Rate of Protein Synthesis in Rat Salivary Gland Cells After Pilocarpine or Feeding. III. Protein Synthesis in Vitro in the Submandibular and Parotid Gland After Stimulation of Secretion in Vivo

Overview

Journal Cell Tissue Res

Specialties Anatomy & Histology
Cell Biology

Date 1975 Dec 18

PMID 1203961

Citations 2

Authors

M F Kramer

Affiliations

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Abstract

After stimulation of the protein secretion by pilocarpine or feeding the rate of incorporation of [3H]-leucine increases in the acinar cells of the parotid gland of the rat while the secretory cells of the submandibular gland show a moderate decrease (Kuijper et al., 1975b). Since the rate of labelled amino acid incorporation depends on the specific radioactivity of the amino acid used, which is not easy to determine in vivo, experiments in vitro were performed to get an idea of the influence of this factor on the measured changes in [3H]-leucine incorporation. In vitro both cell types showed a more pronounced but essentially identical reaction as in vivo. Since in these experiments the specific radioactivity of the extracellular leucine is the same whether fragments of stimulated or unstimulated glands incorporate the radioactive amino acid, the increase of incorporation in the parotid and the decrease in the submandibular cells cannot be ascribed to differences in specific radioactivity of leucine, unless the intracellular leucine pool should show great differences between secreting and non-secreting cells. However, in vitro the submandibular gland cells under both conditions appear to use the extracellular leucine for their protein synthesis (or a small compartmentalized pool in rapid exchange with the extracellular pool). In the parotid cells the whole intracellular pool showed such a rapid exchange with the extracellular one that for practical reasons one may say that these cells, too, rely on the extracellular specific radioactivity of leucine in their protein synthesis. We conclude that the rat parotid gland cells show a rapid and substantial increase of protein synthesis after stimulation of their enzyme secretion, while the submandibular gland cells do not.

Citing Articles

Cholinergic regulation of amylase gene expression in the rat parotid gland. Inhibition by two distinct post-transcriptional mechanisms.

Liu Y, Woon P, Lim S, Jeyaseelan K, Thiyagarajah P Biochem J. 1995; 306 ( Pt 3):637-42.

PMID: 7535521 PMC: 1136569. DOI: 10.1042/bj3060637.

The secretory activity of rat nasal glands and the effect of cholinergic drugs.

Klaassen A, Kuijpers W Cell Tissue Res. 1986; 243(3):655-9.

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