Regulation Of Innate Immunity And Tumour Progression By Activating Transcription Factor 3
Funder
National Health and Medical Research Council
Funding Amount
$473,469.00
Summary
Toll-like receptors (TLRs) play an essential role in innate immune responses and are involved in initiating tumourigenesis via inflammatory pathways. We have shown that the transcription factor ATF3 is a negative regulator of TLR signalling. We will study how modulation of the activity of ATF3 affects the inflammatory response and tumour progression. This will provide a molecular basis on which to design therapeutic reagents for the treatment of cancer.
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
Role Of The Microtubule Network In Nuclear Transport: Potential Use In Gene Delivery
Funder
National Health and Medical Research Council
Funding Amount
$491,767.00
Summary
Transport of key proteins that regulate growth and other processes, into and out of the nucleus, the site of gene transcription, is central to the function of eukaryotic cells. Knowledge of the process is largely based on studies using semi-intact cell systems, however, meaning that the role of cytoskeletal elements in nuclear transport has been largely overlooked. Intriguingly, in vivo studies, including our own relating to signalling molecules important in the regulation of cancer, clearly imp ....Transport of key proteins that regulate growth and other processes, into and out of the nucleus, the site of gene transcription, is central to the function of eukaryotic cells. Knowledge of the process is largely based on studies using semi-intact cell systems, however, meaning that the role of cytoskeletal elements in nuclear transport has been largely overlooked. Intriguingly, in vivo studies, including our own relating to signalling molecules important in the regulation of cancer, clearly implicate the cellular microtubule (MT) network as playing an integral role in nuclear import. We propose to carry out a detailed examination of the mechanistic basis of the dependence of nuclear import on the MT network of 3 molecules regulating cancer. We will compare the properties of these molecules to those of other nuclear localizing molecules, as well as examine the ability to mediate nuclear import of similar MT-associating sequences from viral and other proteins. The results will establish for the first time, the generality of the dependence of nuclear protein import on cytoskeletal elements. Since the movement of large DNA molecules by simple diffusion is a limiting factor in non-viral gene delivery approaches, the possibility of applying this knowledge to facilitate the transport of DNA encoding therapeutic gene products to the nucleus of target cells, will also be assessed for the first time. We will use the modular sequences that confer interaction with the MT network to assist gene transfer by including them in modular constructs we have designed with this in mind. We will thus be able to test directly for the first time whether MT-interaction can enhance the delivery of DNA to the nucleus and reporter gene expression, with obvious application in gene therapy approaches.Read moreRead less
Molecular Cloning And Expression Of Cytokine Genes Related To Induction Of Allograft Transplantation Tolerance In Rats
Funder
National Health and Medical Research Council
Funding Amount
$212,371.00
Summary
Cytokines are soluble proteins produced by leucocytes, and in many cases other cell types, which act as chemical communicators between cells, but not as effector molecules in their own right. Most of the cytokines are growth or differentiation factors and they generally act on cells within the haematopoietic system. In this grant application we will focus on the production of cytokines and antibodies to these cytokines, that are likely to be important in organ transplantation tolerance or organ ....Cytokines are soluble proteins produced by leucocytes, and in many cases other cell types, which act as chemical communicators between cells, but not as effector molecules in their own right. Most of the cytokines are growth or differentiation factors and they generally act on cells within the haematopoietic system. In this grant application we will focus on the production of cytokines and antibodies to these cytokines, that are likely to be important in organ transplantation tolerance or organ rejection. We would like to synthesize these cytokines using molecular biological techniques. These biological materials will be used to treat animals and study their biological effect on transplanted graft survival. If the cytokine treatment does prolong graft survival, what is the mechanisms involved in the immune responses will be further studied. Our aim is to develop strategies that couold be applied to help pateints with organ transplants and receive most specific therapies.Read moreRead less