Don C. Siess scite author profile

The rapid onset of massive, systemic viral replication during primary HIV/SIV infection and the immune evasion capabilities of these viruses pose fundamental problems for vaccines that depend upon initial viral replication to stimulate effector T cell expansion and differentiation1–5. We hypothesized that vaccines designed to maintain differentiated “effector memory” T cell (TEM) responses5,6 at viral entry sites might improve efficacy by impairing viral replication at its earliest stage2, and have therefore developed SIV protein-encoding vectors based on rhesus cytomegalovirus (RhCMV), the prototypical inducer of life-long TEM responses7–9. RhCMV vectors expressing SIV Gag, Rev/Nef/Tat, and Env persistently infected rhesus macaques (RM), regardless of pre-existing RhCMV immunity, and primed and maintained robust SIV-specific, CD4+ and CD8+ TEM responses (characterized by coordinate TNF, IFN-γ and MIP-1β expression, cytotoxic degranulation, and accumulation at extra-lymphoid sites) in the absence of neutralizing antibodies. Compared to control RM, these vaccinated RM showed increased resistance to acquisition of progressive SIVmac239 infection upon repeated, limiting dose, intra-rectal challenge, including four animals that controlled rectal mucosal infection without progressive systemic dissemination. These data suggest a new paradigm for AIDS vaccine development: that vaccines capable of generating and maintaining HIV-specific TEM might decrease the incidence of HIV acquisition after sexual exposure.

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Insufficient Production and Tissue Delivery of CD4+Memory T Cells in Rapidly Progressive Simian Immunodeficiency Virus Infection

Picker

et al. 2004

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The mechanisms linking human immunodeficiency virus replication to the progressive immunodeficiency of acquired immune deficiency syndrome are controversial, particularly the relative contribution of CD4+ T cell destruction. Here, we used the simian immunodeficiency virus (SIV) model to investigate the relationship between systemic CD4+ T cell dynamics and rapid disease progression. Of 18 rhesus macaques (RMs) infected with CCR5-tropic SIVmac239 (n = 14) or CXCR4-tropic SIVmac155T3 (n = 4), 4 of the former group manifested end-stage SIV disease by 200 d after infection. In SIVmac155T3 infections, naive CD4+ T cells were dramatically depleted, but this population was spared by SIVmac239, even in rapid progressors. In contrast, all SIVmac239-infected RMs demonstrated substantial systemic depletion of CD4+ memory T cells by day 28 after infection. Surprisingly, the extent of CD4+ memory T cell depletion was not, by itself, a strong predictor of rapid progression. However, in all RMs destined for stable infection, this depletion was countered by a striking increase in production of short-lived CD4+ memory T cells, many of which rapidly migrated to tissue. In all rapid progressors (P < 0.0001), production of these cells initiated but failed by day 42 of infection, and tissue delivery of new CD4+ memory T cells ceased. Thus, although profound depletion of tissue CD4+ memory T cells appeared to be a prerequisite for early pathogenesis, it was the inability to respond to this depletion with sustained production of tissue-homing CD4+ memory T cells that best distinguished rapid progressors, suggesting that mechanisms of the CD4+ memory T cell generation play a crucial role in maintaining immune homeostasis in stable SIV infection.

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Evasion of CD8 ⁺ T Cells Is Critical for Superinfection by Cytomegalovirus

Hansen

Powers

Richards

et al. 2010

Science

247

234

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Cytomegalovirus (CMV) can super-infect persistently infected hosts despite CMV-specific humoral and cellular immunity; however, how it does so remains undefined. Here, we demonstrate that super-infection of rhesus CMV-infected rhesus macaques (RM) requires evasion of CD8+ T cell immunity by virally-encoded inhibitors of MHC-I antigen presentation, particularly the homologues of human CMV US2, 3, 6 and 11. In contrast, MHC-I interference was dispensable for primary infection of RM, or for the establishment of a persistent secondary infection in CMV-infected RM transiently depleted of CD8+ lymphocytes. These findings demonstrate that US2-11 glycoproteins promote evasion of CD8+ T cells in vivo thus supporting viral replication and dissemination during super-infection, a process that complicates the development of preventative CMV vaccines, but that can be exploited for CMV-based vector development.

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Don C. Siess

Effector memory T cell responses are associated with protection of rhesus monkeys from mucosal simian immunodeficiency virus challenge

Insufficient Production and Tissue Delivery of CD4+Memory T Cells in Rapidly Progressive Simian Immunodeficiency Virus Infection

Evasion of CD8 ⁺ T Cells Is Critical for Superinfection by Cytomegalovirus

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Don C. Siess

Effector memory T cell responses are associated with protection of rhesus monkeys from mucosal simian immunodeficiency virus challenge

Insufficient Production and Tissue Delivery of CD4+Memory T Cells in Rapidly Progressive Simian Immunodeficiency Virus Infection

Evasion of CD8 + T Cells Is Critical for Superinfection by Cytomegalovirus

Contact Info

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Evasion of CD8 ⁺ T Cells Is Critical for Superinfection by Cytomegalovirus