Molecular Regulation Of Apoptosis In Endothelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$593,888.00
Summary
This project seeks to understand the mechanisms by which cells that make up our blood vessels are kept alive. Impaired blood vessel cell survival contributes to reduced blood vessel health, a major component of cardiovascular disease. Knowledge of how these cells are kept alive could prove useful in treating diseases affecting vessel cell survival, or potentially to combat those diseases that are caused by excessive blood vessel growth.
The Role Of The Human RECK Protein In Modifying Human Sarcoma Progression Within In Vitro And In Vivo Models
Funder
National Health and Medical Research Council
Funding Amount
$34,878.00
Summary
The protein “RECK” is known to have a controlling effect on cancers by reducing growth, invasion, and blood supply. RECK is present in normal tissues but in bone and soft-tissue tumours (sarcomas), the protein is reduced. This study aims to; correlate RECK levels in sarcoma with patient survival, use gene technology to increase RECK levels in sarcoma cells, and observe the effects on sarcoma invasion and metastasis.
The Role Of RYK And Eph Receptors In Developmental And Tumour Angiogenesis
Funder
National Health and Medical Research Council
Funding Amount
$196,527.00
Summary
The formation of blood vessels (angiogenesis) is a key process in development of the embryo, wound healing, tumour formation-metastases and in the re-vascularisation of ischeamic limbs. The molecules which control these processess are slowly being characterised. In general belong to a family of molecules called growth factors and theri associated receptor present on the surface of a cell. These molecules can control the number, location and function of specific blood vessels within the body. Rec ....The formation of blood vessels (angiogenesis) is a key process in development of the embryo, wound healing, tumour formation-metastases and in the re-vascularisation of ischeamic limbs. The molecules which control these processess are slowly being characterised. In general belong to a family of molecules called growth factors and theri associated receptor present on the surface of a cell. These molecules can control the number, location and function of specific blood vessels within the body. Recently we have discoverd new members of a family of growth fcators called vascular endothelial growth factors, and demonstrated their ability to promote the growth of blood and lymphatic vessels. In this study we set out to examine the role of another family of growth factor receptors, called RYK (for which we have a granted patent in the USA and Australia) in angiogenesis. functional experiments in mice have demonstrated that RYK can associated with a family of receptors called Eph receptors which play a key role in the remodelling of blood vessels during development and injury. Studying these molecules may tell us why blood vessels know' to be in the correct locations in the body and why in certain disease we see vessels of incorrect structure or location. These studies will form a basis of knowledge to develop rational means to manipulate blood vessel formation in the body, using non-surgical methods. The work will also have application to the areas of cleft palate, craniofacial abnormalities and axon pathfinding.Read moreRead less
Improving Immunotherapy By Vascular Targeting And Barrier Alteration
Funder
National Health and Medical Research Council
Funding Amount
$526,878.00
Summary
Tumors grow in part because they escape destruction by the immune system. New blood vessels grow inside tumors by a process called angiogenesis, which then stops cancer-fighting cells in their tracks. We hypothesise that breaking down the blood-tumor barrier will open tumors for attack by the cancer-fighting immune system. This proposal continues our work on reversal of angiogenesis in the context of immunotherapy. We expect these findings to lead to highly effective anti-tumor therapies.