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DOI: 10.1055/s-0031-1273691
© Georg Thieme Verlag KG Stuttgart · New York
PCSK5 and GDF11 Expression in the Hindgut Region of Mouse Embryos with Anorectal Malformations
Publication History
received September 10, 2010
accepted after revision January 29, 2011
Publication Date:
08 April 2011 (online)
Abstract
Background/Purpose: Retinoid-mediated signal transduction plays a crucial role in the embryonic development of various organs. We previously reported that retinoic acid induced anorectal malformations (ARM) in mice. GDF11 is a TGFβ superfamily molecule and is cleaved and activated by proprotein convertase subtilisin/kexin 5 (PCSK5). PCSK5 (PC5/6) mutations result in an abnormal expression of Hlxb9 and Hox genes, which include known GDF11 targets that are necessary for caudal development in vertebrate embryos. To determine a possible role of the retinoid-mediated signaling pathway in the pathogenesis of ARM, we investigated whether all-trans retinoic acid (ATRA) affected the expression patterns of PCSK5 and GDF11 in ARM-treated mouse embryos.
Methods: Pregnant ICR-Slc mice were administered 100 mg/kg ATRA by gavage on embryonic day (E) 9.0. Embryos were harvested between days E12 and E18, and mid-sagittal sections of the hindgut region were prepared for immunohistochemistry using antibodies against PCSK5 (PC5/6) and GDF11 (GDF8/11).
Results: Over 95% of the embryos treated with ATRA showed ARM, with rectourethral fistula or rectocloacal fistula, and a short tail. Furthermore, most of these embryos exhibited sacral malformations, tethered spinal cords, and presacral masses resembling those malformations found in caudal regression syndrome. By E14, normal mouse embryos formed a rectum and anus, and the somites behind the hindgut were positive for PC5/6 and GDF8/11. In contrast, in ARM embryos, the somites behind the hindgut were negative for PC5/6 and GDF8/11.
Conclusion: ATRA treatment affected the caudal development in mouse embryos, resulting in anorectal, sacral, and spinal malformations, and inhibited PCSK5 and GDF11 expression in the hindgut region. These findings indicate that the expression of PCSK5 and GDF11, which plays a crucial role in the organogenesis of the hindgut, was disturbed in the hindgut region when retinoid-mediated signaling was disrupted. This study offers a new insight into the pathogenesis of ARM in mice as affected by the interaction between ATRA and PCSK5/GDF11.
Key words
anorectal malformations - all-trans retinoic acid (ATRA) - proprotein convertase subtilisin Kexins 5 (PCSK5) - growth/differentiation factor 11 (GDF11) - embryogenesis
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Correspondence
Dr. Tomoki Tsuda
Department of Pediatric
Surgery
Graduate School of Medical
Science
Prefectural University
of Medicine
465 Kawaramachi-Hirokoji
Kamigyo-ku
Kyoto
602-0841 Kyoto
Japan
Phone: +81 75 251 5809
Fax: +81 75 251 5828
Email: tom@koto.kpu-m.ac.jp