Source: Peninsula College of Medicine and Dentistry
Date: 30 May 2012
Summary:
Researchers from the Peninsula College of Medicine and Dentistry, University of Exeter, in collaboration with colleagues from Rutgers University, Newark and University College London, have furthered understanding of the mechanism by which the cells that insulate the nerve cells in the peripheral nervous system, Schwann cells, protect and repair damage caused by trauma and disease.
The findings of the study, published on-line by the Journal of Neuroscience and supported by the Wellcome Trust, are exciting in that they point to future therapies for the repair and improvement of damage to the peripheral nervous system.
The research team believes that its work to understand the ability of Schwann cells to revert back to an immature state and stimulate repair will lead to therapies to improve damage from severe trauma and break the cycle of damage caused by CMT. They also believe that there may also be potential to improve repair in cases of diabetic neuropathy.
They have identified a DNA binding protein, cJun, as a key player in the plasticity that allows a Schwann cell to revert back to the active repair state. cJun may be activated by a number of pathways that convey signals from the surface of the Schwann cell to the nucleus. One such pathway, the p38 Mitogen Activated Protein Kinase Pathway, appears to play a vital role: it is activated after PNS damage and may promote the process of repair; conversely it may be abnormally activated in demyelinating diseases such as Charcot-Marie-Tooth (CMT) disease.
