Disruption of the <i>CFTR</i> Gene Produces a Model of Cystic Fibrosis in Newborn Pigs

Christopher S. Rogers; David A. Stoltz; David K. Meyerholz; Lynda S. Ostedgaard; Tatiana Rokhlina; Peter J. Taft; Mark P. Rogan; Alejandro A. Pezzulo; Philip H. Karp; Omar A. Itani; Amanda C. Kabel; Christine Wohlford-Lenane; Greg Davis; Robert A. Hanfland; Tony L. Smith; Melissa Samuel; David Wax; Clifton N. Murphy; August Rieke; Kristin M. Whitworth; Aliye Uç; Timothy D. Starner; Kim A. Brogden; Joel Shilyansky; Paul B. McCray; Joseph Zabner; Randall S. Prather; Michael J. Welsh

doi:10.1126/science.1163600

Disruption of the <i>CFTR</i> Gene Produces a Model of Cystic Fibrosis in Newborn Pigs

Christopher S. Rogers(University of Iowa), David A. Stoltz(University of Iowa), David K. Meyerholz(University of Iowa), Lynda S. Ostedgaard(University of Iowa), Tatiana Rokhlina(University of Iowa), Peter J. Taft(University of Iowa), Mark P. Rogan(University of Iowa), Alejandro A. Pezzulo(University of Iowa), Philip H. Karp(University of Iowa), Omar A. Itani(University of Iowa), Amanda C. Kabel(University of Iowa), Christine Wohlford-Lenane(University of Iowa), Greg Davis(University of Iowa), Robert A. Hanfland(University of Iowa), Tony L. Smith(University of Iowa), Melissa Samuel(University of Iowa), David Wax(University of Iowa), Clifton N. Murphy(University of Iowa), August Rieke(University of Iowa), Kristin M. Whitworth(University of Iowa), Aliye Uç(University of Iowa), Timothy D. Starner(University of Iowa), Kim A. Brogden(University of Iowa), Joel Shilyansky(University of Iowa), Paul B. McCray(University of Iowa), Joseph Zabner(University of Iowa), Randall S. Prather(University of Iowa), Michael J. Welsh(University of Iowa)

Science

September 26, 2008

10.1126/science.1163600

Cited by 745

Abstract

Almost two decades after CFTR was identified as the gene responsible for cystic fibrosis (CF), we still lack answers to many questions about the pathogenesis of the disease, and it remains incurable. Mice with a disrupted CFTR gene have greatly facilitated CF studies, but the mutant mice do not develop the characteristic manifestations of human CF, including abnormalities of the pancreas, lung, intestine, liver, and other organs. Because pigs share many anatomical and physiological features with humans, we generated pigs with a targeted disruption of both CFTR alleles. Newborn pigs lacking CFTR exhibited defective chloride transport and developed meconium ileus, exocrine pancreatic destruction, and focal biliary cirrhosis, replicating abnormalities seen in newborn humans with CF. The pig model may provide opportunities to address persistent questions about CF pathogenesis and accelerate discovery of strategies for prevention and treatment.

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