Neogenin: A Regulator Of Neuronal Differentiation And Migration In The Adult Brain
Funder
National Health and Medical Research Council
Funding Amount
$334,053.00
Summary
Conditions such as Alzheimer�s and Huntington�s diseases, as well as stroke, represent a major burden of disease in Australia. One goal of modern neurobiology is to harness the brain's ability to make new neurons so that we can replace those damaged by disease or injury. We will investigate how an important developmental molecule, Neogenin, promotes the production of new neurons in the adult brain. A second goal is to show that Neogenin can be activated to promote the repair of the damaged brain ....Conditions such as Alzheimer�s and Huntington�s diseases, as well as stroke, represent a major burden of disease in Australia. One goal of modern neurobiology is to harness the brain's ability to make new neurons so that we can replace those damaged by disease or injury. We will investigate how an important developmental molecule, Neogenin, promotes the production of new neurons in the adult brain. A second goal is to show that Neogenin can be activated to promote the repair of the damaged brain.Read moreRead less
Neogenin: A Molecular Determinant Of Neural Progenitor Polarity And Function
Funder
National Health and Medical Research Council
Funding Amount
$569,296.00
Summary
The neuroepithelium (NEP) contains the embryonic neural stem cells essential for the production of all neurons in the adult brain. Failure in NEP function leads to devastating neural tube defects and syndromes such as epilepsy, schizophrenia, and mental retardation. This project will identify the molecular mechanisms regulating NEP stem cell activity and the birth of new neurons in the embryonic neocortex.
Defining Role Of Inflammatory Signals In Enhancing Motoneuron Regeneration
Funder
National Health and Medical Research Council
Funding Amount
$546,688.00
Summary
Spinal cord injury is a devastating event that has a life-long impact on the patient’s life with wide-reaching social and economic effects. In this proposal we examine how inflammatory signals boost neuronal regeneration after injury. Furthermore, we define how new neurons are able to integrate into existing spinal circuitry. Out work provides critical insight and hold keys to unlocking strategies for future restorative therapies in the brain or spinal cord.
Regulation Of Neural Progenitor Cell Self-renewal By The RNA-binding Protein ZFP36L1 During Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$345,401.00
Summary
The timely differentiation of neural stem cells is critical during development, and the unrestrained proliferation of neural stem cells in the adult can lead to deadly brain cancers such as glioma. At present our understanding of the key molecules that regulate neural stem cell behaviour during these processes remains limited. In this proposal we will investigate the molecular determinants underpinning neural stem cell biology, both within the developing brain, and within glioma.
Manipulation Of Enteric Neural Stem Cells For Cell Therapy To Treat Enteric Neuropathies
Funder
National Health and Medical Research Council
Funding Amount
$611,438.00
Summary
Cell therapy offers great promise for the treatment of motility disorders due to defects in the nerve cells in the bowel. Patient-derived cells are likely to be the best source of cells, however, patient-derived cells will require manipulation because they are likely to be defective. We will identify manipulations of stem/progenitor cells that increase their efficacy for cell transplantation.
Understanding The Embryonic Origins Of Cortical Malformations
Funder
National Health and Medical Research Council
Funding Amount
$815,228.00
Summary
Cortical malformation leads to mental retardation and epilepsy. Identification of the aberrant developmental processes contributing to these devastating syndromes is essential for accurate clinical assessment and development of novel therapeutics. Here we investigate a developmentally important receptor, Neogenin, which when mutated, leads to cortical malformations. Determining how Neogenin functions is expected to uncover new signaling pathways contributing to these malformations.
Dissecting The Role Of RYK In Cortical Neuron Specification And Schizophrenia
Funder
National Health and Medical Research Council
Funding Amount
$1,039,028.00
Summary
Correct production of neuronal subtypes within the neocortex is essential for coordinated brain activity and higher-order functions. Understanding how newborn neurons decide which subtype to adopt is critical as incorrect neuron identity has profound consequences for neocortical function and is associated with schizophrenia and mental disability. We have recently linked one molecule, RYK, to schizophrenia. In this project we will explore how Ryk influences cortical neuron fate.
Aberrant Ependymal Development And The Formation Of Hydrocephalus
Funder
National Health and Medical Research Council
Funding Amount
$660,005.00
Summary
Foetal hydrocephalus is a prevalent neurodevelopmental condition associated with severe intellectual impairment. Breakdown of the ependymal cell layer, which acts as a barrier between brain tissue and the ventricular space, is a major cause of hydrocephalus. Despite the importance of these cells, we have little understanding of the molecular mechanisms that regulate their production. This project will identify critical signalling pathways governing the establishment of the ependymal layer.
Building An Immunocompetent Alzheimer’s Disease Brain-on-a-chip
Funder
National Health and Medical Research Council
Funding Amount
$458,937.00
Summary
New human cell culture models of Alzheimer's disease are urgently needed to help translate drugs into successful patient outcomes. In this proposal we will develop an Alzheimer's disease brain-on-a-chip that contains the major human brain cell types and neuropathological features of the Alzheimer's. We will demonstrate the applicability of the model for identifying new Alzheimer's disease drugs and diagnostics and show that the model can be readily adopted by Australian Alzheimer's researchers.
Characterisation Of Eurl, A Novel Gene Implicated In The Etiology Of Abnormal Brain Development And Intellectual Disability
Funder
National Health and Medical Research Council
Funding Amount
$597,541.00
Summary
Intellectual disability affects around one per cent of Australians, and can arise from genetic abnormalities during fetal life, such as through abnormal regulation of gene expression. We have identified a novel gene, known as eurl, which controls brain assembly as well as the ability of neurons to form functional connections within the brain. We will investigate how this novel gene controls brain development, and characterise eurl as a potential therapeutic target for learning and memory.