The presence and origin of phosphopeptides in human saliva.

The presence of phosphopeptides in whole saliva (saliva expectorated from the mouth) was demonstrated and their origin was evaluated. Whole saliva contained much larger numbers of small phosphopeptides than are found in the glandular secretions. Most of these originated from the acidic proline-rich proteins (PRPs) in the major salivary glands and were formed, after secretion into the oral cavity, as a result of rapid degradation by proteolytic enzymes from extraglandular sources contained in sediment from whole saliva. Some peptides may have been formed by cleavage of basic PRPs, but other phosphoproteins apparently contributed little to the observed phosphopeptides. Most of the enzymes that produced phosphopeptides are serine proteinases. The gel-electrophoretic band patterns of the phosphopeptides obtained from 26 individuals of various acidic-PRP phenotypes were remarkably similar, demonstrating that the enzymes responsible were generally present in the population surveyed and that similar cleavages occur regardless of the nature of the acidic PRPs. Many of these peptides were N-terminal proteolytic cleavage products of acidic PRPs. The N-terminal phosphorylated region of acidic PRPs contains various biological activities, such as inhibition of hydroxyapatite formation, calcium binding and binding to hydroxyapatite, the major mineral of teeth. The demonstration of these phosphopeptides in the saliva that is in contact with the oral surface may therefore be of biological importance.     

Human saliva as a source of biochemical genetic markers. I. Techniques.

The number of genetic markers identified in human saliva is still small compared to known genetic markers of blood. Enzyme activities that can be detected in human saliva by spectrophotometric techniques are listed. The methodologies currently available for the detection of biochemical genetic markers by polyacrylamide-gel electrophoresis are summarized.     

Genetic variability of blood and saliva antigens and serum proteins among subtribes of Mali from Andhra Pradesh, India.

The subtribes of Mali viz. Manzai Mali and Bod Mali of Andhra Pradesh, India, were screened for A1A2B0, Rhesus (CcDEe) and MN blood groups, ABH saliva secretion and plasma proteins, namely haptoglobin, transferrin, caeruloplasmin and albumin. The genetic differences between the two subtribes are marginal and not significant except for ABH saliva secretion and plasma haptoglobin. Our observations suggest that the isolation of these two subtribes cannot date long back.     

Insight into watery saliva proteomes of the grain aphid,Sitobion avenae

The grain aphid, Sitobion avenae, is an economically important cereal pest worldwide. Aphid saliva plays an essential role in the interaction between aphids and their host plants. However, limited information is available regarding the proteins found in the saliva of S. avenae. Here, the watery saliva proteins from S. avenae were collected in an artificial diet and identified using a liquid chromatography–mass spectrometry/mass spectrometry analysis. A total of 114 proteins were identified in S. avenae saliva, including several enzymes, binding proteins, and putative effectors, as well as other proteins with unknown functions. In comparison with salivary proteins from nine other aphid species, the most striking feature of the salivary protein from S. avenae was the different patterns of protein functions. Several orthologous proteins secreted by other aphid species such as glucose dehydrogenase, elongation factors, and effector C002 were also detected in S. avenae saliva and speculated to play a significant role in aphid–plant interactions. These results provide further insight into the molecular basis between aphids and cereal plant interactions.     

Salivary proline-rich proteins

Summary Proline-rich proteins are major components of parotid and submandibular saliva in humans as well as other animals. They can be divided into acidic, basic and glycosylated proteins. The primary structure of the acidic proline-rich proteins is unique and shows that the proteins do not belong to any known family of proteins. The proline-rich proteins are apparently synthesized in the acinar cells of the salivary glands and their phenotypic expression is under complex genetic control.The acidic proline-rich proteins will bind calcium with a strength which indicates that they may be important in maintaining the concentration of ionic calcium in saliva. Moreover they can inhibit formation of hydroxyapatite, whereby growth of hydroxyapatite crystals on the tooth surface in vivo may be avoided. Both of these activities as well as the binding site for hydroxyapatite are located in the N-terminal proline-poor part of the protein. Little is known about the functions of the glycosylated and basic proline-rich proteins.     

Evidence of protease in the saliva of the butterfly Heliconius melpomene (L.) (Nymphalidae, Lepidoptera)

Butterflies of the genus Heliconius are well known for their peculiar habits of utilizing pollen as a source of amino acids. Saliva plays a major role in the process of extracting amino acids and proteins from the pollen grains. In this investigation, we obtained samples of saliva from adult Heliconius melpomene by placing pumpkin pollen or fine glass-beads on the proboscis, which stimulates the butterflies to release saliva. Proteolytic activity was determined in the saliva by an insoluble protein-dye that turns blue when cleaved by proteases. Its extinction value was measured with a spectrophotometer at 595 nm. Both the saliva sampled with pollen and the saliva obtained from inert glass-beads exhibit proteolytic activity demonstrating that the saliva contains proteases. The proteolytic activity of the pollen/saliva samples was higher than that of the glass-bead/saliva samples, which we attribute to the stimulating effects of pollen, such as taste, smell, and texture, and not to proteases which might have been liberated from the pollen. This is indicated by the fact that pollen samples without saliva showed only a negligible indication for proteolytic activity. In general, females exhibit higher proteolytic activities than males, presumably due to their greater amino acid investment in reproduction. We present here first evidence for the existence of proteases in the saliva of a butterfly species and suggest that these enzymes are crucial for the use of amino acids and proteins from pollen in Heliconius butterflies.     

Proteome Analysis of Watery Saliva Secreted by Green Rice Leafhopper,Nephotettix cincticeps

The green rice leafhopper, Nephotettix cincticeps, is a vascular bundle feeder that discharges watery and gelling saliva during the feeding process. To understand the potential functions of saliva for successful and safe feeding on host plants, we analyzed the complexity of proteinaceous components in the watery saliva of N. cincticeps. Salivary proteins were collected from a sucrose diet that adult leafhoppers had fed on through a membrane of stretched parafilm. Protein concentrates were separated using SDS-PAGE under reducing and non-reducing conditions. Six proteins were identified by a gas-phase protein sequencer and two proteins were identified using LC-MS/MS analysis with reference to expressed sequence tag (EST) databases of this species. Full -length cDNAs encoding these major proteins were obtained by rapid amplification of cDNA ends-PCR (RACE-PCR) and degenerate PCR. Furthermore, gel-free proteome analysis that was performed to cover the broad range of salivary proteins with reference to the latest RNA-sequencing data from the salivary gland of N. cincticeps, yielded 63 additional protein species. Out of 71 novel proteins identified from the watery saliva, about 60 % of those were enzymes or other functional proteins, including GH5 cellulase, transferrin, carbonic anhydrases, aminopeptidase, regucalcin, and apolipoprotein. The remaining proteins appeared to be unique and species- specific. This is the first study to identify and characterize the proteins in watery saliva of Auchenorrhyncha species, especially sheath-producing, vascular bundle-feeders.     

Sampling Human Indigenous Saliva Peptidome Using a Lollipop-Like Ultrafiltration Probe: Simplify and Enhance Peptide Detection for Clinical Mass Spectrometry

Although human saliva proteome and peptidome have been revealed ^1-2 they were majorly identified from tryptic digests of saliva proteins. Identification of indigenous peptidome of human saliva without prior digestion with exogenous enzymes becomes imperative, since native peptides in human saliva provide potential values for diagnosing disease, predicting disease progression, and monitoring therapeutic efficacy. Appropriate sampling is a critical step for enhancement of identification of human indigenous saliva peptidome. Traditional methods of sampling human saliva involving centrifugation to remove debris ^3-4 may be too time-consuming to be applicable for clinical use. Furthermore, debris removal by centrifugation may be unable to clean most of the infected pathogens and remove the high abundance proteins that often hinder the identification of low abundance peptidome.Conventional proteomic approaches that primarily utilize two-dimensional gel electrophoresis (2-DE) gels in conjugation with in-gel digestion are capable of identifying many saliva proteins ^5-6. However, this approach is generally not sufficiently sensitive to detect low abundance peptides/proteins. Liquid chromatography-Mass spectrometry (LC-MS) based proteomics is an alternative that can identify proteins without prior 2-DE separation. Although this approach provides higher sensitivity, it generally needs prior sample pre-fractionation ⁷ and pre-digestion with trypsin, which makes it difficult for clinical use. To circumvent the hindrance in mass spectrometry due to sample preparation, we have developed a technique called capillary ultrafiltration (CUF) probes ^8-11. Data from our laboratory demonstrated that the CUF probes are capable of capturing proteins in vivo from various microenvironments in animals in a dynamic and minimally invasive manner ^8-11. No centrifugation is needed since a negative pressure is created by simply syringe withdrawing during sample collection. The CUF probes combined with LC-MS have successfully identified tryptic-digested proteins ^8-11. In this study, we upgraded the ultrafiltration sampling technique by creating a lollipop-like ultrafiltration (LLUF) probe that can easily fit in the human oral cavity. The direct analysis by LC-MS without trypsin digestion showed that human saliva indigenously contains many peptide fragments derived from various proteins. Sampling saliva with LLUF probes avoided centrifugation but effectively removed many larger and high abundance proteins. Our mass spectrometric results illustrated that many low abundance peptides became detectable after filtering out larger proteins with LLUF probes. Detection of low abundance saliva peptides was independent of multiple-step sample separation with chromatography. For clinical application, the LLUF probes incorporated with LC-MS could potentially be used in the future to monitor disease progression from saliva.     

Rheological aspects of mucin-containing solutions and saliva substitutes.

In this study rheological properties of aqueous solutions of mucin, albumin and mucin-albumin have been investigated in search for saliva substitutes. They were compared with commercially available saliva substitutes on the one hand and natural human saliva on the other hand. For the latter a few measurements on saliva are reported here in addition to previously reported measurements done in our laboratory. Proteins absorb at the interface and saliva proteins do so strongly and rapidly. Therefore rheological measurements were carried out on the interface and on the bulk underneath the layer. In both cases the flow curve and the complex viscosity was determined. The results show that specific mucin-albumin solutions were rheologically similar to human whole saliva with respect to both bulk liquid and surface properties. The rheological properties of commercial saliva substitutes were essentially different from those of human saliva. It is concluded that mucin-albumin solutions have good perspectives as saliva substitutes.     

Enkephalin-degrading enzymes and their inhibitors in human saliva

The possible presence of enzymes able to hydrolyze leucine enkephalin has been investigated in human saliva. The data obtained indicate that, in the presence of saliva, Leu-enkephalin is partially hydrolyzed. The disappearance of the substrate is paired with the formation of hydrolysis byproducts whose composition indicates the presence of all three classes of enzymes known to hydrolyze enkephalins: aminopeptidases, dipeptidylaminopeptidases, and dipeptidylcarboxypeptidases. The presence of low molecular weight substances with inhibitory activity on proteolytic enzymes has also been detected. These substances are active on all three classes of enkephalin-degrading enzymes, although the inhibition is more evident on dipeptidylpeptidases than on aminopeptidases. Substrate degradation was found to be higher in male than in female saliva: this seems to be caused by the activities both of enzymes and low molecular weight inhibitors that are different in the two sexes.     

Tissue and species distribution of the secreted carbonic anhydrase isoenzyme.

The secreted carbonic anhydrases, CA VI, are high molecular mass, oligomeric enzymes originally found in the sheep parotid gland and saliva. The enzymes have been purified from the saliva or parotid glands of several different species. All the CA VI enzymes studied have an apparent subunit Mr of about 45,000 as previously reported for the sheep enzyme. By Western analysis, CA VI from human, cow and dog cross-reacted with antibody raised against the purified sheep enzyme whereas that of the mouse did not. The N-terminal sequences of the sheep, human, cow and mouse enzymes are reported. The sheep, cow and human N-terminal sequences are similar to one another while the mouse sequence is substantially different. Nevertheless, the amino acids in the aromatic cluster I (Trp-5, Tyr-7, Trp-16 and Tyr/Phe-20) have all been conserved, as is the case with the cytoplasmic carbonic anhydrases. Eighteen tissues from the sheep have been examined for the presence of CA VI by Western analysis but it has been found only in the salivary glands. Northern analysis and hybridization histochemistry show that the mRNA for CA VI in sheep is expressed specifically in the acinar cells of the parotid and submandibular glands.     

Immunological comparison of proline-rich proteins from human and primate parotid secretion.

Antisera raised in response to proline-rich proteins purified from parotid secretions of man and the primate Macaca fascicularis were employed to investigate the interrelationships of these proteins by immunodiffusion, immunoelectrophoresis and the combined use of disc gel acrylamide electrophoresis with radial immunodiffusion. The major human proline-rich proteins, PRP I, PRP II, PRP III and PRP IV as well as several minor proline-rich proteins cross-react with antiserum to PRP I or PRP III. Similarly primate parotid saliva contains several components cross-reacting with antiserum directed against a purified primate proline-rich protein, MPRP. Antiserum to PRP I or PRP III cross-reacted with MPRP and primate parotid saliva protein, whereas antiserum to MPRP cross-reacted only with human parotid saliva protein and not with the isolated human proline-rich proteins. The immunological relationships of these salivary proline-rich proteins within and between species suggest their origin from a common precursor molecule.     

Larval saliva in Drosophila melanogaster: production, composition, and relationship to chromosome puffs.

Drosophila melanogaster salivary glands produce a mucoprotein-containing saliva in the third larval instar. At the time of prepupa formation, the protein component of the saliva is more than 30% of the total gland protein. Electrophoresis of reduced and alkylated saliva proteins in acrylamide gels yields four saliva-specific fractions. Two protein fractions contain strongly linked sugar. The molecular weights of the proteins were ascertained in SDS-acrylamide gels. Molecular weights for two sugar-free fractions were found to be 12 × 10³ and 23 × 10³ and, for one fraction containing little sugar, it probably lies below 100 × 10³. The variability of saliva proteins in 67 wild types of D. melanogaster were investigated. With the help of transplantation experiments, it was shown that the salivary glands synthesize saliva autonomously. Saliva proteins could be electrophoretically demonstrated earliest in the salivary glands of 86- to 88-hr-old larvae. After saliva is discharged from the gland lumen at the beginning of prepupa formation, the glands produce another type of saliva during the entire prepupal stage and also secrete it into the gland lumen. The chromosome puffs in section 3C of the X chromosome and in section 68C in the third chromosome show a behavior that is positively correlated with larval saliva synthesis.     

Genetics and biochemistry of phenol degradation byPseudomonas sp. CF600

Pseudomonas sp. strain CF600 is an efficient degrader of phenol and methylsubstituted phenols. These compounds are degraded by the set of enzymes encoded by the plasmid locateddmpoperon. The sequences of all the fifteen structural genes required to encode the nine enzymes of the catabolic pathway have been determined and the corresponding proteins have been purified. In this review the interplay between the genetic analysis and biochemical characterisation of the catabolic pathway is emphasised. The first step in the pathway, the conversion of phenol to catechol, is catalysed by a novel multicomponent phenol hydroxylase. Here we summarise similarities of this enzyme with other multicomponent oxygenases, particularly methane monooxygenase (EC 1.14.13.25). The other enzymes encoded by the operon are those of the well-knownmeta-cleavage pathway for catechol, and include the recently discoveredmeta-pathway enzyme aldehyde dehydrogenase (acylating) (EC 1.2.1.10). The known properties of thesemeta-pathway enzymes, and isofunctional enzymes from other aromatic degraders, are summarised. Analysis of the sequences of the pathway proteins, many of which are unique to themeta-pathway, suggests new approaches to the study of these generally little-characterised enzymes. Furthermore, biochemical studies of some of these enzymes suggest that physical associations betweenmeta-pathway enzymes play an important role. In addition to the pathway enzymes, the specific regulator of phenol catabolism, DmpR, and its relationship to the XylR regulator of toluene and xylene catabolism is discussed.     

A catalogue of human saliva proteins identified by free flow electrophoresis-based peptide separation and tandem mass spectrometry

Human saliva has great potential for clinical disease diagnostics. Constructing a comprehensive catalogue of saliva proteins using proteomic approaches is a necessary first step to identifying potential protein biomarkers of disease. However, because of the challenge presented in cataloguing saliva proteins with widely varying abundance, new proteomic approaches are needed. To this end, we used a newly developed approach coupling peptide separation using free flow electrophoresis with linear ion trap tandem mass spectrometry to identify proteins in whole human saliva. We identified 437 proteins with high confidence (false positive rate below 1%), producing the largest catalogue of proteins from a single saliva sample to date and providing new information on the composition and potential diagnostic utility of this fluid. The statistically validated, transparently presented, and annotated dataset provides a model for presenting large scale proteomic data of this type, which should facilitate better dissemination and easier comparisons of proteomic datasets from future studies in saliva.     

Variabilité biochimique et génétique de Sphaeroma ghigii,S. hookeri et S. serratum. Variations intraspécifiques

Electrophoresis on polyacrylamide gel of enzymes (esterases, phosphatases) and total proteins of Sphaeroma ghigii, S. hookeri and S. serratum shows the existence of important intraspecific variability. Esterases, alkaline phosphatases and major low ionic strength extractable proteins also demonstrate quantitative and qualitative differences between individuals; these differences are the expression of protein and enzyme polymorphism. Some of these variations represent sexual differences which are an expression of a biochemical sexual dimorphism that appears particularly in esterases and phosphatases. Among males, this variability leads to the delineation of several biochemical phenotypes and gives an insight into the genetic variability of populations based on the protein composition of organisms. Taking into consideration the ecological characteristics of the various species of genus Sphaeroma, this polymorphism provides a source of information on ecophysiological relations at the level of proteins and enzymes, that may lead to a better understanding of intraspecific variability.     

Salivary enzyme polymorphisms (Set, Sgd and AMY1) in the Galician population

The genetic polymorphism of three salivary enzymes (esterase, glucose-6-phosphate dehydrogenase and amylase) was studied in 580 autochthonous individuals from the Galician population (North-West Spain). The gene frequencies obtained were: SetF = 0.4036, SetS = 0.5964; Sgd1 = 0.7828, Sgd2 = 0.2172; AMY11 = 0.9319, AMY21 = 0.0495, AMY31 = 0.0186. Evidence of genetic intrapopulational heterogeneity was found for Set and Sgd loci. An alternative method for AMY1 typing by means of isoelectric focusing is proposed which allows the use of long-term stored saliva samples.