Jeanne M. Iversen

Changes in Rat Parotid Salivary Proteins Induced by Chronic Isoproterenol Administration

Changes in the rat parotid gland and its secretion, brought about by chronic isoproterenol administration, were studied. In addition to the expected enlargement, morphological and biochemical analyses of the glands showed evidence of changes in the secretory components. Chromatographic and electrophoretic experiments revealed both qualitative and quantitative changes in the secretory proteins.

The protein composition of rat parotid saliva and secretory granules.

Rat parotid saliva was collected by surgical cannulation of the ducts and stimulation with pilocarpine; The secreted salivary proteins were resolved on columns of DEAE-Sephadex into five major Fractions, I-V, which were characterized by polyacrylamide disc gel electrophoresis, amino acid analyses and enzymatic assay. Rat parotid secretory granules were isolated by density gradient centrifugation and lysed in hypotonic buffers. Granule content proteins were resolved and examined by the same techniques as for secreted proteins. In both experiments, Fraction I contained RNAase and a major unidentified protein, M1, Fraction II contained the isoenzymes of amylase; DNAase was present in Fraction III and, to a lesser degree, in Fraction IV. The proportions of the enzyme-containing peaks were the same in saliva and granule contents. Fractions IV and V contain proteins of unknown function; Fraction IV contains exceptionally high levels of glutamic acid, glycine and proline in its protein moieties and approx. 6-8% neutral sugars.

Anti-infectivity activity of human salivary secretions toward human immunodeficiency virus.

The purpose of this investigation was to adapt an MT-2 cell syncytium-forming assay for measuring anti-infectivity activity of salivary secretions toward HIV and to determine the distribution of this activity in a population of healthy adult subjects. Whole saliva samples were collected from 27 volunteers, who reported that they did not belong to any group at high risk for HIV infection, and tested for anti-infectivity activity using the syncytium-forming assay. Nine of these subjects were subsequently retested on one or more occasions to assess the variability in appearance of this activity. Parotid and extraparotid salivas of six subjects were also tested. Samples were frozen immediately after collection and submitted in blinded fashion for quantitation of their anti-HIV activity using a syncytia-forming MT-2 cell assay or the p24 antigen ELISA. Nine out of the 27 subjects showed detectable anti-HIV infectivity activity. One parotid sample and one extraparotid sample out of four from subjects with positive whole salivas were positive and none of the parotid or extraparotid samples from two subjects with negative whole salivas were positive. The inhibitory activity ranged from 0.5 to 1 log 10 TCID50/ml and could not be correlated with total protein content in saliva or any specific electrophoretic component. Filtration of the saliva through an Amicon 10 filter before incubation with the virus abolished the activity. Similar studies using two other biological fluids, urine and cerebrospinal fluid, revealed no anti-HIV infectivity activity. These findings confirm the presence in saliva of inhibitory activity directed toward HIV.

Isolation and characterization of the basic proline-rich proteins from rat parotid saliva

Five fractions of basic proline-rich proteins were isolated from rat parotid saliva, obtained by surgical cannulation of the ducts. The purification procedures employed DEAE-Sephadex to isolate a heterogeneous break-through fraction containing the basic proline-rich proteins, followed by gel filtration on Sephadex G-200 to separate the high molecular weight glycoprotein, fraction A, from the other basic proline-rich proteins which were resolved into four additional fractions, SP-1 to SP-4, by ion exchange chromatography on SP-Sephadex. The proteins differed in their amino acid composition and content of neutral and amino sugars. All the proteins were characterized by a high proportion of proline (approx. 40 mol per cent) and glycine (11-23 mol per cent). Four of the fractions were also enriched in glutamic acid/glutamine (19-26 mol per cent). The exception was fraction SP-4, which contained lower levels of glutamic acid/glutamine and has no counterpart in human basic proline-rich proteins. Fraction A, the basic glycoprotein, was heavily glycosylated (59 mol per cent), whereas SP-2 and SP-4 were less glycosylated. Fractions SP-1 and SP-3 contained low levels of neutral and amino sugars. Basic proline-rich proteins constitute a smaller percentage of the total protein in rat parotid saliva than they do in human parotid saliva (10.5 versus 40 per cent). Rat basic glycoprotein fraction constitutes less than 1 per cent whereas the human glycoprotein fraction constitutes 17 per cent. Rat basic proline-rich proteins appear to be larger and less basic than most of the human basic proteins, and they resolve into fewer protein fractions (4 versus 9) with SP-Sephadex chromatography.

Isolation and partial characterization of two populations of secretory granules from rat parotid glands

SummaryA method is described for the isolation of two populations of secretory granules from rat parotid glands utilizing differences in their sedimentation characteristics. The granule preparations were analyzed for homogeneity by electron microscopy and chemical analyses. The soluble contents of both types of granules were obtained by hypotonic lysis, and the proteins compared by SDS-PAGE and ion exchange-gel filtration chromatography. Both populations of secretory granules appear to have the same protein composition as that of the parotid saliva. The secretory granules with the smaller apparent buoyant density became labelled with radioactive leucine earlier than the heavier granules when a pulse of this amino acid was supplied to a gland slice system. The lighter granules appear to represent an earlier stage in maturation.

Demonstration of a class of proteins loosely associated with secretory granule membranes

It is shown, in this study, that rat secretory granule membrane preparations, as prepared by the method of Amsterdam et al. [(1971) J. Cell Biol. 50, 187-200], contain a protein fraction which is removed by washing in isotonic medium. This fraction contains unusually high levels of Pro, Gly and Glx, and appears to label rapidly if the rats are pulsed with [14-c] amino acids prior to removal of the glands. The fraction, which may represent specifically adsorbed secretory protein(s) or peripheral membrane protein, is significant to investigators using this model system to study secretory phenomena.

Isolation and partial characterization of secretory granule membranes from the rat parotid gland

Abstract Secretory granule fractions prepared by the Urografin gradient method of Kirshner et al . ( Analyt. Biochem . 52 , 589–594) demonstrate an impressive degree of purity as judged by electron-microscopic appearance and chemical and enzymic analyses. Granule membrane preparations, obtained by hypotonic lysis of the secretory granules followed by simple sedimentation of the particulate material, were seen to be significantly contaminated by mitochondria, unlysed granules and other debris. In an effort to improve the purity of the membranes, lysed granules were subjected to discontinuous sucrose-density centrifugation, resulting in the recovery of 3 fractions, one of which contained membrane fragments, free of contamination by other organelles and debris. This membrane fraction, as well as the other two fractions, were characterized with respect to ultrastructural appearance, amino-acid composition and presence of loosely associated proline-rich proteins. The results indicate that previously reported characteristics of rat parotid secretory granule membranes are inaccurate due to the organelle contamination demonstrated in this study.

MATURATION-RELATED CHANGES IN MASS AND ELEMENTAL CONTENTS OF SECRETORY GRANULES AS MEASURED BY ELECTRON-MICROPROBE

SummaryThe relationship between granule density, protein content, and Ca and S contents were studied in two secretory granule fractions, from parotid glands of the rat, previously shown to constitute different stages in granule maturation. The density of the lighter fraction was between 1.133 and 1.142 g/ml, while that of the heavier fraction was greater than 1.142 g/ml. The mean protein content of the denser granules was 12% greater than that of the lighter granules (P<0.03), while the dry-mass elemental concentrations in the two granule fractions were unchanged. These results indicate that protein is added to granules during the maturation process (presumably by vesicular traffic), and that the resulting increase in granule density is not driven simply by decrease in water content and/or increased concentrations of inorganic Ca or S in the granules. The elemental concentration values also indicate that the diffusible elements permeate the granule membrane during the fractionation procedures.

Inhibition of synthesis of rat parotid secretory proteoglycan in a gland slice system.

The chondroitin sulphate contained within the secretory granules of the rat parotid gland and its saliva was shown to be in the form of a proteoglycan by using inhibitors of proteoglycan synthesis in a gland slice system. Gland slices were incubated in either p-nitrophenyl-beta-D-xyloside or chlorate in the presence of both [3H]-leucine and [35S]-sulphate. The slices were next homogenized and either the 250 g supernatant fraction (for initial experiments) or secretory granule-containing fractions were isolated. Protein and proteoglycans of these fractions were precipitated in 10% trichloracetic acid (TCA), and glycosaminoglycans in cetylpyridinium chloride. [3H]-leucine and [35S]-sulphate were quantitated in each type of precipitate by scintillation counting. The results showed that 1 mM xyloside had no effect on protein or glycosaminoglycan synthesis but blocked incorporation of radiosulphate into TCA-precipitable material. Sixteen mM chlorate almost totally inhibited incorporation of radiosulphate into glycosaminoglycan and TCA-precipitable material. These findings demonstrate that the rat parotid secretory chondroitin sulphate is indeed a proteoglycan because its synthesis is blocked by the protein-core analogue acceptor, p-nitrophenyl-beta-D-xyloside. This system offers opportunities for exploring the functional role of chondroitin sulphate proteoglycan in this salivary gland.