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1. Adult stem cell-derived complete lung organoid models emulate lung disease in COVID-19.

Author

Tindle, Courtney, Fuller, MacKenzie, Fonseca, Ayden, Taheri, Sahar, Ibeawuchi, Stella-Rita, Beutler, Nathan, Katkar, Gajanan Dattatray, Claire, Amanraj, Castillo, Vanessa, Hernandez, Moises, Russo, Hana, Duran, Jason, Crotty Alexander, Laura E, Tipps, Ann, Lin, Grace, Thistlethwaite, Patricia A, Chattopadhyay, Ranajoy, Rogers, Thomas F, Sahoo, Debashis, Ghosh, Pradipta, and Das, Soumita

Subjects
Lung, Pulmonary Alveoli, Respiratory Mucosa, Organoids, Humans, Models, Biological, Middle Aged, Female, Male, Adult Stem Cells, COVID-19, AT2 differentiation, SARS-CoV2, computational, disease modeling, human, immune response, lung organoid, medicine, regenerative medicine, stem cells, viruses, Prevention, Stem Cell Research, Emerging Infectious Diseases, Infectious Diseases, 2.1 Biological and endogenous factors, Infection, Respiratory, Biochemistry and Cell Biology
Abstract

BackgroundSARS-CoV-2, the virus responsible for COVID-19, causes widespread damage in the lungs in the setting of an overzealous immune response whose origin remains unclear.MethodsWe present a scalable, propagable, personalized, cost-effective adult stem cell-derived human lung organoid model that is complete with both proximal and distal airway epithelia. Monolayers derived from adult lung organoids (ALOs), primary airway cells, or hiPSC-derived alveolar type II (AT2) pneumocytes were infected with SARS-CoV-2 to create in vitro lung models of COVID-19.ResultsInfected ALO monolayers best recapitulated the transcriptomic signatures in diverse cohorts of COVID-19 patient-derived respiratory samples. The airway (proximal) cells were critical for sustained viral infection, whereas distal alveolar differentiation (AT2→AT1) was critical for mounting the overzealous host immune response in fatal disease; ALO monolayers with well-mixed proximodistal airway components recapitulated both.ConclusionsFindings validate a human lung model of COVID-19, which can be immediately utilized to investigate COVID-19 pathogenesis and vet new therapies and vaccines.FundingThis work was supported by the National Institutes for Health (NIH) grants 1R01DK107585-01A1, 3R01DK107585-05S1 (to SD); R01-AI141630, CA100768 and CA160911 (to PG) and R01-AI 155696 (to PG, DS and SD); R00-CA151673 and R01-GM138385 (to DS), R01- HL32225 (to PT), UCOP-R00RG2642 (to SD and PG), UCOP-R01RG3780 (to P.G. and D.S) and a pilot award from the Sanford Stem Cell Clinical Center at UC San Diego Health (P.G, S.D, D.S). GDK was supported through The American Association of Immunologists Intersect Fellowship Program for Computational Scientists and Immunologists. L.C.A's salary was supported in part by the VA San Diego Healthcare System. This manuscript includes data generated at the UC San Diego Institute of Genomic Medicine (IGC) using an Illumina NovaSeq 6000 that was purchased with funding from a National Institutes of Health SIG grant (#S10 OD026929).

Published
2021

2. Host engulfment pathway controls inflammation in inflammatory bowel disease

Author

Sayed, Ibrahim M, Suarez, Katherine, Lim, Eileen, Singh, Sujay, Pereira, Matheus, Ibeawuchi, Stella‐Rita, Katkar, Gajanan, Dunkel, Ying, Mittal, Yash, Chattopadhyay, Ranajoy, Guma, Monica, Boland, Brigid S, Dulai, Parambir S, Sandborn, William J, Ghosh, Pradipta, and Das, Soumita

Subjects
Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Inflammatory Bowel Disease, Autoimmune Disease, Crohn's Disease, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, Oral and gastrointestinal, Inflammatory and immune system, Adaptor Proteins, Signal Transducing, Adult, Aged, Animals, Citrobacter rodentium, Colitis, Cytokines, Female, Gene Expression Regulation, Host-Pathogen Interactions, Humans, Inflammation, Inflammatory Bowel Diseases, Intestinal Mucosa, Male, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Organoids, THP-1 Cells, Young Adult, enteroid, epithelial-immune cell crosstalk, inflammatory bowel disease, microbial sensing and bacterial engulfment, monocyte chemoattractant protein 1, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical biochemistry and metabolomics, Medicinal and biomolecular chemistry
Abstract

Chronic diseases, including inflammatory bowel disease (IBD) urgently need new biomarkers as a significant proportion of patients, do not respond to current medications. Inflammation is a common factor in these diseases, and microbial sensing in the intestinal tract is critical to initiate the inflammation. We have identified ELMO1 (engulfment and cell motility protein 1) as a microbial sensor in epithelial and phagocytic cells that turns on inflammatory signals. Using a stem cell-based 'gut-in-a-dish' coculture model, we studied the interactions between microbes, epithelium, and monocytes in the context of IBD. To mimic the in vivo cell physiology, enteroid-derived monolayers (EDMs) were generated from the organoids isolated from WT and ELMO1-/- mice and colonic biopsies of IBD patients. The EDMs were infected with the IBD-associated microbes to monitor the inflammatory responses. ELMO1-depleted EDMs displayed a significant reduction in bacterial internalization, a decrease in pro-inflammatory cytokine productions and monocyte recruitment. The expression of ELMO1 is elevated in the colonic epithelium and in the inflammatory infiltrates within the lamina propria of IBD patients where the higher expression is positively correlated with the elevated expression of pro-inflammatory cytokines, MCP-1 and TNF-α. MCP-1 is released from the epithelium and recruits monocytes to the site of inflammation. Once recruited, monocytes require ELMO1 to engulf the bacteria and propagate a robust TNF-α storm. These findings highlight that the dysregulated epithelial ELMO1 → MCP-1 axis can serve as an early biomarker in the diagnostics of IBD and other inflammatory disorders.

Published
2020

3. Phenotypic and Genomic Determinants of Immunotherapy Response Associated with Squamousness

Author

Goodman, Aaron M, Kato, Shumei, Chattopadhyay, Ranajoy, Okamura, Ryosuke, Saunders, Ila M, Montesion, Meagan, Frampton, Garrett M, Miller, Vincent A, Daniels, Gregory A, and Kurzrock, Razelle

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Immunology, Human Genome, Vaccine Related, Cancer, Genetics, Good Health and Well Being, Adult, Aged, Aged, 80 and over, Antineoplastic Agents, Immunological, Biomarkers, Tumor, California, Carcinoma, Non-Small-Cell Lung, Female, Genetic Variation, Genomics, Humans, Lung Neoplasms, Male, Middle Aged, Molecular Targeted Therapy, Mutation, Phenotype, Prognosis, Treatment Outcome, Pharmacology and Pharmaceutical Sciences, Oncology and carcinogenesis
Abstract

Advanced and metastatic squamous cell carcinomas (SCC) are common and difficult-to-treat malignancies. We assessed 75 immunotherapy-treated patients with SCC from a clinically annotated database of 2,651 patients, as well as 9,407 patients from a deidentified database for molecular features that might influence checkpoint blockade response. SCCs had higher tumor mutational burdens (TMB) than non-SCCs (P < 0.0001). Cutaneous SCCs had the highest TMB (P < 0.0001), with 41.3% demonstrating a very high TMB (≥50 mutations/Mb). In immunotherapy-treated patients with SCC, higher TMB (≥12 mutations/Mb) correlated with a trend to higher clinical benefit rate [stable disease ≥ 6 months or partial/complete remission; 60% vs. 29%; (high vs. low TMB); P = 0.06] and significantly longer median time-to-treatment failure (TTF; 9.9 vs. 4.4 months; P = 0.0058). Cutaneous SCCs had the highest clinical benefit [11/15 patients (73%) vs. 20/60 (33%) non-cutaneous (P = 0.008)], TTF (P = 0.0015), and overall survival (P = 0.06) with immunotherapy treatment. In conclusion, among a diverse set of SCCs, higher TMB and cutaneous disease associated with better immunotherapy outcome.

Published
2019

4. Genomic Alterations in Circulating Tumor DNA from Diverse Cancer Patients Identified by Next-Generation Sequencing

Author

Schwaederle, Maria, Chattopadhyay, Ranajoy, Kato, Shumei, Fanta, Paul T, Banks, Kimberly C, Choi, In Sil, Piccioni, David E, Ikeda, Sadakatsu, Talasaz, AmirAli, Lanman, Richard B, Bazhenova, Lyudmila, and Kurzrock, Razelle

Subjects
Cancer, Biotechnology, Human Genome, Clinical Research, Genetics, Rare Diseases, Good Health and Well Being, Adolescent, Adult, Aged, Aged, 80 and over, Biomarkers, Tumor, Child, Child, Preschool, DNA, Neoplasm, Female, Genomics, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, Mutation, Neoplasms, Retrospective Studies, Young Adult, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

Noninvasive genomic profiling of tumors may be possible with next-generation sequencing (NGS) of blood-derived circulating tumor DNA (ctDNA), but proof of concept in a large cohort of patients with diverse cancers has yet to be reported. Here we report the results of an analysis of plasma-derived ctDNA from 670 patients with diverse cancers. The tumors represented in the patient cohort were mainly gastrointestinal (31.8%), brain (22.7%), or lung (20.7%). ctDNA obtained from most patients [N = 423 (63%)] displayed at least one alteration. The most frequent alterations seen, as characterized mutations or variants of unknown significance, occurred in TP53 (32.5% of patients), EGFR (13%), KRAS (12.5%), and PIK3CA (9.1%); for characterized alterations, 30.7% (TP53), 7.6% (EGFR), 12.2% (KRAS), and 7.7% (PIK3CA). We found that 32% of brain tumors had at least one ctDNA alteration. Head and neck tumors were independently associated with a higher number of alterations in a multivariable analysis (P = 0.019). Notably, 320/670 (48%) of patients displayed potentially actionable alterations, with 241 patients possible candidates for on-label or off-label treatment with an FDA-approved drug. Several illustrations of the clinical utility of the information obtained for improving treatment of specific patients is provided. Our findings demonstrate the feasibility and impact of genomic profiling of tumors by ctDNA NGS, greatly encouraging broader investigations of the application of this technology for precision medicine in cancer management. Cancer Res; 77(19); 5419-27. ©2017 AACR.

Published
2017

5. Regulation of Rac1 and Reactive Oxygen Species Production in Response to Infection of Gastrointestinal Epithelia.

Author

den Hartog, Gerco, Chattopadhyay, Ranajoy, Ablack, Amber, Hall, Emily H, Butcher, Lindsay D, Bhattacharyya, Asima, Eckmann, Lars, Harris, Paul R, Das, Soumita, Ernst, Peter B, and Crowe, Sheila E

Subjects
Intestinal Mucosa, Gastric Mucosa, Cell Line, Humans, Salmonella Infections, Helicobacter Infections, Reactive Oxygen Species, DNA-(Apurinic or Apyrimidinic Site) Lyase, rac1 GTP-Binding Protein, Microscopy, Confocal, Fluorescent Antibody Technique, Blotting, Western, Immunoprecipitation, Real-Time Polymerase Chain Reaction, Blotting, Western, Microscopy, Confocal, Virology, Microbiology, Immunology, Medical Microbiology
Abstract

Generation of reactive oxygen species (ROS) during infection is an immediate host defense leading to microbial killing. APE1 is a multifunctional protein induced by ROS and after induction, protects against ROS-mediated DNA damage. Rac1 and NAPDH oxidase (Nox1) are important contributors of ROS generation following infection and associated with gastrointestinal epithelial injury. The purpose of this study was to determine if APE1 regulates the function of Rac1 and Nox1 during oxidative stress. Gastric or colonic epithelial cells (wild-type or with suppressed APE1) were infected with Helicobacter pylori or Salmonella enterica and assessed for Rac1 and NADPH oxidase-dependent superoxide production. Rac1 and APE1 interactions were measured by co-immunoprecipitation, confocal microscopy and proximity ligation assay (PLA) in cell lines or in biopsy specimens. Significantly greater levels of ROS were produced by APE1-deficient human gastric and colonic cell lines and primary gastric epithelial cells compared to control cells after infection with either gastric or enteric pathogens. H. pylori activated Rac1 and Nox1 in all cell types, but activation was higher in APE1 suppressed cells. APE1 overexpression decreased H. pylori-induced ROS generation, Rac1 activation, and Nox1 expression. We determined that the effects of APE1 were mediated through its N-terminal lysine residues interacting with Rac1, leading to inhibition of Nox1 expression and ROS generation. APE1 is a negative regulator of oxidative stress in the gastrointestinal epithelium during bacterial infection by modulating Rac1 and Nox1. Our results implicate APE1 in novel molecular interactions that regulate early stress responses elicited by microbial infections.

Published
2016

6. Regulation of Rac1 and Reactive Oxygen Species Production in Response to Infection of Gastrointestinal Epithelia

Author

Hartog, Gerco den, Chattopadhyay, Ranajoy, Ablack, Amber, Hall, Emily H, Butcher, Lindsay D, Bhattacharyya, Asima, Eckmann, Lars, Harris, Paul R, Das, Soumita, Ernst, Peter B, and Crowe, Sheila E

Subjects
Microbiology, Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Digestive Diseases, Infectious Diseases, Emerging Infectious Diseases, Cancer, Digestive Diseases - (Peptic Ulcer), 2.2 Factors relating to the physical environment, Aetiology, 2.1 Biological and endogenous factors, Infection, Blotting, Western, Cell Line, DNA-(Apurinic or Apyrimidinic Site) Lyase, Fluorescent Antibody Technique, Gastric Mucosa, Helicobacter Infections, Humans, Immunoprecipitation, Intestinal Mucosa, Microscopy, Confocal, Reactive Oxygen Species, Real-Time Polymerase Chain Reaction, Salmonella Infections, rac1 GTP-Binding Protein, Immunology, Medical Microbiology, Virology, Medical microbiology
Abstract

Generation of reactive oxygen species (ROS) during infection is an immediate host defense leading to microbial killing. APE1 is a multifunctional protein induced by ROS and after induction, protects against ROS-mediated DNA damage. Rac1 and NAPDH oxidase (Nox1) are important contributors of ROS generation following infection and associated with gastrointestinal epithelial injury. The purpose of this study was to determine if APE1 regulates the function of Rac1 and Nox1 during oxidative stress. Gastric or colonic epithelial cells (wild-type or with suppressed APE1) were infected with Helicobacter pylori or Salmonella enterica and assessed for Rac1 and NADPH oxidase-dependent superoxide production. Rac1 and APE1 interactions were measured by co-immunoprecipitation, confocal microscopy and proximity ligation assay (PLA) in cell lines or in biopsy specimens. Significantly greater levels of ROS were produced by APE1-deficient human gastric and colonic cell lines and primary gastric epithelial cells compared to control cells after infection with either gastric or enteric pathogens. H. pylori activated Rac1 and Nox1 in all cell types, but activation was higher in APE1 suppressed cells. APE1 overexpression decreased H. pylori-induced ROS generation, Rac1 activation, and Nox1 expression. We determined that the effects of APE1 were mediated through its N-terminal lysine residues interacting with Rac1, leading to inhibition of Nox1 expression and ROS generation. APE1 is a negative regulator of oxidative stress in the gastrointestinal epithelium during bacterial infection by modulating Rac1 and Nox1. Our results implicate APE1 in novel molecular interactions that regulate early stress responses elicited by microbial infections.

Published
2016

9. Supplementary Table 1 from Genomic Alterations in Circulating Tumor DNA from Diverse Cancer Patients Identified by Next-Generation Sequencing

Author

Schwaederle, Maria, primary, Chattopadhyay, Ranajoy, primary, Kato, Shumei, primary, Fanta, Paul T., primary, Banks, Kimberly C., primary, Choi, In Sil, primary, Piccioni, David E., primary, Ikeda, Sadakatsu, primary, Talasaz, AmirAli, primary, Lanman, Richard B., primary, Bazhenova, Lyudmila, primary, and Kurzrock, Razelle, primary

Published
2023
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10. Data from Genomic Alterations in Circulating Tumor DNA from Diverse Cancer Patients Identified by Next-Generation Sequencing

Author

Schwaederle, Maria, primary, Chattopadhyay, Ranajoy, primary, Kato, Shumei, primary, Fanta, Paul T., primary, Banks, Kimberly C., primary, Choi, In Sil, primary, Piccioni, David E., primary, Ikeda, Sadakatsu, primary, Talasaz, AmirAli, primary, Lanman, Richard B., primary, Bazhenova, Lyudmila, primary, and Kurzrock, Razelle, primary

Published
2023
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11. Supplementary Table 4 from Genomic Alterations in Circulating Tumor DNA from Diverse Cancer Patients Identified by Next-Generation Sequencing

Author

Schwaederle, Maria, primary, Chattopadhyay, Ranajoy, primary, Kato, Shumei, primary, Fanta, Paul T., primary, Banks, Kimberly C., primary, Choi, In Sil, primary, Piccioni, David E., primary, Ikeda, Sadakatsu, primary, Talasaz, AmirAli, primary, Lanman, Richard B., primary, Bazhenova, Lyudmila, primary, and Kurzrock, Razelle, primary

Published
2023
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12. Supplementary Table 3 from Genomic Alterations in Circulating Tumor DNA from Diverse Cancer Patients Identified by Next-Generation Sequencing

Author

Schwaederle, Maria, primary, Chattopadhyay, Ranajoy, primary, Kato, Shumei, primary, Fanta, Paul T., primary, Banks, Kimberly C., primary, Choi, In Sil, primary, Piccioni, David E., primary, Ikeda, Sadakatsu, primary, Talasaz, AmirAli, primary, Lanman, Richard B., primary, Bazhenova, Lyudmila, primary, and Kurzrock, Razelle, primary

Published
2023
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13. Adult stem cell-derived complete lung organoid models emulate lung disease in COVID-19

Author

Tindle, Courtney, primary, Fuller, MacKenzie, primary, Fonseca, Ayden, primary, Taheri, Sahar, primary, Ibeawuchi, Stella-Rita, additional, Beutler, Nathan, additional, Katkar, Gajanan Dattatray, additional, Claire, Amanraj, additional, Castillo, Vanessa, additional, Hernandez, Moises, additional, Russo, Hana, additional, Duran, Jason, additional, Crotty Alexander, Laura E, additional, Tipps, Ann, additional, Lin, Grace, additional, Thistlethwaite, Patricia A, additional, Chattopadhyay, Ranajoy, additional, Rogers, Thomas F, additional, Sahoo, Debashis, additional, Ghosh, Pradipta, additional, and Das, Soumita, additional

Published
2021
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14. Mechanism of hypoxia-inducible factor 1[alpha]-mediated Mcl1 regulation in Helicobacter pylori-infected human gastric epithelium

Author

Bhattacharyya, Asima, Chattopadhyay, Ranajoy, Hall, Emily H., Mebrahtu, Semret T., Ernst, Peter B., and Crowe, Sheila E.

Subjects
Hypoxia -- Physiological aspects, Helicobacter infections -- Physiological aspects, Helicobacter infections -- Care and treatment, Epithelium -- Physiological aspects, Biological control systems -- Research, Biological sciences
Abstract

Hypoxia-inducible factor 1 (HIF1) consists of a hypoxia-inducible [alpha] subunit and a constitutively expressed [beta] subunit. Reactive oxygen species (ROS) induced by Helicobacter pylori stabilize HIF1[alpha] in the human gastric epithelium in normoxia. HIF1[alpha] plays crucial role in carcinogenesis and has been associated with malignant progression of gastric cancer. Several genes contain functional hypoxia-response elements (HREs) in their promoters including Bcl2 family member, Mcl1. Cellular ratios of antiapoptotic oncogenic protein, Mcl1, and tumor suppressor proapoptotic protein, Noxa, determine cell fate by regulating normal cellular growth, cell death and oncogenic processes. The aim of the present study was to examine the mechanism of HIF1[alpha] induction in the H. pylori-infected gastric epithelium to better understand disease pathogenesis by H. pylori relevant to gastric carcinogenesis. Our data showed that the dose-dependent increase in HIF1[alpha] in H. pylori-infected gastric epithelia is mediated by induction of a ROS-inducible protein, apurinic/apyrimidinic endonuclease 1 (APE1), and an enhanced interaction of APE1 with the transcriptional coactivator p300. Surprisingly, with accumulation of HIF1[alpha], further transcriptional activation of mcl1 was not observed. We identified a HIF-binding site (HBS) in the hif1[alpha] promoter and showed that increased HIF1[alpha] expression, whether H. pylori-induced or hypoxia-mimetic agent, Co[Cl.sub.2]-induced, resulted in enhanced HIF1[alpha] binding to its own promoter. This resulted in a transcriptionally inactive hif1[alpha] promoter since hif1[alpha] HBS lacks HIF ancillary sequence (HAS) required for HIF1 transcriptional activity. We conclude that enhanced binding of 'nonfunctional' HIF1[alpha] to hif1[alpha] promoter and limiting availability of p300 in the cell serves as checkpoints for uncontrolled HIF1[alpha] activity. APE1; HIF1[alpha]; Mcl1; H. pylori; gastric cancer doi: 10.1152/ajpgi.00372.2010.

Published
2010

15. Author response: Adult stem cell-derived complete lung organoid models emulate lung disease in COVID-19

Author

Tindle, Courtney, primary, Fuller, MacKenzie, additional, Fonseca, Ayden, additional, Taheri, Sahar, additional, Ibeawuchi, Stella-Rita, additional, Beutler, Nathan, additional, Katkar, Gajanan Dattatray, additional, Claire, Amanraj, additional, Castillo, Vanessa, additional, Hernandez, Moises, additional, Russo, Hana, additional, Duran, Jason, additional, Crotty Alexander, Laura E, additional, Tipps, Ann, additional, Lin, Grace, additional, Thistlethwaite, Patricia A, additional, Chattopadhyay, Ranajoy, additional, Rogers, Thomas F, additional, Sahoo, Debashis, additional, Ghosh, Pradipta, additional, and Das, Soumita, additional

Published
2021
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17. Adult Stem Cell-derived Complete Lung Organoid Models Emulate Lung Disease in COVID-19

Author

Tindle, Courtney, primary, Fuller, MacKenzie, additional, Fonseca, Ayden, additional, Taheri, Sahar, additional, Ibeawuchi, Stella-Rita, additional, Beutler, Nathan, additional, Katkar, Gajanan D., additional, Claire, Amanraj, additional, Castillo, Vanessa, additional, Hernandez, Moises, additional, Russo, Hana, additional, Duran, Jason, additional, Crotty Alexander, Laura E., additional, Tipps, Ann, additional, Lin, Grace, additional, Thistlethwaite, Patricia A., additional, Chattopadhyay, Ranajoy, additional, Rogers, Thomas F., additional, Sahoo, Debashis, additional, Ghosh, Pradipta, additional, and Das, Soumita, additional

Published
2020
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21. Cellular and molecular mechanisms of cigarette smoke-induced lung damage and prevention by vitamin C

Author

Roy Siddhartha, Panda Koustubh, Koley Hemanta, Ghosh Arunava, Chattopadhyay Ranajoy, Banerjee Shuvojit, Chattopadhyay Dhrubajyoti, and Chatterjee Indu B

Subjects
Therapeutics. Pharmacology, RM1-950
Abstract

Abstract Background Cigarette smoke-induced cellular and molecular mechanisms of lung injury are not clear. Cigarette smoke is a complex mixture containing long-lived radicals, including p-benzosemiquinone that causes oxidative damage. Earlier we had reported that oxidative protein damage is an initial event in smoke-induced lung injury. Considering that p-benzosemiquinone may be a causative factor of lung injury, we have isolated p-benzosemiquinone and compared its pathophysiological effects with cigarette smoke. Since vitamin C is a strong antioxidant, we have also determined the modulatory effect of vitamin C for preventing the pathophysiological events. Methods Vitamin C-restricted guinea pigs were exposed to cigarette smoke (5 cigarettes/day; 2 puffs/cigarette) for 21 days with and without supplementation of 15 mg vitamin C/guinea pig/day. Oxidative damage, apoptosis and lung injury were assessed in vitro, ex vivo in A549 cells as well as in vivo in guinea pigs. Inflammation was measured by neutrophilia in BALF. p-Benzosemiquinone was isolated from freshly prepared aqueous extract of cigarette smoke and characterized by various physico-chemical methods, including mass, NMR and ESR spectroscopy. p-Benzosemiquinone-induced lung damage was examined by intratracheal instillation in guinea pigs. Lung damage was measured by increased air spaces, as evidenced by histology and morphometric analysis. Oxidative protein damage, MMPs, VEGF and VEGFR2 were measured by western blot analysis, and formation of Michael adducts using MALDI-TOF-MS. Apoptosis was evidenced by TUNEL assay, activation of caspase 3, degradation of PARP and increased Bax/Bcl-2 ratio using immunoblot analysis and confocal microscopy. Results Exposure of guinea pigs to cigarette smoke resulted in progressive protein damage, inflammation, apoptosis and lung injury up to 21 days of the experimental period. Administration of 15 mg of vitamin C/guinea pig/day prevented all these pathophysiological effects. p-Benzosemiquinone mimicked cigarette smoke in causing protein modification and apoptosis in vitro and in A549 cells ex vivo as well as apoptosis and lung damage in vivo. All these pathophysiological events were also prevented by vitamin C. Conclusion p-Benzosemiquinone appears to be a major causative factor of cigarette smoke-induced oxidative protein damage that leads to apoptosis and lung injury. The pathophysiological events are prevented by a moderately large dose of vitamin C.

Published
2008
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23. Dysregulation of the engulfment pathway in the gut fuels Inflammatory Bowel Disease

Author

Suarez, Katherine, primary, Lim, Eileen, additional, Singh, Sujay, additional, Pereira, Matheus, additional, Joosen, Linda Petronella, additional, Ibeawuchi, Stella-Rita, additional, Dunkel, Ying, additional, Mittal, Yash, additional, Ho, Samuel B., additional, Chattopadhyay, Ranajoy, additional, Guma, Monica, additional, Boland, Brigid S., additional, Dulai, Parambir S., additional, Sandborn, William J., additional, Ghosh, Pradipta, additional, and Das, Soumita, additional

Published
2018
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25. Genomic alterations in 670 patients with diverse cancers analyzed by next-generation sequencing (NGS) of circulating tumor DNA (ctDNA).

Author

Schwaederle, Maria Clemence, primary, Chattopadhyay, Ranajoy, additional, Kato, Shumei, additional, Fanta, Paul T., additional, Banks, Kimberly, additional, Piccioni, David Eric, additional, Ikeda, Sadakatsu, additional, Talasaz, AmirAli, additional, Lanman, Richard B., additional, Bazhenova, Lyudmila, additional, and Kurzrock, Razelle, additional

Published
2017
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39. Regulation of Noxa-mediated apoptosis in Helicobacter pylori-infected gastric epithelial cells.

Author

Rath, Suvasmita, Das, Lopamudra, Kokate, Shrikant Babanrao, Pratheek, B. M., Chattopadhyay, Subhasis, Goswami, Chandan, Chattopadhyay, Ranajoy, Crowe, Sheila Eileen, and Bhattacharyya, Asima

Subjects
EPITHELIAL cells, APOPTOSIS, HELICOBACTER pylori infections, ADENOCARCINOMA, EXPERIMENTAL biology
Abstract

Helicobacter pylori induces the antiapoptotic protein myeloid cell leukemia 1 (Mcl1) in human gastric epithelial cells (GECs). Apoptosis of oncogenic protein Mcl1-expressing cells is mainly regulated by Noxamediated degradation of Mcl1. We wanted to elucidate the status of Noxa in H. pylori-infected GECs. For this, various GECs such as AGS, MKN45, and KATO III were either infected with H. pylori or left uninfected. The effect of infection was examined by immunoblotting, immunoprecipitation, chromatin immunoprecipitation assay, in vitro binding assay, flow cytometry, and confocal microscopy. Infected GECs, surgical samples collected from patients with gastric adenocarcinoma as well as biopsy samples from patients infected with H. pylori showed significant up-regulation of both Mcl1 and Noxa compared with noninfected samples. Coexistence of Mcl1 and Noxa was indicative of an impaired Mcl-Noxa interaction. We proved that Noxa was phosphorylated at Ser13 residue by JNK in infectedGECs, which caused cytoplasmic retention of Noxa. JNK inhibition enhanced Mcl1-Noxa interaction in the mitochondrial fraction of infected cells, whereas overexpression of nonphosphorylatable Noxa resulted in enhanced mitochondria-mediated apoptosis in the infected epithelium.Becausephosphorylation-dephosphorylation can regulate the apoptotic function of Noxa, this could be a potential target molecule for future treatment approaches for H. pylori-induced gastric cancer. [ABSTRACT FROM AUTHOR]

Published
2015
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42. Mechanism of hypoxia-inducible factor 1 α-mediated Mcll regulation in Helicobacter pylori-infected human gastric epithelium.

Author

Bhattacharyya, Asima, Chattopadhyay, Ranajoy, Hall, Emily H., Mebrahtu, Semret T., Ernst, Peter B., and Crowe, Sheila E.

Abstract

Hypoxia-inducible factor 1 (HIF1) consists of a hypoxia-inducible α subunit and a constitutively expressed β subunit. Reactive oxygen species (ROS) induced by Helicobacter pylori stabilize HIF1α in the human gastric epithelium in normoxia. HIF1α plays crucial role in carcinogenesis and has been associated with malignant progression of gastric cancer. Several genes contain functional hypoxia-response elements (HREs) in their promoters including BCl2 family member, Mcl1. Cellular ratios of antiapoptotic oncogenic protein, Mcl1, and tumor suppressor proapoptotic protein, Noxa, determine cell fate by regulating normal cellular growth, cell death and oncogenic processes. The aim of the present study was to examine the mechanism of HIF1α induction in the H. pylori-infected gastric epithelium to better understand disease pathogenesis by H. pylori relevant to gastric carcinogenesis. Our data showed that the dose-dependent increase in HIF1α in H. pyloriinfected gastric epithelia is mediated by induction of a ROS-inducible protein, apurinic/apyrimidinic endonuclease 1 (APE1), and an enhanced interaction of APE1 with the transcriptional coactivator p300. Surprisingly, with accumulation of HIF1α, further transcriptional activation of mcl1 was not observed. We identified a HIF-binding site (HBS) in the hifla promoter and showed that increased HIF1α expression, whether H. pylori-induced or hypoxia-mimetic agent, CoCl2-induced, resulted in enhanced HIF1α binding to its own promoter. This resulted in a transcriptionally inactive hifla promoter since hifla HBS lacks HIF ancillary sequence (HAS) required for HIF1 transcriptional activity. We conclude that enhanced binding of "nonfunctional" HIF1α to hifla promoter and limiting availability of p300 in the cell serves as checkpoints for uncontrolled HIF1α activity. [ABSTRACT FROM AUTHOR]

Published
2010
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43. Acetylation of Apurinic/Apyrimidinic Endonuclease-1 Regulates Helicobacter pylori-Mediated Gastric Epithelial Cell Apoptosis.

Author

Bhattacharyya, Asima, Chattopadhyay, Ranajoy, Burnette, Brent R., Cross, Janet V., Mitra, Sankar, Ernst, Peter B., Bhakat, Kishor K., and Crowe, Sheila E.

Subjects
NUCLEIC acids, ACETYLATION, ENZYME regulation, STOMACH physiology, EPITHELIAL cells, APOPTOSIS, ENDONUCLEASES, HELICOBACTER pylori infections
Abstract

Background & Aims: Helicobacter pylori–induced gastric epithelial cell (GEC) apoptosis is a complex process that includes activation of the tumor suppressor p53. p53-mediated apoptosis involves p53 activation, bax transcription, and cytochrome c release from mitochondria. Apurinic/apyrimidinic endonuclease-1 (APE-1) regulates transcriptional activity of p53, and H pylori induce APE-1 expression in human GECs. H pylori infection increases intracellular calcium ion concentration [Ca2+]i of GECs, which induces APE-1 acetylation. We investigated the effects of H pylori infection and APE-1 acetylation on GEC apoptosis. Methods: AGS cells (wild-type or with suppressed APE-1), KATO III cells, and cells isolated from gastric biopsy specimens were infected with H pylori. Effects were examined by immunoblotting, real-time reverse-transcription polymerase chain reaction, immunoprecipitation, immunofluorescence microscopy, chromatin immunoprecipitation, mobility shift, DNA binding, and luciferase assays. Results: H pylori infection increased [Ca2+]i and acetylation of APE-1 in GECs, but the acetylation status of APE-1 did not affect the transcriptional activity of p53. In GECs, expression of a form of APE-1 that could not be acetylated increased total and mitochondrial levels of Bax and induced release of cytochrome c and fragmentation of DNA; expression of wild-type APE-1 reduced these apoptotic events. We identified a negative calcium response element in the human bax promoter and found that poly (adenosine diphosphate-ribose) polymerase 1 recruited the acetylated APE-1/histone deacetylase-1 repressor complex to bax nCaRE. Conclusions: H pylori–mediated acetylation of APE-1 suppresses Bax expression; this prevents p53-mediated apoptosis when H pylori infect GECs. [Copyright &y& Elsevier]

Published
2009
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44. Adult Stem Cell-derived Complete Lung Organoid Models Emulate Lung Disease in COVID-19.

Author

Tindle C, Fuller M, Fonseca A, Taheri S, Ibeawuchi SR, Beutler N, Katkar G, Claire A, Castillo V, Hernandez M, Russo H, Duran J, Crotty Alexander LE, Tipps A, Lin G, Thistlethwaite PA, Chattopadhyay R, Rogers TF, Sahoo D, Ghosh P, and Das S

Abstract

SARS-CoV-2, the virus responsible for COVID-19, causes widespread damage in the lungs in the setting of an overzealous immune response whose origin remains unclear. We present a scalable, propagable, personalized, cost-effective adult stem cell-derived human lung organoid model that is complete with both proximal and distal airway epithelia. Monolayers derived from adult lung organoids (ALOs), primary airway cells, or hiPSC-derived alveolar type-II (AT2) pneumocytes were infected with SARS-CoV-2 to create in vitro lung models of COVID-19. Infected ALO-monolayers best recapitulated the transcriptomic signatures in diverse cohorts of COVID-19 patient-derived respiratory samples. The airway (proximal) cells were critical for sustained viral infection whereas distal alveolar differentiation (AT2→AT1) was critical for mounting the overzealous host immune response in fatal disease; ALO monolayers with well-mixed proximodistal airway components recapitulated both. Findings validate a human lung model of COVID-19 which can be immediately utilized to investigate COVID-19 pathogenesis, and vet new therapies and vaccines.

Published
2021
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