Project Details
Transcriptional regulation of innate immunity – interplay of exogenous and endogenous retroviruses
Applicant
Professor Dr. Daniel Sauter
Subject Area
Virology
Immunology
Immunology
Term
from 2016 to 2023
Project identifier
Deutsche Forschungsgemeinschaft (DFG) - Project number 318273292
Viruses hijack a plethora of host factors to ensure efficient viral replication. For example, HIV 1 and related lentiviruses exploit cellular transcription factors such as NF-κB for the expression of their own genes. These transcription factors are frequently activated upon infection and mediate the expression of several antiviral and pro-inflammatory host factors. Since chronic inflammation drives disease progression in HIV-infected individuals, a better understanding of transcription factor activation will provide important insights into retroviral pathogenicity. Notably, transcription factor activation is also an important determinant of viral latency, which represents a major obstacle in curing HIV/AIDS.Within the first funding period of this SPP, we showed that primate lentiviruses evolved several independent mechanisms to interfere with transcription factor activation. For example, we demonstrate that the viral protein U (Vpu) of HIV-1 is a potent inhibitor of NF-κB-elicited immune responses, suppressing the transcription of multiple restriction factors and pro-inflammatory cytokines. Studies in humanized mice confirmed that this immuno-suppressive activity is relevant for retroviral replication in vivo. Furthermore, we uncovered a temporal regulation of NF-κB activation enabling efficient initiation of viral gene expression early upon infection, while limiting antiviral immune responses during later stages of the replication cycle.Intriguingly, binding sites for pro-inflammatory transcription factors such as IRFs are often retained in LTR promoters of endogenous retroviruses (ERVs). Accumulating evidence suggests that these LTRs are in turn exploited by the host to regulate the expression of antiviral genes. In the second funding period, we would therefore like to elucidate the role of ERVs in inducing innate immune responses and limiting retroviral replication. Our transcriptome analyses revealed that specific ERV families (e.g. LTR12C) are activated in HIV-1 infected primary T cells. Interestingly, LTR12C promoter elements bind IRFs and STATs, and may determine the expression and IFN-inducibility of antiretroviral factors such as GBP5. We will combine in vitro and in vivo transcriptomics and proteomics approaches to monitor the induction of endogenous retroelements in HIV-1 infected cells in an unbiased manner. Furthermore, collaborative in silico analyses will complement LTR reporter assays and mutational analyses to identify the mechanisms that underlie the activation of retroelements upon HIV-1 infection. Finally, we aim to identify cellular antiviral genes that are regulated by endogenous LTRs and to decipher the role of LTR12C elements and other ERV lineages in restricting retroviral replication.The results will help to understand a sophisticated host-virus arms race, in which host cells exploit the ability of retroviral promoters to hijack cellular transcription factors.
DFG Programme
Priority Programmes
Subproject of
SPP 1923:
Innate Sensing and Restriction of Retroviruses