The molecular circadian clock: From fundamental mechanisms to therapeutic promise in neurological disorders.

Circadian rhythms are intrinsic biological processes in all forms of life, governed by a molecular clock, organising physiological and behavioural cycles to align with a 24-hour light-dark cycle. The disruption of these rhythms has been linked to a plethora of neurological conditions and impacting cognitive and metabolic functions. This review offers a clear overview of the genetic and molecular mechanisms that govern the circadian clock. It focuses on the core clock feedback loops, the pathways involved and how these mechanisms are regulated. We explore how clocks in peripheral tissues are synchronised to the suprachiasmatic nucleus and how this is achieved through neuronal and humoral pathways. Additionally, we discuss how dysregulation in circadian rhythms contribute to neurological conditions and potential therapeutic treatments targeting circadian mechanisms. Understanding the mechanisms of circadian dysregulation provides insight into disease pathology and potential therapies. Interventions targeting circadian mechanisms, such as gene and drug delivery systems, show promise to restore rhythms and mitigate neurological symptoms. This review collates current knowledge on circadian biology and its applications addressing neurological dysfunctions, providing a foundation for potential chronotherapeutic interventions.