grant

Understanding the mechanisms of cytomegalovirus induced immunosuppression: relevance to viral immunotherapies [ 2002 - 2004 ]

Also known as: Viral interference with host immune responses

Research Grant

[Cite as https://purl.org/au-research/grants/nhmrc/212067]

Researchers: Prof Mariapia Degli-Esposti (Principal investigator) ,  Dr Christopher Andoniou

Brief description Cytomegalovirus (CMV), measles and human immunodeficiency virus (HIV) are the three main human pathogens known to induce immunosuppression. The down-regulation of immune responses that characterizes a state of immunosuppression imparts the infecting pathogens the opportunity to escape immune surveillance and thus maximizes their chances to survive within their host, to replicate and be transmitted as required. The generalized immunosuppression caused by viral infection is often associated with secondary infections with unrelated viral and-or bacterial pathogens, and as such represents a serious clinical problem. In humans, cytomegalovirus infection can cause tissue damage in normal individuals and may cause severe disease and even mortality in individuals with immature or compromised immune systems, such as newborns, AIDS patients, transplant recipients and patients undergoing chemotherapy. The severe complications that occur in the latter group of patients result from the combined effects of pre-existing and viral induced immunosuppression that often lead to severe secondary opportunistic infections. In transplant recipients however, CMV induced immunosuppression, in the absence of secondary infections, can be beneficial and has been associated with improved transplant outcome. The central aim of the work in the current proposal is to investigate the cellular and viral mechanisms involved in cytomegalovirus induced immunosuppression. The proposed studies will improve our understanding of viral interference with host immune responses and hence will be relevant to understanding the pathogenesis of CMV infection in humans and more importantly will provide critical insights into the rational design of suitable antiviral drugs and vaccines.

Funding Amount $AUD 467,310.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant

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