Your search keyword '"Geijtenbeek, TBH"' showing total 7 results

1. Prevotella timonensis Bacteria Associated With Vaginal Dysbiosis Enhance Human Immunodeficiency Virus Type 1 Susceptibility Of Vaginal CD4+ T Cells

Author

van Teijlingen, NH, van Smoorenburg, MY, Sarrami-Forooshani, R, Zijlstra-Willems, EM, van Hamme, JL, Borgdorff, H, van de Wijgert, JHHM, van Leeuwen, E, van der Post, JAM, Strijbis, K, Ribeiro, CMS, Geijtenbeek, TBH, van Teijlingen, NH, van Smoorenburg, MY, Sarrami-Forooshani, R, Zijlstra-Willems, EM, van Hamme, JL, Borgdorff, H, van de Wijgert, JHHM, van Leeuwen, E, van der Post, JAM, Strijbis, K, Ribeiro, CMS, and Geijtenbeek, TBH

Abstract

Dysbiosis of the vaginal microbiome poses a serious risk for sexual human immunodeficiency virus type 1 (HIV-1) transmission. Prevotella spp are abundant during vaginal dysbiosis and associated with enhanced HIV-1 susceptibility; however, underlying mechanisms remain unclear. Here, we investigated the direct effect of vaginal bacteria on HIV-1 susceptibility of vaginal CD4(+) T cells. Notably, pre-exposure to Prevotella timonensis enhanced HIV-1 uptake by vaginal T cells, leading to increased viral fusion and enhanced virus production. Pre-exposure to antiretroviral inhibitors abolished P timonensis-enhanced infection. Our study shows that the vaginal microbiome directly affects mucosal CD4(+) T-cell susceptibility, emphasizing importance of vaginal dysbiosis diagnosis and treatment.

Published

2024

2. Diminished transmission of drug resistant HIV-1 variants with reduced replication capacity in a human transmission model

Author

Pingen, Marieke, Sarrami-Forooshani, R, Wensing, AMJ, van Ham, P, Drewniak, A, Boucher, Charles, Geijtenbeek, TBH, Nijhuis, M, Pingen, Marieke, Sarrami-Forooshani, R, Wensing, AMJ, van Ham, P, Drewniak, A, Boucher, Charles, Geijtenbeek, TBH, and Nijhuis, M

Abstract

Background: Different patterns of drug resistance are observed in treated and therapy naive HIV-1 infected populations. Especially the NRTI-related M184I/V variants, which are among the most frequently encountered mutations in treated patients, are underrepresented in the antiretroviral naive population. M184I/V mutations are known to have a profound effect on viral replication and tend to revert over time in the new host. However it is debated whether a diminished transmission efficacy of HIV variants with a reduced replication capacity can also contribute to the observed discrepancy in genotypic patterns. As dendritic cells (DCs) play a pivotal role in HIV-1 transmission, we used a model containing primary human Langerhans cells (LCs) and DCs to compare the transmission efficacy M184 variants (HIV-M184V/I/T) to HIV wild type (HIV-WT). As control, we used HIV harboring the NNRTI mutation K103N (HIV-K103N) which has a minor effect on replication and is found at a similar prevalence in treated and untreated individuals. Results: In comparison to HIV-WT, the HIV-M184 variants were less efficiently transmitted to CCR5(+) Jurkat T cells by both LCs and DCs. The transmission rate of HIV-K103N was slightly reduced to HIV-WT in LCs and even higher than HIV-WT in DCs. Replication experiments in CCR5(+) Jurkat T cells revealed no apparent differences in replication capacity between the mutant viruses and HIV-WT. However, viral replication in LCs and DCs was in concordance with the transmission results; replication by the HIV-M184 variants was lower than replication by HIV-WT, and the level of replication of HIV-K103N was intermediate for LCs and higher than HIV-WT for DCs. Conclusions: Our data demonstrate that drug resistant M184-variants display a reduced replication capacity in LCs and DCs which directly impairs their transmission efficacy. As such, diminished transmission efficacy may contribute to the lower prevalence of drug resistant variants in therapy naive individu

Published

2014

3. A Prominent Role for DC-SIGN(+) Dendritic Cells in Initiation and Dissemination of Measles Virus Infection in Non-Human Primates

Author

Mesman, AW, de Vries, Rory, McQuaid, S, Duprex, WP, de Swart, Rik, Geijtenbeek, TBH, Mesman, AW, de Vries, Rory, McQuaid, S, Duprex, WP, de Swart, Rik, and Geijtenbeek, TBH

Abstract

Measles virus (MV) is a highly contagious virus that is transmitted by aerosols. During systemic infection, CD150(+) T and B lymphocytes in blood and lymphoid tissues are the main cells infected by pathogenic MV. However, it is unclear which cell types are the primary targets for MV in the lungs and how the virus reaches the lymphoid tissues. In vitro studies have shown that dendritic cell (DC) C-type lectin DC-SIGN captures MV, leading to infection of DCs as well as transmission to lymphocytes. However, evidence of DC-SIGN-mediated transmission in vivo has not been established. Here we identified DC-SIGN hi DCs as first target cells in vivo and demonstrate that macaque DC-SIGN functions as an attachment receptor for MV. Notably, DC-SIGN hi cells from macaque broncho-alveolar lavage and lymph nodes transmit MV to B lymphocytes, providing in vivo support for an important role for DCs in both initiation and dissemination of MV infection. Citation: Mesman AW, de Vries RD, McQuaid S, Duprex WP, de Swart RL, et al. (2012) A Prominent Role for DC-SIGN(+) Dendritic Cells in Initiation and Dissemination of Measles Virus Infection in Non-Human Primates. PLoS ONE 7(12): e49573. doi:10.1371/journal.pone.0049573

Published

2012

4. Early Target Cells of Measles Virus after Aerosol Infection of Non-Human Primates

Author

Lemon, K, de Vries, Rory, Mesman, AW, McQuaid, S, Amerongen, Geert, Yüksel, Selma, Ludlow, Martin, Rennick, LJ, Kuiken, Thijs, Rima, BK, Geijtenbeek, TBH, Osterhaus, Ab, Duprex, WP, de Swart, Rik, Lemon, K, de Vries, Rory, Mesman, AW, McQuaid, S, Amerongen, Geert, Yüksel, Selma, Ludlow, Martin, Rennick, LJ, Kuiken, Thijs, Rima, BK, Geijtenbeek, TBH, Osterhaus, Ab, Duprex, WP, and de Swart, Rik

Abstract

Measles virus (MV) is highly infectious, and has long been thought to enter the host by infecting epithelial cells of the respiratory tract. However, epithelial cells do not express signaling lymphocyte activation molecule (CD150), which is the high-affinity cellular receptor for wild-type MV strains. We have generated a new recombinant MV strain expressing enhanced green fluorescent protein (EGFP), based on a wild-type genotype B3 virus isolate from Khartoum, Sudan (KS). Cynomolgus macaques were infected with a high dose of rMV(KS) EGFP by aerosol inhalation to ensure that the virus could reach the full range of potential target cells throughout the entire respiratory tract. Animals were euthanized 2, 3, 4 or 5 days post-infection (d.p.i., n = 3 per time point) and infected (EGFP(+)) cells were identified at all four time points, albeit at low levels 2 and 3 d.p.i. At these earliest time points, MV-infected cells were exclusively detected in the lungs by fluorescence microscopy, histopathology and/or virus isolation from broncho-alveolar lavage cells. On 2 d.p.i., EGFP(+) cells were phenotypically typed as large mononuclear cells present in the alveolar lumen or lining the alveolar epithelium. One to two days later, larger clusters of MV-infected cells were detected in bronchus-associated lymphoid tissue (BALT) and in the tracheo-bronchial lymph nodes. From 4 d.p.i. onward, MV-infected cells were detected in peripheral blood and various lymphoid tissues. In spite of the possibility for the aerosolized virus to infect cells and lymphoid tissues of the upper respiratory tract, MV-infected cells were not detected in either the tonsils or the adenoids until after onset of viremia. These data strongly suggest that in our model MV entered the host at the alveolar level by infecting macrophages or dendritic cells, which traffic the virus to BALT or regional lymph nodes, resulting in local amplification and subsequent systemic dissemination by viremia.

Published

2011

5. HSV Neutralization by the Microbicidal Candidate C5A

Author

Witte, Lot, Bobardt, MD, Chatterji, U, Loenen, Freek, Verjans, Georges, Geijtenbeek, TBH, Gallay, PA, Witte, Lot, Bobardt, MD, Chatterji, U, Loenen, Freek, Verjans, Georges, Geijtenbeek, TBH, and Gallay, PA

Abstract

Genital herpes is a major risk factor in acquiring human immunodeficiency virus type-1 (HIV-1) infection and is caused by both Herpes Simplex virus type 1 (HSV-1) and HSV-2. The amphipathic peptide C5A, derived from the non-structural hepatitis C virus (HCV) protein 5A, was shown to prevent HIV-1 infection but neither influenza nor vesicular stomatitis virus infections. Here we investigated the antiviral function of C5A on HSV infections. C5A efficiently inhibited both HSV-1 and HSV-2 infection in epithelial cells in vitro as well as in an ex vivo epidermal infection model. C5A destabilized the integrity of the viral HSV membrane. Furthermore, drug resistant HSV strains were inhibited by this peptide. Notably, C5A-mediated neutralization of HSV-1 prevented HIV-1 transmission. An in vitro HIV-1 transmigration assay was developed using primary genital epithelial cells and HSV infection increased HIV-1 transmigration. Treatment with C5A abolished HIV-1 transmigration by preventing HSV infection and by preserving the integrity of the genital epithelium that was severely compromised by HSV infection. In conclusion, this study demonstrates that C5A represents a multipurpose microbicide candidate, which neutralizes both HIV-1 and HSV, and which may interfere with HIV-1 transmission through the genital epithelium.

Published

2011

6. The Synthetic Bacterial Lipopeptide Pam3CSK4 Modulates Respiratory Syncytial Virus Infection Independent of TLR Activation

Author

Nguyen, Tien, Witte, Lot, Ludlow, Martin, Yüksel, Selma, Wiesmuller, KH, Geijtenbeek, TBH, Osterhaus, Ab, de Swart, Rik, Nguyen, Tien, Witte, Lot, Ludlow, Martin, Yüksel, Selma, Wiesmuller, KH, Geijtenbeek, TBH, Osterhaus, Ab, and de Swart, Rik

Abstract

Respiratory syncytial virus (RSV) is an important cause of acute respiratory disease in infants, immunocompromised subjects and the elderly. However, it is unclear why most primary RSV infections are associated with relatively mild symptoms, whereas some result in severe lower respiratory tract infections and bronchiolitis. Since RSV hospitalization has been associated with respiratory bacterial co-infections, we have tested if bacterial Toll-like receptor (TLR) agonists influence RSV-A2-GFP infection in human primary cells or cell lines. The synthetic bacterial lipopeptide Pam3-Cys-Ser-Lys4 (Pam3CSK4), the prototype ligand for the heterodimeric TLR1/TLR2 complex, enhanced RSV infection in primary epithelial, myeloid and lymphoid cells. Surprisingly, enhancement was optimal when lipopeptides and virus were added simultaneously, whereas addition of Pam3CSK4 immediately after infection had no effect. We have identified two structurally related lipopeptides without TLR-signaling capacity that also modulate RSV infection, whereas Pam3CSK4-reminiscent TLR1/2 agonists did not, and conclude that modulation of infection is independent of TLR activation. A similar TLR-independent enhancement of infection could also be demonstrated for wild-type RSV strains, and for HIV-1, measles virus and human metapneumovirus. We show that the effect of Pam3CSK4 is primarily mediated by enhanced binding of RSV to its target cells. The N-palmitoylated cysteine and the cationic lysines were identified as pivotal for enhanced virus binding. Surprisingly, we observed inhibition of RSV infection in immortalized epithelial cell lines, which was shown to be related to interactions between Pam3CSK4 and negatively charged glycosaminoglycans on these cells, which are known targets for binding of laboratory-adapted but not wild-type RSV. These data suggest a potential role for bacterial lipopeptides in enhanced binding of RSV and other viruses to their target cells, thus affecting viral entry or spre

Published

2010

7. DC-SIGN and CD150 have distinct roles in transmission of measles virus from dendritic cells to T-lymphocytes

Author

de Witte, L, de Vries, Rory, van der Vlist, M, Yüksel, Selma, Litjens, M, de Swart, Rik, Geijtenbeek, TBH, de Witte, L, de Vries, Rory, van der Vlist, M, Yüksel, Selma, Litjens, M, de Swart, Rik, and Geijtenbeek, TBH

Abstract

Measles virus (MV) is among the most infectious viruses that affect humans and is transmitted via the respiratory route. In macaques, MV primarily infects lymphocytes and dendritic cells (DCs). Little is known about the initial target cell for MV infection. Since DCs bridge the peripheral mucosal tissues with lymphoid tissues, we hypothesize that DCs are the initial target cells that capture MV in the respiratory tract and transport the virus to the lymphoid tissues where MV is transmitted to lymphocytes. Recently, we have demonstrated that the C-type lectin DC-SIGN interacts with MV and enhances infection of DCs in cis. Using immunofluorescence microscopy, we demonstrate that DC-SIGN(+) DCs are abundantly present just below the epithelia of the respiratory tract. DC-SIGN(+) DCs efficiently present MV-derived antigens to CD4(+) T-lymphocytes after antigen uptake via either CD150 or DC-SIGN in vitro. However, DC-SIGN(+) DCs also mediate transmission of MV to CD4(+) and CD8(+) T-lymphocytes. We distinguished two different transmission routes that were either dependent or independent on direct DC infection. DC-SIGN and CD150 are both involved in direct DC infection and subsequent transmission of de novo synthesized virus. However, DC-SIGN, but not CD150, mediates trans-infection of MV to T-lymphocytes independent of DC infection. Together these data suggest a prominent role for DCs during the initiation, dissemination, and clearance of MV infection.

Published

2008