Mutant Hoxd13 induces extra digits in a mouse model of synpolydactyly directly and by decreasing retinoic acid synthesis
Pia Kuss, … , Jochen Hecht, Stefan Mundlos
Pia Kuss, … , Jochen Hecht, Stefan Mundlos
Published December 15, 2008
Citation Information: J Clin Invest. 2009;119(1):146-156. https://doi.org/10.1172/JCI36851.
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Mutant Hoxd13 induces extra digits in a mouse model of synpolydactyly directly and by decreasing retinoic acid synthesis

Abstract

Individuals with the birth defect synpolydactyly (SPD) have 1 or more digit duplicated and 2 or more digits fused together. One form of SPD is caused by polyalanine expansions in homeobox d13 (Hoxd13). Here we have used the naturally occurring mouse mutant that has the same mutation, the SPD homolog (Spdh) allele, and a similar phenotype, to investigate the molecular pathogenesis of SPD. A transgenic approach and crossing experiments showed that the Spdh allele is a combination of loss and gain of function. Here we identify retinaldehyde dehydrogenase 2 (Raldh2), the rate-limiting enzyme for retinoic acid (RA) synthesis in the limb, as a direct Hoxd13 target and show decreased RA production in limbs from Spdh/Spdh mice. Intrauterine treatment with RA restored pentadactyly in Spdh/Spdh mice. We further show that RA and WT Hoxd13 suppress chondrogenesis in mesenchymal progenitor cells, whereas Hoxd13 encoded by Spdh promotes cartilage formation in primary cells isolated from Spdh/Spdh limbs, and that this was associated with increased expression of Sox6/9. Increased Sox9 expression and ectopic cartilage formation in the interdigital mesenchyme of limbs from Spdh/Spdh mice suggest uncontrolled differentiation of these cells into the chondrocytic lineage. Thus, we propose that mutated Hoxd13 causes polydactyly in SPD by inducing extraneous interdigital chondrogenesis, both directly and indirectly, via a reduction in RA levels.

Authors

Pia Kuss, Pablo Villavicencio-Lorini, Florian Witte, Joachim Klose, Andrea N. Albrecht, Petra Seemann, Jochen Hecht, Stefan Mundlos

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Figure 3

Regulation of Raldh2 by Hoxd13.

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Regulation of Raldh2 by Hoxd13. (A) Luciferase reporter assay of a conse...
(A) Luciferase reporter assay of a conserved region of murine Raldh2. Cos7 cells were transfected with Raldh2 reporter and Hoxd13 expression constructs carrying different Ala repeat length mutations (+7, +8, +9, +14). WT Hoxd13 activated Raldh2. Increasing length of the Ala repeat results in loss of activation. Error bars show SEM. EV, empty vector. (B) Quantitative PCR of chMM cultures showed upregulation of Raldh2 by WT Hoxd13. Infections with Hoxd13+7Ala and Hoxd13+14Ala were comparable with uninfected controls. Error bars show SD. (C) ChIP confirmed binding of WT Hoxd13 to the Raldh2 promoter. ChIP from chMM cultures was done with 4 different primer pairs. Real-time PCR with primer set 1 showed an approximately 45-fold enrichment of the Raldh2 promoter fragment precipitated with Hoxd13. Sets of 3 bars represent results from 3 independent experiments. Error bars show SD.