Prevention Of Neuron Death By Targeted Gene Delivery
Funder
National Health and Medical Research Council
Funding Amount
$195,691.00
Summary
Neurotrophic factors are potent proteins that have the ability to keep nerves alive. They have therefore been used in clinical trials to treat motor neuron disease, but without success. A major reason for this appears to be the way in which the neurotrophic factors are delivered. Direct injections into the blood stream are a convenient way of getting these large proteins into the bloodstream, but this is not their normal mode of action. These proteins are normally provided by cells adjacent to t ....Neurotrophic factors are potent proteins that have the ability to keep nerves alive. They have therefore been used in clinical trials to treat motor neuron disease, but without success. A major reason for this appears to be the way in which the neurotrophic factors are delivered. Direct injections into the blood stream are a convenient way of getting these large proteins into the bloodstream, but this is not their normal mode of action. These proteins are normally provided by cells adjacent to the nerves. We have designed a system that more closely resembles this physiological mode of action which involves the delivery of neurotrophic factor genes, via the bloodstream, to the affected nerves. Once inside the nerves the factors are produced on site and, following their secretion, act locally and directly on the injured nerves.Read moreRead less
Adult Stem Cell Transplantation Therapy In Parkinsonian Rat
Funder
National Health and Medical Research Council
Funding Amount
$526,517.00
Summary
Parkinson's disease is a progressive neurodegenerative disorder characterised by slowness of movement, muscle rigidity and tremor. It affects about 1% of the population at age 50 and 10% over age 80. Symptoms are caused by low levels of dopamine, a chemical in the brain that helps control movement. The symptoms increase in severity with time, leading to increasing difficulty in walking, speaking, writing, swallowing and sleeping and increasing the incidence of broken bones from falls. Parkinson' ....Parkinson's disease is a progressive neurodegenerative disorder characterised by slowness of movement, muscle rigidity and tremor. It affects about 1% of the population at age 50 and 10% over age 80. Symptoms are caused by low levels of dopamine, a chemical in the brain that helps control movement. The symptoms increase in severity with time, leading to increasing difficulty in walking, speaking, writing, swallowing and sleeping and increasing the incidence of broken bones from falls. Parkinson's disease is incurable but the symptoms can be controlled with medications that replace the lost dopamine. Medications become less effective as the disease progresses and there is need for new therapies. Worldwide the hunt is on to discover new cell transplantation therapies to replace the dopamine in the brain and to prevent degeneration of the still surviving dopamine cells. Although embryonic stem cells might be useful for such therapies, they raise the risk of tumour formation from the transplanted cells. This aim of this proposal is to test, in parkinsonian rat, a therapy in which adult stem cells from the patient are transplanted into their own brain to provide a new source of dopamine. We have discovered a new and unique source of adult stem cells, the sense organ of smell in the nose. Small samples can be taken through the nose and we can grow these adult stem cells from people of all ages, including people with Parkinson's disease. As adult stem cells they avoid the ethical issues associated with embryonic stem cell transplantation and as cells from the same patient, they are not rejected by the immune system. This is being tested in principle by a world-first clinical trial in which we are taking another cell type from the nose, growing it in the lab, and transplanting into the injured spinal cord in a search for a cure for paraplegia. This project takes the first steps to developing a new treatment for Parkinson's disease using a patient's own adult stem cells.Read moreRead less