The Role Of NF-kB Transcription Factors In Regulating T Cell Transcription Networks
Funder
National Health and Medical Research Council
Funding Amount
$534,000.00
Summary
T cells are a key element of the adaptive immune response and help to distinguish between self and non-self. Hence, an inappropriate T cell response can lead to autoimmunity and chronic inflammatory disease. When T cells are activated by an immune signal they switch on the production of an array of proteins that control both T cell function and other arms of the immune system. The genes encoding these proteins possess molecular switches (promoters and enhancers) that respond to immune signals. T ....T cells are a key element of the adaptive immune response and help to distinguish between self and non-self. Hence, an inappropriate T cell response can lead to autoimmunity and chronic inflammatory disease. When T cells are activated by an immune signal they switch on the production of an array of proteins that control both T cell function and other arms of the immune system. The genes encoding these proteins possess molecular switches (promoters and enhancers) that respond to immune signals. These molecular switches bind groups of proteins known as transcription factors. One family of transcription factors that plays a key role in T cell function is the NF-kB family consisting of five different members, three of which are important in T cell function. Aberrant NF-kB function or expression has been associated with autoimmunity, chronic inflammation and cancer. In addition, NF-kB proteins are key components of transplant rejection. There is enormous interest in using the NF-kB pathway as a therapeutic target for these pathologies. We currently have a detailed knowledge of the biology of these factors through studies of mice lacking specific family members. While we know some of the genes that are switched on by the NF-kB proteins, we currently lack a sufficiently detailed knowledge of NF-kB-regulated genes in order to link the molecular function with the biological outcomes. In order to understand the molecular mechanism of NF-kB function and relate this to the biological outcomes, we need a global view of NF-kB action in the cell. This proposal uses both experimental and computational approaches to decipher the gene expression program controlled by NF-kB proteins in T cells. The T cell transcription networks in which NF-kB proteins participate will also be investigated. The knowledge generated by these experiments will provide a solid basis for designing therapeutic approaches based on the NF-kB pathway.Read moreRead less
I am a physiologist with expertise in endocrinology determining the roles of particular regulatory peptides in the normal functions of the gastrointestinal tract and in the development of gastrointestinal, renal and prostate cancers.
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So that these demands can be satisfied, it is necessary that network operators, or even the network itself, take measurements and make control decisions. Depending on the service, there is a need to do this over very short timescales (fractions of a second), or lon ....Modelling, Measurement and Control of the Internet. The demands made of modern high-speed data networks, such as those that make up the Internet, are increasing rapidly in terms of both the quantity and quality of service required.
So that these demands can be satisfied, it is necessary that network operators, or even the network itself, take measurements and make control decisions. Depending on the service, there is a need to do this over very short timescales (fractions of a second), or longer
timescales (minutes or even weeks).
By developing innovative mathematical models of network behaviour,
this project will deliver improved methods for measurement and
control of the Internet.Read moreRead less
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Special Research Initiatives - Grant ID: SR0354675
Funder
Australian Research Council
Funding Amount
$20,000.00
Summary
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