TIMELESS mutation alters phase responsiveness and causes advanced sleep phase
Proceedings of the National Academy of Sciences, 2019•National Acad Sciences
Many components of the circadian molecular clock are conserved from flies to mammals;
however, the role of mammalian Timeless remains ambiguous. Here, we report a mutation in
the human TIMELESS (h TIM) gene that causes familial advanced sleep phase (FASP). Tim
CRISPR mutant mice exhibit FASP with altered photic entrainment but normal circadian
period. We demonstrate that the mutation prevents TIM accumulation in the nucleus and has
altered affinity for CRY2, leading to destabilization of PER/CRY complex and a shortened …
however, the role of mammalian Timeless remains ambiguous. Here, we report a mutation in
the human TIMELESS (h TIM) gene that causes familial advanced sleep phase (FASP). Tim
CRISPR mutant mice exhibit FASP with altered photic entrainment but normal circadian
period. We demonstrate that the mutation prevents TIM accumulation in the nucleus and has
altered affinity for CRY2, leading to destabilization of PER/CRY complex and a shortened …
Many components of the circadian molecular clock are conserved from flies to mammals; however, the role of mammalian Timeless remains ambiguous. Here, we report a mutation in the human TIMELESS (hTIM) gene that causes familial advanced sleep phase (FASP). Tim CRISPR mutant mice exhibit FASP with altered photic entrainment but normal circadian period. We demonstrate that the mutation prevents TIM accumulation in the nucleus and has altered affinity for CRY2, leading to destabilization of PER/CRY complex and a shortened period in nonmature mouse embryonic fibroblasts (MEFs). We conclude that TIM, when excluded from the nucleus, can destabilize the negative regulators of the circadian clock, alter light entrainment, and cause FASP.
National Acad Sciences