Expression of the novel gene Ened during mouse and Xenopus embryonic development.

We have recently identified 1110032E23Rik as a down-regulated target gene in Fgf receptor-signalling-deficient mouse embryoid bodies. Here, we present the expression pattern of this novel gene, designated Ened (Expressed in Nerve and Epithelium during Development), in mouse and Xenopus laevis embryos. Murine Ened transcripts were first seen at E9.5 in the heart and the gastrointestinal tract. At later stages of gestation, expression could be found in the floor plate, peripheral nervous system, lens epithelium, skin, midline dorsal aorta, lung, kidney and testis. In Xenopus, the expression of the Ened orthologue displayed common RNA distribution in several ectodermal and mesodermal tissues, but also distinct expression in locations including the brain, notochord and blood islands. We suggest that Ened might be a novel target gene of the Fgfr signalling pathway during embryonic development, and that its expression could be modulated by the basement membrane component laminin-111.

Cib2 binds integrin alpha7Bbeta1D and is reduced in laminin alpha2 chain-deficient muscular dystrophy.

Mutations in the gene encoding laminin alpha2 chain cause congenital muscular dystrophy type 1A. In skeletal muscle, laminin alpha2 chain binds at least two receptor complexes: the dystrophin-glycoprotein complex and integrin alpha7beta1. To gain insight into the molecular mechanisms underlying this disorder, we performed gene expression profiling of laminin alpha2 chain-deficient mouse limb muscle. One of the down-regulated genes encodes a protein called Cib2 (calcium- and integrin-binding protein 2) whose expression and function is unknown. However, the closely related Cib1 has been reported to bind integrin alphaIIb and may be involved in outside-in-signaling in platelets. Since Cib2 might be a novel integrin alpha7beta1-binding protein in muscle, we have studied Cib2 expression in the developing and adult mouse. Cib2 mRNA is mainly expressed in the developing central nervous system and in developing and adult skeletal muscle. In skeletal muscle, Cib2 colocalizes with the integrin alpha7B subunit at the sarcolemma and at the neuromuscular and myotendinous junctions. Finally, we demonstrate that Cib2 is a calcium-binding protein that interacts with integrin alpha7Bbeta1D. Thus, our data suggest a role for Cib2 as a cytoplasmic effector of integrin alpha7Bbeta1D signaling in skeletal muscle.

Gene expression profiling of differentiating embryonic stem cells expressing dominant negative fibroblast growth factor receptor 2.

Embryonic stem (ES) cells are derived from the inner cell mass of the blastocyst and can be cultured as three-dimensional embryoid bodies (EBs) in which embryonic pregastrulation stages are faithfully mimicked. Fibroblast growth factor receptors (mainly FGFR2) are involved in the first differentiation events during early mammalian embryogenesis. It has been demonstrated that the presence of FGFR2 is a prerequisite for laminin-111 and collagen type IV synthesis and subsequently basement membrane formation in EBs. To identify genes that are influenced by FGFR signalling, we performed global gene expression profiling of differentiating EBs expressing dominant negative FGFR2 (dnFGFR2), acquiring an extensive catalogue of down- and up-regulated genes. We show a strong down-regulation of endodermal and basement membrane related genes, which strengthen the view that the FGFR signalling pathway is a main stimulator of basement membrane synthesis in EBs. We further present down-regulation of genes previously not linked to FGFR signalling, and in addition an active transcription of some mesodermal related genes in differentiating dnFGFR2 EBs.