Membrane Trafficking Of BACE1 And Amyloid Precursor Protein In Primary Neurons And The Production Of Abeta Amyloid Peptides
Funder
National Health and Medical Research Council
Funding Amount
$705,984.00
Summary
The development of Alzheimer’s disease results from the generation of toxic peptides by the cleavage of a membrane protein by an enzyme called BACE. A key feature of which regulates the generation of toxic peptides involves the movement of BACE between compartments in the cell by a process known as membrane transport. Our recent work has identified the itinerary of BACE in the cell. The studies here will reveal the molecular machinery of the BACE pathway in neurons. This fundamental informati
Membrane Trafficking Of The ?-secretase, BACE1, And The Generation Of Alzheimer's Disease A? Amyloid Peptides
Funder
National Health and Medical Research Council
Funding Amount
$465,704.00
Summary
Alzheimer’s disease results from the production of toxic neuropeptides by the action of an enzyme called BACE. The generation of toxic peptides requires the movement or trafficking of BACE between different cell compartments. This research will reveal the molecular machinery of the BACE transport pathway. This new knowledge will provide a strategy to develop drugs to inhibit BACE activity and the production of the toxic peptide, which would be of significant benefit to patients and families.
Investigating The Role Of Mitochondrial Tom40 In Regulated Cell Death And Neurodegeneration.
Funder
National Health and Medical Research Council
Funding Amount
$972,660.00
Summary
Mitochondria are internal compartments of cells, separated by bounding membranes. They are crucial to the life and death of cells, and to quality of human life and ageing. Diseases of the nervous system can be caused when mitochondria do not function properly. Our aim is to discover why a protein complex called TOM embedded in the bounding membrane is linked to dementia in some people. This will also lead to a better general understanding of the connection between mitochondria and human health.
This research program aims to gain a detailed understanding of the organisation of the cell surface at the molecular level. The cell surface is organised into domains with distinct functions. Visualisation of these domains, identifying their important components, and understanding how they form and function will have huge importance for therapeutic strategies aimed at combatting the changes associated with cell transformation in cancer and in other human diseases such as muscular dystrophy.
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.
Peptide Toxins From Animal Venoms Specifically Targeting Voltage-gated Sodium Channels As Novel Analgesics And Pesticides
Funder
National Health and Medical Research Council
Funding Amount
$316,449.00
Summary
This project aims to understand how certain animal toxins that cause analgesic and pesticidal effects in model animals interact with biological ion channels in atomistic detail using computational techniques. By understanding the detailed molecular interactions involved in the binding of the toxins to channels, toxin variants with improved potency and specificity may be designed as promising templates for novel analgesics and pesticides.
Translating Membrane Proteins Into Therapeutics; From Bedside To Bench
Funder
National Health and Medical Research Council
Funding Amount
$9,466,000.00
Summary
Membrane proteins are the principal gatekeepers for control of cellular response, with G protein-coupled receptors (GPCRs) the largest family of cell surface proteins. These proteins are critically important for pathophysiological control, and are a major target for drug discovery. Nonetheless drug attrition due to lack of clinical efficacy remains high. We are combining cell biology, clinical management and drug discovery science to enable more effective therapeutic translation.
Bivalent Analgesics: Rational Design Of Selective Ion Channel Inhibitors With Optimised Mechanism Of Action
Funder
National Health and Medical Research Council
Funding Amount
$904,890.00
Summary
The so-called 'opioid crisis' leading to the death of millions of people worldwide has highlighted the urgent need for development of novel safe and efficacious pain killers without addictive potential. This proposal aims to rationally design novel analgesic compounds by linking different classes of ion channel modulators with desirable properties.
The Molecular Basis For Manganese Uptake By Pathogenic Bacteria.
Funder
National Health and Medical Research Council
Funding Amount
$632,949.00
Summary
Bacterial antimicrobial resistance is an increasing threat to human health. At this point in time, there is an urgent, fundamental need for the development of new antimicrobial strategies. Bacterial infection involves a constant tug-of-war between the pathogen and the human host for the essential nutrients of life, including trace metal nutrients such as Mn. This project seeks to understand the machinery for Mn uptake by pathogenic bacteria as a target for novel antibacterial design.