The limb field mesoderm determines initial limb bud anteroposterior asymmetry and budding independent of sonic hedgehog or apical ectodermal gene expressions

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JOURNAL ARTICLES

The limb field mesoderm determines initial limb bud anteroposterior asymmetry and budding independent of sonic hedgehog or apical ectodermal gene expressions

MA Ros, A Lopez-Martinez, BK Simandl, C Rodriguez, JC Izpisua Belmonte, R Dahn and JF Fallon
Departamento de Anatomia y Biologia Celular, Universidad de Cantabria, Santander, Spain.

We have analyzed the pattern of expression of several genes implicated in limb initiation and outgrowth using limbless chicken embryos. We demonstrate that the expressions of the apical ridge associated genes, Fgf-8, Fgf-4, Bmp-2 and Bmp-4, are undetectable in limbless limb bud ectoderm; however, FGF2 protein is present in the limb bud ectoderm. Shh expression is undetectable in limbless limb bud mesoderm. Nevertheless, limbless limb bud mesoderm shows polarization manifested by the asymmetric expression of Hoxd-11, -12 and -13, Wnt-5a and Bmp-4 genes. The posterior limbless limb bud mesoderm, although not actually expressing Shh, is competent to express it if supplied with exogenous FGF or transplanted to a normal apical ridge environment, providing further evidence of mesodermal asymmetry. Exogenous FGF applied to limbless limb buds permits further growth and determination of recognizable skeletal elements, without the development of an apical ridge. However, the cells competent to express Shh do so at reduced levels; nevertheless, Bmp-2 is then rapidly expressed in the posterior limbless mesoderm. limbless limb buds appear as bi-dorsal structures, as the entire limb bud ectoderm expresses Wnt-7a, a marker for dorsal limb bud ectoderm; the ectoderm fails to express En-1, a marker of ventral ectoderm. As expected, C-Lmx1, which is downstream of Wnt-7a, is expressed in the entire limbless limb bud mesoderm. We conclude that anteroposterior polarity is established in the initial limb bud prior to Shh expression, apical ridge gene expression or dorsal-ventral asymmetry. We propose that the initial pattern of gene expressions in the emergent limb bud is established by axial influences on the limb field. These permit the bud to emerge with asymmetric gene expression before Shh and the apical ridge appear. We report that expression of Fgf-8 by the limb ectoderm is not required for the initiation of the limb bud. The gene expressions in the pre-ridge limb bud mesoderm, as in the limb bud itself, are unstable without stimulation from the apical ridge and the polarizing region (Shh) after budding is initiated. We propose that the defect in limbless limb buds is the lack of a dorsal-ventral interface in the limb bud ectoderm where the apical ridge induction signal would be received and an apical ridge formed. These observations provide evidence for the hypothesis that the dorsal-ventral ectoderm interface is a precondition for apical ridge formation.
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				M. A. Ros, R. D. Dahn, M. Fernandez-Teran, K. Rashka, N. C. Caruccio, S. M. Hasso, J. J. Bitgood, J. J. Lancman, and J. F. Fallon The chick oligozeugodactyly (ozd) mutant lacks sonic hedgehog function in the limb Development, February 1, 2003; 130(3): 527 - 537. [Abstract] [Full Text] [PDF]

				D. G. McFadden, J. McAnally, J. A. Richardson, J. Charite, and E. N. Olson Misexpression of dHAND induces ectopic digits in the developing limb bud in the absence of direct DNA binding Development, January 7, 2002; 129(13): 3077 - 3088. [Abstract] [Full Text] [PDF]

				S. Pizette, C. Abate-Shen, and L. Niswander BMP controls proximodistal outgrowth, via induction of the apical ectodermal ridge, and dorsoventral patterning in the vertebrate limb Development, November 15, 2001; 128(22): 4463 - 4474. [Abstract] [Full Text] [PDF]

				R. A. Kimmel, D. H. Turnbull, V. Blanquet, W. Wurst, C. A. Loomis, and A. L. Joyner Two lineage boundaries coordinate vertebrate apical ectodermal ridge formation Genes & Dev., June 1, 2000; 14(11): 1377 - 1389. [Abstract] [Full Text]

				M. Fernandez-Teran, M. E. Piedra, I. S. Kathiriya, D. Srivastava, J. C. Rodriguez-Rey, and M. A. Ros Role of dHAND in the anterior-posterior polarization of the limb bud: implications for the Sonic hedgehog pathway Development, May 15, 2000; 127(10): 2133 - 2142. [Abstract] [PDF]

				H Grandel, B. Draper, and S Schulte-Merker dackel acts in the ectoderm of the zebrafish pectoral fin bud to maintain AER signaling Development, January 10, 2000; 127(19): 4169 - 4178. [Abstract] [PDF]

				J Charite, D. McFadden, and E. Olson The bHLH transcription factor dHAND controls Sonic hedgehog expression and establishment of the zone of polarizing activity during limb development Development, January 6, 2000; 127(11): 2461 - 2470. [Abstract] [PDF]

				A. Moon, A. Boulet, and M. Capecchi Normal limb development in conditional mutants of Fgf4 Development, January 3, 2000; 127(5): 989 - 996. [Abstract] [PDF]

				J. Galceran, I. Fariñas, M. J. Depew, H. Clevers, and R. Grosschedl Wnt3a-/--like phenotype and limb deficiency in Lef1-/-Tcf1-/- mice Genes & Dev., March 15, 1999; 13(6): 709 - 717. [Abstract] [Full Text]

				C. Neumann, H Grandel, W Gaffield, S Schulte-Merker, and C Nusslein-Volhard Transient establishment of anteroposterior polarity in the zebrafish pectoral fin bud in the absence of sonic hedgehog activity Development, January 11, 1999; 126(21): 4817 - 4826. [Abstract] [PDF]

				R. Widelitz, T. Jiang, C. Chen, N. Stott, and C. Chuong Wnt-7a in feather morphogenesis: involvement of anterior-posterior asymmetry and proximal-distal elongation demonstrated with an in vitro reconstitution model Development, January 6, 1999; 126(12): 2577 - 2587. [Abstract] [PDF]

				A Zuniga and R Zeller Gli3 (Xt) and formin (ld) participate in the positioning of the polarising region and control of posterior limb-bud identity Development, January 1, 1999; 126(1): 13 - 21. [Abstract] [PDF]

				I Munoz-Sanjuan, B. Simandl, J. Fallon, and J Nathans Expression of chicken fibroblast growth factor homologous factor (FHF)-1 and of differentially spliced isoforms of FHF-2 during development and involvement of FHF-2 in chicken limb development Development, January 1, 1999; 126(2): 409 - 421. [Abstract] [PDF]

				G. R. Martin The roles of FGFs in the early development of vertebrate�limbs Genes & Dev., June 1, 1998; 12(11): 1571 - 1586. [Full Text]

				M Takahashi, K Tamura, D Buscher, H Masuya, S Yonei-Tamura, K Matsumoto, M Naitoh-Matsuo, J Takeuchi, K Ogura, T Shiroishi, et al. The role of Alx-4 in the establishment of anteroposterior polarity during vertebrate limb development Development, January 11, 1998; 125(22): 4417 - 4425. [Abstract] [PDF]

				C Rodriguez-Esteban, J. Schwabe, J. Pena, D. Rincon-Limas, J Magallon, J Botas, and J. Belmonte Lhx2, a vertebrate homologue of apterous, regulates vertebrate limb outgrowth Development, January 10, 1998; 125(20): 3925 - 3934. [Abstract] [PDF]

				F Reifers, H Bohli, E. Walsh, P. Crossley, D. Stainier, and M Brand Fgf8 is mutated in zebrafish acerebellar (ace) mutants and is required for maintenance of midbrain-hindbrain boundary development and somitogenesis Development, January 7, 1998; 125(13): 2381 - 2395. [Abstract] [PDF]

				C. Loomis, R. Kimmel, C. Tong, J Michaud, and A. Joyner Analysis of the genetic pathway leading to formation of ectopic apical ectodermal ridges in mouse Engrailed-1 mutant limbs Development, January 3, 1998; 125(6): 1137 - 1148. [Abstract] [PDF]

				X Xu, M Weinstein, C Li, M Naski, R. Cohen, D. Ornitz, P Leder, and C Deng Fibroblast growth factor receptor 2 (FGFR2)-mediated reciprocal regulation loop between FGF8 and FGF10 is essential for limb induction Development, January 2, 1998; 125(4): 753 - 765. [Abstract] [PDF]

				Y. Imokawa and K. Yoshizato Expression of Sonic hedgehog gene in regenerating newt limb blastemas recapitulates that in developing limb�buds PNAS, August 19, 1997; 94(17): 9159 - 9164. [Abstract] [Full Text] [PDF]

				T. Stratford, K Kostakopoulou, and M Maden Hoxb-8 has a role in establishing early anterior-posterior polarity in chick forelimb but not hindlimb Development, January 11, 1997; 124(21): 4225 - 4234. [Abstract] [PDF]

				V Knezevic, R De Santo, K Schughart, U Huffstadt, C Chiang, K. Mahon, and S Mackem Hoxd-12 differentially affects preaxial and postaxial chondrogenic branches in the limb and regulates Sonic hedgehog in a positive feedback loop Development, January 11, 1997; 124(22): 4523 - 4536. [Abstract] [PDF]

				M Altabef, J. Clarke, and C Tickle Dorso-ventral ectodermal compartments and origin of apical ectodermal ridge in developing chick limb Development, January 11, 1997; 124(22): 4547 - 4556. [Abstract] [PDF]

				H Ohuchi, T Nakagawa, A Yamamoto, A Araga, T Ohata, Y Ishimaru, H Yoshioka, T Kuwana, T Nohno, M Yamasaki, et al. The mesenchymal factor, FGF10, initiates and maintains the outgrowth of the chick limb bud through interaction with FGF8, an apical ectodermal factor Development, January 6, 1997; 124(11): 2235 - 2244. [Abstract] [PDF]

				C Logan, A Hornbruch, I Campbell, and A Lumsden The role of Engrailed in establishing the dorsoventral axis of the chick limb Development, January 6, 1997; 124(12): 2317 - 2324. [Abstract] [PDF]

				M. Ros, M Sefton, and M. Nieto Slug, a zinc finger gene previously implicated in the early patterning of the mesoderm and the neural crest, is also involved in chick limb development Development, January 5, 1997; 124(9): 1821 - 1829. [Abstract] [PDF]

				J. Michaud, F Lapointe, and N. Le Douarin The dorsoventral polarity of the presumptive limb is determined by signals produced by the somites and by the lateral somatopleure Development, January 4, 1997; 124(8): 1453 - 1463. [Abstract] [PDF]

				M. Lewandoski, E.N. Meyers, and G.R. Martin Analysis of Fgf8 Gene Function in Vertebrate Development Cold Spring Harb Symp Quant Biol, January 1, 1997; 62(0): 159 - 168. [Abstract] [PDF]