SPRY Domain-containing SOCS Box (SSB) Protein Interaction With Par-4: Structure And Biochemical Implications
Funder
National Health and Medical Research Council
Funding Amount
$529,565.00
Summary
The suppressor of cytokine signalling (SOCS) proteins, are intracellular molecules that negatively regulate hormone and growth factor action, and whose functional importance has been borne out in many physiological studies. The SOCS box is a small part of the SOCS proteins that is believed to facilitate degradation of SOCS target proteins. The SPRY domain-containing SOCS box protein-2 (SSB-2) is one of four proteins within the greater SOCS family (SSB-1 to -4), which have a SOCS box and a centra ....The suppressor of cytokine signalling (SOCS) proteins, are intracellular molecules that negatively regulate hormone and growth factor action, and whose functional importance has been borne out in many physiological studies. The SOCS box is a small part of the SOCS proteins that is believed to facilitate degradation of SOCS target proteins. The SPRY domain-containing SOCS box protein-2 (SSB-2) is one of four proteins within the greater SOCS family (SSB-1 to -4), which have a SOCS box and a central SPRY domain. The SPRY domain mediates interaction with other proteins within the cell. Over 300 proteins are known to contain a SPRY domain. We recently determined the first atomic structure of a SPRY domain as part of SSB-2, using nuclear magnetic resonance (NMR) spectroscopy. We further identified Par-4 (prostate apoptosis response-4) as a novel and direct protein binding partner for SSB-1, -2 and -4, but not SSB-3. Extensive mutational analysis subsequently identified a series of SSB-2 mutants that were unable to bind Par-4 but retained structural integrity. Cancer cells develop through a series of genetic events and escape programmed cell death or apoptosis, continuing to grow inappropriately. Par-4 was originally discovered as a gene up-regulated in prostate cancer cells undergoing apoptosis and primarily appears to sensitise cancer cells to apoptotic stimuli. This proposal aims to further investigate SSB-Par-4 binding. The 3D structure of the complex will be determined and biochemical consequences of this interaction characterised. If SSB proteins regulate Par-4 levels, then chemical disruption of SSB-Par-4 binding could potentially result in an increase in Par-4 protein levels, making cancer cells more susceptible to killing by cytotoxic drugs.Read moreRead less
Role Of Extracellular Surface Residues In Agonist Activation Of The Alpha1 Adrenoceptor
Funder
National Health and Medical Research Council
Funding Amount
$414,786.00
Summary
Most modern drugs act on a class of cellular proteins known as GPCRs. Despite their importance, little is known about how agonists acting from the outside of cells produce a change in GPCR structure allowing signalling to the cell's interior. We have identified new residues on the extracellular surface of the alpha1 adrenoceptor that dramatically affect agonist responses, opening the door to understanding the molecular process of GPCR activation and the development of drugs that can target diffe ....Most modern drugs act on a class of cellular proteins known as GPCRs. Despite their importance, little is known about how agonists acting from the outside of cells produce a change in GPCR structure allowing signalling to the cell's interior. We have identified new residues on the extracellular surface of the alpha1 adrenoceptor that dramatically affect agonist responses, opening the door to understanding the molecular process of GPCR activation and the development of drugs that can target different GPCR conformations.Read moreRead less
A Structural And Functional Basis For The Regulation Of Gene Expression By Nuclear Retention Of RNA
Funder
National Health and Medical Research Council
Funding Amount
$504,097.00
Summary
The nuclear retention mechanism is a novel way used by cells to control which genes are made into proteins - a fundamental process for all diseases, particularly cancers. This project will employ cutting edge structural and proteomic techniques to determine the molecular details underpinning nuclear retention. These insights will be important for the development of new tissue-restricted gene therapy applications and drugs targeting the cancers that rely on this mechanism.
Understanding The Role And Mechanism Of Interaction Of Small Heat-shock Proteins In Age-related Disease
Funder
National Health and Medical Research Council
Funding Amount
$270,827.00
Summary
Protein precipitation is associated with a diversity of age-related diseases such as cataract and Alzheimer's. Within cells, a group of chaperones called the small heat-shock proteins (sHSPs) function by binding to destabilized proteins, however, common in vivo modifications can disrupt their cellular role leading to co-aggregation in a number of age-related diseases. This study will use state of the art mass spectrometry to examine the mechanism by which sHSPs interact with client proteins.
The Regulation Of 14-3-3 Protein Function By Post-translational Modification
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
The cells of our body have control mechanisms that prevent them from growing abnormally. However, when cells become cancerous they escape the normal checks and controls and are able to survive, divide and grow uncontrollably. In the last decade the molecular basis of several of the control mechanisms involved in preventing cancerous growth have been uncovered. However, our understanding is far from complete and recent research reports suggest that we have thus far overlooked a whole level of reg ....The cells of our body have control mechanisms that prevent them from growing abnormally. However, when cells become cancerous they escape the normal checks and controls and are able to survive, divide and grow uncontrollably. In the last decade the molecular basis of several of the control mechanisms involved in preventing cancerous growth have been uncovered. However, our understanding is far from complete and recent research reports suggest that we have thus far overlooked a whole level of regulation of cell growth control. Signals that instruct a normal cell to divide are propogated by pathways of interacting molecules within the cell. These pathways are regulated by switch mechanisms that either modify the interacting molecules, thereby inactivating their activity or by controlling when and where the molecules are allowed to interact. This spatial and temporal control mechanism is mediated by a family of specialised molecules, called 14-3-3 proteins. Recent research indicates that the function of these 14-3-3 proteins is also tightly controlled, although as yet we don't understand how. This research proposal attempts to discover the molecular mechanism of regulation of 14-3-3 function. An understanding of this process may provide new molecular targets for the development of therapeutics against cancer.Read moreRead less
Two Recently Identified Calcium Transporters In Lactation And During Mammary Epithelial Cell Apoptosis.
Funder
National Health and Medical Research Council
Funding Amount
$465,115.00
Summary
The transport of calcium into milk is a key event in human health. In addition to its importance in neonatal nutrition, the way breast cells regulate calcium also has implications in breast cancer, as well as the modification of proteins important in immunity, and the activity of biopharmaceuticals. This grant will determine how two specific calcium transporters regulate calcium levels in the breast and their respective roles in cellular processes important in normal function and in disease.