Changes in the polypeptide composition related to the growth response in chronically isoproterenol-stimulated mouse parotid glands

The administration of isoproterenol induces DNA-synthesis mitosis and growth (increase in size) responses in mouse parotid glands. Both responses were uncoupled by means of daily stimulations with isoproterenol in such a way that the DNA-synthesis mitosis response was observed during the first 4 days only, whereas the growth response was continuous since the first stimulation until about day 12. In parallel to the chronic stimulation by isoproterenol, drastic changes in the polypeptide composition of parotid glands were observed. These modifications, consisting basically of the reduction in content of a couple of major poly peptides (polypeptides A and B) together with the reciprocal massive accumulation of five new polypeptides (polypeptides C, D, E, F and G), were also progressive and continuous along the chronic stimulation by isoproterenol, even after the disappearance of the DNA-synthesis mitosis response. Thus, a relationship between specific changes in the mouse parotid content of polypeptides A, B, C, D, E, F and G and the isoproterenol-induced growth response, rather than with the DNA-synthesis mitosis response, is suggested. The correlation is firmly supported by the progressive recovery of the normal polypeptide composition upon suspending isoproterenol treatment, which allows parotid glands to return to normal size parameters.     

Changes in the polypeptide composition of mouse parotid glands after stimulation of secretion and DNA synthesis by isoproterenol

The polypeptide composition of mouse parotid glands has been analysed by unidimensional SDS-polyacrylamide slab gel electrophoresis and Coomassie blue staining after isoproterenol stimulation of secretion and DNA synthesis. Two polypeptides (polypeptides A and B) are lost within 2 h and their restoration in the glands occurs according to a chronology which is identical to that of the alpha-amylase activity. On the other hand, five clearly defined new bands appear consistently during the late prereplicative period of isoproterenol-stimulated mouse parotid acinar cells (polypeptides C, D, E, F and G). These new polypeptides are induced by doses of isoproterenol which provoke secretion and DNA synthesis, but not by doses which provoke only secretion. Although no function has been assigned to any of the above-described polypeptides, a relation between polypeptides A and B and secretion and between polypeptides C, D, E, F and G and the proliferative response is suggested.     

Secretory character of a group of isoproterenol-induced polypeptides in mouse parotid glands

The secretory nature of the isoproterenol-induced mouse parotid polypeptides C, D, E, F, and G (molecular weights 64,000, 61,000, 51,500, 38,000, and 37,000, respectively) is documented. Polypeptides C, D, E, F, and G, accumulated in response to successive daily stimulations with isoproterenol, were detected in a fraction enriched in hypertrophic parotid acinar cells. These cells, characterized by an increased content of cytoplasmic granules, maintain a secretory responsiveness to isoproterenol, which has been evidenced by light microscopy, enzymatic analysis, and unidimensional SDS-polyacrylamide gel electrophoresis. Thus, a parallelism in the loss and recovery of both secretory granules, alpha-amylase and polypeptides C, D, E, F, and G, was observed. Moreover, after secretion stimulation, polypeptides C, D, E, F, and G were detected in the fluid collected directly from parotid gland cannulation. Given the secretory character of polypeptides C, D, E, F, and G, mechanisms explaining both their progressive accumulation along the chronic administration of isoproterenol, as well as their progressive disappearance observed after suspending that treatment, are discussed.     

Early detection in saliva of polypeptides associated to isoproterenol-induced mouse parotid hypertrophy

Chronic administration of isoproterenol (IPR) results in a marked hypertrophy and in the induction of a group of putative proline-rich polypeptides in the mouse parotid glands. Some of these polypeptides (pps C-G) have been considered as molecular markers of the parotid gland enlargement. Given the secretory character of polypeptides C-G, the polypeptide composition of mouse saliva was used to monitor the IPR-induced salivary gland hypertrophy. Whole saliva was collected after an oral administration of pilocarpine (PIL). Under those conditions, PIL provoked a massive salivary secretion both in normal control mice and during the whole course of the IPR-induced gland enlargement. Striking changes in the polypeptide composition of saliva obtained from chronically IPR-stimulated animals were observed. Those changes consisted basically in the appearance and progressive increase in concentration of parotid polypeptides C-G and in the progressive diminution in concentration of a couple of normal salivary polypeptides (polypeptides A-B). The appearance of new polypeptides in saliva could be established unequivocally within the 24 h following the trophic adrenergic stimulation. On the other hand, salivary polypeptides induced in response to a single administration of IPR could be demonstrated as late as 7-9 days after the stimulation. Accordingly, detection of parotid polypeptides C-G in PIL-produced saliva obtained from IPR-stimulated mice has proved to be a highly advantageous method to evaluate salivary gland hypertrophy both at very early stages after the trophic stimulation and late after the occurrence of the trophic episode.     

Induction of salivary polypeptides associated with parotid hypertrophy by gallotannins administered topically into the mouse mouth

Isoproterenol-induced salivary polypeptides (IISP), a group of proline-rich proteins synthesized by mouse parotids, have been considered as markers for isoproterenol-induced parotid hypertrophy. Rodents fed diets containing high-tannin cereals (sorghum), also develop parotid hypertrophy. To test whether tannins are directly involved in provoking sialotrophic growth, we studied the effect of intraperitoneal and topical oral administrations of tannic acid (TA) on the induction of IISP polypeptides in endogamic mice (A/Snell). TA was characterized by HPLC chromatography and spectral analysis and shown to be composed solely of gallotannins, a complex family of glucose and gallic acid esters. IISP polypeptides were monitored in saliva by SDS-polyacrylamide gel electrophoresis during 36 h after ending TA stimulation. Single daily intraperitoneal administrations of TA for 3 consecutive days (0.033 mg/g bw/day), at variance of parallel administrations of isoproterenol (0.042 mg/g bw/day) failed to induce IISP polypeptides. However, repeated topical applications of TA into the mouse mouths (1.21 mg/g bw divided into three equal doses given at 4-h intervals within a single day) resulted in unequivocal induction of IISP polypeptides. That response was clearly intensified by increasing the stimulation frequency to eight equivalent doses given at 1.5-h intervals within a single day (corresponding to 3.23 mg/g bw) and even further by repeating this protocol for 3 days. Under these productive schemes of stimulations by TA, electrophoretic fractionation of parotid homogenates showed new polypeptide bands migrating in parallel to salivary IISP. These results suggest that topically administered gallotannins are effective inducers of trophic growth in mouse parotids.     

Differential expression of isoproterenol-induced salivary polypeptides in two mouse strains that are congenic for the H-2 histocompatibility gene complex

Two inbred mouse strains, A/Snell and A.Swiss, which were produced as congenic with regard to the H-2 histocompatibility gene complex, are homozygous for two different groups of isoproterenol-induced salivary polypeptides (IISP). These polypeptides, which have been considered as markers of the hypertrophic growth of the parotid acinar cells, are members of the complex family of salivary proline-rich proteins (PRP) on the basis of both their massive accumulation in the parotid acinar cells in response to chronic isoproterenol, secretory character, high solubility in trichloroacetic acid and metachromatic staining by Coomassie blue. IISP expressed in both mouse strains were identified by unidimensional SDS-polyacrylamide electrophoresis and Coomassie blue staining both in parotid gland homogenates and in whole salivas obtained from mice repeatedly stimulated at 24-h intervals with isoproterenol. Parotid glands from 40 mice (20 A/Snell and 20 A.Swiss) and salivas from 270 mice (200 A/Snell and 70 A.Swiss) were analyzed. One of the congenic strains (A/Snell) expressed five IISP (Mr 65, 61, 51.5, 38, and 37 kDa) and the other strain (A.Swiss) expressed six IISP (Mr 59, 57, 54.5, 46, 36, and 34 kDa). No inter-individual intra-strain variations were observed, thus defining strain-associated patterns of IISP (PRP).     

Cyclic AMP metabolism in mouse parotid glands. Properties of adenylate cyclase, protein kinase and phosphodiesterase.

Catecholamines induce unique growth and secretory responses in salivary glands. An analysis of three enzyme activities involved in cyclic AMP metabolism was carried out to identify the specificity of these responses for salivary glands. Although parotid adenylate cyclase has an unusually high specific activity, its kinetic properties and responses to NaF, guanine nucleotides, and isoproterenol are similar to other tissues not stimulated to grow after isoproterenol stimulation. Solubilized adenylate cyclase was separated from other membrane proteins by isoelectric focusing on polyacrylamide gels. There was a single broad peak of activity witha pI of 5.9. Parotid protein kinase has a subcellular distribution and substrate preference similar to hepatic protein kinase. Activation by cyclic AMP is also similar to that reported for other tissues, with a Ka of 1.2 - 10(-7) M. Parotid cyclic AMP and cyclic GMP phosphodiesterases are a heterogeneous group of enzymes with relatively low specific activity as compared with mouse pancreas, liver and brain. Isoelectric focusing of supernatant phosphodiesterases revealed at least sixpeaks of enzyme activity in the pI range of 4-6. Previous reports of a large increase in parotid cyclic AMP levels after in vivo administration of catecholamines and specific growth and secretion could be the result of a relatively high specific activity adenylate cyclase associated with low specific activity cyclic AMP phosphodiesterases.     

Cyclic AMP metabolism in mouse parotid glands properties of adenylate cyclase,protein kinase and phosphodiesterase

Catecholamines induce unique growth and secretory responses in salivary glands. An analysis of three enzyme activities involved in cyclic AMP metabolism was carried out to identify the specificity of these responses for salivary glands.Although parotid adenylate cyclase has an unusually high specific activity, its kinetic properties and responses to NaF, guanine nucleotides, and isoproterenol are similar to other tissues not stimulated to grow after isoproterenol stimulation. Solubilized adenylate cyclase was separated from other membrane proteins by isoelectric focusing on polyacrylamide gels. There was a single broad peak of activity with a pI of 5.9. Parotid protein kinase has a subcellular distribution and substrate preference similar to hepatic protein kinase. Activation by cyclic AMP is also similar to that reported for other tissues, with a K_a of 1.2·10^?7 M. Parotid cyclic AMP and cyclic GMP phosphoriesterases are a heterogeneous group of enzymes with relatively low specific activity as compared with mouse pancreas, liver and brain. Isoelectric focusing of supernatant phosphodiesterases revealed at least six peaks of enzyme activity in the pI range of 4–6.Previous reports of a large increase in parotid cyclic AMP levels after in vivo administration of catecholamines and specific growth and secretion could be the result of a relatively high specific activity adenylate cyclase associated with low specific activity cyclic AMP phosphodiesterases.     

Beta-adrenergic receptors and adenylate cyclase in hypertrophic and hyperplastic rat salivary glands.

Isoproterenol induces both the secretion of protein and the stimulation of DNA synthesis and growth in rat salivary glands. The specific binding of the labelled beta-adrenergic antagonist [3H]dihydroalprenolol has been used to measure the number of beta-adrenergic receptors in rat parotid glands during isoproterenol-induced growth. Isoproterenol-enlarged glands display no change in the specific binding capacity per gland for [3H]-dihydroalprenolol compared with normal tissue. Catecholamine sensitive adenylate cyclase activity varies independently of the number of specific [3H]dihydroalprenolol binding sites during isoproterenol-induced growth. Previously-described di-ferences in optimal isoproterenol doses which produce protein secretion and stimulation of DNA synthesis may reflect different responses to various rates of receptor occupancy, or may be due to the presence of more than one type of beta-adrenergic receptor.     

Immunolocalization of potassium-chloride cotransporter polypeptides in rat exocrine glands

Potassium-chloride cotransporters (KCCs) encoded by at least four homologous genes are believed to contribute to cell volume regulation and transepithelial ion transport. We have studied KCC polypeptide expression and immunolocalization of KCCs in rat salivary glands and pancreas. Immunoblot analysis of submandibular, parotid, and pancreas plasma membrane fractions with immunospecific antibodies raised against mouse KCC1 revealed protein bands at ca 135 kDa and ca 150 kDa. Immunocytochemical analysis of fixed salivary and pancreas tissue revealed basolateral KCC1 distribution in rat parotid and pancreatic acinar cells, as well as in parotid, submandibular, and pancreatic duct cells. KCC1 or the polypeptide product(s) of one or more additional KCC genes was also expressed in the basolateral membranes of submandibular acinar cells. Both immunoblot and immunofluorescence signals were abolished in the presence of the peptide antigen. These results establish the presence in rat exocrine glands of KCC1 and likely other KCC polypeptides, and suggest a contribution of KCC polypeptides to transepithelial Cl(-) transport.     

Expression of keratins and other cytoskeletal proteins in mouse mammary epithelium during the normal developmental cycle and primary culture

Mammary epithelium is composed of ductal, alveolar, and myoepithelial cells, and undergoes dramatic responses in growth, differentiation, and function to hormonal stimuli during the four stages of the mammary developmental cycle represented in virgin, pregnant, lactating, and involuting animals. To determine if progression of the epithelium through the cycle is accompanied by changes in cytoskeletal composition, particularly the keratins, the polypeptides in cytoskeletal extracts from BALB/c mouse mammary tissues were analyzed by one- and two-dimensional gel electrophoresis combined with immunoblots using polyclonal and monoclonal antikeratin antibodies. The major polypeptides in cytoskeletal fractions enriched in intermediate filaments included seven acidic and three basic components ranging in molecular weight from 40,000 to 90,000. Two major polypeptides of Mr 50,000 and 40,000, along with two minor components of Mr 57,000 and 55,000 were identified as keratins. The polypeptide profiles of mammary glands from virgin, pregnant, lactating, and involuting mice were very similar, indicating a remarkable stability of cytoskeletal composition during hormonal shifts and periods of minimal or maximal cell growth and differentiated function. The data also suggest that ductal and alveolar cells express the same set of cytoskeletal polypeptides, including keratins. Mammary cells grown in primary culture exhibited a loss or reduction in most of the basic polypeptides, a large increase in an acidic Mr 55,000 keratin, and the appearance of a prominent acidic polypeptide of Mr 46,000. The latter results demonstrate that keratin expression in mouse mammary epithelial cells is subject to regulation by certain environmental factors.     

Structural and nonstructural proteins of a rabbit parvovirus

The structural and nonstructural polypeptides of a rabbit parvovirus (RPV) (F-7-9 strain) were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The virion contained three polypeptide components, A (molecular weight, 96,000), B (85,000), and C (75,000). A part of the polypeptide C was cleaved into the smaller-molecular-weight polypeptide C' by proteolysis during purification steps. The major polypeptide C together with C' constituted about 87% of the total viral proteins, and the minor polypeptides, A and B, constituted 4 and 9%, respectively. The structural polypeptides of empty particles were similar in size and composition to those of the virion, but the content of the C' polypeptide was very low. When rabbit kidney cell cultures were infected with RPV, the C polypeptide was detected as early as 15 h postinfection, whereas A and B were first demonstrated at 18 h. The C' polypeptide was not detected for 44 h. In addition to the three structural polypeptides, at least three nonstructural polypeptides, E, F, and G, were demonstrated in the RPV-infected cells. Polypeptide E (molecular weight, 49,000), detected mostly in cytoplasm, seemed to be a cellular protein. The F (25,000) and G (22,000) polypeptides seemed to be virus-coded proteins since they were precipitated with the anti-RPV rabbit immunoglobulin. According to partial proteolysis and peptide mapping, the F and G polypeptides shared the same peptide components.     

Beta-adrenergic receptors and adenylate cyclase in hypertrophic and hyperplastic rat salivary glands

Isoproterenol induces both the secretion of protein and the stimulation of DNA synthesis and growth in rat salivary glands.The specific binding of the labelled beta-adrenergic antagonist [³H]dihydroalprenolol has been used to measure the number of beta-adrenergic receptors in rat parotid glands during isoproterenol-induced growth. Isoproterenol-enlarged glands display no change in the specific binding capacity per gland for [³H]-dihydroalprenolol compared with normal tissue.Catecholamine sensitive adenylate cyclase activity varies independently of the number of specific [³H]dihydroalprenolol binding sites during isoproterenol-induced growth.Previously-described differences in optimal isoproterenol doses which produce protein secretion and stimulation of DNA synthesis may reflect different responses to various rates of receptor occupancy, or may be due to the presence of more than one type of beta-adrenergic receptor.     

Biosynthesis of salivary proteins in the parotid gland of the subhuman primate, Macaca fascicularis. Cell-free translation of the mRNA for a proline-rich glycoprotein and partial amino acid sequence and processing of its signal peptide

The major anionic proline-rich proteins in the parotid and submandibular secretions of subhuman primates and man perform the important biological function of inhibiting crystal growth of calcium phosphate salts from saliva, which is supersaturated with calcium phosphate salts, thereby preventing excess deposition of hydroxylapatite on tooth surfaces. The present work was initiated as a first step towards investigating proline-rich protein biosynthesis in parotid glands using the subhuman primate, Macaca fascicularis, as a model system. RNA was isolated from macaque parotid glands and separated into poly(A)-enriched and poly(A)-deficient fractions by chromatography on oligo(dT)-cellulose. The mRNAs in both fractions promoted incorporation of radiolabeled amino acids into polypeptides in an mRNA-dependent reticulocyte lysate translation system. Five major proline-rich polypeptides were detected and one of these was shown to be the in vitro precursor of the major anionic macaque proline-rich protein (MPRP), which is the structural and functional counterpart of the major anionic proline-rich proteins in the parotid and submandibular secretions of man (Oppenheim, F.G., Offner, G.D., and Troxler, R.F. (1982) J. Biol. Chem. 257, 9271-9282). Radiosequencing of the material in anti-MPRP immune precipitates showed that the in vitro precursor of MPRP contained an 18-residue signal peptide. The in vitro precursor of MPRP was processed in dog pancreas vesicles to a form with a lower apparent Mr and with an NH2-terminal amino acid sequence identical to that of native MPRP. The phenylthiohydantoin derivatives of Ala and Ile were detected at residue 9 and those of Val and Met were detected at residue 16 of the signal peptide. This indicated that the in vitro precursor of MPRP, which migrated electrophoretically as a single band in anti-MPRP immune precipitates, contained two different in vitro polypeptides derived from two different mRNAs. These results are discussed in the context of the genetic polymorphism among the major anionic proline-rich proteins in the parotid and submandibular secretions of man.     

Effect of DL-alpha-hydrazino-delta-aminovaleric acid, an inhibitor of ornithine decarboxylase, on polyamine metabolism in isoproterenol-stimulated mouse parotid glands.

The effects of DL-alpha-hydrazino-delta-aminovaleric acid (DL-HAVA) on polyamine metabolism in isoproterenol(IPR)-stimulated mouse parotid glands were investigated both in vitro and in vivo. Using partially enzyme preparations, it was found that DL-HAVA strongly inhibited ornithine decarboxylase (EC 4.1.1.17) by competing with L-ornithine. Other enzymes metabolizing ornithine and pyridoxal phosphate-dependent enzymes were at least 2-3 orders of magnitude less sensitive to DL-HAVA than ornithine decarboxylase. Administration of DL-HAVA greatly depressed the increases in both the putrescine level and putrescine formation from L-ornithine induced by IPR in the mouse parotid glands. Under the same conditions, the stimulation of DNA synthesis and subsequent cell proliferation in the glands were also suppressed. However, the IPR-dependent increases in S-adenosyl-L-methionine decarboxylase (EC 4.1.1.50) activity, synthesis and the tissue concentration of spermidine, and RNA synthesis in the parotid glands were not affected appreciably by DL-HAVA. The inhibition of DNA synthesis by DL-HAVA was effectively prevented by putrescine, but not by spermidine or 1,7-diaminoheptane, given at the same time when DL-HAVA inhibited stimulation of putrescine formation by IPR. From these results, it is proposed that putrescine is involved in cell proliferation besides being a precursor of spermidine. The effects of methylglyoxal bis(guanylhydrazone) (MGBG), an inhibitor of S-adenosyl-L-methionine decarboxylase, on the metabolism of polyamines and nucleic acids in growing parotid glands were also examined.     

Alterations in the subcellular distribution of p21ras-GTPase activating protein in proliferating rat acinar cells.

Rat parotid acinar cells undergo transient proliferation in response to chronic administration of the beta-adrenergic agonist isoproterenol or epidermal growth factor (EGF). Treatment with these agents caused an increase in tyrosine phosphorylation of p21ras-GTPase activating protein (GAP). This phosphorylation event was accompanied by a redistribution of the protein from the plasma membrane to internal membrane compartments. Separation of subcellular membranes revealed increased GAP associated with a low density population of vesicles concomitant with growth stimulation as well as to the nuclear membrane, but not the nucleoplasm. Upon cessation of hyperplasia induced by isoproterenol, phosphorylated GAP present in the plasma membrane returned to control cell levels.     

Purification of plasma membranes from mouse parotid gland and membrane reorganization in response to isoproterenol

Two highly purified plasma membrane fractions have been obtained from mouse parotid glands by a combination of differential centrifugation and isopycnic centrifugation in discontinuous sucrose gradients. The membranes were characterized by enzymic, chemical and morphological criteria. The effect of isoproterenol, which induces parotid acinar cells to proliferate, upon sialic acid and five different enzyme activities located in the plasma membrane phosphodiesterase (EC 3.1.4.1), Mg2+-ATPase (EC 3.6.1.4), leucine aminopeptidase (EC 3.4.1.1), protein kinase (EC 2.7.1.37) and sialyltransferase (EC 2.4.99.1), were quantified along the cell cycle. Plasma membrane sialic acid content falls 30% within 30 min and remains depressed for at least 6 h with the major restoration towards normal levels occurring between 12 and 16 h later. In contrast multiple daily isoproterenol injections lead to a more than 2-fold elevation of sialic acid content. Sialyltransferase activity rises 2-fold by 12 h after isoproterenol treatment and then rapidly falls. This enzyme has a pH optimum of 6.5, requires a divalent cation for activity and is inhibited by Triton X-100. Other enzyme activities showed markedly different changes after isoproterenol stimulation, either increasing, decreasing or remaining unaltered. These continuous functional modifications suggest an active role of the plasma membrane in the control of the proliferative cycle.     

Influence of superior cervical ganglion stimulation frequency on salivary secretion in the rabbit. Comparative study of parotid and mandibular glands

Saliva secretion in response to the stimulation of the superior cervical ganglion (S.C.G.) at different frequencies (2, 3, 5, 10, 15, 20 Hz) has been studied in anaesthetized rabbits. The differences between the two major glands in this species were analyzed, with respect to the flow response, potassium, amylase and total protein content during the sympathetic stimulation. The stimulation of S.C.G. increased the salivary flow rate at all frequencies, on both parotid and mandibular gland. In the parotid gland the flow and stimulation frequency show a positive linear correlation which does not appear in the mandibular gland. In conclusion, the differences observed in the response to sympathetic stimulation in both glands seem to be due to distinct patterns of sympathetic innervation on different glandular elements.     

The Short-Term Effects of A Single Injection of Isoproterenol On Proliferation In the Submandibular Gland, Parotid Gland and Oesophagus In Vivo

Abstract. Mitotic and labelling indices were studied in the submandibular, parotid and oesophageal cells of male mice within the first 6 hr (but particularly within the 1st hr) of a single injection of isoproterenol or saline, using the metaphase arrest agent (vincristine) which was previously tested for efficacy in submandibular gland. There was a significant increase in the metaphase index of the salivary glands over control values 5, 15, 30, 45 and 60 min after isoproterenol. In contrast, there were no significant changes in the metaphase index of basal cells of the oesophagus. There was no significant change in the labelling index in isoproterenol-treated mice in comparison with saline-injected control animals. Possible explanations for the rapid mitotic response in murine salivary glands are considered; a rapid efflux from G₂ into mitosis is thought to be the most likely.