Cyp26 enzymes function in endoderm to regulate pancreatic field size

doi:10.1073/pnas.0813108106

Cyp26 enzymes function in endoderm to regulate pancreatic field size

^aDepartment of Organismal Biology and Anatomy and
^dCommittee on Developmental Biology, University of Chicago, 1027 East 57th Street, Chicago, IL 60637;
^bDepartment of Biological Science, Graduate School of Science, Hiroshima University, Kagamiyama 1-3-1, Higashi-Hiroshima, Hiroshima 739-8526 Japan; and
^cBiology Department, Adelphi University, 1 South Avenue, Garden City, NY 11530

Edited by Donald F. Steiner, University of Chicago, Chicago, IL, and approved March 19, 2009 (received for review December 22, 2008)

Abstract

The control of organ size and position relies, at least in part, upon appropriate regulation of the signals that specify organ progenitor fields. Pancreatic cell fates are specified by retinoic acid (RA), and proper size and localization of the pancreatic field are dependent on tight control of RA signaling. Here we show that the RA-degrading Cyp26 enzymes play a critical role in defining the normal anterior limit of the pancreatic field. Disruption of Cyp26 function causes a dramatic expansion of pancreatic cell types toward the anterior of the embryo. The cyp26a1 gene is expressed in the anterior trunk endoderm at developmental stages when RA is signaling to specify pancreas, and analysis of cyp26a1/giraffe (gir) mutant zebrafish embryos confirms that cyp26a1 plays the primary role in setting the anterior limit of the pancreas. Analysis of the gir mutants further reveals that cyp26b1 and cyp26c1 function redundantly to partially compensate for loss of Cyp26a1 function. We used cell transplantation to determine that Cyp26a1 functions directly in endoderm to modulate RA signaling and limit the pancreatic field. Taken together with our finding that endodermal expression of cyp26 genes is subject to positive regulation by RA, our data reveal a feedback loop within the endoderm. Such feedback can maintain consistent levels of RA signaling, despite environmental fluctuations in RA concentration, thus ensuring a consistent size and location of the pancreatic field.

Footnotes

¹To whom correspondence may be addressed. E-mail: mkinkel{at}uchicago.edu or vprince{at}uchicago.edu
Author contributions: M.D.K., E.M.S., A.B.W., and V.E.P. designed research; M.D.K., E.M.S., and A.B.W. performed research; Y.K. and T.M. contributed new reagents/analytic tools; M.D.K., E.M.S., A.B.W., and V.E.P. analyzed data; and M.D.K. and V.E.P. wrote the paper.
The authors declare no conflict of interest.
This article is a PNAS Direct Submission.
This article contains supporting information online at www.pnas.org/cgi/content/full/0813108106/DCSupplemental.