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3. Dietary-fat-induced taurocholic acid promotes pathobiont expansion and colitis in Il10−/− mice

Author

Devkota, Suzanne, Wang, Yunwei, Musch, Mark W, Leone, Vanessa, Fehlner-Peach, Hannah, Nadimpalli, Anuradha, Antonopoulos, Dionysios A, Jabri, Bana, and Chang, Eugene B

Subjects
Biomedical and Clinical Sciences, Nutrition and Dietetics, Prevention, Nutrition, Digestive Diseases, Autoimmune Disease, Inflammatory Bowel Disease, 2.1 Biological and endogenous factors, Aetiology, Oral and gastrointestinal, Animals, Bile Acids and Salts, Bilophila, Colitis, Diet, Fat-Restricted, Dietary Fats, Inflammation, Inflammatory Bowel Diseases, Interleukin-10, Metagenome, Mice, Mice, Inbred C57BL, Milk, Molecular Sequence Data, Safflower Oil, Sulfites, Taurine, Taurocholic Acid, Th1 Cells, General Science & Technology
Abstract

The composite human microbiome of Western populations has probably changed over the past century, brought on by new environmental triggers that often have a negative impact on human health. Here we show that consumption of a diet high in saturated (milk-derived) fat, but not polyunsaturated (safflower oil) fat, changes the conditions for microbial assemblage and promotes the expansion of a low-abundance, sulphite-reducing pathobiont, Bilophila wadsworthia. This was associated with a pro-inflammatory T helper type 1 (T(H)1) immune response and increased incidence of colitis in genetically susceptible Il10(−/−), but not wild-type mice. These effects are mediated by milk-derived-fat-promoted taurine conjugation of hepatic bile acids, which increases the availability of organic sulphur used by sulphite-reducing microorganisms like B. wadsworthia. When mice were fed a low-fat diet supplemented with taurocholic acid, but not with glycocholic acid, for example, a bloom of B. wadsworthia and development of colitis were observed in Il10(−/−) mice. Together these data show that dietary fats, by promoting changes in host bile acid composition, can markedly alter conditions for gut microbial assemblage, resulting in dysbiosis that can perturb immune homeostasis. The data provide a plausible mechanistic basis by which Western-type diets high in certain saturated fats might increase the prevalence of complex immune-mediated diseases like inflammatory bowel disease in genetically susceptible hosts.

Published
2012

4. Recognition of Host Immune Activation by Pseudomonas aeruginosa

Author

Wu, Licheng, Estrada, Oscar, Zaborina, Olga, Bains, Manjeet, Shen, Le, Kohler, Jonathan E., Patel, Nachiket, Musch, Mark W., Chang, Eugene B., Fu, Yang-Xin, Jacobs, Michael A., Nishimura, Michael I., Turner, Jerrold R., and Alverdy, John C.

Published
2005

6. Microbial signals drive pre-leukaemic myeloproliferation in a Tet2-deficient host

Author

Meisel, Marlies, Hinterleitner, Reinhard, Pacis, Alain, Chen, Li, Earley, Zachary M., Mayassi, Toufic, Pierre, Joseph F., Ernest, Jordan D., Galipeau, Heather J., Thuille, Nikolaus, Bouziat, Romain, Buscarlet, Manuel, Ringus, Daina L., Wang, Yitang, Li, Ye, Dinh, Vu, Kim, Sangman M., McDonald, Benjamin D., Zurenski, Matthew A., Musch, Mark W., Furtado, Glaucia C., Lira, Sergio A., Baier, Gottfried, Chang, Eugene B., Eren, A. Murat, Weber, Christopher R., Busque, Lambert, Godley, Lucy A., Verdú, Elena F., Barreiro, Luis B., and Jabri, Bana

Published
2018
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11. High fat diet disrupts diurnal interactions between small intestinal host innate immune factor REG3γ and gut microbiota resulting in metabolic dysfunction

Author

Frazier, Katya, primary, Kambal, Amal, additional, Zale, Elizabeth A., additional, Pierre, Joseph F., additional, Hubert, Nathaniel, additional, Miyoshi, Sawako, additional, Miyoshi, Jun, additional, Ringus, Daina, additional, Harris, Dylan, additional, Yang, Karen, additional, Carroll, Katherine, additional, Hermanson, Jake, additional, Chlystek, John, additional, Overmyer, Katherine, additional, Cham, Candace, additional, Musch, Mark W., additional, Coon, Joshua J., additional, Chang, Eugene B., additional, and Leone, Vanessa, additional

Published
2022
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17. Regional differences in colonic mucosa-associated microbiota determine the physiological expression of host heat shock proteins

Author

Hu, Shien, Wang, Yunwei, Lichtenstein, Lev, Tao, Yun, Musch, Mark W., Jabri, Bana, Antonopoulos, Dionysios, Claud, Erika C., and Chang, Eugene B.

Subjects
Heat shock proteins -- Physiological aspects, Heat shock proteins -- Genetic aspects, Heat shock proteins -- Research, Gene expression -- Physiological aspects, Microbiota (Symbiotic organisms) -- Physiological aspects, Microbiota (Symbiotic organisms) -- Genetic aspects, Biological sciences
Abstract

Cytoprotective heat shock proteins (Hsps) are critical for intestinal homeostasis and are known to be decreased in inflammatory bowel diseases. Signals responsible for maintenance of Hsp expression are incompletely understood. In this study, we find that Hsp25/27 and Hsp70 protein expressions are differentially regulated along the longitudinal length of the large intestine, being highest in the proximal colon and decreasing to the distal colon. This longitudinal gradient was similar in both conventionally colonized mouse colon as well as biopsies of human proximal and distal colon but was abolished in the colon of germ-free mice, suggesting a role of intestinal microbiota in the Hsp regional expression. Correspondingly, analysis of 16S ribosomal RNA genes of bacteria from each colonic segment indicated increased bacterial richness and diversity in the proximal colon. The mechanism of regulation is transcriptional, as Hsp70 mRNA followed a similar pattern to Hsp70 protein expression. Lysates of mucosa-associated bacteria from the proximal colon stimulated greater Hsp25 and Hsp70 mRNA transcription and subsequent protein expression in intestinal epithelial cells than did lysates from distal colon. In addition, transrectal administration of cecal contents stimulated Hsp25 and Hsp70 expression in the distal colon. Thus host-microbial interactions resulting in differential Hsp expression may have significant implications for the maintenance of intestinal homeostasis and possibly for development of inflammatory diseases of the bowel. 16S ribosomal RNA gene; colonic bacteria; heat shock protein 25; heat shock protein 70 doi: 10.1152/ajpgi.00357.2010.

Published
2010

18. Stress granule formation mediates the inhibition of colonic Hsp70 translation by interferon-[gamma] and tumor necrosis factor-[alpha]

Author

Hu, Shien, Claud, Erika C., Musch, Mark W., and Chang, Eugene B.

Subjects
Interferon gamma -- Research, Tumor necrosis factor -- Research, Heat shock proteins -- Research, Inflammatory bowel diseases -- Research, Biological sciences
Abstract

Mucosal inflammation, through cytokines such as interferon-[gamma] (IFN-[gamma]) and tumor necrosis factor-[alpha]] (TNF-[alpha]), has many effects on the intestinal epithelium, including selective translational inhibition of the cytoprotective protein heat shock protein 70 (HspT0). To further elucidate the mechanisms underlying this effect, we examined the role of stress granules in mediating the actions of these proinflammatory cytokines. Using conditionally immortalized young adult mouse colonic epithelial cells, we demonstrate that IFN-[gamma] and TNF-[alpha], which upregulate eukaryotic initiation factor-[alpha] (elF-2[alpha] phosphorylation and reduce Hsp70 translation, significantly enhance stress granule formation in heat-shocked intestinal epithelial cells. The IFN-[gamma] and TNF-[alpha] effects in upregulation of stress granule formation and downregulation of Hsp70 were elF-2[alpha] dependent, and the effect could be negated by blocking elF-2[alpha] phosphorylation with use of an RNA-dependent protein kinase inhibitor. Correspondingly, IFN-[gamma] and TNF-[alpha] increased binding of cytoplasmic proteins to the 3'-untranslated region of Hsp70 mRNA, suggesting specific recruitment of Hsp70 to stress granules as the mechanism of IFN-[gamma] and TNF-[alpha] inhibition of Hsp70 translation. We thus report a novel linkage between inflammatory cytokine production, stress granule formation, and Hsp70 translation inhibition, providing additional insights into the response of intestinal epithelial cells to inflammatory stress. inflammatory bowel disease; IFN-[gamma] doi: 10.1152/ajpgi.00234.2009.

Published
2010

19. Cyclic AMP-mediated endocytosis of intestinal epithelial NHE3 requires binding to synaptotagmin 1

Author

Musch, Mark W., Arvans, Donna L., Wang, Yunwei, Nakagawa, Yasushi, Solomaha, Elena, and Chang, Eugene B.

Subjects
Adenylic acid -- Physiological aspects, Adenylic acid -- Genetic aspects, Adenylic acid -- Research, Endocytosis -- Physiological aspects, Endocytosis -- Genetic aspects, Endocytosis -- Research, Epithelial cells -- Physiological aspects, Epithelial cells -- Genetic aspects, Epithelial cells -- Research, Biological sciences
Abstract

Musch MW, Arvans DL, Wang Y, Nakagawa Y, Solomaha E, Chang EB. Cyclic AMP-mediated endocytosis of intestinal epithelial NHE3 requires binding to synaptotagmin 1. Am J Physiol Gastrointest Liver Physiol 298:G203-G211, 2010. First published November 19, 2009; doi:10.1152/ajpgi.00379.2009.--The apical membrane [Na.sup.+]-[H.sup.+] exchanger (NHE)3 is regulated by cAMP-dependent phosphorylation, which inhibits its activity through membrane endocytosis. The clathrin complex adaptor protein synaptotagmin 1 (Syt 1) appears to be essential to this process, but little is known about its expression in intestinal epithelial cells or interaction with NHE3. The intestinal epithelial expression and apical location of Syt 1 were determined by Syt 1 mRNA profiling and immunolocalization. Tandem mass spectrometry was used for protein identification. Bis(sulfosuccinimidyl) suberate ([BS.sup.3]) cross linking suggested that NHE3 and Syt 1 were in a membrane complex following cAMP stimulation of Caco2BBE (Brush Border Expressions) cells. To investigate the regulation of NHE3 appearance in a Syt 1-containing membrane compartment, doxycycline-inducible hemaglutinin (HA)tagged NHE3 was expressed in Caco2BBE cells. HA-NHE3 correctly targeted to the apical membrane, where, upon cAMP stimulation, it was internalized with a Syt 1-containing compartment. Site-directed mutagenesis of NHE3 showed that serine 605 ($605) was pivotal to NHE3 and Syt 1 association and internalization. Direct Syt 1 interaction with NHE3 was suggested by fluorescence resonance energy transfer (FRET) analysis. The physiological role of $552 was less clear. By FRET, this serine residue appeared to be involved in cAMP-induced Syt 1 binding of NHE3. However, when HA-tagged NHE3 $552A was expressed in Caco2 cells, the mutated construct was not inserted into the apical membrane. We conclude that intestinal epithelial Syt 1 plays an important role in cAMP-stimulated endocytosis of apical NHE3 through cAMP-dependent phosphorylation of S605 that is required for NHE3 and Syt 1 association. protein trafficking; fluorescence resonance energy transfer; [Na.sup.+] transport; diarrheal disease; clathrin and adaptor protein 2 complex; [Na.sup.+]-[H.sup.+] exchanger doi: 10.1152/ajpgi.00379.2009

Published
2010

20. Inflammation-induced, 3'UTR-dependent translational inhibition of Hsp70 mRNA impairs intestinal homeostasis

Author

Hu, Shien, Zhu, Xiaorong, Triggs, Joseph R., Tao, Yun, Wang, Yunwei, Lichtenstein, Lev, Bissonnette, Marc, Musch, Mark W., and Chang, Eugene B.

Subjects
Heat shock proteins -- Physiological aspects, Heat shock proteins -- Research, Inflammation -- Complications and side effects, Inflammation -- Research, Genetic translation -- Research, Biological sciences
Abstract

Although the inducible heat shock protein 70 (Hsp70) is essential for maintaining intestinal homeostasis in colitis, it is translationally downregulated in inflamed colonic mucosa, paradoxically rendering the gut more susceptible to injury. We examined the basis for this process by analyzing the role of untranslated regions (UTR) of Hsp70 mRNA in inflammation-associated downregulation in vitro and in vivo. Using luciferase-reporter assays in young adult mouse intestinal epithelial cells, we determined that cytokine-induced translational inhibition of Hsp70 mRNA was mediated by the 3'UTR, but not 5'UTR. In vivo, dextran sodium sulfate (DSS) colitis was induced in wild-type (WT) and villin-promoter regulated 'UTR-less' Hsp70 transgenic (TG) mice, the latter exhibiting intestinal epithelial-specific transgene expression. Progressive downregulation of colonic Hsp70 protein expression was observed in WT, but not in TG, mice with increasing severity of mucosal inflammation, confirming the essential role of the YUTR in mediating inflammation-associated downregulation of Hsp70. Hsp70 TG mice demonstrated significantly lower endoscopic and histological inflammation scores in DSS-induced colitis than WT. In conclusion, downregulation of Hsp70 expression in inflamed mucosa is mediated by translational inhibition requiring the 3'UTR, resulting in increased mucosal injury. By forcing intestinal epithelial-specific Hsp70 expression in vivo, the severity of experimentally induced colitis was significantly reduced. 3' untranslated region; dextran sodium sulfate; heat shock protein 70

Published
2009

21. Functional coupling of the downregulated in adenoma [Cl.sup.-]/base exchanger DRA and the apical [NA.sup.+]/[H.sup.+] exchangers NHE2 and NHE3

Author

Musch, Mark W., Arvans, Donna L., Wu, Gary D., and Chang, Eugene B.

Subjects
Adenoma -- Development and progression, Ion exchange -- Observations, Biological transport, Active -- Research, Ion channels -- Properties, Absorption (Physiology) -- Observations, Biological sciences
Abstract

Non-nutrient-dependent salt absorption across the brush-border membrane of intestinal epithelial cells is primarily mediated by coupled apical [NA.sup.+]/[H.sup.+] (aNHE) and anion exchange transport, with the latter suspected of being mediated by DRA (downregulated in adenoma; SLC26A3) that is defective in congenital chloridorrhea. To investigate DRA in greater detail and determine whether DRA and NHE activities can be coupled, we measured [sup.22][NA.sup.+] and [sup.36][Cl.sup.-] uptake in Caco2BBE colon cells infected with the tet-off-inducible DRA transgene. Under basal conditions, DRA activity was low in normal and infected Caco2BBE cells in the presence of tetracycline, whereas NHE activities could be easily detected. When apical NHE activity was increased by transfection or serum-induced expression of the aNHE isoforms NHE2 and NHE3, increased [sup.36][Cl.sup.-] uptake was observed. Inhibition of DRA activity by niflumic acid was greater than that by DIDS as well as by the NHE inhibitor dimethylamiloride and the carbonic anhydrase inhibitor methazolamide. DRA activity was largely aNHE-dependent, whereas a component of DRA-independent aNHE uptake continued to be observed. Coupled aNHE and DRA activities were inhibited by increased cellular cAMP and calcium and were associated with synaptotagmin I-dependent, clathrin-mediated endocytosis. In summary, these data support the role of DRA in electroneutral NaCl absorption involving functional coupling of [Cl.sup.-]/base exchange and apical NHE. anion exchange; electroneutral NaCl transport; intestinal transport; endocytosis; diarrheal diseases; sodium absorption; congenital chloridorrhea; SLC26A3; SLC26; synaptotagmin; clathrin; membrane biotinylation

Published
2009

22. Aldosterone regulation of intestinal Na absorption involves SGK-mediated changes in NHE3 and [Na.sup.+] pump activity

Author

Musch, Mark W., Lucioni, Alvaro, and Chang, Eugene B.

Subjects
Aldosterone -- Properties, Diarrhea -- Development and progression, Intestinal absorption -- Evaluation, Biological sciences
Abstract

Aldosterone-induced intestinal [Na.sup.+] absorption is mediated by increased activities of apical membrane [Na.sup.+]/[H.sup.+] exchange (aNHE3) and basolateral membrane [Na.sup.+]-[K.sup.-]ATPase (BLM-[Na.sup.+]-[K.sup.-]-ATPase) activities. Because the processes coordinating these events were not well understood, we investigated human intestinal Caco-2BBE cells where aldosterone increases within 2-4 h of aNHE3 and [alpha]-subunit of BLM-[Na.sup.+]-[K.sup.-]-ATPase, but not total abundance of these proteins. Although aldosterone activated Akt2 and serum glucorticoid kinase-1 (SGK-1), the latter through stimulation of phosphatidylinositol 3-kinase (PI3K), only the SGK-1 pathway mediated its effects on [Na.sup.+]-[K.sup.-]-ATPase. Ouabain inhibition of the early increase in aldosterone-induced [Na.sup.+]-[K.sup.-]-ATPase activation blocked most of the apical NHE3 insertion, possibly by inhibiting [Na.sup.+]-[K.sup.-]-ATPase-induced changes in intracellular sodium concentration ([[Na].sub.i]). Over the next 6-48 h, further increases in aNHE3 and BLM-[Na.sup.+]-[K.sup.-]-ATPase activity and total protein expression were observed to be largely mediated by aldosterone-activated SGK-1 pathway. Aldosterone-induced increases in NHE3 mRNA, for instance, could be inhibited by RNA silencing of SGK-1, but not Akt2. Additionally, aldosterone-induced increases in NHE3 promoter activity were blocked by silencing SGK-1 as well as pharmacological inhibition of PI3K. In conclusion, aldosterone-stimulated intestinal [Na.sup.+] absorption involves two phases. The first phase involves stimulation of PI3K, which increases SGK-dependent insertion and function of BLM-[Na.sup.+]-[K.sup.-]-ATPase and subsequent increased membrane insertion of aNHE3. The latter may be caused by [Na.sup.+]-[K.sup.-]-ATPaseinduced changes in [Na] or transcellular Na flux. The second phase involves SGK-dependent increases in total NHE3 and [Na.sup.+]-[K.sup.-]ATPase protein expression and activities. The coordination of apical and BLM transporters after aldosterone stimulation is therefore a complex process that requires multiple time- and interdependent cellular processes. [Na.sup.+] transport; intestine; intracellular [Na.sup.+], intestinal adaptation; fluid and electrolyte transport; diarrhea; malabsorption; [Na.sup.+]-[H.sup.+] exchange

Published
2008

23. Volume expansion stimulates monoubiquitination and endocytosis of surface-expressed skate anion-exchanger isoform

Author

Musch, Mark W., Puffer, Amanda B., and Goldstein, Leon

Subjects
Ubiquitin-proteasome system -- Properties, Endocytosis -- Evaluation, Anion exchangers (Biology) -- Properties, Clathrin -- Properties, Phosphorylation -- Evaluation, Physiological research, Biological sciences
Abstract

In hyposmotic medium, skate erythrocytes swell and then lose taurine and other solutes with obligate water to achieve a regulatory volume decrease (RVD) over a 90-min period. The skate erythrocyte anion-exchanger isoform 1 (skAE1) participates in the RVD, and increased surface expression after hyposmolality-induced volume expansion occurs within 5 min but decreases to baseline within 120 min. The subsequent fate of skAE1 is the focus of these studies. SkAEI sent to the surface becomes monoubiquitinated, a modification that is present while skAE1 is associated with clathrin and Rab5 but is removed before skAE1 is passed to the Rab4 compartment. Endocytosis of skAE1 involves clathrinmediated internalization. Surface plasma membrane skAE1 forms tetramers and demonstrates increased tyrosine phosphorylation, and both of these processes decrease before skAE1 appears in the Rab5 compartment. Volume expansion-stimulated surface skAE1 comes from an intracellular pool in a buoyant membrane fraction resistant to nonionic detergent extraction (DRM), and the amount of skAE1 increases in this buoyant DRM fraction on the surface. Clathrin heavy chain is found largely in the erythrocyte DRM, but in dense, rather than buoyant, fractions. Rab5- and Rab4-containing membranes are largely detergent soluble, suggesting that as skAE1 is passed to clathrin and then to Rab5 compartments, the membrane microdomain composition changes. The present studies demonstrate that skAE1, which appears on the surface after hyposmolality-induced volume expansion, is monoubiquitinated, a modification that may serve as a signal for removal of skAE1 from the surface. This modification is eliminated after clathrin-mediated removal of skAE1 in a membrane domain containing Rab5, potentially permitting recycling and reuse of skAE1. regulatory volume decrease; clathrin; Rab5; Rab4; tetramerization; tyrosine phosphorylation; membrane domains

Published
2008

24. Flagellin is required for salmonella-induced expression of heat shock protein Hsp25 in intestinal epithelium

Author

Petrof, Elaine O., Musch, Mark W., Ciancio, Mae, Sun, Jun, Hobert, Michael E., Claud, Erika C., Gewirtz, Andrew, and Chang, Eugene B.

Subjects
Heat shock proteins -- Physiological aspects, Heat shock proteins -- Genetic aspects, Bacterial proteins -- Genetic aspects, Bacterial proteins -- Physiological aspects, Salmonella -- Physiological aspects, Salmonella -- Genetic aspects, Biological sciences
Abstract

Flagellin is a bacterial protein responsible for activation of Toll-like receptor 5 (TLR5), which we hypothesize is involved in Salmonella's induction of cytoprotective heat shock proteins in intestinal epithelial cells. Flagellin induces the cytoprotective heat shock protein Hsp25 in different intestinal epithelial cell lines and in mouse intestine. Flagellin induces Hsp25 expression in a time-dependent manner in vitro. This effect is transcriptional, as confirmed by luciferase reporter assays and actinomycin D treatment. In addition, Hsp25 induction requires p38 MAPK activation and is only observed when flagellin is added to the basolateral side of polarized intestinal epithelial cells, consistent with the known location of TLR5. Flagellin-mediated Hsp25 induction is associated with increased protective effects against oxidant stress, an effect that is at least partially mediated by p38 MAPK. Use of small interfering RNA against Hsp25 demonstrates that flagellin-mediated protection against oxidant stress is to some degree mediated through Hsp25 induction. This suggests that, by protecting against oxidant injury, the induction of Hsp25 expression by flagellin may contribute to intestinal homeostasis. In a coculture cell model and in a mouse model of Salmonella enterica Serovar Typhimurium infection, not only does infection with wild-type and a flagellin-deletion mutant strain of Salmonella show that flagellin induces Hsp25 in vivo, but it also demonstrates that in the case of live Salmonella infection, flagellin serves as a major stimulus for the induction of Hsp25 expression. These data provide evidence that flagellin is required for Salmonella-mediated induction of Hsp25 expression in intestinal epithelium. intestinal epithelial cells; oxidant stress; innate immunity; Toll-like receptors

Published
2008

25. Novel role of the vitamin D receptor in maintaining the integrity of the intestinal mucosal barrier

Author

Kong, Juan, Zhang, Zhongyi, Musch, Mark W., Ning, Gang, Sun, Jun, Hart, John, Bissonnette, Marc, and Li, Yan Chun

Subjects
Cell receptors -- Properties, Intestinal mucosa -- Properties, Cell junctions -- Properties, Inflammatory bowel diseases -- Physiological aspects, Biological sciences
Abstract

Emerging evidence supports a pathological link between vitamin D deficiency and the risk of inflammatory bowel disease (IBD). To explore the mechanism we used the dextran sulfate sodium (DSS)-induced colitis model to investigate the role of the vitamin D receptor (VDR) in mucosal barrier homeostasis. While [VDR.sup.+/+] mice were mostly resistant to 2.5% DSS, [VDR.sup.-/-] mice developed severe diarrhea, rectal bleeding, and marked body weight loss, leading to death in 2 wk. Histological examination revealed extensive ulceration and impaired wound healing in the colonic epithelium of DSS-treated [VDR.sup.-/-] mice. Severe ulceration in [VDR.sup.-/-] mice was preceded by a greater loss of intestinal transepithelial electric resistance (TER) compared with [VDR.sup.+/+] mice. Confocal and electron microscopy (EM) revealed severe disruption in epithelial junctions in [VDR.sup.-/-] mice after 3-day DSS treatment. Therefore, [VDR.sup.-/-] mice were much more susceptible to DSS-induced mucosal injury than [VDR.sup.+/+] mice. In cell cultures, 1,25-dihydroxy-vitamin [D.sub.3] [1,25[(OH).sub.2][D.sub.3]] markedly enhanced tight junctions formed by Caco-2 monolayers by increasing junction protein expression and TER and preserved the structural integrity of tight junctions in the presence of DSS. VDR knockdown with small interfering (si)RNA reduced the junction proteins and TER in Caco-2 monolayers. 1,25[(OH).sub.2][D.sub.3] can also stimulate epithelial cell migration in vitro. These observations suggest that VDR plays a critical role in mucosal barrier homeostasis by preserving the integrity of junction complexes and the heating capacity of the colonic epithelium. Therefore, vitamin D deficiency may compromise the mucosal barrier, leading to increased susceptibility to mucosal damage and increased risk of IBD. tight junction; inflammatory bowel disease; dextran sulfate sodium

Published
2008

29. Synaptotagmin I binds intestinal epithelial NHE3 and mediates cAMP-and [Ca.sup.2+]-induced endocytosis by recruitment of AP2 and clathrin

Author

Musch, Mark W., Arvans, Donna L., Walsh-Reitz, Margaret M., Uchiyama, Kazuhiko, Fukuda, Mitsunori, and Chang, Eugene B.

Subjects
Biological transport -- Research, Clathrin -- Research, Cyclic adenylic acid -- Research, Ion-permeable membranes -- Research, Biological sciences
Abstract

Apical membrane sodium hydrogen exchanger 3 (NHE3), a major pathway for non-nutrient-dependent intestinal [Na.sup.+] absorption, is tightly regulated by second messenger systems that affect its functional activity and membrane trafficking. However, the events and components involved in NHE3 regulation are only partially understood. We report that the adaptor protein synaptotagmin I (Syt I) plays a pivotal role in cAMP- and [Ca.sup.2+]-induced cargo recognition of NHE3 and initiation of its endocytosis. Both mouse small intestine (jejunum) and Caco-2BBe Syt I coimmunoprecipitated with NHE3, particularly following increases in cellular cAMP or [Ca.sup.2+]. Following short interfering RNA (siRNA) suppression of Syt I expression, cAMP- and [Ca.sup.2+]-induced inhibition of NHE3 activity were still observed but NHE3 endocytosis was blocked, as assessed by [sup.22]Na influx and apical membrane biotin labeling, respectively. Similar effects on NHE3 inhibition and endocytosis were observed by siRNA suppression of either the [mu]-subunit of the adaptor protein 2 (AP2) complex or the heavy chain of clathrin. Coimmunoprecipitation analyses of NHE3 with these adaptor proteins revealed that cAMP- and [Ca.sup.2+]-induced NHE3-Syt I interaction preceded and was required for recruitment of AP2 and the clathrin complex. Confocal microscopy confirmed both the time sequence and protein associations of these events. We conclude that Syt I plays a pivotal role in mediating cAMP- and [Ca.sup.2+]-induced endocytosis of NHE3 (but not in inhibition of activity) through cargo recognition of NHE3 and subsequent recruitment of AP2-clathrin assembly required for membrane endocytosis. sodium/hydrogen exchange; cyclic nucleotides; calcium; Caco-2BBe cells; membrane trafficking; water and electrolyte transport; intestinal Na absorption; diarrheal diseases; adaptor protein 2 doi: 10.1152/ajpgi.00388.2006

Published
2007

30. fMLP induces Hsp27 expression, attenuates NF-[kappa]B activation, and confers intestinal epithelial cell protection

Author

Carlson, Ryan M., Vavricka, Stephan R., Eloranta, Jyrki J., Musch, Mark W., Arvans, Donna L., Kles, Keri A., Walsh-Reitz, Margaret M., Kullak-Ublick, Gerd A., and Chang, Eugene B.

Subjects
Heat shock proteins -- Research, Epithelial cells -- Research, Actin -- Research, Homeostasis -- Research, Biological sciences
Abstract

Sustained expression of cytoprotective intestinal epithelial heat shock proteins (Hsps), particularly Hsp27, depends on stimuli derived from bacterial flora. In this study, we examined the role of the bacterial chemotactic peptide fMLP in stimulating colonic epithelial Hsp expression at concentrations encountered in a physiological milieu. Treatment of the polarized human intestinal epithelial cell line Caco2bbe with physiological concentrations of fMLP (10-100 nM) induced expression of Hsp27, but not Hsp72, in a time- and concentration-dependent manner. Induction of Hsp27 by fMLP was specific since the fMLP analogs MRP and MLP were not effective. Hsp27 induction by fMLP was blocked by the fMLP-receptor antagonist BOC-FLFLF and was blocked when the dipeptide transporter PepT1, an entry pathway for fMLP, was silenced, fMLP activated both the p38 and ERK1/2 MAP kinase pathways in Caco2bbe cells, but not the SAPK/JNK pathway. The p38 inhibitor SB203580, but not the MEK-1 inhibitor PD98059, blocked Hsp27 induction by fMLP. fMLP treatment inhibited actin depolymerization and decreased transepithelial resistance caused by the oxidant monochloramine, and this inhibition was reversed by silencing Hsp27 expression, fMLP pretreatment also inhibited activation of proinflammatory transcription factor NF-[kappa]B by TNF-[alpha] in Caco2bbe cells, reducing induction of NF-[kappa]B target genes by TNF-[alpha] both in human intestinal biopsies and Caco2bbe cells. In conclusion, fMLP may contribute to the maintenance of intestinal homeostasis by mediating physiological expression of Hsp27, enhancing cellular protection, and negatively regulating the inflammatory response. chemotactic peptides; stress proteins; actin; barrier function; NF-[kappa]B

Published
2007

31. Coordinated epithelial NHE3 inhibition and barrier dysfunction are required for TNF-mediated diarrhea in vivo

Author

Clayburgh, Daniel R., Musch, Mark W., Leitges, Michael, Fu, Yang-Xin, and Turner, Jerrold R.

Subjects
Tumor necrosis factor -- Research, Diarrhea -- Physiological aspects, Diarrhea -- Health aspects
Abstract

Acute T cell-mediated diarrhea is associated with increased mucosal expression of proinflammatory cytokines, including the TNF superfamily members TNF and LIGHT. While we have previously shown that epithelial barrier dysfunction [...]

Published
2006

32. Heat induction of heat shock protein 25 requires cellular glutamine in intestinal epithelial cells

Author

Phanvijhitsiri, Kittiporn, Musch, Mark W., Ropeleski, Mark J., and Chang, Eugene B.

Subjects
Glutamine -- Properties, Intestines -- Physiological aspects, Heat shock proteins -- Properties, Heat shock proteins -- Research, Biological sciences
Abstract

Glutamine is considered a nonessential amino acid; however, it becomes conditionally essential during critical illness when consumption exceeds production. Glutamine may modulate the heat shock/stress response, an important adaptive cellular response for survival. Glutamine increases heat induction of heat shock protein (Hsp) 25 in both intestinal epithelial cells (IEC-18) and mesenchymal NIH/3T3 cells, an effect that is neither glucose nor serum dependent. Neither arginine, histidine, proline, leucine, asparagine, nor tyrosine acts as physiological substitutes for glutamine for heat induction of Hsp25. The lack of effect of these amino acids was not caused by deficient transport, although some amino acids, including glutamate (a major direct metabolite of glutamine), were transported poorly by IEC-18 cells. Glutamate uptake could be augmented in a concentration- and time-dependent manner by increasing either media concentration and/or duration of exposure. Under these conditions, glutamate promoted heat induction of Hsp25, albeit not as efficiently as glutamine. Further evidence for the role of glutamine conversion to glutamate was obtained with the glutaminase inhibitor 6-diazo-5-oxo-L-norleucine (DON), which inhibited the effect of glutamine on heat-induced Hsp25. DON inhibited phosphate-dependent glutaminase by 75% after 3 h, decreasing cell glutamate. Increased glutamine/glutamate conversion to glutathione was not involved, since the glutathione synthesis inhibitor, buthionine sulfoximine, did not block glutamine's effect on heat induction of Hsp25. A large drop in ATP levels did not appear to account for the diminished Hsp25 induction during glutamine deficiency. In summary, glutamine is an important amino acid, and its requirement for heat-induced Hsp25 supports a role for glutamine supplementation to optimize cellular responses to pathophysiological stress. IEC-18; NIH/3T3; glutaminase; 6-diazo-5-oxo-L-norleucine; glutathione doi:10.1152/ajpcell.00225.2005

Published
2006

33. Roles of ZO-1, occludin, and actin in oxidant-induced barrier disruption

Author

Musch, Mark W., Walsh-Reitz, Margaret Mary, and Chang, Eugene B.

Subjects
Actin -- Research, Epithelial cells -- Research, Membrane proteins -- Research, Biological sciences
Abstract

Oxidants such as monochloramine (N[H.sub.2]Cl) decrease epithelial barrier function by disrupting perijunctional actin and possibly affecting the distribution of tight junctional proteins. These effects can, in theory, disturb cell polarization and affect critical membrane proteins by compromising molecular fence function of the tight junctions. To examine these possibilities, we investigated the actions of N[H.sub.2]Cl on the distribution, function, and integrity of barrier-associated membrane, cytoskeletal, and adaptor proteins in human colonic Caco-2 epithelial monolayers. N[H.sub.2]Cl causes a time-dependent decrease in both detergent-insoluble and -soluble zonula occludens (ZO)-1 abundance, more rapidly in the former. Decreases in occludin levels in the detergent-insoluble fraction were observed soon after the fall of ZO-1 levels. The actin depolymerizer cytochalasin D resulted in a decreased transepithelial resistance (TER) more quickly than N[H.sub.2]Cl but caused a more modest and slower reduction in ZO-1 levels and in occludin redistribution. No changes in the cellular distribution of claudin-1, claudin-5, or ZO-2 were observed after N[H.sub.2]Cl. However, in subsequent studies, the immunofluorescent cellular staining pattern of all these proteins was altered by N[H.sub.2]Cl. The actin-stabilizing agent phalloidin did not prevent N[H.sub.2]Cl-induced decreases in TER or increases of apical to basolateral flux of the paracellular permeability marker mannitol. However, it partially blocked changes in ZO-1 and occludin distribution. Tight junctional fence function was also compromised by N[H.sub.2]Cl, observed as a redistribution of the [alpha]-subunit of basolateral [Na.sup.+]-[K.sup.+]-ATPase to the apical membrane, an effect not found with the apical membrane protein [Na.sup.+]/[H.sup.+] exchanger isoform 3. In conclusion, oxidants not only disrupt perijunctional actin but also cause redistribution of tight junctional proteins, resulting in compromised intestinal epithelial barrier and fence function. These effects are likely to contribute to the development of malabsorption and dysfunction associated with mucosal inflammation of the digestive tract. oxidants; actin cytoskeleton; tight junctions; transepithelial electrical resistance

Published
2006

34. AMP-18 protects barrier function of colonic epithelial cells: role of tight junction proteins

Author

Walsh-Reitz, Margaret M., Huang, Erick F., Musch, Mark W., Chang, Eugene B., Martin, Terence E., Kartha, Sreedharan, and Toback, F. Gary

Subjects
Peptides -- Physiological aspects, Rodents as laboratory animals -- Physiological aspects, Epithelial cells -- Research, Epithelial cells -- Physiological aspects, Colorectal diseases -- Care and treatment, Colorectal diseases -- Research, Biological sciences
Abstract

Antrum mucosal protein (AMP)-18 and a synthetic peptide of amino acids 77-97 have mitogenic and motogenic properties for epithelial cells. The possibility that AMP-18 is also protective was evaluated in the colonic mucosa of mice and monolayer cultures of human colonic epithelial Caco-2/bbe (C2) cells. Administration of AMP peptide to mice with dextran sulfate sodium (DSS)-induced colonic injury delayed the onset of bloody diarrhea and reduced weight loss. Treatment of C2 cells with AMP peptide protected monolayers against decreases in transepithelial electrical resistance induced by the oxidant monochloramine, indomethacin, or DSS. A molecular mechanism for these harrier-protective effects was sought by asking whether AMP peptide acted on specific tight junction (TJ) proteins. Immunoblots of detergent-insoluble fractions of C2 cells treated with AMP peptide exhibited increased accumulation of specific TJ proteins. Occludin immunoreactivity was also increased in detergent-insoluble fractions obtained from colonic mucosal cells of mice injected with AMP peptide. Observations using laser scanning confocal (CF) microscopy supported the capacity of AMP peptide to enhance accumulation of occludin and zonula occludens-1 in TJ domains of C2 cell monolayers and together with immunoblot analysis showed that the peptide protected against loss of these TJ proteins following oxidant injury. AMP peptide also protected against a fall in TER during disruption of actin filaments by cytochalasin D and stabilized perijunctional actin during oxidant injury when assessed by CF. These findings suggest that AMP-18 could protect the intestinal mucosal barrier by acting on specific TJ proteins and stabilizing perijunctional actin. gastrokine-1; mucosal barrier; wound healing; occludin; zonula occludens-1 ; perijunctional actin

Published
2005

35. Tyrosine kinase inhibition affects skate anion exchanger isoform I alterations after volume expansion

Author

Musch, Mark W. and Goldstein, Leon

Subjects
Anion exchangers (Biology) -- Research, Anion exchangers (Biology) -- Physiological aspects, Tyrosine -- Research, Tyrosine -- Physiological aspects, Skates (Fishes) -- Research, Skates (Fishes) -- Physiological aspects, Biological sciences
Abstract

Upon exposure to hypotonic medium, skate red blood cells swell and then reduce their volume by releasing organic osmolytes and associated water. The regulatory volume decrease is inhibited by stilbenes and anion exchange inhibitors, suggesting involvement of the red blood cell anion exchanger skAE1. To determine the role of tyrosine phosphorylation, red blood cells were volume expanded with and without prior treatment with the tyrosine kinase inhibitor piceatannol. At the concentration used, 130 [micro]M, piceatannol nearly completely inhibits [p72.sup.syk], a tyrosine kinase previously shown to phosphorylate skAE1 (M. W. Musch, E. H. Hubert, and L. Goldstein. J Biol Chem 274: 7923-7928, 1999). Hyposmotic-induced volume expansion stimulated association of [p72.sup.syk] with a light membrane fraction of skate red blood cells. Piceatannol did not inhibit this association but decreased hyposmotically stimulated increased skAE1 tyrosine phophorylation. Movement of skAE1 from an intracellular to a surface detergent-resistant membrane domain and tetramer formation were not inhibited by piceatannol treatment. Two effects of hyposmotic-induced volume expansion, decreased band 4.1 binding and increased ankyrin, were both inhibited by piceatannol. These results suggest that at least one event requiring [p72.sup.syk] activation is pivotal for hyposmotic-induced increased transport; however, steps that do not require tyrosine phosphorylation may also play a role. band 4.1; ankyrin; detergent-resistant membranes; [p72.sup.syk]

Published
2005

36. Luminal bacterial flora determines physiological expression of intestinal epithelial cytoprotective heat shock proteins 25 and 72

Author

Arvans, Donna L., Vavricka, Stephan R., Ren, Hongyu, Musch, Mark W., Kang, Lisa, Rocha, Flavio G., Lucioni, Alvaro, Turner, Jerrold R., Alverdy, John, and Chang, Eugene B.

Subjects
Intestines -- Research, Intestines -- Physiological aspects, Heat shock proteins -- Research, Heat shock proteins -- Physiological aspects, Biological sciences
Abstract

Heat shock proteins (HSP) 25 and 72 are expressed normally by surface colonocytes but not by small intestinal enterocytes. We hypothesized that luminal commensal microflora maintain the observed colonocyte HSP expression. The ability of the small intestine to respond to bacteria and their products and modulate HSPs has not been determined. The effects of luminal bacterial flora in surgically created midjejunal self-filling (SFL) vs. self-emptying (SEL) small-bowel blind loops on epithelial HSP expression were studied. HSP25 and HSP72 expression were assessed by immunoblot and immunohistochemistry. SFL were chronically colonized, whereas SEL contained levels of bacteria normal for the proximal small intestine. SFL creation significantly increased HSP25 and HSP72 expression relative to corresponding sections from SEL. Metronidazole treatment, which primarily affects anaerobic bacteria as well as a diet lacking fermentable fiber, significantly decreased SFL HSP expression. Small bowel incubation with butyrate ex vivo induced a sustained and significant upregulation of HSP25 and altered HSP72 expression, confirming the role of short-chain fatty acids. To determine whether HSPs induction altered responses to an injury, effects of the oxidant, monochloramine, on epithelial resistance and short-circuit current ([I.sub.sc]) responses to carbachol and glucose were compared. Increased SFL HSP expression was associated with protection against oxidant-induced decreases in transmural resistance and [I.sub.sc] responses to glucose, but not secretory responses to carbachol. In conclusion, luminal microflora and their metabolic byproducts direct expression of HSPs in gut epithelial cells, an effect that contributes to preservation of epithelial cell viability under conditions of stress. enteric flora; metronidazole; butyrate; short-chain fatty acids; cytoprotection; host defense; intestinal flora; blind loop; stress; mucosal injury

Published
2005

37. Ezrin regulates NHE3 translocation and activation after [Na.sup.+]-glucose cotransport

Author

Zhao, Huiren, Shiue, Harn, Palkon, Sara, Wang, Yingmin, Cullinan, Patrick, Burkhardt, Janis K., Musch, Mark W., Chang, Eugene B., and Turner, Jerrold R.

Subjects
Epithelial cells -- Research, Science and technology
Abstract

Initiation of [Na.sup.+] -glucose cotransport in intestinal epithelial cells leads to activation of the apical [Na.sup.+]- [H.sup.+] exchanger NHE3 and subsequent increases in cytoplasmic pH (pHi). This process requires activation of p38 mitogen-activated protein (MAP) kinase, but additional signaling intermediates have not been identified. One candidate is the cytoskeletal linker protein ezrin, which interacts with NHE3 via specific regulatory proteins. The data show that initiation of [Na.sup.+]-glucose cotransport resulted in rapid increases in both apical membrane-associated NHE3 and cytoskeletal-associated ezrin and occurred in parallel with ezrin phosphorylation at threonine 567. Phosphorylation at this site is known to activate ezrin and increase its association with actin. Consistent with a central role for ezrin activation in this NHE3 regulation, an N-terminal dominant negative ezrin construct inhibited both NHE3 recruitment and pHi increases after [Na.sup.+] -glucose cotransport. Ezrin phosphorylation occurred in parallel with p38 MAP kinase activation, and the latter proceeded normally in cells expressing dominant negative ezrin. In contrast, inhibition of p38 MAP kinase prevented increases in ezrin phosphorylation after initiation of [Na.sup.+] -glucose cotransport. Thus, ezrin phosphorylation after [Na.sup.+] -glucose cotransport requires p38 MAP kinase activity, but p38 MAP kinase activation does not require ezrin function. These data describe a specific role for ezrin in the coordinate regulation of [Na.sup.+] -glucose cotransport and [Na.sup.+]- [H.sup.+] exchange. Intact ezrin function is necessary for NHE3 recruitment to the apical membrane and NHE3-dependent pHi increases triggered by [Na.sup.+] -glucose cotransport. The data also define a pathway of p38 MAP kinase-dependent ezrin activation.

Published
2004

38. Escherichia coli LPS induces heat shock protein 25 in intestinal epithelial cells through MAP kinase activation

Author

Kojima, Keishi, Musch, Mark W., Ropeleski, Mark J., Boone, David L., Ma, Averil, and Chang, Eugene B.

Subjects
Escherichia coli -- Research, Biological sciences
Abstract

Kojima, Keishi, Mark W. Musch, Mark J. Ropeleski, David L. Boone, Averil Ma, and Eugene B. Chang. Escherichia coil LPS induces heat shock protein 25 in intestinal epithelial cells through MAP kinase activation. Am J Physiol Gastrointest Liver Physiol 286: G645-G652, 2004. First published November 20, 2003; 10.1152/ajpgi.00080.2003.--Protection of colonic epithelial integrity and function is critical, because compromises in mucosal functions can lead to adverse and potentially life-threatening effects. The gut flora may contribute to this protection, in part, through the sustained induction of cytoprotective heat shock proteins (HSPs) in surface colonocytes. In this study, we investigated whether Escherichia coli LPS mediates bacteria-induced HSP by using cultured young adult mouse colon (YAMC) cells, an in vitro model of the colonic epithelium. E. coli LPS led to an epithelial cell-type specific induction of HSP25 in a time- and concentration-dependent manner, an effect that did not involve changes in HSP72. YAMC cells expressed the toll-like receptors (TLR)2 and TLR4 but not the costimulatory CD14 molecule. Whereas LPS stimulated both the p38 and ERK1/2 but not the stress-activated protein kinase/c-Jun [NH.sup.2]-terminal kinase, signaling pathways in the YAMC cells, all three were stimulated in RAW macrophage cells (in which no LPS-induced HSP25 expression was observed). The p38 inhibitor SB-203580 and the MAP kinase kinase-1 inhibitor PD-98059 inhibited HSP25 induction by LPS. LPS treatment also conferred protection against actin depolymerization induced by the oxidant monochloramine. The HSP25 dependence of the LPS protective effect was outlined in inhibitor studies and through adenovirus-mediated overexpression of HSP25. In conclusion, LPS may be an important mediator of enteric bacteria-induced expression of intestinal epithelial HSP25, an effect that may contribute to filamentous actin stabilization under physiological as well as pathophysiological conditions and thus protection of colonic epithelial integrity. actin; barrier function; cytoprotection; stress kinases; toll-like receptors

Published
2004

39. Peptide fragments of AMP-18, a novel secreted gastric antrum mucosal protein, are mitogenic and motogenic

Author

Toback, F. Gary, Walsh-Reitz, Margaret M., Musch, Mark W., Chang, Eugene B., Del Valle, John, Ren, Hongyu, Huang, Erick, and Martin, Terence E.

Subjects
Epithelium -- Research, Wound healing -- Research, Physiology -- Research, Biological sciences
Abstract

Antrum mucosal protein (AMP)-18 is a novel 18-kDa protein synthesized by cells of the gastric antrum mucosa. The protein is present in secretion granules of murine gastric antrum epithelial cells and is a component of canine antrum mucus, suggesting that it is secreted into the viscoelastic gel layer on the mucosal surface. Release of the protein appears to be regulated because forskolin decreased the amount of immunoreactive AMP-18 in primary cultures of canine antrum mucosal epithelial cells, and indomethacin gavaged into the stomach of mice reduced AMP-18 content in antrum mucosal tissue before inducing histological injury. A functional domain of the protein was identified by preparing peptides derived from the center of human AMP-18. A 21-mer peptide stimulated growth of gastric and intestinal epithelial cells, but not fibroblasts, and increased restitution of scrape-wounded gastric epithelial monolayers. These functions of AMP-18 suggest that its release onto the apical cell surface is regulated and that the protein and/or peptide fragments may protect the antral mucosa and promote healing by facilitating restitution and proliferation after injury. growth factor; wound healing; restitution; epithelium; stomach

Published
2003

41. Protective role of HSP72 against Clostridium difficile toxin A-induced intestinal epithelial cell dysfunction

Author

Liu, Tom S., Musch, Mark W., Sugi, Kazunori, Walsh-Reitz, Margaret M., Ropeleski, Mark J., Hendrickson, Barbara A., Pothoulakis, Charalabos, Lamont, J. Thomas, and Chang, Eugene B.

Subjects
Heat shock proteins -- Research, Biological sciences
Abstract

We determined whether the cytoprotective heat shock protein HSP72 protects against the injurious effects of Clostridium difficile toxin A (TxA) on intestinal epithelial cells. Colonic epithelial Caco-2/bbe (C2) cells were stably transfected with HSP72 antisense (C2AS) or vector only (C2VC), resulting in low and high HSP72 expression, respectively. Measurements of epithelial barrier integrity, mitochondrial function, and apoptosis activation were assessed after TxA exposure. HSP72 and RhoA interactions were evaluated with immunoprecipitations. In C2AS cells, TxA was associated with a greater decrease in transepithelial resistance (TER), an increase in [[sup.3]H]mannitol flux, and increased dissociation of perijunctional actin. Although HSP72 binds RhoA, it failed to prevent RhoA glucosylation. TxA caused a more rapid decrease in ATP, release of cytochrome c, and activation of caspase-9 in C2AS cells. To determine whether ATP depletion decreases TER, we treated cells with antimycin A, which caused a decline in TER. We conclude that HSP72 may protect intestinal epithelial cells from TxA-mediated damage through several mechanisms, including actin stabilization, mitochondrial protection, and inhibition of apoptosis activation, but not by prevention of RhoA glucosylation. bacterial toxin; caspase; cytochrome c; heat shock proteins; transepithelial electrical resistance

Published
2003

43. Region-specific adaptation of apical Na/H exchangers after extensive proximal small bowel resection

Author

Musch, Mark W., Bookstein, Cres, Rocha, Flavio, Lucioni, Alvaro, Ren, Hongyu, Daniel, Janet, Xie, Yue, McSwine, Rebecca L., Rao, Mrinalini C., Alverdy, John, and Chang, Eugene B.

Subjects
Sodium, Intestines -- Physiological aspects, Hydrogen -- Physiological aspects, Diarrhea -- Causes of, Epithelial cells -- Physiological aspects, Epithelial cells -- Genetic aspects, DNA -- Genetic aspects, Messenger RNA -- Genetic aspects, Genetic transcription -- Physiological aspects, Biological sciences
Abstract

After massive small bowel resection (MSBR), the remnant small intestine adapts to restore Na absorptive function. The possibility that this occurs through increases in cellular Na absorptive capacity was examined by assessing the regional effects of 50% proximal MSBR on the function and expression of the apical membrane Na/H exchangers (NHEs) NHE2 and NHE3. Morphometric analysis confirmed adaptive changes consistent with villus hypertrophy, particularly distal to the anastomosis. Villus epithelium prepared by light mucosal scrapings from 2-wk-postresected and -posttransected control rats exhibited comparable brush-border hydrolase activities, total cell protein per DNA, and villin expression but increased basolateral Na-K-ATPase activity. Parallel increases of two- to threefold in protein and mRNA abundance of NHE2 and NHE3 were observed only in ileal regions distal to the anastomosis of resected rats. Basolateral NHE1 expression was unchanged. After 80% resection, increases in NHE2 and NHE3 became evident in proximal colon. We conclude that increased enterocyte expression and function of apical membrane NHEs in regions distal to the anastomosis play a role in the adaptive process after MSBR. The increased luminal Na load to distal bowel regions after proximal resection may stimulate increases in apical membrane NHE gene transcription and protein expression. sodium transport; sodium/hydrogen exchange; intestinal surgery; intestinal adaptation; diarrhea; malabsorption; epithelial cell; intestinal physiology

Published
2002

44. Metabolic acidosis in rats increases intestinal NHE2 and NHE3 expression and function

Author

Lucioni, Alvaro, Womack, Christopher, Musch, Mark W., Rocha, Flavio L., Bookstein, Cres, and Chang, Eugene B.

Subjects
Physiology -- Research, Sodium in the body -- Research, Acidosis -- Research, Biological sciences
Abstract

Metabolic acidosis in rats increases intestinal NHE2 and NHE3 expression and function. Am J Physiol Gastrointest Liver Physiol 283: G51-G56, 2002. First published March 6, 2002; 10.1152/ajpgi.00529.2001.--Chronic metabolic acidosis increases intestinal Na absorption, although through undefined mechanisms. Whether this occurs through enhanced expression and/or function of the brush-border [Na.sup.+]/[H.sup.+] exchangers (NHE)2 and NHE3 is unknown. Metabolic acidosis was induced in rats by feeding ammonium chloride through their drinking water. Intestinal NHE activities were measured using brush-[border.sup.22] [Na.sup.+] uptake. Western and Northern blots measured changes in protein and mRNA expression, respectively. Acidosis occurred within 2 days of ammonium chloride feedings but increased after 6 days. NHE2 and NHE3 activities, protein expression, and mRNA levels increased in acidotic rats compared with controls. In contrast, basolateral NHE1 expression was not affected. Brush-border alkaline phosphatase showed no effect of metabolic acidosis on cellular differentiation. This study demonstrated a direct effect of metabolic acidosis on NHE2 and NHE3 activity, expression, and gene transcription. Metabolic acidosis is one of the few circumstances shown to affect NHE2 function and expression, thus providing insights into the role of NHE2 on intestinal physiology. sodium transport; intestine; intestinal adaptation

Published
2002

45. High fat diet disrupts diurnal interactions between REG3γ and small intestinal gut microbes resulting in metabolic dysfunction

Author

Frazier, Katya, primary, Kambal, Amal, additional, Zale, Elizabeth A., additional, Pierre, Joseph F., additional, Hubert, Nathaniel, additional, Miyoshi, Sawako, additional, Miyoshi, Jun, additional, Ringus, Daina, additional, Harris, Dylan, additional, Yang, Karen, additional, Cham, Candace, additional, Musch, Mark W., additional, Chang, Eugene B., additional, and Leone, Vanessa, additional

Published
2020
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46. Development of early-stage type 1 diabetes in germ-free interleukin-10 deficient mice

Author

Bobe, Alexandria M., primary, Miyoshi, Jun, additional, Moore, Patrick, additional, Devkota, Suzanne, additional, Leone, Vanessa, additional, Martinez, Kristina, additional, Theriault, Betty R., additional, Musch, Mark W., additional, Wasserfall, Clive, additional, Atkinson, Mark, additional, Rhodes, Christopher J., additional, and Chang, Eugene B., additional

Published
2020
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47. A unique Na+/H+ exchanger, analogous to NHE1, in the chicken embryonic fibroblast

Author

Bhartur, Sheela G., Ballarin, Leszek J., Musch, Mark W., Bookstein, Crescence, Chang, Eugene B., and Rao, M.C.

Subjects
Membrane proteins -- Physiological aspects, Homeostasis -- Research, Fibroblasts -- Research, Embryology, Experimental -- Research, Chickens -- Physiological aspects, Biological sciences
Abstract

The characterization of an Na+/H+ exchanger (NHE) in embryonic fibroblasts of the chicken was reported. This exchanger is electroneural, has a single Na+ binding site and is highly sensitive to amiloride, diemethyl amiloride and ethyl-isopropyl amiloride. It is stimulated by serum, transforming growth factor-alpha, hypertonicity, and okadaic acid. Although these features make it similar to mammalian NHE1, other characteristics suggest distinct differences. Analysis implies that a modified version of mammalian NHE1 is present and that another functional NHE is expressed in Aves.

Published
1999

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