-
[show abstract]
[hide abstract]
ABSTRACT: One of the earliest events during chondrogenesis is the formation of condensations, a necessary pre-requisite for subsequent differentiation of a chondrogenic phenotype. Members of the Fibronectin Lecucine Rich Transmembrane (FLRT) proteins have been shown to be involved in cell sorting and neurite outgrowth. Additionally, FLRT2 is highly expressed at putative sites of chondrogenic differentiation during craniofacial development. In this study, we demonstrate that FLRT2 plays a role in mediating cell proliferation and cell-cell interactions during early chondrogenesis. Clones of stable transfectants of a murine chondroprogenitor cell line, ATDC5, were established in which FLRT2 was knocked down or overexpressed. Cells in which FLRT2 was knocked down proliferated at a slower rate compared to control wild-type ATDC5 cells or those containing a non-coding shRNA. In addition, FLRT2 knockdown cells formed numerous lectin peanut agglutinin (PNA) stained aggregates and exhibited higher expression of the cell adhesion molecule, N-cadherin. In an in vitro wound healing assay, fewer FLRT2 knockdown cells appeared to migrate into the defect. Surprisingly, the FLRT2 knockdown cells demonstrated increased formation of Alcian blue-stainable extracellular matrix, suggesting that their reduced aggregate formation did not inhibit subsequent chondrogenic differentiation. The opposite trends were observed in ATDC5 clones that overexpressed FLRT2. Specifically, FLRT overexpressing cells proliferated faster, formed fewer PNA-positive aggregates, accumulated increased Alcian blue-positive matrix, and migrated faster to close a wound. Collectively, our findings provide evidence for a role of FLRT2 in enhancing cell proliferation and reducing intercellular adhesion during the early stages of chondrogenesis.
Journal of Cellular Biochemistry 07/2011; 112(11):3440-8. · 2.87 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Fibroblast Growth Factor (FGF) signaling is known to be critical in mediating key developmental events during craniofacial development. Recent evidence suggests that members of the Fibronectin (F) Leucine (L) Rich (R) Transmembrane (T), FLRT, family modulate FGF signaling. FLRT2 has a highly specific pattern of expression during craniofacial development, in close relationship with FGFR2. We therefore characterized FLRT2/FGFR2 interactions in the context of craniofacial development and showed, by co-immunoprecipitation and GST pulldown assays with embryonic craniofacial tissue lysates, that FLRT2 interacted with FGFR2. Yeast two-hybrid assays further showed that the intracellular regions of both proteins interacted in addition to the interactions in the extracellular portions. The extracellular Leucine Rich Repeats domain of FLRT2 contributed to the interactions with the extracellular regions of FGFR2. Interactions in the intracellular regions of the 2 proteins were mediated by the C-tail domain in FLRT2. Furthermore, cells stably transfected with FLRT2 shRNAs or FLRT2 cDNA exhibited a concomitant decrease and increase, respectively, in FGFR2 protein, mRNA, and ERK phosphorylation levels, suggesting a positive feedback regulatory loop of FLRT2 on FGF signaling in craniofacial tissues. We propose that FLRT2-FGFR2 interactions represent a potential mechanism for regulation of FGF signaling by FLRT2 during craniofacial development.
Journal of dental research 07/2011; 90(10):1234-9. · 3.46 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Missense mutations in the Fibroblast Growth Factor Receptor 2 (FGFR2) have been identified in human craniosynostotic syndromes such as Crouzon (CS) and Pfeiffer (PS). FGFR2 has two major isoforms, IIIb and IIIc, generated through alternative splicing with their own temporal, spatial, and ligand-binding specificities. In this study, we report the identification and characterization of a missense mutation in codon 290 of murine Fgfr2 (W290R). The defects in W290R mutants are suggestive of disruption of signalling in both IIIb and IIIc isoforms of the Fgfr2 gene. Heterozygous mutants presented with features resembling those found in patients with CS. Fgfr2(W290R) homozygotes displayed constitutive FGFR2 activation with increased, but correct tissue-specific, expression of the IIIb and IIIc isoforms in many of the defective organs. Our Fgfr2(W290R) mouse model thus represents an excellent mouse model of CS to probe the many questions around the pathogenesis of craniosynostotic birth defects consequent to defects in FGF signaling.
Developmental Dynamics 06/2010; 239(6):1888-900. · 2.54 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: Craniofacial morphogenesis is a complex multi-step process that involves numerous biological processes to coordinate the growth, proliferation, migration, and subsequent differentiation of the cranial neural crest cells. Members of the Fibronectin Leucine-Rich Transmembrane (Flrt) gene family have been previously reported to be widely expressed in the developing embryo. We mapped the expression of Flrt2 and Flrt3 at critical stages of craniofacial development and found that, during early craniofacial development, Flrt2 was highly expressed initially in the cranial neural crest cells and Flrt3 in the midbrain. Later both genes were expressed in the developing pharyngeal region. Flrt2 expression predominated in the neural crest-derived mesenchyme in the medial aspect of the developing frontonasal region in close relationships with the expression of Fgfr2, Shh, and Msx1, three genes shown previously to play critical roles in craniofacial development. Flrt2 was also present in the vomero-nasal organ, mandibular primodia, and the posterior aspects of the unfused and fused secondary palatal shelves. Flrt3, however, had a more restrictive expression, being present in the mesenchyme underlying the ectoderm of the medial nasal process and in the mandibular primordium and in regions undergoing outgrowth, in a pattern that overlapped with Bmp4 expression. Both Flrt2 and Flrt3 were later found to be present at sites of epithelial-mesenchymal interactions such as the developing tooth buds, hair follicles, and eye. Together the data suggested important roles for Flrt2 and Flrt3 in mediating events such as NCC migration, chondrogenesis and epithelial-mesenchymal interactions during craniofacial development.
Gene Expression Patterns 08/2009; 9(7):497-502. · 2.02 Impact Factor
