Glucocorticoid receptor-αD1 modulates stress and inflammation . Environmental stressors in mammalian pregnancy often cause inflammation in the mother which has an adverse effect on the fetus and its survival. The current grant aims to examine the mechanism by which stress and inflammation coexist in pregnancy because stress hormones normally exert anti-inflammatory actions. Contrary to convention, a new glucocorticoid receptor (GR), GRalpha D1, is linked to increasing inflammation. Using innova ....Glucocorticoid receptor-αD1 modulates stress and inflammation . Environmental stressors in mammalian pregnancy often cause inflammation in the mother which has an adverse effect on the fetus and its survival. The current grant aims to examine the mechanism by which stress and inflammation coexist in pregnancy because stress hormones normally exert anti-inflammatory actions. Contrary to convention, a new glucocorticoid receptor (GR), GRalpha D1, is linked to increasing inflammation. Using innovative molecular biology approaches, GRalphaD1's function will be examined to provide a deeper understanding of how stress regulates inflammation in animal reproduction. The project aims to enhance interdisciplinary collaborations with expected benefits including a paradigm shift in our knowledge in this field.Read moreRead less
Bisphosphonate Use, Oral Flora, Saliva, Gingival Crevicular Fluid And Bone Markers In Patients With Jaw Osteonecrosis
Funder
National Health and Medical Research Council
Funding Amount
$121,751.00
Summary
Bisphosphonates are used in patients with bones that break easily due to conditions such as osteoporosis. Recent research suggests a possible association between these drugs and jaw bone breakdown called jaw osteonecrosis - a devastating condition with no current effective treatment. It is unclear why this condition affects only jaw bones. This study seeks to investigate if bacteria in the mouth, gum disease and saliva are involved in jaw osteonecrosis, which can then help to improve management.
Novel mechano-signalling pathways at sites of cellular adhesion. Piezo channels are membrane proteins that detect mechanical cues and underlie our sense of touch. We aim to characterize the first protein regulator of Piezo channels by developing and utilizing novel technologies including acoustic forces to monitor Piezo channel function. The significance of this study is underscored by the wide spread expression of Piezo channels and their involvement in many cellular processes. Expected outcome ....Novel mechano-signalling pathways at sites of cellular adhesion. Piezo channels are membrane proteins that detect mechanical cues and underlie our sense of touch. We aim to characterize the first protein regulator of Piezo channels by developing and utilizing novel technologies including acoustic forces to monitor Piezo channel function. The significance of this study is underscored by the wide spread expression of Piezo channels and their involvement in many cellular processes. Expected outcomes are novel technologies to study mechanobiology, patentable peptide-based Piezo modulators and a new conceptual paradigm for understanding cellular mechanosensing. This knowledge will benefit a broad scientific community through technological advancements and pharmacological agents to manipulate Piezo channels.Read moreRead less
How age & sex impact the transcriptional control of mammalian muscle growth. Maintaining healthy muscle is crucial throughout all stages of life. Aging is associated with the loss of muscle and older muscles are resistant to growth due to age-related changes in gene expression and responsiveness. Many genes are expressed differently in male versus female muscle, which may have implications for sex-differences in muscle growth and aging. This project will generate new knowledge on which genes and ....How age & sex impact the transcriptional control of mammalian muscle growth. Maintaining healthy muscle is crucial throughout all stages of life. Aging is associated with the loss of muscle and older muscles are resistant to growth due to age-related changes in gene expression and responsiveness. Many genes are expressed differently in male versus female muscle, which may have implications for sex-differences in muscle growth and aging. This project will generate new knowledge on which genes and biological pathways are crucial in determining mammalian muscle size and growth across the lifespan and between the sexes. Application of this knowledge may lead to future approaches to enable a healthy start to life and promote healthy aging in Australians and have implications for agriculture and muscle as a food source.Read moreRead less