Parotid secretory protein (PSP) is an abundant protein in mouse and rat parotid glands. A related sequence (C20orf70) was identified on human chromosome 20. The goal of this study was to determine if PSP is expressed in the human parotid gland. The cDNA for human PSP was amplified from a human parotid cDNA sample. A peptide antibody, raised to the C-terminal peptide of PSP, identified the protein in human parotid tissue by immunofluorescence microscopy. Immunoaffinity chromatography suggested that PSP was expressed in human saliva. PSP is related to bactericidal/permeability-increasing protein (BPI). To test if PSP exhibits anti-bacterial activity, epitope-tagged PSP was expressed in rat GH4C1 cells. The secretion medium exhibited bacteristatic or bactericidal effects on Pseudomonas aeruginosa in a colony-forming assay when compared with secretion medium from GH4C1 cells that did not express PSP. These results suggest that PSP is expressed in the human parotid gland and saliva, where it functions as a BPI-like anti-bacterial protein.
Parotid secretory protein (PSP) and palate-lung-nasal epithelium clone (PLUNC) are novel secretory proteins that are expressed in the oral cavity and upper airways. Both proteins are related to bactericidal/permeability increasing protein (BPI). Cationic peptides derived from BPI exhibit anti-inflammatory activity. To test if PSP (C20orf70 gene product) also contains anti-inflammatory peptides, we designed 3 cationic peptides based on the predicted structure of PSP and known active regions of BPI. Each peptide inhibited the lipopolysaccharide (LPS)-stimulated secretion of TNFalpha from RAW 264.7 macrophage cells. At 200 microg/mL, the peptide GK-7 exhibited inhibition similar to that achieved with 10 microg/mL of polymyxin B. PSP peptides directly inhibited the binding of LPS to LPS-binding protein. The cationic peptide Substance P had no inhibitory effect in these assays, confirming the specificity of the PSP peptides. These findings suggest that PSP peptides can serve as templates for the design of novel anti-inflammatory peptides.
Aggregation chaperones, consisting of secretory proteins that contain a hexa-histidine epitope tag, enhance the calcium-induced aggregation of regulated secretory proteins and their sorting to secretory granules. The goal of this study was to gain a better understanding of this unusual aggregation mechanism. Hexahistidine-epitope-tagged secreted alkaline phosphatase, an aggregation chaperone, enhanced the in itro aggregation of chromogranin A in the presence of calcium, but not in the presence of magnesium or other divalent cations. As an exception, chromogranin was completely aggregated by zinc, even in the absence of the aggregation chaperone. In addition, fluorescence spectroscopy of the aggregation reaction mixture showed an increase in fluorescence intensity consistent with the formation of protein aggregates. The calcium-induced aggregation of chromogranin A was completely inhibited by 0.2 % Triton X-100,
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