Regulator of G-protein Signalling-5: a key modulator of vascular maturation and the

Funding Activity

Website
http://purl.org/au-research/grants/nhmrc/458627

Funding Status
Closed

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Funded Activity Summary

Tumours progressively grow in part because they escape destruction by the immune system. New blood vessels grow inside tumours by a process called angiogenesis, which in turn stops disease-fighting cells in their tracks. However, we have now discovered that it is possible to reverse angiogenesis by normalising the blood vessels. This effectively means the barriers are broken down and the tumour can be opened to the immune system or cancer fighting drugs. Furthermore, we have identified a protein which appears to be very important for normalisation, a process which is currently not well understood. This proposal continues our pioneering work on vessel normalisation and will use models of highest clinical relevance to study the dynamics of vessel remodelling in tumours. Our approach is different to current angiogenesis research which simply tries to block or destroy the blood vessels that feed tumours. We expect our findings to lead to highly specific and effective anti-tumour therapies. Moreover, vessel growth in tumours has striking parallels to other vascular processes in the body, which have important implications for major and common human diseases such as high blood pressure and atherosclerosis. We now have the tools to study these processes and their abnormalities in our newly established disease model. By gaining insight into these disorders we will be able to develop novel approaches to stop disease progression.

Funded Activity Details

Start Date: 01-01-2007

End Date: 01-01-2009

Funding Scheme: NHMRC Project Grants

Funding Amount: $548,396.00

Funder: National Health and Medical Research Council

Research Topics

ANZSRC Field of Research (FoR)

Biochemistry and Cell Biology

ANZSRC Socio-Economic Objective (SEO)

There are no SEO codes available for this funding activity

Other Keywords

G protein signalling | angiogenesis | cancer | mouse models for cancer | pericytes | vascular biology | vascular remodelling

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