Antibody-mediated Dendritic Cell Depletion To Attenuate GVHD
Funder
National Health and Medical Research Council
Funding Amount
$434,510.00
Summary
Not all patients with leukemia will be cured by chemotherapy. Stem cell transplantation improves their chances of survival. Stem cell transplantation requires intensive chemotherapy and radiotherapy to eradicate the underlying disease and infusion of healthy stem cells to provide an anti-leukemic effect and normal blood cells. Recovery from transplantation is not straightforward. Recovery can be hampered by the immunological reaction of the donor cells against the patient (Graft versus Host Dise ....Not all patients with leukemia will be cured by chemotherapy. Stem cell transplantation improves their chances of survival. Stem cell transplantation requires intensive chemotherapy and radiotherapy to eradicate the underlying disease and infusion of healthy stem cells to provide an anti-leukemic effect and normal blood cells. Recovery from transplantation is not straightforward. Recovery can be hampered by the immunological reaction of the donor cells against the patient (Graft versus Host Disease [GVHD]), despite immunosuppression. GVHD produces serious damage to the internal organs and lining of the mouth and gut. Recovery can also be circumvented by leukemic relapse. GVHD is associated with an increased risk of death and dying after transplantation. To date therapy for GVHD has relied on eliminating the T cells that cause the disease. However for T cells to cause damage they must first be primed with antigen presented on activated dendritic cells. The intensive conditioning therapy required to eradicate the underlying disease before transplantation also activates dendritic cells. Our project seeks to investigate the effects of lethal and non-lethal conditioning on dendritic cells with the aim of validating the use of antibodies designed to deplete activated dendritic cells as therapy for graft versus host disease.Read moreRead less
A Phase 1 Clinical Trial Of A Human Chimeric Anti-Activated DC Antibody To Prevent AGVHD In High Risk Allo HSCT.
Funder
National Health and Medical Research Council
Funding Amount
$670,736.00
Summary
Bone Marrow transplants provide life saving therapy for leukaemias, lymphomas and other life threatening blood disorders. One of the major life threatening complications is acute graft versus host disease (AGVHD) in which the doner immune system damages the patient's skin, liver and gut, amongst other tissues. Dendritic cells initiate and direct immune responses. We have shown that dendritic cells are central to the initiation of AGVHD and have shown that a marker called CMRF-44 is expressed on ....Bone Marrow transplants provide life saving therapy for leukaemias, lymphomas and other life threatening blood disorders. One of the major life threatening complications is acute graft versus host disease (AGVHD) in which the doner immune system damages the patient's skin, liver and gut, amongst other tissues. Dendritic cells initiate and direct immune responses. We have shown that dendritic cells are central to the initiation of AGVHD and have shown that a marker called CMRF-44 is expressed on activated dendritic cells before AGVHD emerges. We have developed potential new therapeutic antibodies that target activated dendritic cells and shown that they are effective in preclinical studies. This project will further validate these antibodies, then test their safety and their ability to prevent AGVHD in patients. The trial will also test whether they have the expected additional beneficial effect of preserving protective anti-viral and anti leukaemic immune responses.Read moreRead less