Abnormal Paneth cell granule dissolution and compromised resistance to bacterial colonization in the intestine of CF mice

doi:10.1152/ajpgi.00393.2003

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Abnormal Paneth cell granule dissolution and compromised resistance to bacterial colonization in the intestine of CF mice

Lane L. Clarke,¹^,2 Lara R. Gawenis,¹^,2 Emily M. Bradford,¹ Louise M. Judd,³ Kathryn T. Boyle,¹ Janet E. Simpson,¹^,4 Gary E. Shull,³ Hiroki Tanabe,⁵ Andre J. Ouellette,⁵^,6 Craig L. Franklin,⁴ and Nancy M. Walker¹

¹Dalton Cardiovascular Research Center and the Departments of ²Biomedical Sciences and ⁴Veterinary Pathobiology, University of Missouri, Columbia, Missouri 65211; ³Department of Molecular Genetics, Biochemistry and Microbiology, University of Cincinnati, Cincinnati, Ohio 45267; and the Departments of ⁵Pathology and ⁶Microbiology and Molecular Genetics, University of California, Irvine, California 92697-4800

Submitted 8 September 2003 ; accepted in final form 1 January 2004

Paneth cells of intestinal crypts contribute to host defenseby producing antimicrobial peptides that are packaged as granulesfor secretion into the crypt lumen. Here, we provide evidenceusing light and electron microscopy that postsecretory Panethcell granules undergo limited dissolution and accumulate withinthe intestinal crypts of cystic fibrosis (CF) mice. On the basisof this finding, we evaluated bacterial colonization and expressionof two major constituents of Paneth cells, i.e., ${alpha}$ -defensins(cryptdins) and lysozyme, in CF murine intestine. Paneth cellgranules accumulated in intestinal crypt lumens in both untreatedCF mice with impending intestinal obstruction and in CF micetreated with an osmotic laxative that prevented overt clinicalsymptoms and mucus accretion. Ultrastructure studies indicatedlittle change in granule morphology within mucus casts, whereasgranules in laxative-treated mice appear to undergo limiteddissolution. Protein extracts from CF intestine had increasedlevels of processed cryptdins compared with those from wild-type(WT) littermates. Nonetheless, colonization with aerobic bacteriaspecies was not diminished in the CF intestine and oral challengewith a cryptdin-sensitive enteric pathogen, Salmonella typhimurium,resulted in greater colonization of CF compared with WT intestine.Modest downregulation of cryptdin and lysozyme mRNA in CF intestinewas shown by microarray analysis, real-time quantitative PCR,and Northern blot analysis. Based on these findings, we concludethat antimicrobial peptide activity in CF mouse intestine iscompromised by inadequate dissolution of Paneth cell granuleswithin the crypt lumens.

defensin; cryptdins; innate immunity; intestinal infection; inflammation

Address for reprint requests and other correspondence: L. L. Clarke, 324D Dalton Cardiovascular Research Center, 134 Research Park Dr., Univ. of Missouri, Columbia, MO 65211 (E-mail: clarkel{at}missouri.edu).

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