Analysis of Low Molecular Weight Proteome from H. pylori Cell Extract Using the High Performance Liquid Chromatography

Low molecular proteins (LMPs) which are smaller than 20 kDa are difficult to visible on a standard two-dimensional SDS-polyacrylamide gel electrophoresis (2-D SDS-PAGE) map. LMPs must be enriched appropriately to be analyzed. We isolated LMPs of Helicobacter pylori 26695 from 1-D polyacrylamide gel and digested by pepsin. Pepsin-digested LMPs were separated by HPLC and each fraction was analyzed by hybrid tandem mass spectrometer. Seventy nine peptides, representing 27 genes, including copper ion binding protein (CopP, 7 kDa), thioredoxin (TrxA, 11.9 kDa) and ribosomal protein L23 (Rpl23, 10.5 kDa) were identified. Some proteins larger than 40 kDa including Omp2, Omp21, Omp27, Omp30, Omp32, catalase and HP1083 were also identified. This work may give researchers a useful way to analyse the expressed LMPs which could not be identified on the conventional 2-D SDS-PAGE.

In vitro Antibacterial and Morphological Effects of the Urushiol Component of the Sap of the Korean lacquer tree (Rhus vernicifera Stokes) on Helicobacter pylori

Eradication regimens for Helicobacter pylori infection have some side effects, compliance problems, relapses, and antibiotic resistance. Therefore, alternative anti-H. pylori or supportive antimicrobial agents with fewer disadvantages are necessary for the treatment of H. pylori. We investigated the pH-(5.0, 6.0, 7.0, 8.0, 9.0, and 10.0) and concentration (0.032, 0.064, 0.128, 0.256, 0.514, and 1.024 mg/mL)-dependent antibacterial activity of crude urushiol extract from the sap of the Korean lacquer tree (Rhus vernicifera Stokes) against 3 strains (NCTC11637, 69, and 219) of H. pylori by the agar dilution method. In addition, the serial (before incubation, 3, 6, and 10 min after incubation) morphological effects of urushiol on H. pylori were examined by electron microscopy. All strains survived only within pH 6.0-9.0. The minimal inhibitory concentrations of the extract against strains ranged from 0.064 mg/mL to 0.256 mg/mL. Urushiol caused mainly separation of the membrane, vacuolization, and lysis of H. pylori. Interestingly, these changes were observed within 10 min following incubation with the 1 x minimal inhibitory concentrations of urushiol. The results of this work suggest that urushiol has potential as a rapid therapeutic against H. pylori infection by disrupting the bacterial cell membrane.

Proteomic analysis of Helicobacter pylori J99 Outer Membrane Protein by Tandem Mass Spectrometry

The protein identity of sarcosine-insoluble outer membrane proteins (OMPs) of Helicobacter pylori J99 was determined with the basic study of understanding the function of proteins. A sarcosine-insoluble OMPs was resolved by two-dimensional electrophoresis with immobilized pH gradient strips. The most abundant proteins were shown in the alkaline pI regions (6.0~11.0) with molecular masses of 10 to 100 kDa. We have performed an extensive proteome analysis by quadrupole time of flight (Q-TOF) mass spectrometry (MS). Here, of 50 spots processed, 42 spots were identified, which represented 16 genes and we newly detected 8 kinds of proteins (JHP0119, JHP0388, JHP1046, JHP1405, JHP0073, JHP0551, JHP1382, JHP0552) from the sarcosin-insoluble fraction of H. pylori J99. Those may be used to elucidate the characterization of the OMPs of H. pylori J99, which will help identify new potential target proteins for vaccine development and drug therapy.

Proteomic Analysis of Helicobacter pylori Whole Cell Proteins using the Narrow Range IPG Strips

It has been reported that most of Helicobacter pylori proteome components appear so crowded in the region of pH 4.5~8.0 that a lot of them were inseparable in 2-DE using the broad range IPG strip. Therefore, inseparable protein spots in 2-DE profiles have to be apart from each other for improving the protein identification. Here, we attempt to examine the usability of the narrow range IPG strips for separating close spots in the broad range IPG strip at proteomic analysis of H. pylori. The whole cell proteins of H. pylori strain 26695 were separated by narrow range IPG strips (pI 3.9~5.1, 4.7~5.9, 5.5~6.7, and 6.3~8.3, respectively), followed by SDS-PAGE, and visualized by silver staining, showing that the distances between spots were widened and the total number of detectable spots was increased. Resolved protein spots were identified by the peptide fingerprinting using MALDI-TOF-MS. As a result, 87 expressed proteins were identified by the peptide fingerprinting. Of them, 23 proteins, including hydrogenase expression/formation protein, purine-binding chemotaxis protein, and ribosomal protein S6, have not been reported in the previous proteome studies of H. pylori. Thus, these results demonstrate that the high complexity proteome components could be effectively separated using the narrow range IPG strips, which might be helpful to strengthen the contents of the master protein map of the H. pylori reference strain.