Immunopathogenesis of West Nile virus encephalitis - requirement for interferon-gamma-dependent soluble mediators [ 2003 - 2005 ]

Research Grant

Researchers: Prof Nicholas King (Principal investigator) ,  A/Pr Gunasegaran Karupiah ,  Dr Geeta Chaudhri ,  Prof Alison Kesson

Brief description Flaviviruses transmitted by arthropods cause considerable illness and death world-wide by their propensity to cause encephalitis. In August 1999, an outbreak of West Nile virus (WNV) encephalitis occurred in New York for the first time, indicating that these viruses are spreading beyond endemic areas. However, the mechanisms by which these viruses kill people are not at all clear. How the immune system deals with them is controlled by a complex network of interactions involving cells and soluble mediators such as cytokines, chemokines, and nitric oxide, many induced or modulated by the cytokine, inteferon-gamma. Evidence suggests that these agents together influence both the types of cells that are mobilised to eradicate virus and also disease outcomes. Our hypothesis is that the host's own immune system is inadvertently responsible for encephalitis through an over-vigorous attempt to destroy the infecting virus, resulting in damage to the brain. To study WNV encephalitis, we are using a mouse model developed in this laboratory that reproduces the features of human disease. Another strain of these mice has the gene for interferon-gamma (IFN) inactivated or 'knocked out', so they cannot respond in the conventional way to virus infection. This mouse survives WNV infection significantly better than normal mice and becomes immune. Therefore we will compare cellular and soluble mediator responses of these mice during WNV infection to those of normal mice. We will also delete specific cell types making interferon-gamma in normal mice, as well as transfering such cells into knockout mice. Experiments will indicate which cell types are responsible and when particular components cause most damage. Thus, we will better understand how interferon-gamma recruits cells that mediate immune brain damage in this model. By understanding the events that lead to death in encephalitis, it may be possible to prevent or ameliorate them by means of immune intervention.

Funding Amount $AUD 250,500.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant