TY - JOUR
T1 - Role of tunneling nanotube-like structures during the early events of hiv infection
T2 - Novel features of tissue compartmentalization and mechanism of hiv spread
AU - Okafo, George
AU - Valdebenito, Silvana
AU - Donoso, Maribel
AU - Luu, Ross
AU - Ajasin, David
AU - Prideaux, Brendan
AU - Gorantla, Santhi
AU - Eugenin, Eliseo A.
N1 - Publisher Copyright:
© 2020 American Association of Immunologists. All rights reserved.
PY - 2020/11/15
Y1 - 2020/11/15
N2 - HIV has become a chronic disease despite the effective use of antiretroviral therapy (ART). However, the mechanisms of tissue colonization, viral evolution, generation of viral reservoirs, and compartmentalization are still a matter of debate due to the challenges involved in examining early events of infection at the cellular and molecular level. Thus, there is still an urgent need to explore these areas to develop effective HIV cure strategies. In this study, we describe the early events of tissue colonization and compartmentalization as well as the role of tunneling nanotube-like structures during viral spread in the presence and absence of effective antiretroviral treatment. To examine these mechanisms, NOD/SCID IL-2 RG2/2 humanized mice were either directly infected with HIVADA or with low numbers of HIVADA-infected leukocytes to limit tissue colonization in the presence and absence of TAK779, an effective CCR5 blocker of HIV entry. We identify that viral seeding in tissues occurs early in a tissue-and cell type- specific manner (24-72 h). Reduction in systemic HIV replication by TAK779 treatment did not affect tissue seeding or spreading, despite reduced systemic viral replication. Tissue-Associated HIV-infected cells had different properties than cells in the circulation because the virus continues to spread in tissues in a tunneling nanotube-like structure-dependent manner, despite ART. Thus, understanding these mechanisms can provide new approaches to enhance the efficacy of existing ART and HIV infection cure strategies.
AB - HIV has become a chronic disease despite the effective use of antiretroviral therapy (ART). However, the mechanisms of tissue colonization, viral evolution, generation of viral reservoirs, and compartmentalization are still a matter of debate due to the challenges involved in examining early events of infection at the cellular and molecular level. Thus, there is still an urgent need to explore these areas to develop effective HIV cure strategies. In this study, we describe the early events of tissue colonization and compartmentalization as well as the role of tunneling nanotube-like structures during viral spread in the presence and absence of effective antiretroviral treatment. To examine these mechanisms, NOD/SCID IL-2 RG2/2 humanized mice were either directly infected with HIVADA or with low numbers of HIVADA-infected leukocytes to limit tissue colonization in the presence and absence of TAK779, an effective CCR5 blocker of HIV entry. We identify that viral seeding in tissues occurs early in a tissue-and cell type- specific manner (24-72 h). Reduction in systemic HIV replication by TAK779 treatment did not affect tissue seeding or spreading, despite reduced systemic viral replication. Tissue-Associated HIV-infected cells had different properties than cells in the circulation because the virus continues to spread in tissues in a tunneling nanotube-like structure-dependent manner, despite ART. Thus, understanding these mechanisms can provide new approaches to enhance the efficacy of existing ART and HIV infection cure strategies.
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U2 - 10.4049/jimmunol.2000803
DO - 10.4049/jimmunol.2000803
M3 - Article
C2 - 33037140
AN - SCOPUS:85095971997
SN - 0022-1767
VL - 205
SP - 2726
EP - 2741
JO - Journal of Immunology
JF - Journal of Immunology
IS - 10
ER -