Role of TLR9 in infection and host response to HHV-6A
Leifer, Cynthia A.   
Cornell University, Ithaca, NY, United States

Herpes viruses are a leading cause of human diseases, and nearly 100% of the human population harbors at least one latent herpes virus. Encephalitis, multiple sclerosis, chronic fatigue syndrome and epilepsy have all been correlated with the presence of human herpes virus 6 (HHV-6). The HHV-6 family consists of two closely related double stranded DNA beta herpes viruses, HHV-6A and HHV-6B. Our understanding of infection by HHV-6 in the brain has been limited by lack of a genetically tractable small animal model. We have now established that transgenic mice expressing human CD46, a receptor for HHV-6A, are susceptible to HHV-6A infection, and we detect viral DNA up to nine months post infection. Our preliminary studies implicate Toll-like receptor 9 in the host response to infection Therefore, we hypothesize that HHV-6A will infect specific brain cells and elicit TLR9-dependent cytokines and chemokines. To address this hypothesis we will identify the cellular targets, kinetics of infection in the brain, define the early innate immune responses, and characterize any developing neuropathology. We will also investigate the role of TLR9 in eliciting these responses. The results from the proposed studies will increase our understanding of HHV-6A infection and the resulting immune response in the brain, and provide important information on the broader applicability of this model to the study of HHV-6A neuropathology. Information gained from our studies will help guide development of appropriate therapies to limit or prevent HHV-6-associated neuropathologies.

Public Health Relevance

Human herpesvirs-6 (HHV-6) has been associated with a number of neurologic pathologies; however, the lack of a small animal model to study HHV-6 infection of the brain has impeded advancement in our understanding of infection and pathology. Here we describe a human CD46 transgenic mouse that supports long-term persistence of HHV-6A DNA in the brain, and implicate Toll-like receptor 9 in in the host response. This new model will provide critical new information to enable development of novel therapeutic strategies to neurologic pathologies associated with this emerging infectious disease.