Molecular pathways in cerebral ischemia: cues to novel therapeutic strategies

Stroke is one of the leading causes of death and severe disability in most industrialized countries. Despite the extensive research efforts of both academic and industrial laboratories during the last few decades, no changes have been brought about by the design of neuroprotective therapies. The progressive decrease of stroke-induced death and disability is entirely attributable to improvements in the identification and reduction of risk factors. Over the past few years, experimental research has led to the emergence of a wealth of information regarding the complex and interrelated processes of neuronal degeneration and death triggered by ischemia. This unprecedented insight has led to new theories on the mechanisms of ischemic damage, and has suggested new targets and strategies for therapeutic intervention designed to reduce the clinical consequences of stroke. Among current developments, three strategies seem particularly appealing—namely, the limitation of initial or secondary neuronal death by inhibition of apoptotic mechanisms, the enhancement of the endogenous capacity of nervous structures to restore lost function, and the replacement of lost cells by transplantation therapy.