Citations to this article

Prosomatostatin-derived antrin is present in gastric D cells and in portal blood.
M Ravazzola, … , N Ling, L Orci
M Ravazzola, … , N Ling, L Orci
Published February 1, 1989
Citation Information: J Clin Invest. 1989;83(2):362-366. https://doi.org/10.1172/JCI113892.
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Research Article

Prosomatostatin-derived antrin is present in gastric D cells and in portal blood.

Abstract

The three widely distributed peptides derived from prosomatostatin are the original neurohormone somatostatin-14, somatostatin-28, and somatostatin-28(1-12), which are all derived from the COOH terminus of the precursor. Recently a decapeptide derived from the NH2 terminus of the prohormone has been identified in extracts of rat gastric antrum and named antrin. Data now show that in both rats and humans this new molecular form is concentrated in the D cell of the gastrointestinal mucosa together with somatostatin-28(1-12). The highest concentration of antrin immunofluorescent cells is located in the mucosa of the gastric antrum. Ultrastructural studies performed on pyloric D cells using the protein A-gold technique reveals that antrin is present in the same secretory granules as somatostatin-28(1-12) and detectable in one-third of all secretory granules. Acid extracts of rat hepatic portal plasma contain a peptide similar or identical to antrin, indicating that the antral decapeptide circulates in blood.

Authors

M Ravazzola, R Benoit, N Ling, L Orci

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Citations to this article (15)

Title and authors Publication Year
Somatostatin and Its Receptor System in Colorectal Cancer
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Somatostatin Analogues: From Research to Clinical Practice
A Tatsi, BA Nock, T Maina, M Jong 		Somatostatin Analogues: From Research to Clinical Practice 2015
Comprehensive Physiology
SN Cheuvront, RW Kenefick 		Comprehensive Physiology 2014
Biological redundancy of endogenous GPCR ligands in the gut and the potential for endogenous functional selectivity
GL Thompson, M Canals, DP Poole 		Frontiers in pharmacology 2014
Gastric Acid, Calcium Absorption, and Their Impact on Bone Health
S Kopic, JP Geibel 		Physiological reviews 2013
Cellular Peptide Hormone Synthesis and Secretory Pathways
JF Rehfeld, JR Bundgaard 		2009
Cellular Peptide Hormone Synthesis and Secretory Pathways
JF Rehfeld, JR Bundgaard 		2009
Cellular Peptide Hormone Synthesis and Secretory Pathways
JF Rehfeld, JR Bundgaard 		2009
Cellular Peptide Hormone Synthesis and Secretory Pathways
JF Rehfeld, JR Bundgaard 		2009
Cellular Peptide Hormone Synthesis and Secretory Pathways
JF Rehfeld, JR Bundgaard 		2009
A Conserved α-Helix at the Amino Terminus of Prosomatostatin Serves as a Sorting Signal for the Regulated Secretory Pathway
R Mouchantaf, U Kumar, T Sulea, YC Patel 		The Journal of biological chemistry 2001
Processing of Rat Preprocortistatin in Mouse AtT-20 Cells
L Puebla, R Mouchantaf, R Sasi, S Khare, HP Bennett, S James, YC Patel 		Journal of Neurochemistry 1999
Canine prosomatostatin: Isolation of a cDNA, regulation of gene expression, and characterization of post-translational processing intermediates
CJ Dickinson, J DelValle, A Todisco, I Gantz, L Tong, S Finniss, T Yamada 		Regulatory Peptides 1996
Processing of prosomatostatin
R Benoit, F Esch, HP Bennett, N Ling, M Ravazzola, L Orci, EJ Mufson 		Metabolism 1990
Somatostatin
SR Bloom, JM Polak 		British medical journal (Clinical research ed.) 1987

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