Function Of Sulfotransferase SULT4A1 - Transcriptional And Post-transcriptional Regulation
Funder
National Health and Medical Research Council
Funding Amount
$302,063.00
Summary
Our understanding of how important proteins work is critical to devising modern approaches for disease treatment. This project looks specifically at a protein sulfotransferase 4A1 linked with schizophrenia, and may be involved in other neuronal disorders. The plan is to characterise how the protein functions and what might be the implications of abnormal regulation. Through a series of intricate experiments, the molecular and cellular properties of the protein will be more clearly defined.
Phenotypic Studies Of The NaSi-1 Transporter Knock-out Mouse
Funder
National Health and Medical Research Council
Funding Amount
$268,264.00
Summary
Sulfate is an essential nutrient for cell growth and survival. Despite this, sulfate levels are rarely measured clinically and very little is known about the consequences of disturbed blood sulfate levels.The human kidneys regulate sulfate levels in the body, by mechanisms that are not fully characterised. Our laboratory has isolated a gene (Nas1) from humans and mice, which encodes a protein involved in sulfate absorption from the diet. Nas1 also controls sulfate excretion into the urine, by re ....Sulfate is an essential nutrient for cell growth and survival. Despite this, sulfate levels are rarely measured clinically and very little is known about the consequences of disturbed blood sulfate levels.The human kidneys regulate sulfate levels in the body, by mechanisms that are not fully characterised. Our laboratory has isolated a gene (Nas1) from humans and mice, which encodes a protein involved in sulfate absorption from the diet. Nas1 also controls sulfate excretion into the urine, by regulating kidney reabsorption. Normally, very little sulfate is lost in the urine. However, individuals with autism, Alzheimers, Parkinsons, motor neurone disease and liver cirrhosis, have been reported to have reduced blood sulfate levels. The mechanisms underlying the low blood sulfate levels in these disorders, have not been characterised. Recently, we generated a mouse lacking the Nas1 gene. This mouse has very low blood sulfate levels and suffers from growth retardation, reduced fertility and displays seizures. In this study, we plan to investigate these phenomena in the Nas1 knock out mouse and determine the role of low blood sulfate levels on these conditions. We also plan to characterise the role of low blood sulfate levels on the expression of genes in various body organs, using a gene array approach. In addition, we plan to study wound repair and the detoxification process in our Nas1 knock out mouse, which we expect to be affected due to low blood sulfate levels. These studies will establish the roles sulfate plays in mammalian physiology and will provide a foundation for studying diseases that are associated with changes in blood sulfate levels.Read moreRead less
Structure, Function And Regulation Of Human Cytosolic Sulfotransferases
Funder
National Health and Medical Research Council
Funding Amount
$265,500.00
Summary
The sulfotransferase family of enzymes serve an important role in the metabolism of drugs and foreign chemicals. They also metabolise a range of chemicals that are normally present in the body such as hormones and substances that are involved in brain function (neurotransmitters). Observations from clinical studies suggest that differences in sulfotransferases activities may be a causal factor in the incidence of certain types of cancer and neurodegenerative diseases. Recent advances in understa ....The sulfotransferase family of enzymes serve an important role in the metabolism of drugs and foreign chemicals. They also metabolise a range of chemicals that are normally present in the body such as hormones and substances that are involved in brain function (neurotransmitters). Observations from clinical studies suggest that differences in sulfotransferases activities may be a causal factor in the incidence of certain types of cancer and neurodegenerative diseases. Recent advances in understanding the molecular biology of these enzymes have shown us that multiple forms of sulfotransferase existed within the body. In this area my laboratory has been at the forefront of the cloning and characterisation of these enzymes. Indeed, we were the first laboratory to clone the major human sulfotransferase (SULT1A3) responsible for the metabolism of brain neurotransmitters. We have also used new technology to determine the shape of this important enzyme. At the time of writing my laboratory has characterised a total seven human sulfotransferases but unlike SULT1A3, our knowledge of the functional significance of the other six sulfotransferase is poorly understood. Further, our knowledge of what regulates the amount of sulfotransferase in different tissues is practically nonexistent. The thrust of this project is to extend our studies on the physiological function of these enzymes and also through the use of molecular biology techniques understand what controls the level of their expression in different human tissues. This knowledge will provide a basis for understanding the role of sulfotransferases play in drug and chemical metabolism. It will also aid our understanding of their role in hormone and neurotransmitter metabolism and help determine whether they are involved in such diseases as cancer and neurodegenerative diseases.Read moreRead less