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1. A human milk oligosaccharide prevents intestinal inflammation in adulthood via modulating gut microbial metabolism

Author

Schalich, Kasey M., primary, Buendia, Matthew A., additional, Kaur, Harpreet, additional, Choksi, Yash A., additional, Washington, M. Kay, additional, Codreanu, Gabriela S., additional, Sherrod, Stacy D., additional, McLean, John A., additional, Peek, Jr., Richard M., additional, Acra, Sari A., additional, Townsend, Steven D., additional, and Yan, Fang, additional

Published
2024
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3. The Helicobacter pylori Genome Project: insights into H. pylori population structure from analysis of a worldwide collection of complete genomes.

Author

Thorell, Kaisa, Muñoz-Ramírez, Zilia Y., Wang, Difei, Sandoval-Motta, Santiago, Boscolo Agostini, Rajiv, Ghirotto, Silvia, Torres, Roberto C., Romero-Gallo, Judith, Krishna, Uma, Peek Jr, Richard M., Piazuelo, M. Blanca, Raaf, Naïma, Bentolila, Federico, Aftab, Hafeza, Akada, Junko, Matsumoto, Takashi, Haesebrouck, Freddy, Colanzi, Rony P., Bartelli, Thais F., and Nunes, Diana Noronha

Subjects
HELICOBACTER pylori, GENOMES, GASTRIC diseases, BACTERIAL genomes, AMERICANS, DRUG target, GENOMICS
Abstract

Helicobacter pylori, a dominant member of the gastric microbiota, shares co-evolutionary history with humans. This has led to the development of genetically distinct H. pylori subpopulations associated with the geographic origin of the host and with differential gastric disease risk. Here, we provide insights into H. pylori population structure as a part of the Helicobacter pylori Genome Project (HpGP), a multi-disciplinary initiative aimed at elucidating H. pylori pathogenesis and identifying new therapeutic targets. We collected 1011 well-characterized clinical strains from 50 countries and generated high-quality genome sequences. We analysed core genome diversity and population structure of the HpGP dataset and 255 worldwide reference genomes to outline the ancestral contribution to Eurasian, African, and American populations. We found evidence of substantial contribution of population hpNorthAsia and subpopulation hspUral in Northern European H. pylori. The genomes of H. pylori isolated from northern and southern Indigenous Americans differed in that bacteria isolated in northern Indigenous communities were more similar to North Asian H. pylori while the southern had higher relatedness to hpEastAsia. Notably, we also found a highly clonal yet geographically dispersed North American subpopulation, which is negative for the cag pathogenicity island, and present in 7% of sequenced US genomes. We expect the HpGP dataset and the corresponding strains to become a major asset for H. pylori genomics. The bacterium Helicobacter pylori, often found in the human stomach, can be classified into distinct subpopulations associated with the geographic origin of the host. Here, the authors provide insights into H. pylori population structure by collecting over 1,000 clinical strains from 50 countries and generating and analyzing high-quality bacterial genome sequences. [ABSTRACT FROM AUTHOR]

Published
2023
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7. EGFR regulates macrophage activation and function in bacterial infection

Author

Hardbower, Dana M., Singh, Kshipra, Asim, Mohammad, Verriere, Thomas G., Olivares-Villagomez, Danyvid, Barry, Daniel P., Allaman, Margaret M., Washington, M. Kay, Peek, Jr., Richard M., Piazuelo, M. Blanca, and Wilson, Keith T.

Subjects
Inflammation -- Health aspects -- Research -- Risk factors, Bacterial infections -- Research -- Care and treatment -- Complications and side effects, Stomach cancer -- Health aspects -- Research -- Care and treatment -- Complications and side effects, Macrophages -- Health aspects -- Research, Health care industry
Abstract

EGFR signaling regulates macrophage function, but its role in bacterial infection has not been investigated. Here, we assessed the role of macrophage EGFR signaling during infection with Helicobacter pylori, a bacterial pathogen that causes persistent inflammation and gastric cancer. EGFR was phosphorylated in murine and human macrophages during H. pylori infection. In human gastric tissues, elevated levels of phosphorylated EGFR were observed throughout the histologic cascade from gastritis to carcinoma. Deleting EGFR in myeloid cells attenuated gastritis and increased H. pylori burden in infected mice. EGFR deficiency also led to a global defect in macrophage activation that was associated with decreased cytokine, chemokine, and NO production. We observed similar alterations in macrophage activation and disease phenotype in the Citrobacter rodentium model of murine infectious colitis. Mechanistically, EGFR signaling activated NF-κB and MAPK1/3 pathways to induce cytokine production and macrophage activation. Although deletion of Egfr had no effect on DC function, EGFR- deficient macrophages displayed impaired Th1 and Th17 adaptive immune responses to H. pylori, which contributed to decreased chronic inflammation in infected mice. Together, these results indicate that EGFR signaling is central to macrophage function in response to enteric bacterial pathogens and is a potential therapeutic target for infection-induced inflammation and associated carcinogenesis., Introduction Macrophages represent a dynamic subset of innate immune cells, with functions in immune surveillance, immunity to pathogens, wound healing, antigen presentation, and cytokine and chemokine production (1-3). A critical [...]

Published
2016
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9. The ubiquitin ligase Mindbomb 1 coordinates gastrointestinal secretory cell maturation

Author

Capoccia, Benjamin J., Jin, Ramon U., Kong, Young-Yun, Peek, Jr., Richard M., Fassan, Matteo, Rugge, Massimo, and Mills, Jason C.

Subjects
Exocrine glands -- Physiological aspects, Ubiquitin -- Physiological aspects, Gastrointestinal system -- Physiological aspects, Cell differentiation -- Health aspects, Health care industry
Abstract

After cell fate specification, differentiating cells must amplify the specific subcellular features required for their specialized function. How cells regulate such subcellular scaling is a fundamental unanswered question. Here, we [...]

Published
2013
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10. Loss of TFF1 is associated with activation of NF-ΚB-mediated inflammation and gastric neoplasia in mice and humans

Author

Soutto, Mohammed, Belkhiri, Abbes, Piazuelo, M. Blanca, Schneider, Barbara G., Peng, DunFa, Jiang, Aixiang, Washington, M. Kay, Kokoye, Yasin, Crowe, Sheila E., Zaika, Alexander, Correa, Pelayo, Peek, Jr., Richard M., and El-Rifai, Wael

Subjects
Inflammation -- Risk factors -- Genetic aspects -- Research, Tumor suppressor genes -- Physiological aspects -- Research, Stomach cancer -- Research -- Risk factors -- Genetic aspects, Transcription factors -- Physiological aspects -- Research, Health care industry
Abstract

Trefoil factor 1 (TFF1) is a tumor suppressor gene that encodes a peptide belonging to the trefoil factor family of protease-resistant peptides. Although TFF1 expression is frequently lost in gastric [...]

Published
2011
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11. Helicobacter pylori pathogen inhibits cellular responses to oncogenic stress and apoptosis.

Author

Palrasu, Manikandan, Zaika, Elena, Paulrasu, Kodisundaram, Caspa Gokulan, Ravindran, Suarez, Giovanni, Que, Jianwen, El-Rifai, Wael, Peek Jr., Richard M., Garcia-Buitrago, Monica, and Zaika, Alexander I.

Subjects
HELICOBACTER pylori, GASTRIC mucosa, BACTERIAL proteins, UBIQUITIN ligases, HELICOBACTER pylori infections, APOPTOSIS inhibition, PEPTIC ulcer
Abstract

Helicobacter pylori (H. pylori) is a common gastric pathogen that infects approximately half of the world's population. Infection with H. pylori can lead to diverse pathological conditions, including chronic gastritis, peptic ulcer disease, and cancer. The latter is the most severe consequence of H. pylori infection. According to epidemiological studies, gastric infection with H. pylori is the strongest known risk factor for non-cardia gastric cancer (GC), which remains one of the leading causes of cancer-related deaths worldwide. However, it still remains to be poorly understood how host-microbe interactions result in cancer development in the human stomach. Here we focus on the H. pylori bacterial factors that affect the host ubiquitin proteasome system. We investigated E3 ubiquitin ligases SIVA1 and ULF that regulate p14ARF (p19ARF in mice) tumor suppressor. ARF plays a key role in regulation of the oncogenic stress response and is frequently inhibited during GC progression. Expression of ARF, SIVA1 and ULF proteins were investigated in gastroids, H. pylori-infected mice and human gastric tissues. The role of the H. pylori type IV secretion system was assessed using various H. pylori isogenic mutants. Our studies demonstrated that H. pylori infection results in induction of ULF, decrease in SIVA1 protein levels, and subsequent ubiquitination and degradation of p14ARF tumor suppressor. Bacterial CagA protein was found to sequentially bind to SIVA1 and ULF proteins. This process is regulated by CagA protein phosphorylation at the EPIYA motifs. Downregulation of ARF protein leads to inhibition of cellular apoptosis and oncogenic stress response that may promote gastric carcinogenesis. Author summary: Stomach infection with Helicobacter pylori bacteria is considered to be one of the strongest known risk factors for gastric cancer. Understanding mechanisms regulating carcinogenic interactions between bacteria and human cells is important for development of new effective therapies against gastric cancer. In this work, we report how bacterial protein CagA alters intracellular regulation inside human cells, causing inhibition of tumor suppression mechanism termed the Oncogenic Stress Response controlled by human protein p14ARF. Our studies revealed that bacterial protein CagA interacts with two human proteins SIVA1 and ULF, resulting in activation of ULF and rapid degradation of SIVA1 and p14ARF, which regulate cell death of tumorous cells. [ABSTRACT FROM AUTHOR]

Published
2022
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12. Helicobacter pylorigenetic diversification in the Mongolian gerbil model

Author

Beckett, Amber C., primary, Loh, John T., additional, Chopra, Abha, additional, Leary, Shay, additional, Lin, Aung Soe, additional, McDonnell, Wyatt J., additional, Dixon, Beverly R.E.A., additional, Noto, Jennifer M., additional, Israel, Dawn A., additional, Peek Jr, Richard M., additional, Mallal, Simon, additional, Algood, Holly M. Scott, additional, and Cover, Timothy L., additional

Published
2018
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13. Helicobacter pylori genetic diversification in the Mongolian gerbil model.

Author

Beckett, Amber C., Loh, John T., Chopra, Abha, Leary, Shay, Lin, Aung Soe, McDonnell, Wyatt J., Dixon, Beverly R. E. A., Noto, Jennifer M., Israel, Dawn A., Peek Jr, Richard M., Mallal, Simon, Scott Algood, Holly M., and Cover, Timothy L.

Subjects
HELICOBACTER pylori, MONGOLIAN gerbil, GERBILS, MEMBRANE proteins, DELETION mutation, INSERTION mutation
Abstract

Helicobacter pylori requires genetic agility to infect new hosts and establish long-term colonization of changing gastric environments. In this study, we analyzed H. pylori genetic adaptation in the Mongolian gerbil model. This model is of particular interest because H. pylori-infected gerbils develop a high level of gastric inflammation and often develop gastric adenocarcinoma or gastric ulceration. We analyzed the whole genome sequences of H. pylori strains cultured from experimentally infected gerbils, in comparison to the genome sequence of the input strain. The mean annualized single nucleotide polymorphism (SNP) rate per site was 1.5e−5, which is similar to the rates detected previously in H. pylori-infected humans. Many of the mutations occurred within or upstream of genes associated with iron-related functions (fur, tonB1, fecA2, fecA3, and frpB3) or encoding outer membrane proteins (alpA, oipA, fecA2, fecA3, frpB3 and cagY). Most of the SNPs within coding regions (86%) were non-synonymous mutations. Several deletion or insertion mutations led to disruption of open reading frames, suggesting that the corresponding gene products are not required or are deleterious during chronic H. pylori colonization of the gerbil stomach. Five variants (three SNPs and two deletions) were detected in isolates from multiple animals, which suggests that these mutations conferred a selective advantage. One of the mutations (FurR88H) detected in isolates from multiple animals was previously shown to confer increased resistance to oxidative stress, and we now show that this SNP also confers a survival advantage when H. pylori is co-cultured with neutrophils. Collectively, these analyses allow the identification of mutations that are positively selected during H. pylori colonization of the gerbil model. [ABSTRACT FROM AUTHOR]

Published
2019
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15. α-Difluoromethylornithine reduces gastric carcinogenesis by causing mutations in Helicobacter pylori cagY.

Author

Sierra, Johanna C., Suarez, Giovanni, Piazuelo, M. Blanca, Luis, Paula B., Baker, Dara R., Romero-Gallo, Judith, Barry, Daniel P., Schneider, Claus, Morgan, Douglas R., Peek Jr., Richard M., Gobert, Alain P., and Wilson, Keith T.

Subjects
EFLORNITHINE, GASTRIC diseases, HELICOBACTER pylori, HELICOBACTER diseases, GRAM-negative bacterial diseases, GENOMES
Abstract

Infection by Helicobacter pylori is the primary cause of gastric adenocarcinoma. The most potent H. pylori virulence factor is cytotoxinassociated gene A (CagA), which is translocated by a type 4 secretion system (T4SS) into gastric epithelial cells and activates oncogenic signaling pathways. The gene cagY encodes for a key component of the T4SS and can undergo gene rearrangements. We have shown that the cancer chemopreventive agent α-difluoromethylornithine (DFMO), known to inhibit the enzyme ornithine decarboxylase, reduces H. pylori-mediated gastric cancer incidence in Mongolian gerbils. In the present study, we questioned whether DFMO might directly affect H. pylori pathogenicity. We show that H. pylori output strains isolated from gerbils treated with DFMO exhibit reduced ability to translocate CagA in gastric epithelial cells. Further, we frequently detected genomic modifications in the middle repeat region of the cagY gene of output strains from DFMO-treated animals, which were associated with alterations in the CagY protein. Gerbils did not develop carcinoma when infected with a DFMO output strain containing rearranged cagY or the parental strain in which the wild-type cagY was replaced by cagY with DFMO-induced rearrangements. Lastly, we demonstrate that in vitro treatment of H. pylori by DFMO induces oxidative DNA damage, expression of the DNA repair enzyme MutS2, and mutations in cagY, demonstrating that DFMO directly affects genomic stability. Deletion of mutS2 abrogated the ability of DFMO to induce cagY rearrangements directly. In conclusion, DFMO-induced oxidative stress in H. pylori leads to genomic alterations and attenuates virulence. [ABSTRACT FROM AUTHOR]

Published
2019
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16. Helicobacter pylori genetic diversification in the Mongolian gerbil model.

Author

Beckett, Amber C., Loh, John T., Chopra, Abha, Leary, Shay, Lin, Aung Soe, McDonnell, Wyatt J., Dixon, Beverly R. E. A., Noto, Jennifer M., Israel, Dawn A., Peek Jr, Richard M., Mallal, Simon, Scott Algood, Holly M., and Cover, Timothy L.

Subjects
MONGOLIAN gerbil, HELICOBACTER pylori, GASTRIC mucosa, BACTERIAL colonies, INSERTION mutation, WHOLE genome sequencing, SINGLE nucleotide polymorphisms
Abstract

Helicobacter pylori requires genetic agility to infect new hosts and establish long-term colonization of changing gastric environments. In this study, we analyzed H. pylori genetic adaptation in the Mongolian gerbil model. This model is of particular interest because H. pylori-infected gerbils develop a high level of gastric inflammation and often develop gastric adenocarcinoma or gastric ulceration. We analyzed the whole genome sequences of H. pylori strains cultured from experimentally infected gerbils, in comparison to the genome sequence of the input strain. The mean annualized single nucleotide polymorphism (SNP) rate per site was 1.5e−5, which is similar to the rates detected previously in H. pylori-infected humans. Many of the mutations occurred within or upstream of genes associated with iron-related functions (fur, tonB1, fecA2, fecA3, and frpB3) or encoding outer membrane proteins (alpA, oipA, fecA2, fecA3, frpB3 and cagY). Most of the SNPs within coding regions (86%) were non-synonymous mutations. Several deletion or insertion mutations led to disruption of open reading frames, suggesting that the corresponding gene products are not required or are deleterious during chronic H. pylori colonization of the gerbil stomach. Five variants (three SNPs and two deletions) were detected in isolates from multiple animals, which suggests that these mutations conferred a selective advantage. One of the mutations (FurR88H) detected in isolates from multiple animals was previously shown to confer increased resistance to oxidative stress, and we now show that this SNP also confers a survival advantage when H. pylori is co-cultured with neutrophils. Collectively, these analyses allow the identification of mutations that are positively selected during H. pylori colonization of the gerbil model. [ABSTRACT FROM AUTHOR]

Published
2018
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17. CD44 Plays a Functional Role in Helicobacter pylori-induced Epithelial Cell Proliferation

Author

Bertaux-Skeirik, Nina, primary, Feng, Rui, additional, Schumacher, Michael A., additional, Li, Jing, additional, Mahe, Maxime M., additional, Engevik, Amy C., additional, Javier, Jose E., additional, Peek Jr, Richard M., additional, Ottemann, Karen, additional, Orian-Rousseau, Veronique, additional, Boivin, Gregory P., additional, Helmrath, Michael A., additional, and Zavros, Yana, additional

Published
2015
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18. Selective killing of Helicobacter pylori with pH-responsive helix--coil conformation transitionable antimicrobial polypeptides.

Author

Menghua Xiong, Yan Bao, Xin Xu, Hua Wang, Zhiyuan Han, Zhiyu Wang, Yeqing Liu, Songyin Huang, Ziyuan Song, Jinjing Chen, Peek Jr., Richard M., Lichen Yin, Lin-Feng Chen, and Jianjun Cheng

Subjects
POLYPEPTIDES, CANCER treatment, HELICOBACTER pylori, ANTIMICROBIAL polymers, GASTRITIS, GENETICS
Abstract

Current clinical treatment of Helicobacter pylori infection, the main etiological factor in the development of gastritis, gastric ulcers, and gastric carcinoma, requires a combination of at least two antibiotics and one proton pump inhibitor. However, such triple therapy suffers from progressively decreased therapeutic efficacy due to the drug resistance and undesired killing of the commensal bacteria due to poor selectivity. Here, we report the development of antimicrobial polypeptide-based monotherapy, which can specifically kill H. pylori under acidic pH in the stomach while inducing minimal toxicity to commensal bacteria under physiological pH. Specifically, we designed a class of pH-sensitive, helix-coil conformation transitionable antimicrobial polypeptides (HCT-AMPs) (PGA)m-r-(PHLG-MHH)n, bearing randomly distributed negatively charged glutamic acid and positively charged poly(γ-6-N-(methyldihexylammonium)hexyl-L-glutamate) (PHLG-MHH) residues. The HCT-AMPs showed unappreciable toxicity at physiological pH when they adopted random coiled conformation. Under acidic condition in the stomach, they transformed to the helical structure and exhibited potent antibacterial activity against H. pylori, including clinically isolated drug-resistant strains. After oral gavage, the HCT-AMPs afforded comparable H. pylori killing efficacy to the tripletherapy approach while inducing minimal toxicity against normal tissues and commensal bacteria, in comparison with the remarkable killing of commensal bacteria by 65% and 86% in the ileal contents and feces, respectively, following triple therapy. This strategy renders an effective approach to specifically target and kill H. pylori in the stomach while not harming the commensal bacteria/normal tissues. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Virulence of infectingHelicobacter pyloristrains and intensity of mononuclear cell infiltration are associated with levels of DNA hypermethylation in gastric mucosae

Author

Schneider, Barbara G, primary, Piazuelo, M Blanca, additional, Sicinschi, Liviu A, additional, Mera, Robertino, additional, Peng, Dun-Fa, additional, Roa, Juan Carlos, additional, Romero-Gallo, Judith, additional, Delgado, Alberto G, additional, de Sablet, Thibaut, additional, Bravo, Luis E, additional, Wilson, Keith T, additional, El-Rifai, Wael, additional, Peek Jr, Richard M, additional, and Correa, Pelayo, additional

Published
2013
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21. TLR9 activation suppresses inflammation in response to Helicobacter pylori infection.

Author

Varga, Matthew G., Piazuelo, M. Blanca, Romero-Gallo, Judith, Delgado, Alberto G., Suarez, Giovanni, Whitaker, Morgan E., Krishna, Uma S., Patel, Rachna V., Skaar, Eric P., Wilson, Keith T., Algood, Holly M. S., and Peek Jr., Richard M.

Subjects
HELICOBACTER pylori infections, TOLL-like receptors
Abstract

Helicobacter pylori (H. pylori) induces chronic gastritis in humans, and infection can persist for decades. One H. pylori strain-specific constituent that augments disease risk is the cag pathogenicity island. The cag island encodes a type IV secretion system (T4SS) that translocates DNA into host cells. Toll-like receptor 9 (TLR9) is an innate immune receptor that detects hypo-methylated CpG DNA motifs. In this study, we sought to define the role of the H. pylori cag T4SS on TLR9-mediated responses in vivo. H. pylori strain PMSS1 or its cagE mutant, which fails to assemble a T4SS, were used to infect wild-type or Tlr9-/- C57BL/6 mice. PMSS1-infected Tlr9-/- mice developed significantly higher levels of inflammation, despite similar levels of colonization density, compared with PMSS1-infected wild-type mice. These changes were cag dependent, as both mouse genotypes infected with the cagE mutant only developed minimal inflammation. Tlr9-/- genotypes did not alter the microbial phenotypes of in vivo-adapted H. pylori strains; therefore, we examined host immunological responses. There were no differences in levels of TH1 or TH2 cytokines in infected mice when stratified by host genotype. However, gastric mucosal levels of IL-17 were significantly increased in infected Tlr9-/- mice compared with infected wild-type mice, and H. pylori infection of IL-17A-/- mice concordantly led to significantly decreased levels of gastritis. Thus loss of Tlr9 selectively augments the intensity of IL-17-driven immune responses to H. pylori in a cag T4SS-dependent manner. These results suggest that H. pylori utilizes the cag T4SS to manipulate the intensity of the host immune response. [ABSTRACT FROM AUTHOR]

Published
2016
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22. Pathobiology of Helicobacter pylori-Induced Gastric Cancer.

Author

Amieva, Manuel and Peek Jr, Richard M.

Abstract

Colonization of the human stomach by Helicobacter pylori and its role in causing gastric cancer is one of the richest examples of a complex relationship among human cells, microbes, and their environment. It is also a puzzle of enormous medical importance given the incidence and lethality of gastric cancer worldwide. We review recent findings that have changed how we view these relationships and affected the direction of gastric cancer research. For example, recent data have indicated that subtle mismatches between host and microbe genetic traits greatly affect the risk of gastric cancer. The ability of H pylori and its oncoprotein CagA to reprogram epithelial cells and activate properties of stemness show the sophisticated relationship between H pylori and progenitor cells in the gastric mucosa. The observation that cell-associated H pylori can colonize the gastric glands and directly affect precursor and stem cells supports these observations. The ability to mimic these interactions in human gastric organoid cultures as well as animal models will allow investigators to more fully unravel the extent of H pylori control on the renewing gastric epithelium. Finally, our realization that external environmental factors, such as dietary components and essential micronutrients, as well as the gastrointestinal microbiota, can change the balance between H pylori's activity as a commensal or a pathogen has provided direction to studies aimed at defining the full carcinogenic potential of this organism. [ABSTRACT FROM AUTHOR]

Published
2016
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23. Identification of alanyl aminopeptidase (CD13) as a surface marker for isolation of mature gastric zymogenic chief cells.

Author

Moore, Benjamin D., Jin, Ramon U., Osaki, Luciana, Romero-Gallo, Judith, Noto, Jennifer, Peek Jr., Richard M., and Mills, Jason C.

Subjects
AMINOPEPTIDASES, METAPLASIA, CANCER risk factors, EPITHELIAL cells, BIOFLUORESCENCE
Abstract

Injury and inflammation in the gastric epithelium can cause disruption of the pathways that guide the differentiation of cell lineages, which in turn can cause persistent alterations in differentiation patterns, known as metaplasia. Metaplasia that occurs in the stomach is associated with increased risk for cancer. Methods for isolating distinct gastric epithelial cell populations would facilitate dissection of the molecular and cellular pathways that guide normal and metaplastic differentiation. Here, we identify alanyl aminopeptidase (CD13) as a specific surface marker of zymogenic chief cells (ZCs) in the gastric epithelium. We show that 1) among gastric epithelial cells alanyl aminopeptidase expression is confined to mature ZCs, and 2) its expression is lost en route to metaplasia in both mouse and human stomachs. With this new marker coupled with new techniques that we introduce for dissociating gastric epithelial cells and overcoming their constitutive autofluorescence, we are able to reliably isolate enriched populations of ZCs for both molecular analysis and for the establishment of ZC-derived ex vivo gastroid cultures. [ABSTRACT FROM AUTHOR]

Published
2015
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27. Helical antimicrobial polypeptides with radial amphiphilicity.

Author

Menghua Xiong, Lee, Michelle W., Mansbach, Rachael A., Ziyuan Song, Yan Bao, Peek Jr., Richard M., Yao, Catherine, Lin-Feng Chen, Ferguson, Andrew L., Wong, Gerard C. L., and Jianjun Cheng

Subjects
POLYPEPTIDES, PEPTIDE antibiotics, BLOOD proteins, HYDROPHOBIC surfaces, CATIONS
Abstract

α-Helical antimicrobial peptides (AMPs) generally have facially am-phiphilic structures that may lead to undesired peptide interactions with blood proteins and self-aggregation due to exposed hydrophobic surfaces. Here we report the design of a class of cationic, helical homo-polypeptide antimicrobials with a hydro-phobic internal helical core and a charged exterior shell, possessing unprecedented radial amphiphilicity. The radially amphiphilic structure enables the polypeptide to bind effectively to the negatively charged bacterial surface and exhibit high antimicrobial activity against both gram-positive and gram-negative bacteria. Moreover, the shielding of the hydrophobic core by the charged exterior shell decreases nonspecific interactions with eukaryotic cells, as evidenced by low hemolytic activity, and protects the polypeptide backbone from proteolytic degradation. The radially amphiphilic polypeptides can also be used as effective adjuvants, allowing improved permeation of commercial antibiotics in bacteria and enhanced antimicrobial activity by one to two orders of magnitude. Designing AMPs bearing this unprecedented, unique radially amphiphilic structure represents an alternative direction of AMP development; radially amphiphilic polypeptides may become a general platform for developing AMPs to treat drug-resistant bacteria. [ABSTRACT FROM AUTHOR]

Published
2015
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28. DNA Methylation Predicts Progression of Human Gastric Lesions.

Author

Schneider, Barbara G., Mera, Robertino, Piazuelo, M. Blanca, Bravo, Juan C., Zabaleta, Jovanny, Delgado, Alberto G., Bravo, Luis E., Wilson, Keith T., El-Rifai, Wael, Peek Jr, Richard M., and Correa, Pelayo

Abstract

Background: Development of the intestinal subtype of gastric adenocarcinoma is marked by a progression of histopathologic lesions. Residents of the Andean regions of Colombia are at high risk for gastric cancer. Methods: A cohort of 976 Colombian subjects was followed over 16 years examining effects of Helicobacter pylori eradication and treatment with antioxidants on progression of lesions. We performed methylation analysis of DNA from baseline antral biopsies from 104 subjects for whom follow-up data were available for at least 12 years. Methylation was quantitated for AMPH, CDKN2A, CDH1, EN1, EMX1, NKX6-1, PCDH10, RPRM, RSPO2, SORCS3, ZIC1, and ZNF610 genes, using Pyrosequencing. Results: Levels of DNA methylation were associated with baseline diagnosis for AMPH, EMX1, RPRM, RSPO2, SORCS3, and ZNF610. After adjusting for baseline diagnosis and H. pylori infection, methylation levels of AMPH, PCDH10, RSPO2, and ZNF610 had progression coefficients that increased and P values that decreased over 6, 12, and 16 years. Methylation for SORCS3 was associated with progression at all 3 time points but without the continual strengthening of the effect. Scores for mononuclear leukocytes, polymorphonuclear leukocytes, or intraepithelial lymphocytes were unrelated to progression. Conclusions: Methylation levels of AMPH, PCDH10, RSPO2, SORCS3, and ZNF610 predict progression of gastric lesions independent of the effect of duration of H. pylori infection, baseline diagnosis, gender of the patient, or scores for mononuclear leukocytes, polymorphonuclear leukocytes, or intraepithelial lymphocytes. Impact: DNA methylation levels in AMPH, PCDH10, RSPO2, SORCS3, and ZNF610 may contribute to identification of persons with gastric lesions likely to progress. [ABSTRACT FROM AUTHOR]

Published
2015
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29. Hepatic TLR4 signaling in obese NAFLD.

Author

Sharifnia, Torfay, Antoun, Joseph, Verriere, Thomas G. C., Suarez, Giovanni, Wattacheril, Julia, Wilson, Keith T., Peek Jr., Richard M., Abumrad, Naji N., and Flynn, Charles R.

Subjects
TOLL-like receptors, OVERWEIGHT persons, FATTY liver, LIVER biopsy, LIVER cells, ENDOTOXINS, PATIENTS
Abstract

Nonalcoholic fatty liver disease occurs frequently in the setting of metabolic syndrome, but the factors leading to nonalcoholic steatohepatitis (NASH) are not fully understood. This study investigated Toll-like receptor 4 (TLR4) signaling in human liver with the goal of delineating whether activation of this pathway segregates those with nonalcoholic fatty liver from those with NASH. Experiments were performed using liver biopsy tissue obtained from class III obese subjects undergoing bariatric surgery, and extended to an immortalized human hepatocyte HepaRG cell line and primary human hepatocytes. The bacterial endotoxin lipopolysaccharide (LPS) and total free fatty acid levels were significantly increased in plasma of NASH patients. TLR4 mRNA levels were significantly increased in subjects with NASH compared with NAFL as was interferon regulatory factor (IRF) 3 in the myeloid differentiation factor 88-independent signaling pathway. In HepaRG cells, nuclear factor-κB (NF-κB) nuclear translocation and functional activity increased following treatment with the fatty acid, palmitate, and following exposure to LPS compared with hepatocytes stimulated with a lipogenic treatment that induced de novo lipogenesis. Palmitate and LPS induction of NF-κB activity was partially attenuated by chemical- or small-interfering RNA-mediated inhibition of TLR4. Expression of TLR4 and its downstream mediators was upregulated with palmitate and LPS. Similar results were observed using primary human hepatocytes from a lean donor. Interestingly, NF-κB activity assays showed obese donor hepatocytes were resistant to chemical TLR4 inhibition. In conclusion, TLR4 expression is upregulated in a large cohort of NASH patients, compared with those with NAFL, and this occurs within the setting of increased LPS and fatty acids. [ABSTRACT FROM AUTHOR]

Published
2015
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30. Helicobacter pylori virulence factors affecting gastric proton pump expression and acid secretion.

Author

Hammond, Charles E., Beeson, Craig, Suarez, Giovanni, Peek Jr., Richard M., Backert, Steffen, and Smolka, Adam J.

Subjects
STOMACH physiology, HELICOBACTER pylori infections, PROTON pumps (Biology), VIRULENCE of bacteria, NF-kappa B, PEPTIDOGLYCAN hydrolase, ENZYME-linked immunosorbent assay
Abstract

Acute Helicobacter pylori infection of gastric epithelial cells and human gastric biopsies represses H,KATPase α subunit (HKα) gene expression and inhibits acid secretion, causing transient hypochlorhydria and supporting gastric H. pylori colonization. Infection by H. pylori strains deficient in the cag pathogenicity island (cag PAI) genes cagL, cagE, or cagM, which do not transfer CagA into host cells or induce interleukin-8 secretion, does not inhibit HKα expression, nor does a cagA-deficient strain that induces IL-8. To test the hypothesis that virulence factors other than those mediating CagA translocation or IL-8 induction participate in HKα repression by activating NF-κB, AGS cells transfected with HKα promoter-Luc reporter constructs containing an intact or mutated NF-κB binding site were infected with wild-type H. pylori strain 7.13, isogenic mutants lacking cag PAI genes responsible for CagA translocation and/or IL-8 induction (cagA, cagζ, cagε, cagZ, and cagβ), or deficient in genes encoding two peptidoglycan hydrolases (slt and cagγ). H. pylori-induced AGS cell HKα promoter activities, translocated CagA, and IL-8 secretion were measured by luminometry, immunoblotting, and ELISA, respectively. Human gastric biopsy acid secretion was measured by microphysiometry. Taken together, the data showed that HKα repression is independent of IL-8 expression, and that CagA translocation together with H. pylori transglycosylases encoded by slt and cagγ participate in NF-κB-dependent HKα repression and acid inhibition. The findings are significant because H. pylori factors other than CagA and IL-8 secretion are now implicated in transient hypochlorhydria which facilitates gastric colonization and potential triggering of epithelial progression to neoplasia. [ABSTRACT FROM AUTHOR]

Published
2015
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35. Helicobacter pylori-induced posttranscriptional regulation of H-K-ATPase α-subunit gene expression by miRNA.

Author

Yong-Mei Zhang, Noto, Jennifer M., Hammond, Charles E., Barth, Jeremy L., Argraves, W. Scott, Backert, Steffen, Peek Jr., Richard M., and Smolka, Adam J.

Subjects
HELICOBACTER pylori, RNA interference, ADENOSINE triphosphatase, GENE expression, MICRORNA, PROTON pump inhibitors
Abstract

Acute Helicobacter pylori infection of gastric epithelial cells induces CagA oncoprotein- and peptidoglycan (SLT)-dependent mobilization of NF-?B p50 homodimers that bind to H-K-ATPase a-subunit (HKa) promoter and repress HKa gene transcription. This process may facilitate gastric H. pylori colonization by induction of transient hypochlorhydria. We hypothesized that H. pylori also regulates HKa expression posttranscriptionally by miRNA interaction with HKa mRNA. In silico analysis of the HKa 3' untranslated region (UTR) identified miR-1289 as a highly conserved putative HKa-regulatory miRNA. H. pylori infection of AGS cells transfected with HKa 3' UTR-Luc reporter construct repressed luciferase activity by 70%, whereas ?cagA or ?slt H. pylori infections partially abrogated repression. Transfection of AGS cells expressing HKa 3' UTR-Luc construct with an oligoribonucleotide mimetic of miR-1289 induced maximal repression (54%) of UTR activity within 30 min; UTR activity was unchanged by nontargeting siRNA transfection. Gastric biopsies from patients infected with cagA(+) H. pylori showed a significant increase in miR-1289 expression compared with uninfected patients or those infected with cagA(-) H. pylori. Finally, miR-1289 expression was necessary and sufficient to attenuate biopsy HKa protein expression in the absence of infection. Taken together, these data indicate that miR-1289 is upregulated by H. pylori in a CagA- and SLT-dependent manner and targets HKa 3' UTR, affecting HKa mRNA translation. The sensitivity of HKa mRNA 3' UTR to binding of miR-1289 identifies a novel regulatory mechanism of gastric acid secretion and offers new insights into mechanisms underlying transient H. pylori-induced hypochlorhydria. [ABSTRACT FROM AUTHOR]

Published
2014
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36. Human and Helicobacter pylori coevolution shapes the risk of gastric disease.

Author

Kodaman, Nuri, Pazos, Alvaro, Schneider, Barbara G., Piazuelo, M. Blanca, Mera, Robertino, Sobota, Rafal S., Sicinschi, Liviu A., Shaffer, Carrie L., Romero-Gallo, Judith, de Sablet, Thibaut, Harder, Reed H., Bravo, Luis E., Peek Jr., Richard M., Wilson, Keith T., Cover, Timothy L., Williams, Scott M., and Correa, Pelayo

Subjects
HELICOBACTER pylori, COEVOLUTION, STOMACH cancer, HISTOPATHOLOGY, INFLAMMATION, DISEASE prevalence
Abstract

Helicobacter pylori is the principal cause of gastric cancer, the second leading cause of cancer mortality worldwide. However, H. pylori prevalence generally does not predict cancer incidence. To determine whether coevolution between host and pathogen influences disease risk, we examined the association between the severity of gastric lesions and patterns of genomic variation in matched human and H. pylori samples. Patients were recruited from two geographically distinct Colombian populations with significantly different incidences of gastric cancer, but virtually identical prevalence of H. pylori infection. All H. pylori isolates contained the genetic signatures of multiple ancestries, with an ancestral African cluster predominating in a low-risk, coastal population and a European cluster in a high-risk, mountain population. The human ancestry of the biopsied individuals also varied with geography, with mostly African ancestry in the coastal region (58%), and mostly Amerindian ancestry in the mountain region (67%). The interaction between the host and pathogen ancestries completely accounted for the difference in the severity of gastric lesions in the two regions of Colombia. In particular, African H. pylori ancestry was relatively benign in humans of African ancestry but was deleterious in individuals with substantial Amerindian ancestry. Thus, coevolution likely modulated disease risk, and the disruption of coevolved human and H. pylori genomes can explain the high incidence of gastric disease in the mountain population. [ABSTRACT FROM AUTHOR]

Published
2014
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37. Strain-specific suppression of microRNA-320 by carcinogenic Helicobacter pylori promotes expression of the antiapoptotic protein Mcl-1.

Author

Noto, Jennifer M., Piazuelo, M. Blanca, Chaturvedi, Rupesh, Barte, Courtney A., Thatcher, Elizabeth J., Delgado, Alberto, Romero-Gallo, Judith, Wilson, Keith T., Correa, Pelayo, Patton, James G., and Peek Jr., Richard M.

Subjects
STOMACH cancer treatment, PHYSIOLOGIC strain, IMMUNOSUPPRESSION, MICRORNA, CARCINOGENICITY, HELICOBACTER pylori, GENE expression
Abstract

Helicobacter pylori is the strongest risk factor for gastric cancer, and strains harboring the cag pathogenicity island, which translocates the oncoprotein CagA into host cells, further augment cancer risk. We previously reported that in vivo adaptation of a noncarcinogenic H. pylori strain (B128) generated a derivative strain (7.13) with the ability to induce adenocarcinoma, providing a unique opportunity to define mechanisms that mediate gastric carcinogenesis. MicroRNAs (miRNAs) are small noncoding RNAs that regulate expression of oncogenes or tumor suppressors and are frequently dysregulated in carcinogenesis. To identify miRNAs and their targets involved in H. pylori-mediated carcinogenesis, miRNA microarrays were performed on RNA isolated from gastric epithelial cells cocultured with H. pylori strains B128, 7.13, or a 7.13 cagA- isogenic mutant. Among 61 miRNAs differentially expressed in a cagA-dependent manner, the tumor suppressor miR-320 was significantly downregulated by strain 7.13. Since miR-320 negatively regulates the antiapoptotic protein Mcl-1, we demonstrated that H. pylori significantly induced Mcl-1 expression in a cagA-dependent manner and that suppression of Mcl-1 results in increased apoptosis. To extend these results, mice were challenged with H. pylori strain 7.13 or its cagA- mutant; consistent with cell culture data, H. pylori induced Mcl-1 expression in a cagA-dependent manner. In human subjects, cag+ strains induced significantly higher levels of Mcl-1 than cag- strains, and Mcl-1 expression levels paralleled the severity of neoplastic lesions. Collectively, these results indicate that H. pylori suppresses miR-320, upregulates Mcl-1, and decreases apoptosis in a cagA-dependent manner, which likely confers an increased risk for gastric carcinogenesis. [ABSTRACT FROM AUTHOR]

Published
2013
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38. Helicobacter pylori Protein--Specific Antibodies and Risk of Colorectal Cancer.

Author

Epplein, Meira, Pawlita, Michael, Michel, Angelika, Peek Jr, Richard M., Qiuyin Cai, and Blot, William J.

Abstract

The article presents a study that examined the association of H. pylori protein-specific infection and colorectal cancer risk in the prospective cohort. The study reveals the higher risk of colon cancer in individuals with high levels of antibodies specific H. pylori proteins and the possibility of protein-specific antibody levels as a risk biomarker.

Published
2013
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41. Berberine Inhibits Proliferation and Down-Regulates Epidermal Growth Factor Receptor through Activation of Cbl in Colon Tumor Cells.

Author

Wang, Lihong, Cao, Hailong, Lu, Ning, Liu, Liping, Wang, Bangmao, Hu, Tianhui, Israel, Dawn A., Peek Jr, Richard M., Polk, D. Brent, and Yan, Fang

Subjects
COLON cancer treatment, CANCER cell growth, EPIDERMAL growth factor receptors, BERBERINE, CANCER cell proliferation, PAPAVERACEAE, ISOQUINOLINE alkaloids, RANUNCULACEAE, CELL lines
Abstract

Berberine, an isoquinoline alkaloid, is an active component of Ranunculaceae and Papaveraceae plant families. Berberine has been found to suppress growth of several tumor cell lines in vitro through the cell-type-dependent mechanism. Expression and activation of epidermal growth factor receptor (EGFR) is increased in colonic precancerous lesions and tumours, thus EGFR is considered a tumour promoter. The aim of this study was to investigate the effects and mechanisms of berberine on regulation of EGFR activity and proliferation in colonic tumor cell lines and in vivo. We reported that berberine significantly inhibited basal level and EGF-stimulated EGFR activation and proliferation in the immorto Min mouse colonic epithelial (IMCE) cells carrying the APCmin mutation and human colonic carcinoma cell line, HT-29 cells. Berberine acted to inhibit proliferation through inducing G1/S and G2/M cell cycle arrest, which correlated with regulation of the checkpoint protein expression. In this study, we also showed that berberine stimulated ubiquitin ligase Cbl activation and Cbl's interaction with EGFR, and EGFR ubiquitinylation and down-regulation in these two cell lines in the presence or absence of EGF treatment. Knock-down Cbl expression blocked the effects of berberine on down-regulation of EGFR and inhibition of proliferation. Furthermore, berberine suppressed tumor growth in the HT-29 cell xenograft model. Cell proliferation and EGFR expression level was decreased by berberine treatment in this xenograft model and in colon epithelial cells of APCmin/+ mice. Taken together, these data indicate that berberine enhances Cbl activity, resulting in down-regulation of EGFR expression and inhibition of proliferation in colon tumor cells. [ABSTRACT FROM AUTHOR]

Published
2013
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42. Functional Plasticity in the Type IV Secretion System of Helicobacter pylori.

Author

Barrozo, Roberto M., Cooke, Cara L., Hansen, Lori M., Lam, Anna M., Gaddy, Jennifer A., Johnson, Elizabeth M., Cariaga, Taryn A., Suarez, Giovanni, Peek Jr., Richard M., Cover, Timothy L., and Solnick, Jay V.

Abstract

Helicobacter pylori causes clinical disease primarily in those individuals infected with a strain that carries the cytotoxin associated gene pathogenicity island (cagPAI). The cagPAI encodes a type IV secretion system (T4SS) that injects the CagA oncoprotein into epithelial cells and is required for induction of the pro-inflammatory cytokine, interleukin-8 (IL-8). CagY is an essential component of the H. pylori T4SS that has an unusual sequence structure, in which an extraordinary number of direct DNA repeats is predicted to cause rearrangements that invariably yield in-frame insertions or deletions. Here we demonstrate in murine and non-human primate models that immune-driven host selection of rearrangements in CagY is sufficient to cause gain or loss of function in the H. pylori T4SS. We propose that CagY functions as a sort of molecular switch or perhaps a rheostat that alters the function of the T4SS and “tunes” the host inflammatory response so as to maximize persistent infection. [ABSTRACT FROM AUTHOR]

Published
2013
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43. Helicobacter PyloriPromotes the Expression of Krüppel-Like Factor 5, a Mediator of Carcinogenesis, In Vitroand In Vivo.

Author

Noto, Jennifer M., Khizanishvili, Tinatin, Chaturvedi, Rupesh, Piazuelo, M. Blanca, Romero-Gallo, Judith, Delgado, Alberto G., Khurana, Shradha S., Sierra, Johanna C., Krishna, Uma S., Suarez, Giovanni, Powell, Anne E., Goldenring, James R., Coffey, Robert J., Yang, Vincent W., Correa, Pelayo, Mills, Jason C., Wilson, Keith T., and Peek Jr., Richard M.

Subjects
HELICOBACTER pylori, ADENOCARCINOMA, GASTRIC mucosa, CANCER risk factors, CYTOTOXINS, CARCINOGENESIS, DISEASES
Abstract

Helicobacter pylori is the strongest known risk factor for the development of gastric adenocarcinoma. H. pylori expresses a repertoire of virulence factors that increase gastric cancer risk, including the cag pathogenicity island and the vacuolating cytotoxin (VacA). One host element that promotes carcinogenesis within the gastrointestinal tract is Krüppel-like factor 5 (KLF5), a transcription factor that mediates key cellular functions. To define the role of KLF5 within the context of H. pyloriinduced inflammation and injury, human gastric epithelial cells were co-cultured with the wild-type cag+ H. pylori strain 60190. KLF5 expression was significantly upregulated following co-culture with H. pylori, but increased expression was independent of the cag island or VacA. To translate these findings into an in vivo model, C57BL/6 mice were challenged with the wild-type rodent-adapted cag- H. pylori strain PMSS1 or a PMSS1 cagE+ isogenic mutant. Similar to findings in vitro, KLF5 staining was significantly enhanced in gastric epithelium of H. pylori-infected compared to uninfected mice and this was independent of the cag island. Flow cytometry revealed that the majority of KLF5+ cells also stained positively for the stem cell marker, Lrig1, and KLF5+/Lrig1+ cells were significantly increased in H. pylori-infected versus uninfected tissue. To extend these results into the natural niche of this pathogen, levels of KLF5 expression were assessed in human gastric biopsies isolated from patients with or without premalignant lesions. Levels of KLF5 expression increased in parallel with advancing stages of neoplastic progression, being significantly elevated in gastritis, intestinal metaplasia, and dysplasia compared to normal gastric tissue. These results indicate that H. pylori induces expression of KLF5 in gastric epithelial cells in vitro and in vivo, and that the degree of KLF5 expression parallels the severity of premalignant lesions in human gastric carcinogenesis. [ABSTRACT FROM AUTHOR]

Published
2013
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44. Prospective Study of Helicobacter pylori Biomarkers for Gastric Cancer Risk among Chinese Men.

Author

Epplein, Meira, Wei Zheng, Yong-Bing Xiang, Peek Jr., Richard M., Honglan Li, Correa, Pelayo, Jing Gao, Michel, Angelika, Pawlita, Michael, Qiuyin Cai, and Xiao-Ou Shu

Abstract

The article examines Helicobacter (H.) pylori bacterium to identify potential risk markets for gastric cancer among Chinese men given the high level of genetic variation among the bacterium isolates, and the small percentage of H. pylori-infected people that develop the cancer. The association of 15 antibodies to H. pylori proteins and gastric cancer is cited to be assessed. Individuals with a higher number of seropositivity to the proteins are revealed to have an increase in risk.

Published
2012
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45. Berberine promotes recovery of colitis and inhibits inflammatory responses in colonic macrophages and epithelial cells in DSS-treated mice.

Author

Fang Yan, Lihong Wang, Yan Shi, Hanwei Cao, Liping Liu, Washington, M. Kay, Chaturvedi, Rupesh, Israel, Dawn A., Hailong Cao, Bangmao Wang, Peek Jr., Richard M., Wilson, Keith T., and Polk, D. Brent

Abstract

Inflammatory bowel disease (IBD) results from dysregulation of intestinal mucosal immune responses to microflora in genetically susceptible hosts. A major challenge for IBD research is to develop new strategies for treating this disease. Berberine, an alkaloid derived from plants, is an alternative medicine for treating bacterial diarrhea and intestinal parasite infections. Recent studies suggest that berberine exerts several other beneficial effects, including inducing anti-inflammatory responses. This study determined the effect of berberine on treating dextran sulfate sodium (DSS)-induced intestinal injury and colitis in mice. Berberine was administered through gavage to mice with established DSS-induced intestinal injury and colitis. Clinical parameters, intestinal integrity, proinflammatory cytokine production, and signaling pathways in colonic macrophages and epithelial cells were determined. Berberine ameliorated DSS-induced body weight loss, myeloperoxidase activity, shortening of the colon, injury, and inflammation scores. DSSupregulated proinflammatory cytokine levels in the colon, including TNF, IFN-γ, KC, and IL-17 were reduced by berberine. Berberine decreased DSS-induced disruption of barrier function and apoptosis in the colon epithelium. Furthermore, berberine inhibited proinflammatory cytokine production in colonic macrophages and epithelial cells in DSS-treated mice and promoted apoptosis of colonic macrophages. Activation of signaling pathways involved in stimulation of proinflammatory cytokine production, including MAPK and NF-κB, in colonic macrophages and epithelial cells from DSS-treated mice was decreased by berberine. In summary, berberine promotes recovery of DSS-induced colitis and exerts inhibitory effects on proinflammatory responses in colonic macrophages and epithelial cells. Thus berberine may represent a new therapeutic approach for treating gastrointestinal inflammatory disorders. [ABSTRACT FROM AUTHOR]

Published
2012
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47. Race, African Ancestry, and Helicobacter pylori Infection in a Low-Income United States Population.

Author

Epplein, Meira, Signorello, Lisa B., Wei Zheng, Peek Jr., Richard M., Michel, Angelika, Williams, Scott M., Pawlita, Michael, Correa, Pelayo, Qiuyin Cai, and Blot, William J.

Abstract

The article discusses a study which investigated the prevalence of Helicobacter pylori and sero-positivity for H. pylori proteins in a low-income population in the U.S. A multiplex serology was used to assess serum levels of antibodies to each of H. pylori proteins in a sample of African American and white participants. Results showed that 79% of study population were sero-positive for H. pylori. The study also found that African Americans of medium and high African ancestry had 2.5- and 3.4-fold increased odds of sero-positivity to H. pylori.

Published
2011
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48. Helicobacter pylori Perturbs Iron Trafficking in the Epithelium to Grow on the Cell Surface.

Author

Tan, Shumin, Noto, Jennifer M., Romero-Gallo, Judith, Peek Jr., Richard M., and Amieva, Manuel R.

Subjects
HELICOBACTER pylori, EPITHELIUM, IRON in the body, CELL membranes, MONGOLIAN gerbil, HOST-bacteria relationships, EPITHELIAL cells
Abstract

Helicobacter pylori (Hp) injects the CagA effector protein into host epithelial cells and induces growth factor-like signaling, perturbs cell-cell junctions, and alters host cell polarity. This enables Hp to grow as microcolonies adhered to the host cell surface even in conditions that do not support growth of free-swimming bacteria. We hypothesized that CagA alters host cell physiology to allow Hp to obtain specific nutrients from or across the epithelial barrier. Using a polarized epithelium model system, we find that isogenic DcagA mutants are defective in cell surface microcolony formation, but exogenous addition of iron to the apical medium partially rescues this defect, suggesting that one of CagA's effects on host cells is to facilitate iron acquisition from the host. Hp adhered to the apical epithelial surface increase basolateral uptake of transferrin and induce its transcytosis in a CagA-dependent manner. Both CagA and VacA contribute to the perturbation of transferrin recycling, since VacA is involved in apical mislocalization of the transferrin receptor to sites of bacterial attachment. To determine if the transferrin recycling pathway is involved in Hp colonization of the cell surface, we silenced transferrin receptor expression during infection. This resulted in a reduced ability of Hp to colonize the polarized epithelium. To test whether CagA is important in promoting iron acquisition in vivo, we compared colonization of Hp in iron-replete vs. iron-deficient Mongolian gerbils. While wild type Hp and DcagA mutants colonized iron-replete gerbils at similar levels, DcagA mutants are markedly impaired in colonizing iron-deficient gerbils. Our study indicates that CagA and VacA act in concert to usurp the polarized process of host cell iron uptake, allowing Hp to use the cell surface as a replicative niche. [ABSTRACT FROM AUTHOR]

Published
2011
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49. Role of Innate Immunity in Helicobacter pylon-Induced Gastric Malignancy.

Author

Peek Jr., Richard M., Fiske, Chris, and Wilson, Keith T.

Subjects
*NATURAL immunity, *HELICOBACTER pylori infections, *GASTROINTESTINAL motility, *GASTRIC acid, *PEPTIC ulcer, *PERISTALSIS
Abstract

The article offers information on the role played in the Helicobacter pylori-induced gastric malignancy of natural immunity in the gastric niche. It mentions that the dysregulation of H. pylori of the innate immune response lead to the development of gastric cancer and peptic ulceration. It states various factors that stand as barrier for the colonization of the stomach which are prevail by H. pylori over including peristalsis, gastric acidity, and the host immune system.

Published
2010
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50. Role of Helicobacter pylori CagA Molecular Variations in Induction of Host Phenotypes with Carcinogenic Potential.

Author

Schneider, Natasha, Krishna, Uma, Romero-Gallo, Judith, Israel, Dawn A., Piazuelo, M. Blanca, Camargo, M. Constanza, Sicinschi, Liviu A., Schneider, Barbara G., Correa, Pelayo, and Peek Jr., Richard M.

Subjects
HELICOBACTER pylori, CANCER diagnosis, PHOSPHORYLATION, CYTOSKELETAL proteins, EPITHELIAL cells, PRECANCEROUS conditions, MOLECULAR genetics, PUBLIC health, MEDICAL research
Abstract

Helicobacter pylori cagA-positive strains exert population-specific risks for gastric cancer. We determined whether variations in CagA phosphorylation motifs were associated with carcinogenic or proinflammatory epithelial phenotypes induced by strains from regions with divergent cancer risks (Colombia and Nashville, TN). Motif number was significantly related to levels of CagA phosphorylation and cytoskeletal abnormalities. Precancerous isolates possessed a higher number of motifs, and precancerous strains from Nashville induced higher levels of IL-8 than Colombian strains. These results indicate that CagA variants are linked with premalignant lesions in distinct populations and that epithelial responses to these strains are selective based upon locale. [ABSTRACT FROM AUTHOR]

Published
2009
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