Control Of Organ Size And Cancer By The Hippo Pathway
Funder
National Health and Medical Research Council
Funding Amount
$638,517.00
Summary
The Hippo pathway is a key regulator of tissue growth. It was first discovered in vinegar flies and plays a similar role in mammals. We aim to define the mechanism by which the Hippo pathway controls tissue growth and cancer. These studies will be performed in flies and mammalian cell culture. Our studies will shed light on how tissue growth is controlled, and have the potential to inform the way that we treat human cancers and tissue growth disorders.
Investigating The Cellular Requirement For STIM1 Phosphorylation And Store-operated Calcium Entry Suppression During Mitosis: Roles In Development And Cancer
Funder
National Health and Medical Research Council
Funding Amount
$344,900.00
Summary
Cells are constantly interacting with and modifying their surrounding environment. The intracellular calcium signal is one mechanism cells use to translate signals from the microenvironment into cellular responses. This proposal seeks to explore why a key calcium signalling pathway, known as store-operated calcium entry, is specifically silenced during cell division, and to determine how reversing this inhibition affects cell division during normal development and in cancer.
Investigation of the mechanisms underlying successful placentation. The overall aim of this project is to provide novel insights into the basic cellular processes that underpin placental development and to improve our ability to manipulate mammalian reproduction, both human and animal. The placenta is critical for intrauterine development because it determines the level of nutrition, oxygenation and maternal tolerance to the developing foetus. The project intends to explore the role of prorenin ....Investigation of the mechanisms underlying successful placentation. The overall aim of this project is to provide novel insights into the basic cellular processes that underpin placental development and to improve our ability to manipulate mammalian reproduction, both human and animal. The placenta is critical for intrauterine development because it determines the level of nutrition, oxygenation and maternal tolerance to the developing foetus. The project intends to explore the role of prorenin and its receptor as a novel mechanism driving placentation. Applications for expected project outcomes may include improved breeding of threatened animal species and economically valuable domestic animals as well as improved health care and fertility control for domesticated pets and feral animals. Read moreRead less
Tao Kinase, A New Member Of The Hippo Tumour Suppressor Pathway
Funder
National Health and Medical Research Council
Funding Amount
$605,190.00
Summary
The Hippo pathway is a key regulator of tissue growth. It was first discovered in vinegar flies and plays a similar role in mammals. We aim to define the mechanism by which the Tao kinase controls tissue growth by regulating the Hippo pathway. These studies will be performed in flies and mammalian cell culture. Our studies will shed light on how tissue growth is controlled, and have the potential to inform the way that we treat human cancers and tissue growth disorders.
Regulation of cell proliferation and survival by the ubiquitin system. This project aims to investigate how the fundamental processes of cell division and cell death are controlled at the molecular level by protein degradation enzymes (known as ubiquitin ligases), and how these regulate cellular homeostasis. Using interdisciplinary approaches incorporating proteomics, biochemistry, and molecular cell biology, this project seeks to delineate the components of signalling pathways implicated in the ....Regulation of cell proliferation and survival by the ubiquitin system. This project aims to investigate how the fundamental processes of cell division and cell death are controlled at the molecular level by protein degradation enzymes (known as ubiquitin ligases), and how these regulate cellular homeostasis. Using interdisciplinary approaches incorporating proteomics, biochemistry, and molecular cell biology, this project seeks to delineate the components of signalling pathways implicated in the degradation of proteins implicated in cell division and cell death. Expected outcomes include an increased understanding of how proteins are specifically selected for degradation. Protein degradation pathways operate with remarkable selectivity and this work is expected to illuminate the mechanisms of substrate targeting. The biochemical approaches will provide insight and impact in the areas of cell signaling, organelle biology and cell biology.Read moreRead less
Molecular mechanisms of cyclic Adenosine Monophosphate (AMP) induced apoptosis. Cyclic Adenosine Monophosphate (cAMP) is an important cellular chemical necessary for cell growth. However, de-regulated cAMP production in response to altered physiology can result in cellular death or apoptosis. This is attributed to the development of certain human diseases and this project aims to understand the molecular mechanism behind this process.
Using viral inhibitors to understand the regualtion of apoptosis. Apoptosis is a form of cell death that is critical for the development and well-being of multicellular organisms. The activity of Bak or Bax, two members of the Bcl-2 family, are essential for apoptosis to proceed, but how the activity of these two proteins is regulated is unclear. Many viruses encode inhibitors of apoptosis and the project will make use of two novel viral inhibitors that specifically target Bak. The project aims ....Using viral inhibitors to understand the regualtion of apoptosis. Apoptosis is a form of cell death that is critical for the development and well-being of multicellular organisms. The activity of Bak or Bax, two members of the Bcl-2 family, are essential for apoptosis to proceed, but how the activity of these two proteins is regulated is unclear. Many viruses encode inhibitors of apoptosis and the project will make use of two novel viral inhibitors that specifically target Bak. The project aims to determine how the Bak inhibitors function and to provide valuable insights into the normal mechanisms regulating Bak activity.Read moreRead less
Molecular determinants of inflammatory caspase activity upon inflammasomes. Most processes fundamental to life rely on the timely, and regulated, execution of cellular functions. The innate immune system, in which both timing and regulation is paramount, rapidly detects invading microbes and induces a measured and timely antimicrobial response to clear infection. This project aims to address a key knowledge gap by characterising a mechanism for timely and controlled immune system activation and ....Molecular determinants of inflammatory caspase activity upon inflammasomes. Most processes fundamental to life rely on the timely, and regulated, execution of cellular functions. The innate immune system, in which both timing and regulation is paramount, rapidly detects invading microbes and induces a measured and timely antimicrobial response to clear infection. This project aims to address a key knowledge gap by characterising a mechanism for timely and controlled immune system activation and immune cell death via the non-canonical inflammasome. We do not currently understand how some immune pathways are turned on or off. This project will yield fundamental insight into mechanisms of mammalian inflammasome, inflammation and anti-microbial responses.Read moreRead less
How do mechanical cues regulate tissue renewal and tumour progression? Imbalances between cell production and cell death in tissues can be catastrophic, leading to major global health issues such as cancer. This project will use modified mice and protein-protein interaction based techniques to identify how changes in the mechanical properties of tissues regulate the balance between cell production and cell death.
Decoding the spatiotemporal control of DNA replication and repair. DNA replication is the fundamental mechanism of genetic inheritance and essential for all cellular life. This project aims to inform our understanding of how human cells coordinate the DNA replication machinery in time and space to accurately copy the human genome. By applying multiple innovative approaches and employing an interdisciplinary research team, this project is anticipated to generate new knowledge that explains how th ....Decoding the spatiotemporal control of DNA replication and repair. DNA replication is the fundamental mechanism of genetic inheritance and essential for all cellular life. This project aims to inform our understanding of how human cells coordinate the DNA replication machinery in time and space to accurately copy the human genome. By applying multiple innovative approaches and employing an interdisciplinary research team, this project is anticipated to generate new knowledge that explains how the human genome is replicated. This knowledge is expected to generate research publications of high quality and provide economic benefits, such as unlocking new potentially patentable DNA technologies. Read moreRead less