Research Grant
[Cite as https://purl.org/au-research/grants/nhmrc/102458]Researchers: Prof Robert Tindle (Principal investigator)
Brief description Evidence that cervical cancer is caused by Human Papillomavirus is compelling. Once the virus enters the cells of the cervix, it produces a protein named E7 which functions to make the cells cancerous. Cervical cancer is the 5th commonest cause of death in women in Australia, and the major killer of women world-wide.The disease is particularly severe in those women whose immune systems are impaired, indicating immunological control of the cancerous cells . Current therapies including surgical removal are frequently inadequate, and the r is no effective drug to combat the virus.These observations indicate that a vaccine is warranted, and that the E7 protein may be an ideal target for the vaccine. Cervical tumour cells are killed by specialised immune system cells named CTLs which recognise fragments of foreign antigen(E7) on their surface bound to selfMHC molecules. Our work has shown that multiple antigen fragments can be encoded and stitched together in a genetic vaccine which will stimulate CTLs to function in a number of 'self'molecule situations Our laboratory has developed several mouse models of human cervical cancer , and (along with others) has worked out which parts of the E7 protein are importatnt in developing an appropriate immune response to control tumour growth when given as a vaccine. One animal model consists of mice which are genetically engineered to produce several types of selfmolecules and also E7. Thes mice develop skin tumours as result of E7 expression. This system provides model of cervical epithelial tumours caused by E7 expression in women.Thus we can ask the questions o can we elicit CTL responses which function in the context of humanself ? o Will these CTL responses prevent the growth of E7-induced epithelial tumours? The OUTCOME of the project will be a vaccine which will prevent the establishment of cervical cancer which can progress directly into clinical trials in women bearing appropriate selfmolecules.
Funding Amount $AUD 218,244.40
Funding Scheme NHMRC Project Grants
Notes Standard Project Grant
- nhmrc : 102458
- PURL : https://purl.org/au-research/grants/nhmrc/102458
