Lhx1 controls terminal differentiation and circadian function of the suprachiasmatic nucleus.

Joseph L Bedont, Tara A LeGates, Emily A Slat, Mardi S Byerly, Hong Wang, Jianfei Hu, Alan C Rupp, Jiang Qian, G William Wong, Erik D Herzog, Samer Hattar, Seth Blackshaw

Cell reports 2014 May 08

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Vertebrate circadian rhythms are organized by the hypothalamic suprachiasmatic nucleus (SCN). Despite its physiological importance, SCN development is poorly understood. Here, we show that Lim homeodomain transcription factor 1 (Lhx1) is essential for terminal differentiation and function of the SCN. Deletion of Lhx1 in the developing SCN results in loss of SCN-enriched neuropeptides involved in synchronization and coupling to downstream oscillators, among other aspects of circadian function. Intact, albeit damped, clock gene expression rhythms persist in Lhx1-deficient SCN; however, circadian activity rhythms are highly disorganized and susceptible to surprising changes in period, phase, and consolidation following neuropeptide infusion. Our results identify a factor required for SCN terminal differentiation. In addition, our in vivo study of combinatorial SCN neuropeptide disruption uncovered synergies among SCN-enriched neuropeptides in regulating normal circadian function. These animals provide a platform for studying the central oscillator's role in physiology and cognition. Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.

Citation

Joseph L Bedont, Tara A LeGates, Emily A Slat, Mardi S Byerly, Hong Wang, Jianfei Hu, Alan C Rupp, Jiang Qian, G William Wong, Erik D Herzog, Samer Hattar, Seth Blackshaw. Lhx1 controls terminal differentiation and circadian function of the suprachiasmatic nucleus. Cell reports. 2014 May 08;7(3):609-22