Notochord-dependent expression of MFH1 and PAX1 cooperates to maintain the proliferation of sclerotome cells during the vertebral column development.

in Developmental Biology (1999), 210(1), 15-29

During axial skeleton development, the notochord is essential for the induction of the sclerotome and for the subsequent differentiation of cartilage forming the vertebral bodies and intervertebral discs ... [more ▼]

During axial skeleton development, the notochord is essential for the induction of the sclerotome and for the subsequent differentiation of cartilage forming the vertebral bodies and intervertebral discs. These functions are mainly mediated by the diffusible signaling molecule Sonic hedgehog. The products of the paired-box-containing Pax1 and the mesenchyme forkhead-1 (Mfh1) genes are expressed in the developing sclerotome and are essential for the normal development of the vertebral column. Here, we demonstrate that Mfh1 like Pax1 expression is dependent on Sonic hedgehog signals from the notochord, and Mfh1 and Pax1 act synergistically to generate the vertebral column. In Mfh1/Pax1 double mutants, dorsomedial structures of the vertebrae are missing, resulting in extreme spina bifida accompanied by subcutaneous myelomeningocoele, and the vertebral bodies and intervertebral discs are missing. The morphological defects in Mfh1/Pax1 double mutants strongly correlate with the reduction of the mitotic rate of sclerotome cells. Thus, both the Mfh1 and the Pax1 gene products cooperate to mediate Sonic hedgehog-dependent proliferation of sclerotome cells. [less ▲]

Characterization and developmental expression of Pax9, a paired-box-containing gene related to Pax1.

in Developmental Biology (1995), 170(2), 701-16

Pax9, a recently identified mouse paired-box-containing gene, is highly homologous to Pax1 and belongs to the same subfamily as Pax1, Hup48, PAX9, and pox meso. Two overlapping cDNA clones spanning the ... [more ▼]

Pax9, a recently identified mouse paired-box-containing gene, is highly homologous to Pax1 and belongs to the same subfamily as Pax1, Hup48, PAX9, and pox meso. Two overlapping cDNA clones spanning the entire coding region of Pax9 were isolated and sequenced. A comparison of the Pax1 and -9 protein sequences reveals a high degree of similarity even outside the paired box, while the carboxy-terminus of the two proteins diverges completely. We demonstrate that Pax9 can bind to the e5 sequence from the Drosophila even skipped promoter, which is also recognized by Pax1. We analyzed the expression of Pax9 during embryogenesis of wildtype, Undulated short-tail (Uns), and Danforth's short tail (Sd) mice. In wildtype embryos Pax9 is expressed in the pharyngeal pouches and their derivatives, the developing vertebral column, the tail, the head, and the limbs. Expression of Pax9 is unaffected in Uns embryos, in which the Pax1 gene is deleted, arguing that expression of Pax9 is not dependent on Pax1. The expression of Pax9 is lost in the caudal part of Sd homozygous embryos, suggesting that expression of Pax9 in the vertebral column is dependent on the notochord. These results indicate that both Pax9 and -1 may act in parallel during morphogenesis of the vertebral column. [less ▲]

Oxidative and conjugative metabolism of diethylstilbestrol by rabbit preimplantation embryos.

in Developmental Biology (1985), 109(2), 370-4

Five- and six-day-old rabbit preimplantation embryos were found to be capable of metabolizing [3H]diethylstilbestrol (DES) in vitro. Based on the analysis of the metabolites formed during a 24-hr ... [more ▼]

Five- and six-day-old rabbit preimplantation embryos were found to be capable of metabolizing [3H]diethylstilbestrol (DES) in vitro. Based on the analysis of the metabolites formed during a 24-hr incubation period we conclude that these early stage embryos do have active monooxygenase and conjugative activity. The monooxygenase seems to be specific to this early stage of embryonic development. [less ▲]