Yeast stress, aging, and death

Abstract

[Excerpt] Until about 15 years ago, programmed cell death (PCD), at that time mainly defined as apoptosis, was believed to be a feature occurring only in metazoans to ensure proper embryonic development, cell differentiation, and regulation of the immune response. However, the discovery that single-celled organisms, such as yeast, also undergo PCD challenged this idea. Meanwhile, several key regulators and cell death executers were shown to be highly conserved in yeast and other unicellular organisms, and it is now generally accepted that at least part of the molecular cell death machinery originated early in evolution.

Approximately 31% of the yeast genes have a mammalian homologue, and an additional 30% of yeast genes show domain similarity. This, combined with the ease of manipulation of yeast and the elegance of yeast genetics, has turned this lower eukaryote into an ideal system to study more complex phenomena that occur in metazoan cells, including stress responses, mechanisms governing life span and cell death, and processes contributing to aging or human diseases like cancers and neurodegenerative disorders.

In this special issue, we collected both original research and review articles, which combined give a nice overview on the current status of the field. (...)