Cryptococcal phospholipases: structure, and potential targets for therapeutics [ 2002 - 2004 ]

Research Grant

Researchers: Lesley Wright (Principal investigator) ,  Dr Alfred Widmer ,  Prof Tania Sorrell

Brief description Mortality and morbidity from invasive fungal infections have increased substantially over the past two decades, especially in immunocompromised patients, such as those with AIDS. Antifungal drugs marketed at present are not very effective or are toxic. There is a need to identify new metabolic and structural targets, some of which are responsible for fungal virulence, as potential areas for development of new drugs. One such virulence factor discovered in our laboratory is an enzyme secreted by the pathogenic fungus, Cryptococcus neoformans, which is acquired by inhalation into the lungs where it can cause lesions, and eventually spreads to other parts of the body, including the brain (median mortality, 17%). This enzyme breaks down cell membranes, aiding invasion into the host lungs and other tissues, and is called phospholipase B (PLB). It is also produced by several other pathogenic fungi, and is different from human phospholipases. In this project we aim to understand how the PLB is constructed, so that we can work out where the cell membrane components bind to it. We will then design drugs which can bind to the PLB enzyme in place of membrane components and in this way block its harmful effects. We will test the effects of such drugs to make sure they do not interfere with human enzyme systems. Inhibitory compounds may also be able to kill the cryptococcal cells, especially if administered together with currently used therapies. Drugs developed to treat Cryptococcus will then be applicable to other systemic fungal infections - a major advance in the treatment of fungal disease, and a saving of some A$60,000 per patient (estimated from a recent U.S. study).

Funding Amount $AUD 511,650.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant