Apoptosis and autophagy in the pathogenesis of acute ischemic stroke (review of literature).

Abstract

According to the World Health Organization, about 5 million people die every year from cerebrovascular disease. At the same time, the proportion of cerebral infarction, or ischemic stroke (IS), among forms of acute cerebrovascular accident reaches 80-85%. Despite the active study of biochemical and morphological changes leading to acute cerebrovascular ischemia, the problem of early diagnosis, prevention, as well as predicting the outcome of this disease is still relevant. There is no doubt that the interruption of the ischemic cascade at earlier stages can be accompanied by a greater effect of treatment. A timely and effective pharmacological intervention requires a clear understanding of the pathochemical and biological processes underlying acute ischemia at the molecular level. High mortality and disability accompanying acute IS, dictate the need to create new diagnostic and prognosis algorithms both in the acute period of IS, and in the recovery period. According to some authors, elucidation of the pathways that underlie the pathogenetic mechanisms acting in the penumbra are of great clinical interest for the development of new diagnostic and therapeutic strategies. Studying the mechanisms of apoptosis and autophagy of neurons in the dynamics of the acute period of IS, modulation of the autophagy process in the penumbra zone can contribute to the development of new methods for the diagnosis and treatment of acute IS. The review presents the results of the latest experimental studies on the role of apoptosis and autophagy in the development of acute cerebral ischemia and attempts to modulate these processes in order to influence the ischemic cascade. The review was based on sources from such international and national data bases as Scopus, Web of Science, Springer, RINC.