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.
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.
The Role Of Intracellular Protein Trafficking In Alzheimer's Disease
Funder
National Health and Medical Research Council
Summary
Alzheimer’s disease (AD) is a progressive neurological disorder and is the most common cause of dementia. The development of therapies must be preceded by a thorough understanding of the molecular processes that underpin the disease. In this project we will examine the interactions between the Alzheimer’s precursor protein (APP) and the molecular machinery that controls its intracellular localization and breakdown to the toxic A? peptide that is central to disease pathology.
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.
I am a cell biologist investigating the means by which intracellular compartmentalization of signalling proteins determines signalling outcomes and cell fate. I focus particularly on signals that regulate immune function and cancer progression.
Characterisation of membrane protein ubiquitination by MARCH ligases. The goal of the project is to understand how a family of enzymes called MARCHs regulate expression and localisation of immunoregulatory receptors within cells by post-translational addition of a small protein tag called Ubiquitin. The aims are to decipher the ubiquitination patterns produced by the MARCHs; identify the E2 ligases used by the MARCHs to produce distinct Ub codes; and apply a new proteomic pipeline to identify no ....Characterisation of membrane protein ubiquitination by MARCH ligases. The goal of the project is to understand how a family of enzymes called MARCHs regulate expression and localisation of immunoregulatory receptors within cells by post-translational addition of a small protein tag called Ubiquitin. The aims are to decipher the ubiquitination patterns produced by the MARCHs; identify the E2 ligases used by the MARCHs to produce distinct Ub codes; and apply a new proteomic pipeline to identify novel representative MARCH substrates in mice deficient in six different MARCHs. It is anticipated the project will reveal novel insights into a fundamental cell biological process of major significance for regulation of protein expression and trafficking in cells of the immune system.Read moreRead less
Organising Intracellular Compartments by Formation of Transport Carriers. This project aims to investigate the cellular components which generate carriers that transport material between compartments within the cell. The process of sorting proteins and sending them to the right place is a fundamental mechanism critical to understand how individual proteins function as the move around within cells. The generated knowledge about how cells organise themselves through the movement of proteins betwee ....Organising Intracellular Compartments by Formation of Transport Carriers. This project aims to investigate the cellular components which generate carriers that transport material between compartments within the cell. The process of sorting proteins and sending them to the right place is a fundamental mechanism critical to understand how individual proteins function as the move around within cells. The generated knowledge about how cells organise themselves through the movement of proteins between endosomal intracellular compartments will provide significant benefits by enhancing our capacity to understand this conserved cellular pathway which ensures the integrity of all cellular processes including signalling, communication, homeostasis and development.Read moreRead less
Defining the membrane protein cargo transported by Retromer. This project aims to define the role of Retromer, a protein machine that directs the organisation and movement of proteins within the cell. The function of proteins is dependent on how they travel through the various regions or compartments within the cell. One intracellular compartment, termed endosomes, is central to this dynamic process. Intracellular transport of biomolecules through the endosomal organelle is critical for normal c ....Defining the membrane protein cargo transported by Retromer. This project aims to define the role of Retromer, a protein machine that directs the organisation and movement of proteins within the cell. The function of proteins is dependent on how they travel through the various regions or compartments within the cell. One intracellular compartment, termed endosomes, is central to this dynamic process. Intracellular transport of biomolecules through the endosomal organelle is critical for normal cellular processes such as signalling and development. Endosomal transport occurs within membrane domains and membrane vesicular carriers formed by Retromer. This project aims to define the transmembrane proteins sorted by the distinct retromer complexes that form within the cell and the sorting signals essential for their correct trafficking and localisation.Read moreRead less
Regulated Intracellular Trafficking Of A Potassium Channel In Gastric Acid-secreting Cells
Funder
National Health and Medical Research Council
Funding Amount
$609,511.00
Summary
The cells of our bodies possess proteins that transport salts and other chemicals. These transport proteins must be correctly positioned in cells, a process that is poorly understood. If transport proteins are not positioned properly then diseases such as heart attack or diabetes may occur. Influencing the position of transport proteins may also be used to treat disease. This work investigates how a transport protein that shuttles potassium is correctly positioned in cells of the stomach.