Requirement for Pbx1 in skeletal patterning and programming chondrocyte proliferation and differentiation

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Development 128, 3543-3557 (2001)
© 2001 The Company of Biologists Limited

Requirement for Pbx1 in skeletal patterning and programming chondrocyte proliferation and differentiation

Licia Selleri¹^,*, Michael J. Depew², Yakop Jacobs¹, Sumit K. Chanda¹, Kwok Y. Tsang³, Kathryn S. E. Cheah³, John L. R. Rubenstein², Stephen O’Gorman⁴ and Michael L. Cleary¹^,*

¹ Department of Pathology, Stanford University School of Medicine, Stanford, CA 94305, 650-723-5471, USA
² Nina Ireland Laboratory of Developmental Neurobiology, University of California San Francisco, San Francisco, CA, USA
³ Department of Biochemistry, The University of Hong Kong, Hong Kong, China
⁴ Gene Expression Laboratory, The Salk Institute for Biological Studies, La Jolla, CA 92037, USA

*Authors for correspondence (e-mail: mcleary{at}stanford.edu or lselleri@cmgm.stanford.edu)

Accepted June 20, 2001

Pbx1 and a subset of homeodomain proteins collaboratively bindDNA as higher-order molecular complexes with unknown consequencesfor mammalian development. Pbx1 contributions were investigatedthrough characterization of Pbx1-deficient mice. Pbx1 mutantsdied at embryonic day 15/16 with severe hypoplasia or aplasiaof multiple organs and widespread patterning defects of theaxial and appendicular skeleton. An obligatory role for Pbx1in limb axis patterning was apparent from malformations of proximalskeletal elements, but distal structures were unaffected. Inaddition to multiple rib and vertebral malformations, neuralcrest cell-derived skeletal structures of the second branchialarch were morphologically transformed into elements reminiscentof first arch-derived cartilages. Although the skeletal malformationsdid not phenocopy single or compound Hox gene defects, theywere restricted to domains specified by Hox proteins bearingPbx dimerization motifs and unaccompanied by alterations inHox gene expression. In affected domains of limbs and ribs,chondrocyte proliferation was markedly diminished and therewas a notable increase of hypertrophic chondrocytes, accompaniedby premature ossification of bone. The pattern of expressionof genes known to regulate chondrocyte differentiation was notperturbed in Pbx1-deficient cartilage at early days of embryonicskeletogenesis, however precocious expression of Col1a1, a markerof bone formation, was found. These studies demonstrate a rolefor Pbx1 in multiple developmental programs and reveal a novelfunction in co-ordinating the extent and/or timing of proliferationwith terminal differentiation. This impacts on the rate of endochondralossification and bone formation and suggests a mechanistic basisfor most of the observed skeletal malformations.

Key words: Pbx1, Skeleton, Limb, Branchial arch homeosis, Hox, Chondrocyte proliferation, Mouse

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