Posts tagged nerve fibres
Articles and news from the latest research reports.
Study Points to Role of Nervous System in Arthritis
Arthritis is a debilitating disorder affecting one in 10 Canadians, with pain caused by inflammation and damage to joints.
Yet the condition is poorly managed in most patients, since adequate treatments are lacking – and the therapies that do exist to ease arthritis pain often cause serious side effects, particularly when used long-term. Any hope for developing more-effective treatments for arthritis relies on understanding the processes driving this condition.
A new study in the Journal of Neuroscience by researchers at McGill University adds to a growing body of evidence that the nervous system and nerve-growth factor (NGF) play a major role in arthritis. The findings also support the idea that reducing elevated levels of NGF – a protein that promotes the growth and survival of nerves, but also causes pain — may be an important strategy for developing treatment of arthritis pain.
Using an approach established by arthritis researchers elsewhere, the McGill scientists examined inflammatory arthritis in the ankle joint of rats. In particular, they investigated changes in the nerves and tissues around the arthritic joint, by using specific markers to label the different types of nerve fibres and allow them to be visualized with a fluorescence microscope.
Normally, sympathetic nerve fibres regulate blood flow in blood vessels. Following the onset of arthritis in the rats, however, these fibres began to sprout into the inflamed skin over the joint and wrap around the pain-sensing nerve fibres instead. More sympathetic fibres were detected in the arthritic joint tissues, as well.
The results also showed a higher level in the inflamed skin of NGF – mirroring the findings of human studies that have shown considerable increases in NGF levels in arthritis patients.
To investigate the role of these abnormal sympathetic fibres, the McGill researchers used an agent to block the fibres’ function. They found that this reduced pain-related behaviour in the animals.
“Our findings reinforce the idea that there is a neuropathic component to arthritis, and that sympathetic nerve fibres play a role in increasing the pain,” said McGill doctoral student Geraldine Longo, who co-authored the paper with Prof. Afredo Ribeiro-da-Silva and postdoctoral fellow Maria Osikowicz.
“We are currently using drugs to prevent the production of elevated levels of NGF in arthritic rats; we hope that our research will serve as a basis for the development of a new treatment for arthritis in the clinic”, said Prof. Ribeiro-da-Silva.
Brain tumours and peripheral neuropathy
Researchers from Plymouth University Peninsula Schools of Medicine and Dentistry are part of an international team which has for the first time identified the role of a tumour suppressor in peripheral neuropathy in those suffering multiple tumours of the brain and nervous system.
One in 25,000 people worldwide is affected by neurofibromatosis type 2 (NF2), a condition where the loss of a tumour suppressor called Merlin results in multiple tumours in the brain and nervous system.
Sufferers may experience 20 to 30 tumours at any one time and such numbers often lead to hearing loss, disability and eventually death. Those with NF2 may also experience peripheral neuropathy, which is when the nerves carrying messages to and from the brain and spinal column to the rest of the body do not work.
Peripheral neuropathy leads to further complications for NF2 sufferers, such as pain and numbness, muscle problems, problems with body organs and other symptoms of nerve damage, such as bladder problems, uncontrollable sweating and sexual dysfunction.
Researchers from Plymouth University Peninsula Schools of Medicine and Dentistry are part of an international research team which has for the first time identified the role of a tumour suppressor called Merlin in regulating the integrity of axons. Axons are nerve fibres which transmit information around the body and it is these are that damaged in peripheral neuropathy.
The research team showed that Merlin regulates a protein called neurofilament which supplies structural support for the axon. A better understanding of this mechanism could lead to effective drug therapies to alleviate the symptoms of peripheral neuropathy in patients with NF2.
The results of the research is published this week in Nature Neuroscience.
(Source: plymouth.ac.uk)