Genomic structure of the proopiomelanocortin gene and expression during acute low-water stress in channel catfish

Proopiomelanocortin (POMC) is an important gene involved in the stress response of the hypothalamic–pituitary–adrenal axis. It is a precursor of several peptide hormones including adrenocorticotropic hormone, melanocyte stimulating hormones, and β-endorphin. Our study aims to determine genomic struc...

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Bibliographic Details
Published in:General and comparative endocrinology 2005-09, Vol.143 (2), p.104-112
Main Authors: Karsi, Attila, Waldbieser, Geoffrey C., Small, Brian C., Wolters, William R.
Format: Article
Language:English
Subjects:
ACTH
Adaptation, Physiological - genetics
Amino Acid Sequence
Animals
Base Sequence
Blotting, Southern
Cloning
Cloning, Molecular
Cortisol
Dehydration - genetics
Dehydration - metabolism
Fish
Fish Proteins - genetics
Fish Proteins - metabolism
Freshwater
Gene Expression Regulation - genetics
Genomic Library
Hydrocortisone - metabolism
Ictaluridae - genetics
Ictaluridae - metabolism
Molecular Sequence Data
Pituitary
Pituitary Gland - metabolism
POMC
Pro-Opiomelanocortin - genetics
Pro-Opiomelanocortin - metabolism
RNA, Messenger - analysis
Stress
Time Factors
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Summary:Proopiomelanocortin (POMC) is an important gene involved in the stress response of the hypothalamic–pituitary–adrenal axis. It is a precursor of several peptide hormones including adrenocorticotropic hormone, melanocyte stimulating hormones, and β-endorphin. Our study aims to determine genomic structure and expression of POMC gene during temporal stress in channel catfish ( Ictalurus punctatus). The catfish POMC gene consisting of three exons and two introns has a similar structural organization to that of other species. The catfish and mammalian POMC promoters do not exhibit regions of conservation except that of one TATA box. Genomic Southern blot analysis indicated POMC is present as a single copy gene in the catfish genome. Real-time PCR allowed us to monitor temporal expression of the POMC mRNA in catfish pituitary during low-water stress. Plasma cortisol concentrations were also measured as an indicator of stress. Within 15 min after the onset of low-water stress, POMC mRNA expression was elevated 1.87-fold above the control value. The POMC mRNA level had declined after 30 min (1.29-fold) and 1 h (1.1-fold) at which time stress was removed. After 1 h recovery, a significant increase in the POMC mRNA expression was detected (2.44-fold, P < 0.05) followed by a decline 2 h later (1.52-fold) when the experiment was terminated. Plasma cortisol levels in stressed fish were significantly above the cortisol levels in control fish during stress application ( t = 15 min, t = 30 min, and t = 1 h, P < 0.05), which then returned to normal during recovery. We conclude that POMC and cortisol are both involved in the low-water stress response during which cortisol may serve as a negative regulator of POMC expression in catfish.
ISSN:0016-6480
1095-6840
DOI:10.1016/j.ygcen.2005.03.005