Increasing antigen presentation on HSV-1-infected cells increases lesion size but does not alter neural infection or latency
CD8 + T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we have explored the consequences of boosting the efficacy of CD8 + T cells against HSV by increasing the amount of an MHC I-presented epitope...
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| Published in | Journal of general virology Vol. 99; no. 5; pp. 682 - 692 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Microbiology Society
01.05.2018
|
| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-1317 1465-2099 1465-2099 |
| DOI | 10.1099/jgv.0.001059 |
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| Abstract | CD8
+
T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we have explored the consequences of boosting the efficacy of CD8
+
T cells against HSV by increasing the amount of an MHC I-presented epitope on the surface of infected cells. To do this we used HSVs engineered to express an extra copy of the immunodominant CD8
+
T cell epitope in C57Bl/6 mice, namely gB
498
(SSIEFARL). Despite greater presentation of gB
498
on infected cells, CD8
+
T cell responses to these viruses in mice were similar to those elicited by a control virus. Further, the expression of extra gB
498
did not significantly alter the extent or stability of latency in our mouse model, and virus loads in skin and sensory ganglia of infected mice were not affected. Surprisingly, mice infected with these viruses developed significantly larger skin lesions than those infected with control viruses and notably, this phenotype was dependent on MHC haplotype. Therefore increasing the visibility of HSV-infected cells to CD8
+
T cell attack did not impact neural infection or latency, but rather enhanced pathology in the skin. |
|---|---|
| AbstractList | CD8
+
T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we have explored the consequences of boosting the efficacy of CD8
+
T cells against HSV by increasing the amount of an MHC I-presented epitope on the surface of infected cells. To do this we used HSVs engineered to express an extra copy of the immunodominant CD8
+
T cell epitope in C57Bl/6 mice, namely gB
498
(SSIEFARL). Despite greater presentation of gB
498
on infected cells, CD8
+
T cell responses to these viruses in mice were similar to those elicited by a control virus. Further, the expression of extra gB
498
did not significantly alter the extent or stability of latency in our mouse model, and virus loads in skin and sensory ganglia of infected mice were not affected. Surprisingly, mice infected with these viruses developed significantly larger skin lesions than those infected with control viruses and notably, this phenotype was dependent on MHC haplotype. Therefore increasing the visibility of HSV-infected cells to CD8
+
T cell attack did not impact neural infection or latency, but rather enhanced pathology in the skin. CD8 T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we have explored the consequences of boosting the efficacy of CD8 T cells against HSV by increasing the amount of an MHC I-presented epitope on the surface of infected cells. To do this we used HSVs engineered to express an extra copy of the immunodominant CD8 T cell epitope in C57Bl/6 mice, namely gB498 (SSIEFARL). Despite greater presentation of gB498 on infected cells, CD8 T cell responses to these viruses in mice were similar to those elicited by a control virus. Further, the expression of extra gB498 did not significantly alter the extent or stability of latency in our mouse model, and virus loads in skin and sensory ganglia of infected mice were not affected. Surprisingly, mice infected with these viruses developed significantly larger skin lesions than those infected with control viruses and notably, this phenotype was dependent on MHC haplotype. Therefore increasing the visibility of HSV-infected cells to CD8 T cell attack did not impact neural infection or latency, but rather enhanced pathology in the skin. CD8+ T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we have explored the consequences of boosting the efficacy of CD8+ T cells against HSV by increasing the amount of an MHC I-presented epitope on the surface of infected cells. To do this we used HSVs engineered to express an extra copy of the immunodominant CD8+ T cell epitope in C57Bl/6 mice, namely gB498 (SSIEFARL). Despite greater presentation of gB498 on infected cells, CD8+ T cell responses to these viruses in mice were similar to those elicited by a control virus. Further, the expression of extra gB498 did not significantly alter the extent or stability of latency in our mouse model, and virus loads in skin and sensory ganglia of infected mice were not affected. Surprisingly, mice infected with these viruses developed significantly larger skin lesions than those infected with control viruses and notably, this phenotype was dependent on MHC haplotype. Therefore increasing the visibility of HSV-infected cells to CD8+ T cell attack did not impact neural infection or latency, but rather enhanced pathology in the skin.CD8+ T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we have explored the consequences of boosting the efficacy of CD8+ T cells against HSV by increasing the amount of an MHC I-presented epitope on the surface of infected cells. To do this we used HSVs engineered to express an extra copy of the immunodominant CD8+ T cell epitope in C57Bl/6 mice, namely gB498 (SSIEFARL). Despite greater presentation of gB498 on infected cells, CD8+ T cell responses to these viruses in mice were similar to those elicited by a control virus. Further, the expression of extra gB498 did not significantly alter the extent or stability of latency in our mouse model, and virus loads in skin and sensory ganglia of infected mice were not affected. Surprisingly, mice infected with these viruses developed significantly larger skin lesions than those infected with control viruses and notably, this phenotype was dependent on MHC haplotype. Therefore increasing the visibility of HSV-infected cells to CD8+ T cell attack did not impact neural infection or latency, but rather enhanced pathology in the skin. |
| Author | Tseng, Yeu-Yang Russell, Tiffany A. Tscharke, David C. Velusamy, Thilaga |
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| Keywords | herpes simplex virus CD8+ T cells HSV immunopathology antigen presentation latency |
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T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study... CD8 T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we... CD8+ T cells have a role in the control of acute herpes simplex virus (HSV) infection and may also be important in the maintenance of latency. In this study we... |
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| Title | Increasing antigen presentation on HSV-1-infected cells increases lesion size but does not alter neural infection or latency |
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