Retroviral Recombination, RNA Dimers & Multiple Drug Resistant HIV-1
Funder
National Health and Medical Research Council
Funding Amount
$405,017.00
Summary
The emergence of multiple drug resistant strains of HIV-1 has threatened the continue success of current clinical treatment to suppress virus propagation. Retroviruses, such as HIV-1, can reshuffle its two copies of genetic materials during the viral replication process, which leads to the production of offspring viruses that contain a mixture of the parental genetic materials. This process of genetic information reshuffling is believed to be important for the generation of multiple drug resista ....The emergence of multiple drug resistant strains of HIV-1 has threatened the continue success of current clinical treatment to suppress virus propagation. Retroviruses, such as HIV-1, can reshuffle its two copies of genetic materials during the viral replication process, which leads to the production of offspring viruses that contain a mixture of the parental genetic materials. This process of genetic information reshuffling is believed to be important for the generation of multiple drug resistant strains of HIV-1. The objective of this proposal is to define the parameters that regulate the reshuffling of HIV-1 genetic materials and to design novel tools to inhibit the production of multiple drug resistant HIV-1.Read moreRead less
Human immunodeficiency virus type 1 (HIV-1) is the causative agent of AIDS. Recent advances with combination antiretroviral therapy have prolonged the survival time of HIV-1 infected patients, and provideed two important hints for a strategy to effectively treat this disease. First, administration of a combination of antiretroviral agents that target different stages of the viruses life cycle improves the clinical status of HIV-1 infected patients; and second, the formation of viral particles du ....Human immunodeficiency virus type 1 (HIV-1) is the causative agent of AIDS. Recent advances with combination antiretroviral therapy have prolonged the survival time of HIV-1 infected patients, and provideed two important hints for a strategy to effectively treat this disease. First, administration of a combination of antiretroviral agents that target different stages of the viruses life cycle improves the clinical status of HIV-1 infected patients; and second, the formation of viral particles during the HIV-1 replication cycle is an effective target for antiretroviral treatment, as demonstrated by the potency of drugs called protease inhibitors. A virus such as HIV is composed of viral proteins as well as genetic material called RNA. Two strands of viral RNA come together during the formation of HIV-1 in a process callered dimerization. It may be possible to interfere with RNA dimerization thus inhibiting HIV replication. This would provide a new target for HIV therapy. In order to do this, the process of RNA dimerization needs to be understood.The focus of this project is to define the mechanism of HIV-1 RNA dimerization, and to identify factors that are critical for virion RNA dimerization. Understanding the mechanism of virion RNA dimerization is likely to provide novel therapeutic target for the development of effective antiviral agents.Read moreRead less
Role Of Conformational Change In Activation Of The Growth Hormone Receptor
Funder
National Health and Medical Research Council
Funding Amount
$242,545.00
Summary
Growth hormone is an important hormone therapeutic for treating dwarfism. Recently, many new therapeutic applications for growth hormone have been discovered, particularly in relation to its role as an anabolic agent. These include post surgery recovery, enhanced bone fracture healing, Crohns disease, dilated cardiomyopathy, infertility and of course, ageing. This project seeks to find out how growth hormone sends its signal into the target cell through its surface receptor. It is believed that ....Growth hormone is an important hormone therapeutic for treating dwarfism. Recently, many new therapeutic applications for growth hormone have been discovered, particularly in relation to its role as an anabolic agent. These include post surgery recovery, enhanced bone fracture healing, Crohns disease, dilated cardiomyopathy, infertility and of course, ageing. This project seeks to find out how growth hormone sends its signal into the target cell through its surface receptor. It is believed that the primary event in signalling is the ability of the hormone to bring two receptors together (receptor dimerization). However, it may be that the receptor already is dimerized, and the role of the hormone is to induce a specific change in shape of the receptor, which transfers the signal of hormone binding into the cell to initiate signalling to the genome. We have good evidence that a specific shape change is required for activation of an important signalling pathway by growth hormone, and the closely structurally related receptor for erythropoietin is already dimerized before hormone binds. We want to find out exactly how the shape change acts, and whether the receptor is predimerized. This information is vital for designing small orally active mimics of growth hormone which could be of great value as an anabolic supplement for the frail elderly.Read moreRead less
Identifying Target Molecules Regulated By Nuclear Retention In Cancer And Development
Funder
National Health and Medical Research Council
Funding Amount
$267,173.00
Summary
Human DNA contains approximately 30000 genes; only twice as many as worms and flies, ten times as many as bacteria, and fewer than rice. Humans, however have considerably more complexity than these lower organisms. What are the factors responsible for the additional complexity? In the simplest scenario, one gene is transcribed to produce one message (mRNA), which is the blueprint for producing one protein. We now know that there are numerous mechanisms that potentially allow many different prote ....Human DNA contains approximately 30000 genes; only twice as many as worms and flies, ten times as many as bacteria, and fewer than rice. Humans, however have considerably more complexity than these lower organisms. What are the factors responsible for the additional complexity? In the simplest scenario, one gene is transcribed to produce one message (mRNA), which is the blueprint for producing one protein. We now know that there are numerous mechanisms that potentially allow many different proteins to be made from one gene. Also, it is the decisions about which gene will be made ( expressed ) into protein where and when in development, that is critical for our complexity. The control of gene expression is thus fundamental to all cellular processes and many diseases such as cancer and metabolic disorders are associated with some aspect of aberrant gene expression. The production of mRNA from DNA occurs in the human cell nucleus. The nucleus is not simply a bag of DNA, in fact, many important nuclear factors are organised into sub-nuclear bodies . Recently we discovered a novel sub-nuclear body, the paraspeckle and have been identifying its components and their function. Paraspeckles are involved in a previously undiscovered mechanism of the control of gene expression. Here, certain mRNA molecules are trapped in the nucleus until a signal is received from elsewhere in the cell, which causes the mRNA to be released and protein to be made. This Rapid Release Nuclear Retention mechanism effectively allows the quick production of specific proteins to be made on demand. In this project we propose to use cutting edge molecular and cell biology techniques to identify the special mRNA molecules that are trapped in paraspeckles in cancer cells. This will increase our understanding about the molecular details of this process, ultimately leading to potential uses in gene therapy, and should result in the discovery of important targets for cancer treatment.Read moreRead less
An Alternate Function Of The MicroRNA Biogenesis Machinery
Funder
National Health and Medical Research Council
Funding Amount
$302,981.00
Summary
Controlling the activity of genes is crucial. Too much or too little can result in a cell not functioning properly. We have discovered a new way genes are controlled. We have found that an enzyme called Drosha can prevent too much activation of some genes by chopping up the products of these genes. This way of controlling genes appears to be especially important for developmental processes, such as occurs in the embryo. Our goal is to understand this mechanism precisely at the molecular level.
MRNA Surveillance In Human Disease: Molecular Determinants Of Nonsense-mediated MRNA Decay
Funder
National Health and Medical Research Council
Funding Amount
$474,517.00
Summary
Inherited diseases are a common cause of human disability, illness and suffering. It has been estimated that 5-10% of the population will be affected by disorders with a genetic component. Thus studies on mechanisms of inherited diseases, especially those relating to genetic mechanisms with relevance across a wide range of individual disorders and gene mutations, are of great significance in diagnosis, molecular pathology and the eventual development of therapeutics. While there are many types o ....Inherited diseases are a common cause of human disability, illness and suffering. It has been estimated that 5-10% of the population will be affected by disorders with a genetic component. Thus studies on mechanisms of inherited diseases, especially those relating to genetic mechanisms with relevance across a wide range of individual disorders and gene mutations, are of great significance in diagnosis, molecular pathology and the eventual development of therapeutics. While there are many types of mutations, one relatively common type is called a premature termination mutation. Premature termination mutations introduce an inappropriate genetic signal that tells the cells to stop the formation of proteins before they are complete. This would result in the production of a protein that is shorter than normal, and these short proteins could be quite abnormal and drastically affect the normal function of cells. To overcome this, cells have developed elegant strategies that involve the deployment of quality control, or surveillance, mechanisms to remove the mutant gene product before it can be converted into an abnormal protein. This process is called nonsense mediated decay. Nonsense mediated decay is a complex process and some of the key components have been identified by studies on a small number of genes. However, our studies have identified several previously unknown aspects of the process that suggest that the currently held view of how nonsense mediated decay works is only the beginning of the story and further important complexity exists. The proposed research will explore the basic mechanisms of the surveillance process and determine the signals that initiate nonsense mediated decay. Since premature termination mutations cause one-third of all inherited genetic disorders, our studies will provide new insights into the surveillance mechanisms and will have wide applicability to our understanding of the basis of inherited disease.Read moreRead less
The Role Of The HuB RNA-binding Protein In Post-transcriptional Gene Regulation In The Pre-gastrula Zebrafish Embryo
Funder
National Health and Medical Research Council
Funding Amount
$545,216.00
Summary
The precise control of protein expression is absolutely critical in biology. The key decisions about which genes are turned on or off at any one moment control the proper growth of an organism during development, and are responsible for the organism's homeostasis and proper response to environmental changes as an adult. The spatio-temporal control of genes is critcal during embryogenesis and we aim to understand how these processes underlie development in the vertebrate embryo.