For patients with multiple sclerosis (MS), current therapies can be effective, but have little impact in promoting tissue growth. Recent research by Vittorio Gallo, director of the Center for Neuroscience Research at Children's National Health System, has found a "potentially novel therapeutic target" to reduce the rate of deterioration and to promote growth of brain cells damaged by MS.
The brain produces new cells to repair damage from MS, but in most cases unknown factors limit this process. For MS patients, brain damage results in a destruction of the myelin sheath, leading to problems transmitting signals throughout the brain.
In her research appearing in Neuron, Gallo, reported identifying a small protein that can be targeted to promote repair of damaged tissue, with therapeutic potential. The molecule, Endothelin-1 (ET-1), is shown to inhibit repair of myelin. Myelin damage is a hallmark characteristic of MS. The study demonstrates that blocking ET-1 pharmacologically or using a genetic approach could promote myelin repair.
Repair of damaged MS plaques is carried out by endogenous oliogdendrocytle progenitor cells (OPCs) in a process called remyelination. Current MS therapy can be effective in patients with relapsing and remitting MS, but "have little impact in promoting remyelination in tissue," Gallo said. Several studies have shown that OPCs fail to differentiate in chronic MS lesions.
Targeting ET-1 is a process that involves identifying signals in cells that could promote lesion repair. "We demonstrate that ET-1 drastically reduces the rate of remyelination," Gallo said. As such, ET-1 is "potentially a therapeutic target to promote lesion repair in deymyelinated tissue."
It could play a "crucial role in preventing normal myelination in MS and in other demyelinating diseases," Gallo said.