Consumption of non-antibacterial drugs may have negative impact on Helicobacter pylori colonization in the stomach.

Background: Nineteen non-antibacterials were examined to show that their consumption for treatment of other diseases may inhibit Helicobacter pylori. Four antibiotics were used for comparison. Materials and methods: Agar dilution method was used to examine the susceptibility of 20 H. pylori isolates to 4 antibiotics; metronidazole (MTZ), clarithromycin (CLR), amoxicillin (AMX), tetracycline (TET) and 19 non-antibacterials; proton pump inhibitors (PPIs), H2-blockers, bismuth subsalicylate (BSS), antifungals, statins, acetaminophen (ACE), aspirin (ASA), B-vitamins (B-Vits; Vit B1, Vit B6 and Vit Bcomplex) and vitamin C (Vit C). Blood agar plates were prepared with different concentrations of drugs and spot-inoculated with bacterial suspensions. Plates were incubated at 37 °C under microaerobic conditions and examined after 3-5 days. The isolate #20 that was mucoid and resistant to 19 drugs, including MTZ and SMV was tested against combined MTZ (8 µg/mL) and SMV (100 µg/mL). Results were analyzed statistically. Results: Minimum inhibitory concentrations (MICs, µg/mL) of drugs and the frequency of susceptible H. pylori were determined as MTZ (8, 80%), CLR (2, 90%), AMX (1, 100%), TET (0.5, 70%), PPIs (8-128, 80%), H2-blockers (2000-8000, 75-80%), BSS (15, 85%), antifungals (64-256, 30-80%), statins (100-250, 35-90%), ACE (40, 75%), ASA (800, 75%), B-Vits (5000-20000, 80-100%) and Vit C (2048, 85%). Susceptibility of H. pylori isolates to 16 out of 19 non-antimicrobials (75-100%) was almost similar to those of antibiotics (70-100%) (P-value >0.05). The highest susceptibility rate (100%) belonged to Vit B1, Vit B6 and AMX. Out of 20 H. pylori isolates, 17 (85%) were susceptible to ≥13 non-antimicrobials and 3 (15%) were susceptible to < 13 (P-value <0.05). Mucoid H. pylori showed susceptibility to combination of MTZ and SMV. Conclusions: Most of non-antibacterials inhibited H. pylori isolates, similar to antibiotics but their MICs exceeded those of antibiotics and their plasma concentrations. At low plasma concentration, non-antimicrobials may act as weak antibacterials, antibiotic adjuvants and immunostimulators.

Proton Pump Inhibitor-Treated H. pylori Adjust Cell Envelope Fatty Acid and Cholesterol Content to Survive.

BACKGROUND: Proton pump inhibitors (PPIs) with lipophilic nature may interact with lipid components of H. pylori cell membrane, disrupting cell structure and viability. In this study, the effect of PPIs on fatty acid and cholesterol components of H. pylori cell membrane was assessed. METHODS: One H. pylori isolate was treated with 1X and 2X MICs (µg/mL) of lansoprazole (LPZ: 8 and 16) and pantoprazole (PAN: 128 and 256) in brain heart infusion broth plus serum. Treated H. pylori was cultured on brucella blood agar (BBA) and tetrazolium egg yolk agar (TEYA). Bacterial cells stained with Live/Dead kit were examined by fluorescent microscopy. Fatty acid and cholesterol contents of treated H. pylori were measured by gas chromatography. RESULTS: PPI-treated H. pylori did not grow on BBA but grew on TEYA. Fluorescent microscopy showed H. pylori stained red. Analyses showed high frequency of saturated fatty acids, C14:0, C16:0 and C18:0. Among unsaturated fatty acids, C18:1 and C18:2c were increased, while five were eliminated and five were synthesized de novo. Cholesteryl-6-O-tetradecanoyl-α-D- glucopyranoside was detected as the only glycosylated cholesterol in treated H. pylori. Growth of PPI-treated H. pylori on cholesterol-rich TEYA showed that occurrence of cholesterol can reverse the growth inhibition by PPIs. Red- bacilli form of H. pylori showed dye entry through damaged cell membrane without lysis. CONCLUSION: Incorporation of lipophilic PPI into H. pylori cell membrane disrupted lipids and inhibited growth. However, H. pylori adjusted the defected membrane by replacing the lipid components and resisted lysis.

Mucoid and coccoid Helicobacter pylori with fast growth and antibiotic resistance.

BACKGROUND: In this study, one Helicobacter pylori isolate, from gastric biopsy of a dyspeptic patient that turned into mucoid-coccoid (MC) form upon consecutive subcultures, was identified. The culturability, antibiotic resistance, and lipid contents of MC were compared with those of non-mucoid (NM) spiral H pylori. MATERIALS AND METHODS: Mucoid-coccoid and NM H pylori were subcultured on Brucella blood agar (BBA) and incubated under aerobic and microaerobic atmospheres at 37°C. Cultures were examined for colony characteristics and bacterial morphology after 1-3 days. The isolates were identified by biochemical tests and detection of H pylori-16S rDNA. Antibiogram was performed with currently used antibiotics for H pylori eradication. Cellular lipid contents were extracted and analyzed by gas chromatography. RESULTS: Compared with pin-pointed and glistening colonies of NM H pylori that appeared under microaerobic conditions, MC H pylori grew well in consecutive subcultures under aerobic and microaerobic atmospheres and produced white patches of mucoid colonies. MC exhibited coccoid and NM spiral morphology. Both isolates were catalase, oxidase, and urease positive and contained 16S rDNA. Compared with NM that was susceptible to almost all the antibiotics, MC was resistant to all the antibiotics. Lipid analyses showed high frequency of unsaturated fatty acids and cholesterol in MC. CONCLUSIONS: Coccoid forms with high fatty acid and cholesterol contents that show resistance to antibiotics might resist against other stressful conditions such as gastric acidity and immune response. Moreover, mucoid property may enhance resistance of coccoids to stresses. With mucoid-coccoid lifestyle, H pylori may establish a chronic infection refractory to antimicrobial therapy.

Helicobacter pylori Multidrug Resistance Due to Misuse of Antibiotics in Iran.

BACKGROUND: Helicobacter pylori might become highly resistant to antibiotics taken through the life time of patients. This study examined the change in antibiotic resistance of H. pylori by time. METHODS: Out of 985 dyspeptic patients who were referred to the endoscopy unit of Shariati hospital during 2010-2017, 218 patients with gastric biopsies positive for rapid urease test (RUT) and H. pylori culture were recruited in the study. H. pylori isolates were examined for resistance to 8 currently used antibiotics by the disc diffusion method. Results were compared with those from our three previous studies. The frequency of multidrug resistance (MDR) was also assessed. RESULTS: The highest resistance rate was to metronidazole (MTZ) (79.4%) followed by ofloxacin (OFX) (58.7%), ciprofloxacin (CIP) (46.8%), levofloxacin (LVX) (45%), tetracycline (TET) (38.5%), clarithromycin (CLR) (34.4%), amoxicillin (AMX) (27.1%) and furazolidone (FRZ) (23.9%). No significant difference was found between resistance of H. pylori isolates from male and female <40 and >40 years old and patients with gastritis and peptic ulcer. The highest rates of MDR were to MTZ+OFX (4.6%), MTZ+OFX+TET (2.8%), MTZ+OFX+CIP+LVX (6.4%) and MTZ+OFX+TET+ CIP+LVX (5%). CONCLUSION: Resistance to MTZ increased from 33%-55.6% in previous studies to 79.4% by time, to CLR increased from 1.4-7.3% to 34.4%, to TET increased from 0-38.1% to 38.5%, to AMX increased from 1.4%-7.3% to 27.1% and to FRZ increased from 0%-4.5% to 23.9%. Resistance to FQs was 45%-58.7%. Increase in H. pylori antibiotic resistance indicates antibiotic misuse. In Iran, with a considerable number of H. pylori- infected patients, antibiotic therapy should be saved for high risk patients and according to local antibiotic resistance patterns.

Flaw insensitive fracture in nanocrystalline graphene.

We show from a series of molecular dynamics simulations that the tensile fracture behavior of a nanocrystalline graphene (nc-graphene) nanostrip can become insensitive to a pre-existing flaw (e.g., a hole or a notch) below a critical length scale in the sense that there exists no stress concentration near the flaw, the ultimate failure does not necessarily initiate at the flaw, and the normalized strength of the strip is independent of the size of the flaw. This study is a first direct atomistic simulation of flaw insensitive fracture in high-strength nanoscale materials and provides significant insights into the deformation and failure mechanisms of nc-graphene.