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A Conserved Kinase-Based Body-Temperature Sensor Globally Controls Alternative Splicing and Gene Expression.

Molecular cell (2020-02-16)
Tom Haltenhof, Ana Kotte, Francesca De Bortoli, Samira Schiefer, Stefan Meinke, Ann-Kathrin Emmerichs, Kristina Katrin Petermann, Bernd Timmermann, Petra Imhof, Andreas Franz, Bernhard Loll, Markus C Wahl, Marco Preußner, Florian Heyd
ABSTRAKT

Homeothermic organisms maintain their core body temperature in a narrow, tightly controlled range. Whether and how subtle circadian oscillations or disease-associated changes in core body temperature are sensed and integrated in gene expression programs remain elusive. Furthermore, a thermo-sensor capable of sensing the small temperature differentials leading to temperature-dependent sex determination (TSD) in poikilothermic reptiles has not been identified. Here, we show that the activity of CDC-like kinases (CLKs) is highly responsive to physiological temperature changes, which is conferred by structural rearrangements within the kinase activation segment. Lower body temperature activates CLKs resulting in strongly increased phosphorylation of SR proteins in vitro and in vivo. This globally controls temperature-dependent alternative splicing and gene expression, with wide implications in circadian, tissue-specific, and disease-associated settings. This temperature sensor is conserved across evolution and adapted to growth temperatures of diverse poikilotherms. The dynamic temperature range of reptilian CLK homologs suggests a role in TSD.

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Sigma-Aldrich
Anti-Phosphoepitope SR proteins Antibody, clone 1H4, clone 1H4, from mouse