB-normoglycemia groups. Finally, TB-dysglycemia was independently associated with increased concentrations of PGD-M, PGI-M, and LTE4 at baseline in a multivariable model adjusting for age, sex, BMI, and study site. These associations were not affected by HIV status. Conclusion: The urinary eicosanoid metabolite profile was associated with TBdysglycemia before and during ATT. These observations can help identify the mechanisms involved in the pathogenesis of TB-dysglycemia, and potential biomarkers of TB treatment outcomes, including among persons with dysglycemia. [ABSTRACT FROM AUTHOR]

Published

2022

43. MR1-Restricted MAIT Cells From The Human Lung Mucosal Surface Have Distinct Phenotypic, Functional, and Transcriptomic Features That Are Preserved in HIV Infection

Author

Khuzwayo, Sharon, primary, Mthembu, Maphe, additional, Meermeier, Erin W., additional, Prakadan, Sanjay M., additional, Kazer, Samuel W., additional, Bassett, Thierry, additional, Nyamande, Kennedy, additional, Khan, Dilshaad Fakey, additional, Maharaj, Priya, additional, Mitha, Mohammed, additional, Suleman, Moosa, additional, Mhlane, Zoey, additional, Ramjit, Dirhona, additional, Karim, Farina, additional, Shalek, Alex K., additional, Lewinsohn, David M., additional, Ndung’u, Thumbi, additional, and Wong, Emily B., additional

Published

2021

44. Unbiased Profiling Reveals Compartmentalization of Unconventional T-Cells Within the Intestinal Mucosa Irrespective of HIV Infection

Author

Magnoumba, Magalli, Singh, Alveera, Ogongo, Paul, Roider, Julia, Asowata, Osaretin, Fehlings, Michael, Karim, Farina, Ndung'u, Thumbi, Anderson, Frank, Leslie, Alasdair, Kløverpris, Henrik, Magnoumba, Magalli, Singh, Alveera, Ogongo, Paul, Roider, Julia, Asowata, Osaretin, Fehlings, Michael, Karim, Farina, Ndung'u, Thumbi, Anderson, Frank, Leslie, Alasdair, and Kløverpris, Henrik

Abstract

The intestinal mucosa is enriched for unconventional T-cells, including mucosal associated invariant T-cells (MAIT), invariant natural killer T-cells (iNKT) and γδ T-cells. These cells are activated by bacterial metabolites, lipid antigens and cytokines, and are important for intestinal barrier integrity. The loss of gut homeostasis observed in HIV infection is central to disease pathogenesis, and studies have highlighted impairment of particular unconventional T-cell subsets within a specific gut compartment. However, although the small and large intestine are distinct niches, the overall impact of HIV on unconventional T-cells across the gut mucosal has not been well-studied. We hypothesized that compartment specific differences in the unconventional T-cell repertoire would exist between the small and large intestine, due to increasing bacterial loads and microbial diversity; and that the impact of HIV infection might differ depending on the compartment examined. We used mass cytometry, flow cytometry and unbiased T-cell receptor profiling to quantify unconventional T-cells in blood and tissue from the small (duodenum) and large (colon) intestine in HIV infected and uninfected participants undergoing examination for a range of intestinal conditions. Overall, we find distinct compartmentalisation of T-cells between blood, duodenum and colon, with iNKT cells significantly enriched in the duodenum and δ-1 expressing γδ T-cells in the colon. In addition, we observe greater clonal expansion of conventional TCRs in the duodenum, suggestive of stronger adaptive immunity in this compartment. Conversely, we find evidence of an expanded unconventional TCR repertoire in the colon, which contained far more overlapping “donor unrestricted” sequences than the duodenum. Twelve of these TCRs were highly “MAIT-like” and 3 were unique to the colon, suggesting an enrichment of donor unrestricted T-cells (DURTs) in this compartment. Unexpectedly, however, no significant impact of

Published

2020

45. Innate Lymphoid Cell Activation and Sustained Depletion in Blood and Tissue of Children Infected with HIV from Birth Despite Antiretroviral Therapy

Author

Singh, Alveera, Kazer, Samuel W., Roider, Julia, Krista, Kami C., Millar, Jane, Asowata, Osaretin E., Ngoepe, Abigail, Ramsuran, Duran, Fardoos, Rabiah, Ardain, Amanda, Muenchhoff, Maximilian, Kuhn, Warren, Karim, Farina, Ndung'u, Thumbi, Shalek, Alex K., Goulder, Philip, Leslie, Alasdair, Kløverpris, Henrik N., Singh, Alveera, Kazer, Samuel W., Roider, Julia, Krista, Kami C., Millar, Jane, Asowata, Osaretin E., Ngoepe, Abigail, Ramsuran, Duran, Fardoos, Rabiah, Ardain, Amanda, Muenchhoff, Maximilian, Kuhn, Warren, Karim, Farina, Ndung'u, Thumbi, Shalek, Alex K., Goulder, Philip, Leslie, Alasdair, and Kløverpris, Henrik N.

Abstract

Innate lymphoid cells (ILCs) are important for response to infection and for immune development in early life. HIV infection in adults depletes circulating ILCs, but the impact on children infected from birth remains unknown. We study vertically HIV-infected children from birth to adulthood and find severe and persistent depletion of all circulating ILCs that, unlike CD4+ T cells, are not restored by long-term antiretroviral therapy unless initiated at birth. Remaining ILCs upregulate genes associated with cellular activation and metabolic perturbation. Unlike HIV-infected adults, ILCs are also profoundly depleted in tonsils of vertically infected children. Transcriptional profiling of remaining ILCs reveals ongoing cell-type-specific activity despite antiretroviral therapy. Collectively, these data suggest an important and ongoing role for ILCs in lymphoid tissue of HIV-infected children from birth, where persistent depletion and sustained transcriptional activity are likely to have long-term immune consequences that merit further investigation.

Published

2020

46. Group 3 innate lymphoid cells mediate early protective immunity against tuberculosis

Author

Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Ragon Institute of MGH, MIT and Harvard, Broad Institute of MIT and Harvard, Koch Institute for Integrative Cancer Research at MIT, Ardain, Amanda, Domingo-Gonzalez, Racquel, Das, Shibali, Kazer, Samuel Weisgurt, Howard, Nicole C., Singh, Alveera, Ahmed, Mushtaq, Nhamoyebonde, Shepherd, Rangel-Moreno, Javier, Ogongo, Paul, Lu, Lan, Ramsuran, Duran, de la Luz Garcia-Hernandez, Maria, K. Ulland, Tyler, Darby, Matthew, Park, Eugene, Karim, Farina, Melocchi, Laura, Madansein, Rajhmun, Dullabh, Kaylesh Jay, Dunlap, Micah, Marin-Agudelo, Nancy, Ebihara, Takashi, Ndung’u, Thumbi, Kaushal, Deepak, Pym, Alexander S., Kolls, Jay K., Steyn, Adrie, Zuniga, Joaquin, Horsnell, William, Yokoyama, Wayne M., Shalek, Alexander K, Kloverpris, Henrik N., Colonna, Marco, Leslie, Alasdair, Khader, Shabaana A., Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Chemistry, Ragon Institute of MGH, MIT and Harvard, Broad Institute of MIT and Harvard, Koch Institute for Integrative Cancer Research at MIT, Ardain, Amanda, Domingo-Gonzalez, Racquel, Das, Shibali, Kazer, Samuel Weisgurt, Howard, Nicole C., Singh, Alveera, Ahmed, Mushtaq, Nhamoyebonde, Shepherd, Rangel-Moreno, Javier, Ogongo, Paul, Lu, Lan, Ramsuran, Duran, de la Luz Garcia-Hernandez, Maria, K. Ulland, Tyler, Darby, Matthew, Park, Eugene, Karim, Farina, Melocchi, Laura, Madansein, Rajhmun, Dullabh, Kaylesh Jay, Dunlap, Micah, Marin-Agudelo, Nancy, Ebihara, Takashi, Ndung’u, Thumbi, Kaushal, Deepak, Pym, Alexander S., Kolls, Jay K., Steyn, Adrie, Zuniga, Joaquin, Horsnell, William, Yokoyama, Wayne M., Shalek, Alexander K, Kloverpris, Henrik N., Colonna, Marco, Leslie, Alasdair, and Khader, Shabaana A.

Abstract

Tuberculosis is the leading cause of death by an infectious disease worldwide¹. However, the involvement of innate lymphoid cells (ILCs) in immune responses to infection with Mycobacterium tuberculosis (Mtb) is unknown. Here we show that circulating subsets of ILCs are depleted from the blood of participants with pulmonary tuberculosis and restored upon treatment. Tuberculosis increased accumulation of ILC subsets in the human lung, coinciding with a robust transcriptional response to infection, including a role in orchestrating the recruitment of immune subsets. Using mouse models, we show that group 3 ILCs (ILC3s) accumulated rapidly in Mtb-infected lungs and coincided with the accumulation of alveolar macrophages. Notably, mice that lacked ILC3s exhibited a reduction in the accumulation of early alveolar macrophages and decreased Mtb control. We show that the C-X-C motif chemokine receptor 5 (CXCR5)–C-X-C motif chemokine ligand 13 (CXCL13) axis is involved in Mtb control, as infection upregulates CXCR5 on circulating ILC3s and increases plasma levels of its ligand, CXCL13, in humans. Moreover, interleukin-23-dependent expansion of ILC3s in mice and production of interleukin-17 and interleukin-22 were found to be critical inducers of lung CXCL13, early innate immunity and the formation of protective lymphoid follicles within granulomas. Thus, we demonstrate an early protective role for ILC3s in immunity to Mtb infection. Keywords: Innate lymphoid cells; Tuberculosis, National Institute of Health (U.S.). (5U24AI118672)

Published

2020

47. Unbiased Profiling Reveals Compartmentalization of Unconventional T-Cells Within the Intestinal Mucosa Irrespective of HIV Infection

Author

Magnoumba, Magalli, primary, Singh, Alveera, additional, Ogongo, Paul, additional, Roider, Julia, additional, Asowata, Osaretin, additional, Fehlings, Michael, additional, Karim, Farina, additional, Ndung'u, Thumbi, additional, Anderson, Frank, additional, Leslie, Alasdair, additional, and Kløverpris, Henrik, additional

Published

2020

48. Innate Lymphoid Cell Activation and Sustained Depletion in Blood and Tissue of Children Infected with HIV from Birth Despite Antiretroviral Therapy

Author

Singh, Alveera, primary, Kazer, Samuel W., additional, Roider, Julia, additional, Krista, Kami C., additional, Millar, Jane, additional, Asowata, Osaretin E., additional, Ngoepe, Abigail, additional, Ramsuran, Duran, additional, Fardoos, Rabiah, additional, Ardain, Amanda, additional, Muenchhoff, Maximilian, additional, Kuhn, Warren, additional, Karim, Farina, additional, Ndung’u, Thumbi, additional, Shalek, Alex K., additional, Goulder, Philip, additional, Leslie, Alasdair, additional, and Kløverpris, Henrik N., additional

Published

2020

49. Increased Neutrophil Count and Decreased Neutrophil CD15 Expression Correlate With TB Disease Severity and Treatment Response Irrespective of HIV Co-infection

Author

Ndlovu, Lerato N., primary, Peetluk, Lauren, additional, Moodley, Sashen, additional, Nhamoyebonde, Shepherd, additional, Ngoepe, Abigail T., additional, Mazibuko, Matilda, additional, Khan, Khadija, additional, Karim, Farina, additional, Pym, Alexander S., additional, Maruri, Fernanda, additional, Moosa, Mahomed-Yunus S., additional, van der Heijden, Yuri F., additional, Sterling, Timothy R., additional, and Leslie, Alasdair, additional

Published

2020

50. Contrasting Inflammatory Signatures in Peripheral Blood and Bronchoalveolar Cells Reveal Compartment-Specific Effects of HIV Infection

Author

Muema, Daniel M., primary, Mthembu, Maphe, additional, Schiff, Abigail E., additional, Singh, Urisha, additional, Corleis, Björn, additional, Chen, Dongquan, additional, Bassett, Thierry, additional, Rasehlo, Sipho S., additional, Nyamande, Kennedy, additional, Khan, Dilshaad Fakey, additional, Maharaj, Priya, additional, Mitha, Mohammed, additional, Suleman, Moosa, additional, Mhlane, Zoey, additional, Naidoo, Taryn, additional, Ramjit, Dirhona, additional, Karim, Farina, additional, Kwon, Douglas S., additional, Ndung'u, Thumbi, additional, and Wong, Emily B., additional

Published

2020