Developmental and tissue-specific regulation of proglucagon gene expression

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Developmental and tissue-specific regulation of proglucagon gene expression

YC Lee, PL Brubaker and DJ Drucker
Department of Medicine, Toronto General Hospital, University of Toronto, Ontario, Canada.

The pattern of glucagon gene expression and the posttranslational processing of proglucagon was studied in the fetal and neonatal rat. Pancreatic immunoreactive glucagon (IRG) and glucagon-like immunoreactivity (GLI) were low in both fetal pancreas and intestine, respectively. Immediately after birth, pancreatic IRG rose markedly and reached a peak concentration at postnatal day 7, followed by a gradual return to its adult level. Intestinal GLI was low until postnatal day 7 and rose steadily thereafter to adult levels. The levels of GLI in the hypothalamus were much lower than in intestine, yet the developmental accumulation of hypothalamic GLI resembled the pattern observed in intestine. In contrast, the levels of GLI and IRG in the brain stem were higher in the fetus and neonate, and decreased to adult levels. Proglucagon mRNA transcripts, uniform in size, were detected in RNA isolated from fetal or adult brainstem, pancreas, and intestine. However, fetal proglucagon mRNA transcripts were larger than adult proglucagon mRNA transcripts in pancreas and intestine, but not brainstem. The results of RNAse mapping studies, including analysis of both the 5'- and 3'-ends of the mRNA transcripts, demonstrated that the larger fetal mRNA transcripts could be accounted for by an increase in the length of the polyadenylate tail in the fetal tissues. These observations demonstrate that the developing rat exhibits tissue- specific differences in both proglucagon gene expression and the pattern of posttranslational processing of the prohormone.

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Endocrinology	Endocrine Reviews	J. Clin. End. & Metab.
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				B. K. C. Chow, T. W. Moon, R. L. C. Hoo, C.-M. Yeung, M. Muller, P. J. Christos, and S. Mojsov Identification and Characterization of a Glucagon Receptor from the Goldfish Carassius auratus: Implications for the Evolution of the Ligand Specificity of Glucagon Receptors in Vertebrates Endocrinology, July 1, 2004; 145(7): 3273 - 3288. [Abstract] [Full Text] [PDF]

				J. A. Lovshin, Q. Huang, R. Seaberg, P. L. Brubaker, and D. J. Drucker Extrahypothalamic Expression of the Glucagon-Like Peptide-2 Receptor Is Coupled to Reduction of Glutamate-Induced Cell Death in Cultured Hippocampal Cells Endocrinology, July 1, 2004; 145(7): 3495 - 3506. [Abstract] [Full Text] [PDF]

				N. M. Sherwood, S. L. Krueckl, and J. E. McRory The Origin and Function of the Pituitary Adenylate Cyclase-Activating Polypeptide (PACAP)/Glucagon Superfamily Endocr. Rev., December 1, 2000; 21(6): 619 - 670. [Abstract] [Full Text]

				D. G. Burrin, B. Stoll, R. Jiang, Y. Petersen, J. Elnif, R. K. Buddington, M. Schmidt, J. J. Holst, B. Hartmann, and P. T. Sangild GLP-2 stimulates intestinal growth in premature TPN-fed pigs by suppressing proteolysis and apoptosis Am J Physiol Gastrointest Liver Physiol, December 1, 2000; 279(6): G1249 - G1256. [Abstract] [Full Text] [PDF]

				J. Lovshin, B. Yusta, I. Iliopoulos, A. Migirdicyan, L. Dableh, P. L. Brubaker, and D. J. Drucker Ontogeny of the Glucagon-Like Peptide-2 Receptor Axis in the Developing Rat Intestine Endocrinology, November 1, 2000; 141(11): 4194 - 4201. [Abstract] [Full Text] [PDF]

				T. J. Kieffer and J. Francis Habener The Glucagon-Like Peptides Endocr. Rev., December 1, 1999; 20(6): 876 - 913. [Abstract] [Full Text]

				M. Nian, D. J. Drucker, and D. Irwin Divergent regulation of human and rat proglucagon gene promoters in vivo Am J Physiol Gastrointest Liver Physiol, October 1, 1999; 277(4): G829 - G837. [Abstract] [Full Text] [PDF]

				D. M. Irwin, M. Satkunarajah, Y. Wen, P. L. Brubaker, R. A. Pederson, and M. B. Wheeler The Xenopus proglucagon gene encodes novel GLP-1-like peptides with insulinotropic�properties PNAS, July 22, 1997; 94(15): 7915 - 7920. [Abstract] [Full Text] [PDF]

				Y. E. Chen and D. J. Drucker Tissue-specific Expression of Unique mRNAs That Encode Proglucagon-derived Peptides or Exendin 4in the Lizard J. Biol. Chem., February 14, 1997; 272(7): 4108 - 4115. [Abstract] [Full Text] [PDF]

				M. Wang and D. J. Drucker The LIM Domain Homeobox Gene isl-1 Is a Positive Regulator of Islet Cell-specific Proglucagon Gene Transcription J. Biol. Chem., May 26, 1995; 270(21): 12646 - 12652. [Abstract] [Full Text] [PDF]

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Developmental and tissue-specific regulation of proglucagon gene expression