The AIDS-causing lentiviruses HIV and SIV effectively evade host immunity, and once established, infections with these viruses are only rarely controlled by immunologic mechanisms1-3. However, the initial establishment of infection in the first few days after mucosal exposure, prior to viral dissemination and massive replication, may be more vulnerable to immune control4. Here, we report that SIV vaccines that include rhesus cytomegalovirus (RhCMV) vectors5 establish indefinitely persistent, high frequency, SIV-specific effector-memory T cell (TEM) responses at potential sites of SIV replication in rhesus macaques (RM) and stringently control highly pathogenic SIVmac239 infection early after mucosal challenge. Thirteen of 24 RM receiving either RhCMV vectors alone or RhCMV vectors followed by adenovirus 5 (Ad5) vectors (vs. 0 of 9 DNA/Ad5-vaccinated RM) manifested early complete control of SIV (undetectable plasma virus), and in 12/13 of these RM, we observed long-term (≥1 year) protection characterized by: 1) occasional blips of plasma viremia that ultimately waned; 2) predominantly undetectable cell-associated viral load in blood and lymph node mononuclear cells; 3) no depletion of effector site CD4+ memory T cells; 4) no induction or boosting of SIVenv-specific antibodies (Abs); and 5) induction and then loss of T cell responses to an SIV protein (vif) not included in the RhCMV vectors. Protection correlated with the magnitude of the peak SIV-specific CD8+ T cell responses in the vaccine phase, and occurred without anamnestic T cell responses. Remarkably, long-term RhCMV vector-associated SIV control was insensitive to either CD8+ or CD4+ lymphocyte depletion, and at necropsy, cell-associated SIV was only occasionally measurable at the limit of detection with ultrasensitive assays, observations suggesting the possibility of eventual viral clearance. Thus, persistent vectors such as CMV and their associated TEM responses might significantly contribute to an efficacious HIV/AIDS vaccine.
Established infections with the human and simian immunodeficiency viruses (HIV, SIV) are thought to be permanent with even the most effective immune responses and anti-retroviral therapies (ART) only able to control, but not clear, these infections1–4. Whether the residual virus that maintains these infections is vulnerable to clearance is a question of central importance to the future management of millions of HIV-infected individuals. We recently reported that ~50% of rhesus macaques (RM) vaccinated with SIV protein-expressing Rhesus Cytomegalovirus (RhCMV/SIV) vectors manifest durable, aviremic control of infection with highly pathogenic SIVmac2395. Here, we demonstrate that regardless of route of challenge, RhCMV/SIV vector-elicited immune responses control SIVmac239 after demonstrable lymphatic and hematogenous viral dissemination, and that replication-competent SIV persists in multiple sites for weeks to months. However, over time, protected RM lost signs of SIV infection, showing a consistent lack of measurable plasma or tissue-associated virus using ultrasensitive assays, and loss of T cell reactivity to SIV determinants not in the vaccine. Extensive ultrasensitive RT-PCR and PCR analysis of tissues from RhCMV/SIV vector-protected RM necropsied 69–172 weeks after challenge did not detect SIV RNA or DNA over background, and replication-competent SIV was not detected in these RM by extensive co-culture analysis of tissues or by adoptive transfer of 60 million hematolymphoid cells to naïve RM. These data provide compelling evidence for progressive clearance of a pathogenic lentiviral infection, and suggest that some lentiviral reservoirs may be susceptible to the continuous effector memory T cell-mediated immune surveillance elicited and maintained by CMV vectors.
CD8+ T cell responses focus on a small fraction of pathogen- or vaccine-encoded peptides, and for some pathogens, these restricted recognition hierarchies limit the effectiveness of anti-pathogen immunity. We found that simian immunodeficiency virus (SIV) protein-expressing Rhesus Cytomegalovirus (RhCMV) vectors elicit SIV-specific CD8+ T cells that recognize unusual, diverse and highly promiscuous epitopes, including dominant responses to epitopes restricted by class II major histocompatibility complex (MHC) molecules. Induction of canonical SIV epitope-specific CD8+ T cell responses is suppressed by the RhCMV-encoded Rh189 (US11) gene, and the promiscuous MHC class I- and class II-restricted CD8+ T cell responses only occur in the absence of the Rh157.4-.6 (UL128-131) genes. Thus, CMV vectors can be genetically programmed to achieve distinct patterns of CD8+ T cell epitope recognition.
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