Remyelination of cytokine- or antibody-demyelinated CNS aggregate cultures is inhibited by macrophage supplementation.

Remyelination in CNS aggregate cultures is determined both by macrophage enrichment and the mode of demyelination. Despite the same degree of myelin loss, accumulation of MBP in anti-MOG antibody-demyelinated aggregates overtakes that of controls, while recovery is significantly delayed following IFN-gamma-induced demyelination. In antibody-treated cultures, remyelination was associated with a significant increase in culture supernatant levels of TGF-beta1, FGF-2, and PDGF-AA as well as an induction of TNF-alpha immediately following removal of the demyelinating insult.

Changes in the expression and localization of the paranodal protein Caspr on axons in chronic multiple sclerosis.

The presence of intact paranodal junctions on myelinated axons in the CNS and PNS is crucial for both myelin sheath attachment and saltatory impulse conduction. The axonal glycoprotein contactin-associated protein (Caspr) is expressed in the paranodal region and plays an important role in the creation and maintenance of these adhesive junctions. In the present study, antibodies to Caspr were used to assess the integrity of paranodal junctions on myelinated axons in brain and spinal cord tissue from subjects with longstanding multiple sclerosis, a neurological disorder that affects both myelin and axons.

Oligodendrocyte precursor cells in the demyelinated multiple sclerosis spinal cord.

Lesions appearing in the CNS of patients in the chronic phase of the inflammatory, demyelinating disease multiple sclerosis often fail to repair, resulting in neurological dysfunction. This failure of remyelination appears, in many cases, to be due not to the destruction of the local oligodendrocyte precursor population, a source for new myelin-forming cells, but to the failure of the precursor cells to proliferate and differentiate, at least in brain lesions. The spinal cord is also a prominent site for lesions in multiple sclerosis, but nothing is known about the fate of the oligodendrocyte precursor population in this area.