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Osteoporosis is a major health burden resulting from bone fractures in older men and women due to progressive loss of bone and weakening of the skeleton. No current treatment effectively reverses this bone loss. Using genetic models in mice, we have identified a pathway, involving the nerve signal molecule NPY, that is capable of inducing large (200 - 300%) increases in bone very rapidly (within a few weeks), in the skeleton of adult mice. This proposal is aimed at characterising this new pathwa ....Osteoporosis is a major health burden resulting from bone fractures in older men and women due to progressive loss of bone and weakening of the skeleton. No current treatment effectively reverses this bone loss. Using genetic models in mice, we have identified a pathway, involving the nerve signal molecule NPY, that is capable of inducing large (200 - 300%) increases in bone very rapidly (within a few weeks), in the skeleton of adult mice. This proposal is aimed at characterising this new pathway to assess its potential to provide new treatments for human osteoporosis. This research is important because of the size, rapidity and inducibility of the effect. Moreover, since it originates in the brain, it represents a quite novel mechanism by which the skeleton is potentially maintained and repaired. The experiments contained in the initial sections of the proposal are designed to assess not only the ability of the NPY-pathway to protect against bone loss but also to examine the possibility of repair to a fragile skeleton. The bone loss models chosen for study represent postmenopausal and age-related osteoporosis, two prevalent and increasingly common conditions in the aging world population. The latter section of the proposal seeks to clarify the mechanism by which the increase in bone formation occurs within the bone. Understanding the working of this pathway will be vital in developing future treatment regimens. This proposal investigates a novel, powerful and rapid pathway for repairing weakened skeletons. The knowledge resulting from this proposal has the potential to provide an important contribution to skeletal health and thus aged health worldwide.Read moreRead less
Obesity ensues when calorie intake exceeds energy expended. Hitherto, up-regulating energy expenditure is a relatively unexplored avenue. This project will address 3 facets of energy expenditure (fat, muscle and neural control). Understanding how sex and steroids act in concert to regulate energy expenditure will pave the way towards developing novel anti-obesity agents. This work will delineate mechanisms that underpin gender differences in the regulation of body weight.
Defects in sexual development in the human embryo result in some of the most common forms of birth defects, which have profound physiological and psychosexual ramifications for the afflicted individuals. A fuller understanding of the causes of these defects may lead to improved counseling and perhaps also therapeutic possibilities. This project is aimed at finding and studying the genes that control whether an embryo develops as a male or a female, and the genes that are responsible for proper d ....Defects in sexual development in the human embryo result in some of the most common forms of birth defects, which have profound physiological and psychosexual ramifications for the afflicted individuals. A fuller understanding of the causes of these defects may lead to improved counseling and perhaps also therapeutic possibilities. This project is aimed at finding and studying the genes that control whether an embryo develops as a male or a female, and the genes that are responsible for proper development of the gonads, organs that control an individual's sexual development. It is thought that a genetic chain of events is important for gonadal development, and we aim to find the missing links of that chain and to work out how they fit together.Read moreRead less
Characterisation Of SRY Macromolecular Complexes To Provide An Enhanced Understanding Of Human Genetic Sex Reversal And Embryonic Sex Determination
Funder
National Health and Medical Research Council
Funding Amount
$237,360.00
Summary
SRY is the most important gene in the determination of human sex. Mutations in the SRY gene that disrupt its ability to interact with other cellular proteins that regulate its function have shown to result in genetic sex reversal. This project will provide a detailed structural profile of the interfaces that are critical for sex determination, provide a molecular basis for XY-genetic sex reversal, and an enhanced understanding of foetal development.