Search

Your search keyword '"Armstrong, Martha U."' showing total 9 results
Start Over Author "Armstrong, Martha U."
9 results on '"Armstrong, Martha U."'

1. NF-[kappa]B-mediated expression of iNOS promotes epithelial defense against infection by Cryptosporidium parvum in neonatal piglets

Author

Gookin, Jody L., Chiang, Sophia, Allen, Jessica, Armstrong, Martha U., Stauffer, Stephen H., Finnegan, Colleen, and Murtaugh, Michael P.

Subjects
Cryptosporidium -- Research, Colorectal diseases -- Research, Gastrointestinal diseases -- Research, Biological sciences
Abstract

Cryptosporidium sp. parasitizes intestinal epithelium, resulting in enterocyte loss, villous atrophy, and malabsorptive diarrhea. We have shown that mucosal expression of inducible nitric oxide (NO) synthase (iNOS) is increased in infected piglets and that inhibition of iNOS in vitro has no short-term effect on barrier function. NO exerts inhibitory effects on a variety of pathogens; nevertheless, the specific sites of iNOS expression, pathways of iNOS induction, and mechanism of NO action in cryptosporidiosis remain unclear. Using an in vivo model of Cryptosporidium parvum infection, we have examined the location, mechanism of induction, specificity, and consequence of iNOS expression in neonatal piglets. In acute C. parvum infection, iNOS expression predominated in the villous epithelium, was NF-KB dependent, and was not restricted to infected enterocytes. Ongoing treatment of infected piglets with a selective iNOS inhibitor resulted in significant increases in villous epithelial parasitism and oocyst excretion but was not detrimental to maintenance of mucosal barrier function. Intensified parasitism could not be attributed to attenuated fluid loss or changes in epithelial proliferation or replacement rate, inasmuch as iNOS inhibition did not alter severity of diarrhea, piglet hydration, C1 secretion, or kinetics of bromodeoxyuridine-labeled enterocytes. These findings suggest that induction of iNOS represents a nonspecific response of the epithelium that mediates enterocyte defense against C. parvum infection, iNOS did not contribute to the pathogenic sequelae of C. parvum infection. nitric oxide; barrier function; diarrhea; cryptosporidiosis

Published
2006

2. Nitric oxide synthase stimulates prostaglandin synthesis and barrier function in C. parvum-infected porcine ileum

Author

Gookin, Jody L., Duckett, Laurel L., Armstrong, Martha U., Stauffer, Stephen H., Finnegan, Colleen P., Murtaugh, Michael P., and Argenzio, Robert A.

Subjects
Nitric oxide -- Research, Nitric oxide -- Physiological aspects, Colorectal diseases -- Research, Colorectal diseases -- Physiological aspects, Gastrointestinal diseases -- Research, Gastrointestinal diseases -- Physiological aspects, Coccidia -- Research, Coccidia -- Physiological aspects, Biological sciences
Abstract

Cell culture models implicate increased nitric oxide (NO) synthesis as a cause of mucosal hyperpermeability in intestinal epithelial infection. NO may also mediate a multitude of subepithelial events, including activation of cyclooxygenases. We examined whether NO promotes barrier function via prostaglandin synthesis using Cryptosporidium parvum-infected ileal epithelium in residence with an intact submucosa. Expression of NO synthase (NOS) isoforms was examined by real-time RT-PCR of ileal mucosa from control and C. parvum-infected piglets. The isoforms mediating and mechanism of NO action on barrier function were assessed by measuring transepithelial resistance (TER) and eicosanoid synthesis by ileal mucosa mounted in Ussing chambers in the presence of selective and nonselective NOS inhibitors and after rescue with exogenous prostaglandins. C. parvum infection results in induction of mucosal inducible NOS (iNOS), increased synthesis of NO and PG[E.sub.2], and increased mucosal permeability. Nonselective inhibition of NOS ([N.sup.G]-nitro-L-arginine methyl ester) inhibited prostaglandin synthesis, resulting in further increases in paracellular permeability. Baseline permeability was restored in the absence of NO by exogenous PG[E.sub.2]. Selective inhibition of iNOS [L-[N.sup.6]-(1-iminoethyl)-L-lysine] accounted for ~50% of NOS-dependent PG[E.sub.2] synthesis and TER. Using an entire intestinal mucosa, we have demonstrated for the first time that NO serves as a proximal mediator of PG[E.sub.2] synthesis and barrier function in C. parvum infection. Expression of iNOS by infected mucosa was without detriment to overall barrier function and may serve to promote clearance of infected enterocytes. Cryptosporidium parvum; permeability

Published
2004

8. NF-κB-mediated expression of iNOS promotes epithelial defense against infection by Cryptosporidium parvum in neonatal piglets.

Author

Gookin, Jody L., Chiang, Sophia, Allen, Jessica, Armstrong, Martha U., Stauffer, Stephen H., Finnegan, Colleen, and Murtaugh, Michael P.

Subjects
CRYPTOSPORIDIUM parvum, INTESTINAL diseases, PIGLETS, EPITHELIUM, PARASITOLOGY
Abstract

Cryptosporidium sp. parasitizes intestinal epithelium, resulting in enterocyte loss, villous atrophy, and malabsorptive diarrhea. We have shown that mucosal expression of inducible nitric oxide (NO) synthase (iNOS) is increased in infected piglets and that inhibition of iNOS in vitro has no short-term effect on barrier function. NO exerts inhibitory effects on a variety of pathogens; nevertheless, the specific sites of iNOS expression, pathways of iNOS induction, and mechanism of NO action in cryptosporidiosis remain unclear. Using an in vivo model of Cryptosporidium parvum infection, we have examined the location, mechanism of induction, specificity, and consequence of iNOS expression in neonatal piglets. In acute C. parvum infection, iNOS expression predominated in the villous epithelium, was NF-κB dependent, and was not restricted to infected enterocytes. Ongoing treatment of infected piglets with a selective iNOS inhibitor resulted in significant increases in villous epithelial parasitism and oocyst excretion but was not detrimental to maintenance of mucosal barrier function. Intensified parasitism could not be attributed to attenuated fluid loss or changes in epithelial proliferation or replacement rate, inasmuch as iNOS inhibition did not alter severity of diarrhea, piglet hydration, Cl- secretion, or kinetics of bromodeoxyuridine-labeled enterocytes. These findings suggest that induction of iNOS represents a nonspecific response of the epithelium that mediates enterocyte defense against C. parvum infection. iNOS did not contribute to the pathogenic sequelae of C. parvum infection. [ABSTRACT FROM AUTHOR]

Published
2006
Full Text
View/download PDF

9. Neutrophils Do Not Mediate the Pathophysiological Sequelae of Cryptosporidium parvumInfection in Neonatal Piglets

Author

Zadrozny, Leah M., Stauffer, Stephen H., Armstrong, Martha U., Jones, Samuel L., and Gookin, Jody L.

Abstract

ABSTRACTCryptosporidium parvumis a minimally invasive protozoal pathogen of intestinal epithelium that results in villus atrophy, mucosal lipid peroxidation, diarrhea, and diminished barrier function. Influx of neutrophils is a consistent feature of human and animal cryptosporidiosis, and yet their contribution to the pathological sequelae of infection has not been investigated. Accordingly, we used an established neonatal piglet model of C. parvuminfection to examine the role of neutrophils in disease pathogenesis by inhibiting their recruitment and activation in vivo using a monoclonal anti-CD18 antibody. Infected piglets were treated daily with anti-CD18 or isotype control immunoglobulin G and euthanized at peak infection, at which time neutrophil infiltrates, lipid peroxidation, severity of infection, and intestinal barrier function were quantified. C. parvuminfection resulted in a significant increase in mucosal neutrophil myeloperoxidase activity that was prevented by treatment of piglets with anti-CD18 antibody. Neutrophil recruitment was dependent on mucosal superoxide formation (prevented by treatment of infected piglets with superoxide dismutase). Neutrophils did not contribute to peroxynitrite formation or peroxidative injury of C. parvum-infected mucosa and had no impact on the severity of epithelial infection, villus atrophy, or diarrhea. The presence of neutrophils in C. parvum-infected mucosa was associated with enhanced barrier function that could not be attributed to mucosal elaboration of prostaglandins or stimulation of their synthesis. These studies are the first to demonstrate that neutrophilic inflammation arising in response to infection by a noninvasive epithelial pathogen results in physiologic rather than pathological effects in vivo.

Published
2006
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results