Analysis Of Functional Role Of The BDNF Precursor In Sensory Neurons
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
Neurotrophins, which are generated from their precursors, are essential for the survival and function of the nervous system. One of neurotrophins, brain derived neurotrophic factor (BDNF), is made in sensory neurons and transported towards nerve terminals. Mutation of a single amino acid in the precursor of BDNF disrupts this transport. This project will examine whether the precursor of BDNF has any function within sensory nerves. We will examine whether the precursor of BDNF gets into the nerve ....Neurotrophins, which are generated from their precursors, are essential for the survival and function of the nervous system. One of neurotrophins, brain derived neurotrophic factor (BDNF), is made in sensory neurons and transported towards nerve terminals. Mutation of a single amino acid in the precursor of BDNF disrupts this transport. This project will examine whether the precursor of BDNF has any function within sensory nerves. We will examine whether the precursor of BDNF gets into the nerve via its receptors and whether it plays any role in the development of pain and maintenance of neuropathic pain after nerve injury. Successful execution of the project will eludicate mechanisms of pain, especially neuropathic pain, and will provide important information to assist in the design of drugs for neurological diseases.Read moreRead less
Synaptic Environment Of Nociceptive Inputs To The Spinal Cord
Funder
National Health and Medical Research Council
Funding Amount
$499,860.00
Summary
Pain affects everyone at some stage in their life. Usually, the pain subsides by itself as the underlying cause is resolved. Thus, the damaged tissue heals or we move away from a potentially injurious stimulus and we become free of pain. However, pain can persist for two main reasons: the underlying cause cannot be treated adequately and the painful stimulus continues; or the pain is maintained long after the primary stimulus has resolved. This ongoing pain often is resistant to alleviation by c ....Pain affects everyone at some stage in their life. Usually, the pain subsides by itself as the underlying cause is resolved. Thus, the damaged tissue heals or we move away from a potentially injurious stimulus and we become free of pain. However, pain can persist for two main reasons: the underlying cause cannot be treated adequately and the painful stimulus continues; or the pain is maintained long after the primary stimulus has resolved. This ongoing pain often is resistant to alleviation by common analgesics. Therefore, a major aim of the pharmaceutical industry is the development of new drugs to target persistent pain. This requires a thorough understanding of how the nerves that detect painful stimuli transmit that information into the spinal cord, and then on to the brain, where we construct a conscious perception of the pain. Various kinds of painful stimuli, such as tissue damage, noxious chemicals, or extreme temperatures, are detected by different types of nerves. Each nerve type can be identified by its characteristic chemical profile. Recently, we found that some of these nerves probably do not transmit their messages to the spinal cord in the way everyone had thought. This means that there must be an alternative way for many types of painful stimuli to be transmitted into the spinal cord. In this project, we will use a sophisticated suite of modern microscopic and electrical recording techniques to find out what this alternative mechanism is. Our central idea is that most types of painful stimuli simultaneously activate two types of sensory nerves. These nerves then connect with specific nerve cells in the spinal cord before painful information is relayed to the brain. Our proposal suggests a new mechanism for understanding how pain can develop from being an acute defensive reaction to a chronic problem. In turn, this should lead to improved strategies for developing and testing new analgesic drugs.Read moreRead less
Mechanisms Of Activation Of Vascular Afferent Nociceptors To The Gut
Funder
National Health and Medical Research Council
Funding Amount
$542,890.00
Summary
We have recently identified the nerve fibres responsible for detecting pain from the gut. In this project we will study exactly how these nerve cells are activated by movements of the gut wall, by changes in blood vessel diameter and how this can be studied most efficiently We will use this information to develop simple preparations in which to study these sensory nerves in animal and adult tissue to test which drugs may affect their excitability and hence be useful in treating gut pain.
Mechanisms Controlling The Excitability Of Corneal Nociceptor Nerve Terminals
Funder
National Health and Medical Research Council
Funding Amount
$364,759.00
Summary
The project uses a new approach that allows, for the first time, electrical activity to be recorded and analysed from the very fine nerve endings of nerves whose activation results in painful sensations. Using this technique the mechanisms by which substances released in damaged and inflamed tissues lead to discharge of action potentials and the sensation of pain will be investigated. In particular the project investigates the role of a population of sodium ion selective pores (channels) that ar ....The project uses a new approach that allows, for the first time, electrical activity to be recorded and analysed from the very fine nerve endings of nerves whose activation results in painful sensations. Using this technique the mechanisms by which substances released in damaged and inflamed tissues lead to discharge of action potentials and the sensation of pain will be investigated. In particular the project investigates the role of a population of sodium ion selective pores (channels) that are uniquely expressed in pain sensing nerves. These channels have been hypothesised to play an important role in determining the behaviour of these nerves. In addition, the project investigates how some substances released in inflamed tissues sensitize pain sensing nerves, causing them to more readily discharge action potentials. This change is the major cause of pain associated with inflammatory diseases such as arthritis. In summary, the proposed project will provide new insight into how pain sensing nerves function. This knowledge is essential for the development of more effective strategies for treating pain resulting from inflamed and damaged tissue.Read moreRead less
Release And Action Of Anterogradely Transported BDNF From Sensory Nerve Terminals In The Spinal Cord
Funder
National Health and Medical Research Council
Funding Amount
$204,674.00
Summary
Neurotrophic factors are powerful agents found in very low amounts throughout the nervous system. Their role is to keep nerves alive, to assist in connecting nerves together and to help maintain the health of nerves. Usually this is achieved by each factor being bound at the end of the long nerve processes and transported back to the nucleus to regulate the metabolism of the nerve. We have discovered one factor, the protein Brain Derived Neurotrophic Factor or BDNF, in one nerve type which is tr ....Neurotrophic factors are powerful agents found in very low amounts throughout the nervous system. Their role is to keep nerves alive, to assist in connecting nerves together and to help maintain the health of nerves. Usually this is achieved by each factor being bound at the end of the long nerve processes and transported back to the nucleus to regulate the metabolism of the nerve. We have discovered one factor, the protein Brain Derived Neurotrophic Factor or BDNF, in one nerve type which is transported in the opposite direction. The project outlined plans to demonstrate the function of this unique transport by showing how BDNF can be released from nerves to act on neighboring cells.Read moreRead less
Involvement Of Adrenergic Receptors In Neuropathic Pain
Funder
National Health and Medical Research Council
Funding Amount
$345,473.00
Summary
After nerve or tissue injury including burns, some people will suffer from a condition called neuropathic pain. This is a condition where chronic pain is endured, often totally unrelated to the initial injury or induced by events that would normally not be painful. Our project will determine whether this abnormal pain response is due to an abnormal communication between the nerves that carry pain signals (sensory nerves) and nerves that form part of the sympathetic nervous system, which is part ....After nerve or tissue injury including burns, some people will suffer from a condition called neuropathic pain. This is a condition where chronic pain is endured, often totally unrelated to the initial injury or induced by events that would normally not be painful. Our project will determine whether this abnormal pain response is due to an abnormal communication between the nerves that carry pain signals (sensory nerves) and nerves that form part of the sympathetic nervous system, which is part of autonomic (or involuntary) nervous system. We believe that this abnormal communication is due to an increase in the expression of special receptors called adrenergic receptors, on the sensory nerves. Our project will look at these receptors in the skin of animals that have had pain conditions induced, and also in skin samples from patients who suffer from neuropathic pain that can be classified as sensitive to sympathetic stimulation. By better understanding how neuropathic pain is derived, we can open the door to novel treatment approaches in these difficult to treat conditions.Read moreRead less
Pain associated with bone cancer, fractures, osteoporosis, osteoarthritis, osteomyelitis (and other bone infections) often presents the clinician with a difficult problem of treatment as the pain can be debilitating and intractable. Most current treatments for bone pain are based on the assumption that the neural mechanisms underlying pain from different sources, whether it be visceral, cutaneous, muscular or bony, are the same, and can therefore be targeted with similar therapies. However, litt ....Pain associated with bone cancer, fractures, osteoporosis, osteoarthritis, osteomyelitis (and other bone infections) often presents the clinician with a difficult problem of treatment as the pain can be debilitating and intractable. Most current treatments for bone pain are based on the assumption that the neural mechanisms underlying pain from different sources, whether it be visceral, cutaneous, muscular or bony, are the same, and can therefore be targeted with similar therapies. However, little is known of the response properties, structure and organization of receptors and neurones responding to, and relaying information about painful stimuli, from bone to the brain. The objectives of this project are to reveal the fundamental neural mechanisms that account for the perception of bone pain. The project will test a series of specific hypotheses in order to explain why bone pain is often poorly controlled by standard pharmacological or surgical approaches. It is expected that this study will reveal the neural mechanisms responsible for relaying sensory information, in particular, that regarding painful stimuli, from bone to the brain. It will lead to a better understanding of the mechanisms of bone pain and form the template for future studies of its treatment.Read moreRead less