The native human saliva obtained through the centrifugation of whole saliva showed characteristic salivary protein complex (SPC) peaks in gel filtration high performance liquid chromatography (HPLC) using Superose 12 column1,2). In the previous study the SPC peaks in chromatography were explored to know their composition and functions by different detection methods, but still the nature of SPCs was not clearly elucidated so far. In this study the SPC peaks were examined by direct antibody interaction in order to target different antimicrobial and protective proteins distributed in the SPCs via gel filtration HPLC. As the SPC peak shape and migration speed can be changed by antibody binding to specific proteins of SPC, it was found that mucin1 is evenly distribution in all SPCs, while PRPs are more abundant in the late dominant SPC than the early dominant SPC and also in the intermediated SPCs. Most of antimicrobial proteins including lysozyme, LL-37, lactoferrin, β-defensin-1, -2, -3, IgA, mucocidin, and α1-antitrypsin were more abundant in the late dominant SPC than the early dominant SPC, while histatin showed relatively even distribution in all SPCs. Therefore, it was presumed that the late dominant SPC containing abundant antimicrobial and protective proteins could be applied as a biomarker to measure the defensive potential of whole saliva in oral diseases.
Human saliva contains a large number of proteins and peptides whose composition may alter as a consequence 。f disease. To date. however‘ the proteins and peptides that routinely populate thi s ora l fluid a re largely unknown To provide a catalogue of saliva proteins, we have surveyed the unstimulated human whole saliva by us ing shotgun proteornics. For the shotgun approach, whole saliva proteins were digested into peptides with ChemDigestD ‘ and the resul ting peptide fragments were separated by RP-HPLC, followed by each fraction was t ryptic digestion. ChemDigestD-Trypsin digested peptides were analyzed by tandem mass spectrometry(MS/MS) us ing a nano-LC eq 버 pped quadrupole-time of f1ight mass spectrometer, and the obtained spectra were searched against human protein seq uence data base using MASCOT. Shotgun proteomics allowed a total of 291 human pr。 teins to be confidently assigned . The largest group(17 .2%) of the identified proteins sorted into functional catego ries was included in t he signal t ransduction funct ion except for the hypothetical 0 1' unknown function. This work provides a valuable s ta rting point for the analysis of human salivary proteins and their biological functions and candidates from human whole sali va that may prove to be of diagnostic and therapeutic significance
Human saliva conta ins a la rge number of proteins and peptides whose composition may alter as a conseq uence of disease. '1'0 date‘ however. the proteins and peptides that routinely populate t his oral fluid are largely unknown, '1'0 provid e a ca ta logue 이, sali va protei ns. we have surveyed the unstimulated human whole saliva by using shotgun proteomics. F'or the shotgun a pproach‘ whole sali va proteins were digested into peptides with ChemDigestD and the res ulting pe ptide fragments were sepa rated by RP- HPLC, followed by each fraction was tryptic di gestion ChemDiges tD- Trypsin diges ted pe pt ides were analyzed by tandem mass spectrometry (MS!MS) using a nano-LC equi pped quadru po le-time of fli ght rnass spect rometer, and the obtained spectra were searched against human protein sequence da tabase us ing MASCOT Shotgun proteomics a llowed a total of 291 human proteins to be confidently assigned. The largest gro u p (17 , 2%) of the identifi ed proteins sorted into functional categories was included in the s ignal transducti on function except for the hypothet ical or unknown functio n, This work provides a valuable starting point for the ana lys is of human sa l i va ry protei ns a nd theil‘ biological functions and candidates from human whole saliva that may prove to be of diagn ost ic and t herapeutic s ignif‘ Ica nce