Osteocytic SOCS3 Controls STAT3:STAT1 Balance And Bone Formation
Funder
National Health and Medical Research Council
Funding Amount
$648,164.00
Summary
The most promising new osteoporosis therapy is antibody-based inhibition of the sclerostin protein. We discovered that sclerostin is inhibited by oncostatin M (OSM) only when it binds to a receptor called LIFR, which then activates proteins STAT3 and SOCS3. If OSM binds a different receptor (OSMR) it increases STAT1 activity and destroys bone. This project will determine how to manipulate STAT3, SOCS3, and STAT1 to increase bone formation and provide new treatments for osteoporosis.
Novel Anti-Infective Agents That Act By Enhancing The Host Innate Response
Funder
National Health and Medical Research Council
Funding Amount
$655,482.00
Summary
Antibiotic resistance is one of our major challenges, with fears expressed that we may soon run out of effective antibiotics for the treatment of infections. The goal of this project is to develop a novel class of antibiotics that acts by enhancing our immune response to infection rather than attacking the bacteria themselves, and therefore will not be susceptible to the development of bacterial resistance. These agents inhibit the degradation of a key enzyme involved in combating infections.
The Role Of Suppressor Of Cytokine Signalling-3 (SOCS-3) In Chondrocytes During Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$348,392.00
Summary
Cytokines are messenger proteins produced and secreted from one cell which then bind to specific receptors on the surface of other cells. After binding, a series of intracellular events occurs, termed signalling, that results in the target cell changing its behaviour. Cytokine signalling, if allowed to proceed unchecked, can result in various disease states. The suppressor of cytokine signalling (SOCS) proteins are key negative regulators of cytokine signalling within the cell. They are induced ....Cytokines are messenger proteins produced and secreted from one cell which then bind to specific receptors on the surface of other cells. After binding, a series of intracellular events occurs, termed signalling, that results in the target cell changing its behaviour. Cytokine signalling, if allowed to proceed unchecked, can result in various disease states. The suppressor of cytokine signalling (SOCS) proteins are key negative regulators of cytokine signalling within the cell. They are induced by a wide range of stimuli, especially from a group called the IL-6 family. We have preliminary data showing that cartilage cells (chondrocytes) normally produce a particular SOCS protein, called SOCS-3. We have also shown that when SOCS-3 production is dysregulated, the chondrocytes undergo excessive proliferation. Normal chondrocyte function is important during skeletal development and diseases such as osteoarthritis are thought to result from abnormal chondrocyte behaviour. It is likely that SOCS-3 has a key role in regulating chondrocyte function. The aim of this proposal is therefore to examine the role of SOCS-3 in chondrocytes, during development and in disease. Much of our understanding of the role of the SOCS proteins comes from the construction of mutant mice that lack a particular SOCS protein. When mutant mice are made that lack SOCS-3 in the whole animal the mice die before birth and so virtually nothing is known about the role of SOCS-3 in chondrocytes and the implications for cartilage in disease states, such as arthritis. To answer this we will create mice that lack SOCS-3 specifically in their chondrocytes. Evaluating the role of SOCS-3 in cartilage development and chondrocyte function during degenerative and inflammatory disease states is potentially of major clinical importance in improving our understanding of arthritis and of cartilage repair.Read moreRead less
Understanding SOCS3 Inhibition Of JAK Activity In Myeloproliferative Disorders
Funder
National Health and Medical Research Council
Funding Amount
$524,820.00
Summary
The myeloproliferative disorders are diseases in which abnormal blood cell development leads to a risk of stroke, thrombosis, hemorrhage and leukemia. Remarkably, three of these disorders are caused by an error in a single enzyme that makes it over active. The enzyme, JAK2, controls how cells respond to hormone-like messengers called cytokines. We are investigating a cellular pathway that inhibits this enzyme in order to understand the progression and potential treatment of the disorders.
Role Of SOCS3 In Mammary Gland Development And Tumorigenesis
Funder
National Health and Medical Research Council
Funding Amount
$224,278.00
Summary
We are studying the role of a family of inhibitory molecules (SOCS) in breast tissue; these proteins have been established to have critical roles in the immune system and in regulating growth of the entire animal. We have demonstrated that one member of this family can block the action of the prolactin hormone and have recently obtained evidence that another member of this family, SOCS3, affects survival of breast cells. Furthermore, this protein leads to increased growth when overexpressed in b ....We are studying the role of a family of inhibitory molecules (SOCS) in breast tissue; these proteins have been established to have critical roles in the immune system and in regulating growth of the entire animal. We have demonstrated that one member of this family can block the action of the prolactin hormone and have recently obtained evidence that another member of this family, SOCS3, affects survival of breast cells. Furthermore, this protein leads to increased growth when overexpressed in breast cells. We propose to define the normal role of this gene in mouse mammary tissue and to examine the consequences of expressing the gene at high levels in the mammary glands of mice. Inappropriate expression of this gene may predispose humans to breast cancer. SOCS3 expression will be directly studied in a cohort of primary invasive breast cancers with associated clinical outcome data, to determine whether it has a role as a potential prognostic marker.Read moreRead less