Experimental strategies to promote axonal regeneration after traumatic central nervous system injury

Abstract

A damage or pathological process that destroys the continuity of axons in the mature central nervous system (CNS) has devastating consequences and produces lasting functional deficits. One of the major challenges in this field is to stimulate the regrowth of severed axons and reconstruction of pathways. Recent progress in molecular and cell biology has resulted in an explosion of knowledge on factors in the adult CNS being nonsupportive or even actively inhibitory to axonal regrowth. The new findings have a strong impact on the development of new therapeutic concepts directed to stimulate axonal regeneration. They give rise to cautious optimism, showing that under some circumstances repair of a CNS lesion is possible. In this review the authors summarize the current knowledge on the factors and mechanisms involved in regeneration failure and provide an overview of the current therapeutic approaches that may enable effective CNS regeneration in the future.