Trailshort protects against CD4 T cell death during acute HIV infection

Sekar Natesampillai; Ana C. Paim; Nathan W. Cummins; Aswath P. Chandrasekar; Gary D. Bren; Sharon R. Lewin; Hans Peter Kiem; Andrew D. Badley

doi:10.4049/jimmunol.1900271

Trailshort protects against CD4 T cell death during acute HIV infection

Sekar Natesampillai, Ana C. Paim, Nathan W. Cummins, Aswath P. Chandrasekar, Gary D. Bren, Sharon R. Lewin, Hans Peter Kiem, Andrew D. Badley

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

CD4 T cells from HIV-1 infected patients die at excessive rates compared to those from uninfected patients, causing immunodeficiency. We previously identified a dominant negative ligand that antagonizes the TRAIL-dependent pathway of cell death, which we called TRAILshort. Because the TRAIL pathway has been implicated in CD4 T cell death occurring during HIV-1 infection, we used short hairpin RNA knockdown, CRISPR deletion, or Abs specific for TRAILshort to determine the effect of inhibiting TRAILshort on the outcome of experimental acute HIV infection in vitro. Strikingly, all three approaches to TRAILshort deletion/inhibition enhanced HIV-induced death of both infected and uninfected human CD4 T cells. Thus, TRAILshort impacts T cell dynamics during HIV infection, and inhibiting TRAILshort causes more HIV-infected and uninfected bystander cells to die. TRAILshort is, therefore, a host-derived, host-adaptive mechanism to limit the effects of TRAIL-induced cell death. Further studies on the effects of TRAILshort in other disease states are warranted. The Journal of Immunology, 2019, 203: 718–724.

Original language	English (US)
Pages (from-to)	718-724
Number of pages	7
Journal	Journal of Immunology
Volume	203
Issue number	3
DOIs	https://doi.org/10.4049/jimmunol.1900271
State	Published - Aug 1 2019
Externally published	Yes

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Publisher Copyright:
Copyright Ó 2019 by The American Association of Immunologists, Inc.

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title = "Trailshort protects against CD4 T cell death during acute HIV infection",

abstract = "CD4 T cells from HIV-1 infected patients die at excessive rates compared to those from uninfected patients, causing immunodeficiency. We previously identified a dominant negative ligand that antagonizes the TRAIL-dependent pathway of cell death, which we called TRAILshort. Because the TRAIL pathway has been implicated in CD4 T cell death occurring during HIV-1 infection, we used short hairpin RNA knockdown, CRISPR deletion, or Abs specific for TRAILshort to determine the effect of inhibiting TRAILshort on the outcome of experimental acute HIV infection in vitro. Strikingly, all three approaches to TRAILshort deletion/inhibition enhanced HIV-induced death of both infected and uninfected human CD4 T cells. Thus, TRAILshort impacts T cell dynamics during HIV infection, and inhibiting TRAILshort causes more HIV-infected and uninfected bystander cells to die. TRAILshort is, therefore, a host-derived, host-adaptive mechanism to limit the effects of TRAIL-induced cell death. Further studies on the effects of TRAILshort in other disease states are warranted. The Journal of Immunology, 2019, 203: 718–724.",

author = "Sekar Natesampillai and Paim, {Ana C.} and Cummins, {Nathan W.} and Chandrasekar, {Aswath P.} and Bren, {Gary D.} and Lewin, {Sharon R.} and Kiem, {Hans Peter} and Badley, {Andrew D.}",

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doi = "10.4049/jimmunol.1900271",

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AU - Natesampillai, Sekar

AU - Paim, Ana C.

AU - Cummins, Nathan W.

AU - Chandrasekar, Aswath P.

AU - Bren, Gary D.

AU - Lewin, Sharon R.

AU - Kiem, Hans Peter

AU - Badley, Andrew D.

N1 - Publisher Copyright: Copyright Ó 2019 by The American Association of Immunologists, Inc.

PY - 2019/8/1

Y1 - 2019/8/1

N2 - CD4 T cells from HIV-1 infected patients die at excessive rates compared to those from uninfected patients, causing immunodeficiency. We previously identified a dominant negative ligand that antagonizes the TRAIL-dependent pathway of cell death, which we called TRAILshort. Because the TRAIL pathway has been implicated in CD4 T cell death occurring during HIV-1 infection, we used short hairpin RNA knockdown, CRISPR deletion, or Abs specific for TRAILshort to determine the effect of inhibiting TRAILshort on the outcome of experimental acute HIV infection in vitro. Strikingly, all three approaches to TRAILshort deletion/inhibition enhanced HIV-induced death of both infected and uninfected human CD4 T cells. Thus, TRAILshort impacts T cell dynamics during HIV infection, and inhibiting TRAILshort causes more HIV-infected and uninfected bystander cells to die. TRAILshort is, therefore, a host-derived, host-adaptive mechanism to limit the effects of TRAIL-induced cell death. Further studies on the effects of TRAILshort in other disease states are warranted. The Journal of Immunology, 2019, 203: 718–724.

AB - CD4 T cells from HIV-1 infected patients die at excessive rates compared to those from uninfected patients, causing immunodeficiency. We previously identified a dominant negative ligand that antagonizes the TRAIL-dependent pathway of cell death, which we called TRAILshort. Because the TRAIL pathway has been implicated in CD4 T cell death occurring during HIV-1 infection, we used short hairpin RNA knockdown, CRISPR deletion, or Abs specific for TRAILshort to determine the effect of inhibiting TRAILshort on the outcome of experimental acute HIV infection in vitro. Strikingly, all three approaches to TRAILshort deletion/inhibition enhanced HIV-induced death of both infected and uninfected human CD4 T cells. Thus, TRAILshort impacts T cell dynamics during HIV infection, and inhibiting TRAILshort causes more HIV-infected and uninfected bystander cells to die. TRAILshort is, therefore, a host-derived, host-adaptive mechanism to limit the effects of TRAIL-induced cell death. Further studies on the effects of TRAILshort in other disease states are warranted. The Journal of Immunology, 2019, 203: 718–724.

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Trailshort protects against CD4 T cell death during acute HIV infection

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