Activated Dendritic Cell Monoclonal Antibodies as Therapeutics to Prevent Graft Versus Host Disease [ 2004 - 2006 ]

Research Grant

Researchers: Prof Derek Hart (Principal investigator) ,  A/Pr Alison Rice ,  Dr David Munster ,  Prof Kenneth Bradstock

Brief description A New Therapy to Prevent Graft versus Host Disease in Bone Marrow Transplantation Bone marrow transplants often fail due to the immune reaction of the grafted donor cells against the patient (graft versus host disease). Current treatments to prevent this do not always work and have serious side-effects or other disadvantages.The immune reaction is induced by activated dendritic cells which are the primary stimulators of the body's defences against foreign invaders. We have developed antibodies in mice that react with human activated dendritic cells and prevent them from inducing immune responses in the test-tube. These antibodies are also likely to be effective in patients, but cannot be used in their present form because mouse antibodies induce an undesirable immune response in humans. We therefore plan to convert them to resemble human antibodies (antibody engineering). Antibodies that react with other types of cell in the body are already used to treat or prevent a variety of conditions, including graft versus host disease, but no one has developed a therapeutic antibody against activated dendritic cells. We are applying to the NHMRC for funding to engineer our antibodies and to test them in test tube experiments and also in mouse models of graft versus host disease. We also plan to study the changes in blood levels of activated dendritic cells in bone marrow transplnt patients. This will provide information on the best time to use our new therapeutic antibodies to prevent graft versus host disease. The aim of this grant application will have been achieved if, after three years, we have a new antibody ready for testing in bone marrow transplant patients.

Funding Amount $AUD 432,750.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant