Literature DB >> 18705647

Posttranslational regulation of TPH1 is responsible for the nightly surge of 5-HT output in the rat pineal gland.

Zheping Huang1, Tiecheng Liu, Asamanja Chattoraj, Samreen Ahmed, Michael M Wang, Jie Deng, Xing Sun, Jimo Borjigin.   

Abstract

Serotonin (5-hydroxytryptamine, 5-HT), a precursor for melatonin production, is produced abundantly in the pineal gland of all vertebrate animals. The synthesis of 5-HT in the pineal gland is rate limited by tryptophan hydroxylase 1 (TPH1) whose activity displays a twofold increase at night. Earlier studies from our laboratory demonstrate that pineal 5-HT secretion exhibits dynamic circadian rhythms with elevated levels during the early night, and that the increase is controlled by adrenergic signaling at night. In this study, we report that (a) 5-HT total output from the pineal gland and TPH1 protein levels both display diurnal rhythms with a twofold increase at night; (b) stimulation of cAMP signaling elevates 5-HT output in vivo; (c) 5-HT total output and TPH1 protein content in rat pineal gland are both acutely inhibited by light exposure at night. Consistent with these findings, molecular analysis of TPH1 protein revealed that (a) TPH1 is phosphorylated at the serine 58 in vitro and in the night pineal gland; and (b) phosphorylation of TPH1 at this residue is required for cAMP-enhanced TPH1 protein stability. These data support the model that increased nocturnal 5-HT synthesis in the pineal gland is mediated by the phosphorylation of TPH1 at the serine 58, which elevates the TPH1 protein content and activity at night.

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Year:  2008        PMID: 18705647      PMCID: PMC2669754          DOI: 10.1111/j.1600-079X.2008.00627.x

Source DB:  PubMed          Journal:  J Pineal Res        ISSN: 0742-3098            Impact factor:   13.007


  35 in total

1.  Long-term in vivo pineal microdialysis.

Authors:  Xing Sun; Tiecheng Liu; Jie Deng; Jimo Borjigin
Journal:  J Pineal Res       Date:  2003-09       Impact factor: 13.007

2.  Amino-terminal analysis of tryptophan hydroxylase: protein kinase phosphorylation occurs at serine-58.

Authors:  S C Kumer; S M Mockus; P J Rucker; K E Vrana
Journal:  J Neurochem       Date:  1997-10       Impact factor: 5.372

Review 3.  Application of long-term microdialysis in circadian rhythm research.

Authors:  Jimo Borjigin; Tiecheng Liu
Journal:  Pharmacol Biochem Behav       Date:  2007-10-25       Impact factor: 3.533

4.  Phosphorylation and activation of brain tryptophan hydroxylase: identification of serine-58 as a substrate site for protein kinase A.

Authors:  D M Kuhn; R Arthur; J C States
Journal:  J Neurochem       Date:  1997-05       Impact factor: 5.372

5.  Melatonin synthesis: analysis of the more than 150-fold nocturnal increase in serotonin N-acetyltransferase messenger ribonucleic acid in the rat pineal gland.

Authors:  P H Roseboom; S L Coon; R Baler; S K McCune; J L Weller; D C Klein
Journal:  Endocrinology       Date:  1996-07       Impact factor: 4.736

6.  A circadian rhythm of tryptophan hydroxylase in rat pineals.

Authors:  H Shibuya; M Toru; S Watanabe
Journal:  Brain Res       Date:  1977-12-16       Impact factor: 3.252

7.  A chimeric tyrosine/tryptophan hydroxylase. The tyrosine hydroxylase regulatory domain serves to stabilize enzyme activity.

Authors:  S M Mockus; S C Kumer; K E Vrana
Journal:  J Mol Neurosci       Date:  1997-08       Impact factor: 3.444

8.  Tryptophan hydroxylase mRNA levels are regulated by the circadian clock, temperature, and cAMP in chick pineal cells.

Authors:  C B Green; J C Besharse; M Zatz
Journal:  Brain Res       Date:  1996-10-28       Impact factor: 3.252

9.  Functional domains of human tryptophan hydroxylase 2 (hTPH2).

Authors:  Nurgul Carkaci-Salli; John M Flanagan; Matthew K Martz; Ugur Salli; Diego J Walther; Michael Bader; Kent E Vrana
Journal:  J Biol Chem       Date:  2006-07-24       Impact factor: 5.157

Review 10.  Advances in the molecular characterization of tryptophan hydroxylase.

Authors:  S M Mockus; K E Vrana
Journal:  J Mol Neurosci       Date:  1998-06       Impact factor: 3.444
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  13 in total

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Review 2.  Melatonin formation in mammals: in vivo perspectives.

Authors:  Asamanja Chattoraj; Tiecheng Liu; Liang Samantha Zhang; Zheping Huang; Jimo Borjigin
Journal:  Rev Endocr Metab Disord       Date:  2009-12       Impact factor: 6.514

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4.  Transsynaptic activity-dependent regulation of axon branching and neurotrophin expression in vivo.

Authors:  Anda-Alexandra Calinescu; Tiecheng Liu; Michael M Wang; Jimo Borjigin
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Review 5.  Circadian regulation of pineal gland rhythmicity.

Authors:  Jimo Borjigin; L Samantha Zhang; Anda-Alexandra Calinescu
Journal:  Mol Cell Endocrinol       Date:  2011-07-18       Impact factor: 4.102

6.  Serotonin modulates melatonin synthesis as an autocrine neurotransmitter in the pineal gland.

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7.  Identification of a functional TPH1 polymorphism associated with irritable bowel syndrome bowel habit subtypes.

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8.  Regional brain network and behavioral alterations in EGR3 gene transfected rat model of schizophrenia.

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Journal:  Brain Imaging Behav       Date:  2021-03-15       Impact factor: 3.978

9.  Effect of daytime-restricted feeding in the daily variations of liver metabolism and blood transport of serotonin in rat.

Authors:  Marlen Valdés-Fuentes; Gabriela Vera-Rivera; Dalia De Ita-Pérez; Isabel Méndez; María Isabel Miranda; Mauricio Díaz-Muñoz
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10.  Cancer/testis antigen PIWIL2 suppresses circadian rhythms by regulating the stability and activity of BMAL1 and CLOCK.

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