Hoxb1 controls effectors of sonic hedgehog and Mash1 signaling pathways

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JOURNAL ARTICLES

Hoxb1 controls effectors of sonic hedgehog and Mash1 signaling pathways

GO Gaufo, P Flodby and MR Capecchi
Howard Hughes Medical Institute, Department of Human Genetics, University of Utah, Salt Lake City, UT 84112, USA.

The diverse neuronal subtypes in the adult central nervous system arise from progenitor cells specified by the combined actions of anteroposterior (AP) and dorsoventral (DV) signaling molecules in the neural tube. Analyses of the expression and targeted disruption of the homeobox gene Hoxb1 demonstrate that it is essential for patterning progenitor cells along the entire DV axis of rhombomere 4 (r4). Hoxb1 accomplishes this function by acting very early during hindbrain neurogenesis to specify effectors of the sonic hedgehog and Mash1 signaling pathways. In the absence of Hoxb1 function, multiple neurons normally specified within r4 are instead programmed for early cell death. The findings reported here provide evidence for a genetic cascade in which an AP-specified transcription factor, Hoxb1, controls the commitment and specification of neurons derived from both alar and basal plates of r4.

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				O. A. Samad, M. J. Geisen, G. Caronia, I. Varlet, V. Zappavigna, J. Ericson, C. Goridis, and F. M. Rijli Integration of anteroposterior and dorsoventral regulation of Phox2b transcription in cranial motoneuron progenitors by homeodomain proteins Development, August 15, 2004; 131(16): 4071 - 4083. [Abstract] [Full Text] [PDF]

				J. Briscoe and D. G. Wilkinson Establishing neuronal circuitry: Hox genes make the connection Genes & Dev., July 15, 2004; 18(14): 1643 - 1648. [Full Text] [PDF]

				B. R. Arenkiel, P. Tvrdik, G. O. Gaufo, and M. R. Capecchi Hoxb1 functions in both motoneurons and in tissues of the periphery to establish and maintain the proper neuronal circuitry Genes & Dev., July 1, 2004; 18(13): 1539 - 1552. [Abstract] [Full Text] [PDF]

				G. O. Gaufo, S. Wu, and M. R. Capecchi Contribution of Hox genes to the diversity of the hindbrain sensory system Development, March 15, 2004; 131(6): 1259 - 1266. [Abstract] [Full Text] [PDF]

				Y. Murakami, M. Pasqualetti, Y. Takio, S. Hirano, F. M. Rijli, and S. Kuratani Segmental development of reticulospinal and branchiomotor neurons in lamprey: insights into the evolution of the vertebrate hindbrain Development, March 1, 2004; 131(5): 983 - 995. [Abstract] [Full Text] [PDF]

				D. C. Williams Jr., M. Cai, and G. M. Clore Molecular Basis for Synergistic Transcriptional Activation by Oct1 and Sox2 Revealed from the Solution Structure of the 42-kDa Oct1{middle dot}Sox2{middle dot}Hoxb1-DNA Ternary Transcription Factor Complex J. Biol. Chem., January 9, 2004; 279(2): 1449 - 1457. [Abstract] [Full Text] [PDF]

				A. Gavalas, C. Ruhrberg, J. Livet, C. E. Henderson, and R. Krumlauf Neuronal defects in the hindbrain of Hoxa1, Hoxb1 and Hoxb2 mutants reflect regulatory interactions among these Hox genes Development, December 1, 2003; 130(23): 5663 - 5679. [Abstract] [Full Text] [PDF]

				G. O. Gaufo, K. R. Thomas, and M. R. Capecchi Hox3 genes coordinate mechanisms of genetic suppression and activation in the generation of branchial and somatic motoneurons Development, November 1, 2003; 130(21): 5191 - 5201. [Abstract] [Full Text] [PDF]

				A. Pattyn, A. Vallstedt, J. M. Dias, O. A. Samad, R. Krumlauf, F. M. Rijli, J.-F. Brunet, and J. Ericson Coordinated temporal and spatial control of motor neuron and serotonergic neuron generation from a common pool of CNS progenitors Genes & Dev., March 15, 2003; 17(6): 729 - 737. [Abstract] [Full Text] [PDF]

				J. M. McClintock, M. A. Kheirbek, and V. E. Prince Knockdown of duplicated zebrafish hoxb1 genes reveals distinct roles in hindbrain patterning and a novel mechanism of duplicate gene retention Development, March 7, 2003; 129(10): 2339 - 2354. [Abstract] [Full Text] [PDF]

				T. Theil, L. Ariza-McNaughton, M. Manzanares, J. Brodie, R. Krumlauf, and D. G. Wilkinson Requirement for downregulation of kreisler during late patterning of the hindbrain Development, March 5, 2003; 129(6): 1477 - 1485. [Abstract] [Full Text] [PDF]

				M. Studer Initiation of facial motoneurone migration is dependent on rhombomeres 5 and 6 Development, October 1, 2001; 128(19): 3707 - 3716. [Abstract] [Full Text] [PDF]