Role Of Exported Proteins In Malaria Parasite Development In The Liver
Funder
National Health and Medical Research Council
Funding Amount
$520,613.00
Summary
Each year over 250 million people contract malaria and over 1 million die. The key to the malaria parasite’s success is the ability to live inside host cells, including hepatocytes and erythrocytes. Here, we aim to determine how the malaria parasite lives within hepatocytes, to engineer mutant parasites that can no longer do so and to assess whether mutant parasites confer protection against future malaria. Our program will use the most virulent human parasite P. falciparum and the rodent parasi ....Each year over 250 million people contract malaria and over 1 million die. The key to the malaria parasite’s success is the ability to live inside host cells, including hepatocytes and erythrocytes. Here, we aim to determine how the malaria parasite lives within hepatocytes, to engineer mutant parasites that can no longer do so and to assess whether mutant parasites confer protection against future malaria. Our program will use the most virulent human parasite P. falciparum and the rodent parasite P. berghei.Read moreRead less
Many bacterial pathogens invade host cells to replicate and avoid detection by the host. These pathogens interact with the host and by manipulating it to its benefit they establish an environment to survive in. A detailed understanding of the targeted hosts pathways and which are essential for pathogen survival is knowledge that will allow future development of therapeutic intervention strategies.
Function And Inhibition Of Plasmepsin V In Targeting Malaria Virulence Proteins Into Human Erythrocytes
Funder
National Health and Medical Research Council
Funding Amount
$407,845.00
Summary
Malaria parasites dramatically renovate infected erythrocytes to survive and evade the host immune system by delivering hundreds of exported parasite proteins into the cell. The parasite protease Plasmepsin V is essential for protein export. We aim to develop potent inhibitors of this protease in the hope of blocking its function and killing the parasite. We also aim to discover the components of the trafficking pathway after cleavage by Plasmepsin V that sorts virulence proteins to the host cel ....Malaria parasites dramatically renovate infected erythrocytes to survive and evade the host immune system by delivering hundreds of exported parasite proteins into the cell. The parasite protease Plasmepsin V is essential for protein export. We aim to develop potent inhibitors of this protease in the hope of blocking its function and killing the parasite. We also aim to discover the components of the trafficking pathway after cleavage by Plasmepsin V that sorts virulence proteins to the host cell.Read moreRead less
Understanding the basic biology of cells will allow us to pinpoint key mechanisms and molecules that underpin multiple diseases and are targets for treatments. The broad aims of this research program include the development of new therapies for chronic inflammatory diseases, understanding how proteins are sorted and trafficked inside cells in processes that are essential to immunity and cancer biology, and identifying new intracellular targets to block bacterial invasion and infectious diseases.
Unraveling The Dynamic Munc18a:Syntaxin1 Interaction Required For Neurotransmission
Funder
National Health and Medical Research Council
Funding Amount
$674,591.00
Summary
Membrane trafficking, the topic of the 2013 Nobel prize in Medicine, is required for delivery of cellular cargo. This research will investigate the interactions and structures of proteins from the neuronal membrane trafficking system. Understanding how this system operates will expand our knowledge of processes fundamental to learning and memory and may ultimately lead to development of selective therapeutics for treating a range of diseases.
Endosomal Sorting Of Amyloid Precursor Protein In Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$858,643.00
Summary
Alzheimer's Disease is a progressive neurological disorder and is the most common cause of dementia. Effective treatments are desperately needed, but none are currently available. The toxic amyloid peptide A? is central to disease pathology and is derived from breakdown of the Alzheimer’s amyloid precursor protein (APP). In this project we will examine the interactions between APP and the molecular machinery that controls its location in the cell and subsequent degradation.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100089
Funder
Australian Research Council
Funding Amount
$700,000.00
Summary
Super-resolution fluorescence microscopy. The prestigious journal Nature Methods named super-resolution fluorescent microscopy as the Method of the Year 2008. This recognition is justified because fluorescent imaging on the molecular scale will revolutionise biological sciences. It will literally change the way we see the smallest building blocks of life and this allows researchers to identify the function of proteins and lipids in health and disease. This breakthrough technology is currently no ....Super-resolution fluorescence microscopy. The prestigious journal Nature Methods named super-resolution fluorescent microscopy as the Method of the Year 2008. This recognition is justified because fluorescent imaging on the molecular scale will revolutionise biological sciences. It will literally change the way we see the smallest building blocks of life and this allows researchers to identify the function of proteins and lipids in health and disease. This breakthrough technology is currently not available to researchers in Australia. Super-resolution fluorescence microscopy would extend Australia's leading position in the fundamental biological sciences, bio- and nano-technologies as well as imaging and microscopy.Read moreRead less
Mitochondrial biogenesis in mammalian cells. This project aims to understand the inner workings of a molecular machine involved in mitochondrial protein biogenesis. Mitochondria are essential organelles that provide the bulk of cellular energy. Genesis of the organelle relies on the coordinated synthesis and transport of both proteins and lipids that make up the organelle. This project plans to define the architecture of the molecular machine, outline how its components function, and explore the ....Mitochondrial biogenesis in mammalian cells. This project aims to understand the inner workings of a molecular machine involved in mitochondrial protein biogenesis. Mitochondria are essential organelles that provide the bulk of cellular energy. Genesis of the organelle relies on the coordinated synthesis and transport of both proteins and lipids that make up the organelle. This project plans to define the architecture of the molecular machine, outline how its components function, and explore the relationship between proteins and lipids in mitochondrial genesis. These results are expected to provide knowledge about how mitochondrial creation is regulated.Read moreRead less
Retromer directs membrane protein trafficking within the endosome. The exposure of proteins to the extracellular environment is dependent on how the travel through the various regions of the cell. The work will lead to a richer understanding of how this process is regulated by protein complexes. These complexes act within cells to drive the formation of membrane transport tubules containing cargo molecules.
Making muscle: molecular dissection of membrane domain formation. For a muscle to contract efficiently in response to an electrical signal it requires the formation of an extensive system of hollow membranous tubules through which the signal can be propagated. This proposal addresses the molecular mechanisms involved in the formation of this tubule system in skeletal muscle. This project will develop cell biology in a whole organism rather than a cell culture system and provide a new framework f ....Making muscle: molecular dissection of membrane domain formation. For a muscle to contract efficiently in response to an electrical signal it requires the formation of an extensive system of hollow membranous tubules through which the signal can be propagated. This proposal addresses the molecular mechanisms involved in the formation of this tubule system in skeletal muscle. This project will develop cell biology in a whole organism rather than a cell culture system and provide a new framework for Australian and international cell biologists. It will generate new knowledge, train young Australian scientists, help build international collaborative networks and engage the public outside the research community.Read moreRead less