Isolation and partial characterization of human parotid basic proteins

A new method for the isolation of histatins 1, 3, and 5 from parotid secretion using zinc precipitation

Histatins, a family of small-molecular-weight, histidine-rich cationic salivary proteins, have been difficult to isolate in an efficient way by conventional procedures due to their anomalous interactions with chromatographic resins. In the present study we explored the possibility of developing a new isolation procedure based on recent observations that histatins associate with various metal ions, including zinc. Since solubility studies showed that histatin 5 forms precipitates with zinc under alkaline conditions, we investigated whether this characteristic could be exploited for the preparative isolation of histatins from salivary secretions. A fast and efficient two-step procedure was developed using zinc precipitation of histatins from human parotid secretion followed by final purification using reversed-phase high-performance liquid chromatography (HPLC). Analysis of zinc precipitates by Tricine-SDS-PAGE, cationic PAGE, HPLC, and mass spectrometry revealed the presence of the three major histatins, 1, 3, and 5, as well as statherin. The histatin yield obtained by the precipitation step was approximately 90%. Therefore, zinc precipitation of histatins from glandular salivary secretions is a novel, rapid, and effective means for the isolation of these proteins.

Two coding change mutations in the HIS2(2) allele characterize the salivary histatin 3-2 protein variant

The decoded amino acid sequence of a salivary protein variant, histatin 3-2 (formerly termed Pb c), that is found primarily and in high frequency in Black populations was determined by genomic PCR and direct sequencing of the HIS2(2) allele. Two different mutations that cause coding changes were found in exon 5. The first mutation is a single nucleotide (T-->A) substitution that causes a TAT (Tyr)-->TAA (Stop) change at residue 28. This premature stop mutation results in a 27 amino acid histatin 3-2 protein, which is 5 amino acids smaller than the common histatin 3-1 allelic protein (a product of the HIS2(1) allele). The second mutation, a single nucleotide (G-->A) substitution (located only 19 nucleotides upstream of the first mutation) causes a CGA (Arg)-->CAA (Gln) change at residue 22, which eliminates a proteolytic cleavage site. These two mutations explain the differences in electrophoretic patterns of HIS2(1) versus HIS2(2) coded histatin peptides and may have functional significance. Each mutation alters a different DNA restriction site, and this provides a DNA-based test for the mutations. This test should greatly simplify population and family studies of this protein polymorphism, since the saliva-based test is considerably more problematic. Elucidation here of the derived protein sequence of the variant histatin 3-2 protein may also facilitate functional studies.

Rapid purification and characterization of histatins (histidine-rich polypeptides) from human whole saliva

Three different polypeptides capable of stimulating histamine release from mast cells were isolated from human whole saliva, using heparin-gel chromatography followed by reversed-phase HPLC. The amino acid sequences of these peptides were shown to be identical to those of histatins 1, 3 and 5.

Tissue distribution of RNAs for cystatins, histatins, statherin, and proline-rich salivary proteins in humans and macaques

The tissue distribution of the mRNAs for a number of salivary proteins [proline-rich proteins (PRPs), statherin, cystatins, and the histatins] has been examined in humans and macaques in order to investigate their possible functions and tissue-specific regulation. We have shown that PRP RNAs (0.8-1.5 kb) are expressed in human and rhesus parotid and submandibular glands, and in the human bronchus. The genes for the acidic and basic PRPs are differentially regulated in these tissues. RNAs for acidic PRPs are predominantly expressed in the submandibular gland, for basic PRPs in the respiratory tract, and for both acidic and basic PRPs in the parotid gland. Protein studies of secretions from these tissues confirm the RNA results. Statherin RNA (0.65 kb) was detected in human and rhesus parotid and submandibular glands and the human bronchus, as well as in rhesus lacrimal glands. Statherin was found by tissue immunoperoxidase staining in the serous cells of respiratory tract submucosal glands, which is the same location for the synthesis of PRPs. Several cystatin RNAs (0.8-1.3 kb) were differentially expressed in human parotid glands, submandibular glands, and the bronchus, and in lacrimal glands from both rhesus and cynomolgus macaques. RNAs (0.6 kb) for the histatins were found only in parotid and submandibular glands. Thus, it appears that PRPs, statherin, and cystatins may play a broader role in the physiology of biological fluids and secretions than previously suspected, since they are found in secretions other than saliva. However, the functions of the histatins are restricted to saliva. These studies also pose some interesting questions regarding the differential expression of these genes in a variety of secretory tissues.

Histatins, a family of salivary histidine-rich proteins, are encoded by at least two loci (HIS1 and HIS2)

We screened a human parotid gland cDNA library with mixed synthetic oligonucleotide probes representing a central coding region common to histatins 1 and 3. Sequence analysis of 12 histatin cDNA clones strongly suggests that the histatin protein family is encoded by at least two closely related loci (HIS1 and HIS2) such that histatins 1 and 3 are primary products of HIS1(1) and HIS2(1) alleles, respectively, and that histatins 4-6 are derived from histatin 3 by proteolysis. We present additional data indicating that histatin 2 may represent the non-phosphorylated form of histatin 1.

Effects of amines and polyamines on turbidimetric and lysoplate assays for lysozyme

The lysoplate and turbidimetric assays have often been used to measure lysozyme in biological fluids, such as blood and saliva. When the same purified lysozyme standard is used in both assays, results obtained with the lysoplate assay are much higher than those obtained for the same sample in the turbidimetric assay. It is likely, therefore, that other components in the biological fluid sample influence the expression of lysozyme activity in one or both assays to produce such divergent results. Certain amines or polyamines are found in various biological fluids and have the potential to influence the reactions in these two assay systems. It was the purpose of this study to incorporate selected amines and polyamines into purified lysozyme preparations and saliva or into the assay preparations to compare their effects on observed lysozyme activity between the two assay systems. Results showed that when the amine or polyamine was included in the purified sample, lysozyme activity was considerably greater than that of controls in the lysoplate assay, whereas a negligible effect was observed in the turbidimetric assay. If the amine or polyamine was incorporated into the assay preparation, results were more dramatic, with large increases in activity in the lysoplate assay and concomitant inhibition in the turbidimetric assay. Similar effects were observed in the assay of lysozyme in saliva, suggesting a potential mechanism by which the two assay systems produce markedly different results for the same sample.

Growth-inhibitory and bactericidal effects of human parotid salivary histidine-rich polypeptides on Streptococcus mutans

Growth inhibition and cell viability assays demonstrate that the histidine-rich polypeptides isolated from human parotid saliva are bacteriostatic and bactericidal for strains of Streptococcus mutans belonging to the serotype b and c classifications. Both inhibition of growth and cell division are enhanced by preincubation of bacteria with these polypeptides in low-ionic-strength buffers of acidic and neutral pH before dilution into enriched growth media. With prior exposure at pH 6.8, inhibition by these polypeptides of the serotype c strains, S. mutans GS5 and SB, as well as the serotype b strain, S. mutans BHT, is reversible over time under the experimental conditions selected. With similar exposure at pH 5.2, however, irreversible damage is manifested by complete inhibition of both growth and cell viability. At concentrations of 250 micrograms of the mixture of histidine-rich polypeptides per 5 X 10(5) bacterial cells per ml in the acidic preincubation buffer, bacterial lethality is maintained for a period of 48 h in the enriched growth media. At a 50-micrograms/ml concentration of these salivary agents, approximately 80% killing of S. mutans SB is noted after a 24-h incubation; however, surviving bacteria multiply and reach turbidities of untreated control cells when examined at the 48-h growth point. Similarly, hen egg white lysozyme is also found to be bactericidal for these microorganisms when preincubation is carried out under acidic conditions. However, in contrast to the histidine-rich polypeptides, lysozyme under these experimental conditions does not inhibit growth of S. mutans SB at neutral pH, although it does inhibit growth of both S. mutans BHT and S. mutans GS5 at this pH. Preexposure of S. mutans SB to the peptides in buffer at ionic strengths of 0.025 to 0.125, followed by either viability assays under nongrowing conditions or growth inhibition studies, suggests that there is very little effect of ionic strength on the antibacterial function of these peptides. In contrast to the inhibition of viability noted under growing conditions, lower concentrations of the histidine-rich polypeptides were required to elicit immediate cell death under nongrowing conditions.

Isolation of milligram quantities of a group of histidine-rich polypeptides from human parotid saliva

Freshly collected parotid saliva collected from human donors were shown by polyacrylamide gel electrophoresis to continuously secrete a group of low-molecular-weight cationic polypeptides. Up to 14 bands could be identified by Coomassie blue staining, and all bands migrated more rapidly than purified human leukemic lysozyme in cationic polyacrylamide gel electrophoresis. These peptides could be isolated as a group relatively free of other salivary components and recovered in high yields from concentrated parotid saliva by Sephadex G-25 chromatography. In sodium dodecyl sulfate gel electrophoresis, the histidine-rich polypeptide bands appeared as just two bands migrating at the tracking dye and ahead of insulin chain B. Amino acid analysis of the mixture revealed an average content of at least 48% cationic residues, of which half were histidine. When stained bands were eluted from electrophoretic gels, hydrolyzed, and subjected to amino acid analyses, they were found to be enriched in histidine. There was also a correlation of the electrophoretic mobility with the content of basic amino acids. Sephadex G-25 chromatography is a convenient, simple method for preparing milligram quantities of the histidine-rich polypeptides for chemical and biochemical studies.

Effect of human saliva on the fluoride sensitivity of glucose uptake by Streptococcus mutans

The fluoride (F) sensitivity of glucose uptake by whole cell suspensions of streptococcus mutans in the presence and absence of human whole salivary supernatant was studied. It was observed that dithiothreitol (DTT) and other thiols markedly reduced the F sensitivity of cells when saliva (50%, vol/vol) was present during glucose uptake. In the absence of saliva, cells were sensitive to 2 to 2.5 mM F regardless of the presence of thiols. Supplementation of cells in phosphate or tris(hydroxymethyl)aminomethane-hydrochloride buffers with physiological concentrations of calcium or phosphate had no effect on the F sensitivity of the organism. Experiments with permeabilized cells suggested that thiols themselves had no direct effect on the F sensitivity of enolase (a principal F target). Cells pretreated with DDT subsequently exhibited decreased F sensitivity when examined in the presence of saliva but not in the absence of saliva. Cells pretreated with whole salivary supernatant were found to be subsequently less sensitive to F in the absence of saliva during glucose uptake. Furthermore, in cases where cells were pretreated with saliva, subsequent additions of DDT were unnecessary to obtain maximal reduction in the F sensitivity of glucose uptake. It was concluded that the saliva-dependent reduction in F sensitivity of glucose uptake was not due to sequestration of available F by salivary constituents. The data suggest that a salivary component(s) interacts directly with the microorganism in some manner which results in reduced F sensitivity of the process under study. Possible mechanisms of saliva action are discussed.

Polymorphism of Ps (parotid size variant) and detection of a protein (PmS) related to the Pm (parotid middle band) system with genetic linkage of Ps and Pm to Gl, Db, and Pr genetic determinants

Genetic polymorphism of the Ps (parotid size variant) proteins found in saliva is determined by autosomal inheritance of two expressed and one unexpressed allele. This hypothesis is supported by studies in 43 families including 153 children. Gene frequencies determined for 150 randomly collected salivas from whites and 101 randomly collected salivas from blacks are as follows: for whites, Ps1 = 0.598, Ps2 = 0.101, Ps0 = 0.301; for blacks, Ps1 = 0.185, Ps2 = 0.126, and Ps0 = 0.689. The electrophoretic polymorphism is manifested by apparent differences in molecular weights between Ps proteins. The Ps proteins are glycosylated and have an approximate isoelectric point of pI 8.1 as determined by isoelectric focusing in gels. We have also found in saliva the presence of a protein (PmS) which shows strong positive correlations with the presence of the smaller sized Pm (PmF) salivary protein described by Ikemoto et al. (1977). This suggested that PmS is probably part of the Pm protein polymorphic system. For randomly collected salivas from whites, the gene frequencies are PmF+ = 0.15 (N = 140) and PmS+ = 0.12 (N = 150). For randomly collected salivas from blacks, the gene frequency is PmS+ = 0.24 (N = 101). The gene frequency of PmF+ was not determined. Family studies support autosomal inheritance of PmF and PmS.

Genetic variation in parotid basic proteins (Pb) in the Bozo (Mali, West Africa)

The frequency of variants in the Pb system was studied in 71 individuals from the Bozo tribe in the Bani-Niger area (Mali, West Africa), in 25 male students from different African countries, and in 110 Dutch students. The frequency of the Pb2 allele was 0.20 in the Bozo and 0.00 in the Dutch population. A comparison is made with the results of a study among American blacks and with a Japanese study. The Pb 2--2 phenotypes observed in this study favour the hypothesis that the Pb-2 c protein is derived from a larger precursor in a manner analogous to the generation of the Pb-1 b protein from Pb-1 protein e.

Genetic protein polymorphisms in human saliva: an interpretive review

The purpose of this review is to summarize recent progress in the field of genetic protein polymorphisms found in human saliva since 1972. Prior to 1972 most of the investigations were related to amylase. The genetics of salivary amylase will not be considered here, since it has recently been thoroughly reviewed elsewhere (Merritt and Karn, 1977). In this review, special attention will be devoted to the complex interrelationships of the proline-rich (Pr), double-band (Db), acidic protein (Pa), and peroxidase (SAPX) systems. The biochemically related Pr, Db, and Pa systems show distinctive genetic patterns, and there are associations between the phenotypes indicating linkage relationships. There is also evidence for probable interaction of products of the Pa and SAPX loci. Electrophoretic properties of these proteins can be defined in several gel systems, permitting an accurate definition of phenotypes. The usefulness and limitations of the different gel systems in the interpretation of these electrophoretic patterns will be illustrated. Allelic frequencies of the systems to be discussed are given in Table I. To aid comprehension, the systems will be discussed in logical rather than historical sequence.

Human Pb, human post-Pb, and nonhuman primate Pb proteins: immunological and biochemical relationships

The isolation and characterization of a protein from human parotid saliva termed the "post-Pb protein" is described. By several criteria, this protein is closely related to the human Pb proteins. When reacted against antisera to human Pb protein in double diffusion, the post-Pb protein is found to be related to the Pb proteins by lines of identity. However, when the partial N-terminal amino acid sequences of the post-Pb protein and Pb proteins are compare, the sequences are not identical. Because of the similarity in size of the Pb and post-Pb proteins and because of the observed sequence differences, any product-precursor relationship between the Pb and post-Pb proteins is unlikely. The post-Pb protein probably is the product of a genetic locus different from the Pb locus. Two additional species of nonhuman primates (Papio papio and P. sphinx) have been found to have Pb proteins electrophoretically similar to these found in the rhesus monkey and differing from those in the human. The isolated Pb proteins of the rhesus monkey have been found to have close biochemical and immunological relationships to the human Pb proteins.