Mechanisms and rationales of SAM homeostasis

S-Adenosylmethionine (SAM) is the primary methyl donor for numerous cellular methylation reactions. Its central role in methylation and involvement with many pathways link its availability to the regulation of cellular processes, the dysregulation of which can contribute to disease states, such as cancer or neurodegeneration. Emerging evidence indicates that intracellular SAM levels are maintained within an optimal range by a variety of homeostatic mechanisms. This suggests that the need to maintain SAM homeostasis represents a significant evolutionary pressure across all kingdoms of life. Here, we review how SAM controls cellular functions at the molecular level and discuss strategies to maintain SAM homeostasis. We propose that SAM exerts a broad and underappreciated influence in cellular regulation that remains to be fully elucidated.