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MeSH: končetinové pupeny-metabolismus

5 záznamů v Medvik Filtry

Článek

Statins do not inhibit the FGFR signaling in chondrocytes

Fafilek, B
Autor Fafilek, B Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic International Clinical Research Center, St. Anne's University Hospital, 65691, Brno, Czech Republic
Hampl, M
Autor Hampl, M Institute of Animal Physiology and Genetics AS CR, 60200, Brno, Czech Republic Institute of Experimental Biology, Faculty of Sciences, Masaryk University, 62500, Brno, Czech Republic
Ricankova, N
Autor Ricankova, N Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic
Vesela, I
Autor Vesela, I Institute of Animal Physiology and Genetics AS CR, 60200, Brno, Czech Republic
Balek, L
Autor Balek, L Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic
Kunova Bosakova, M
Autor Kunova Bosakova, M Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic
Gudernova, I
Autor Gudernova, I Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic
Varecha, M
Autor Varecha, M Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic International Clinical Research Center, St. Anne's University Hospital, 65691, Brno, Czech Republic
Buchtova, M
Autor Buchtova, M Institute of Animal Physiology and Genetics AS CR, 60200, Brno, Czech Republic Institute of Experimental Biology, Faculty of Sciences, Masaryk University, 62500, Brno, Czech Republic
Krejci, P
Autor Krejci, P Department of Biology, Faculty of Medicine, Masaryk University, 62500, Brno, Czech Republic International Clinical Research Center, St. Anne's University Hospital, 65691, Brno, Czech Republic Department of Orthopaedic Surgery, David Geffen School of Medicine at UCLA, Los Angeles, CA 90095, USA. Electronic address: krejcip@med.muni.cz

Osteoarthritis and cartilage. 2017 ; 25 (9) : 1522-1530. [pub] 20170603

Osteoarthritis Cartilage
ISSN 1522-9653
Medvik
Zdroj

OBJECTIVE: Statins are widely used drugs for cholesterol lowering, which were recently found to counteract the effects of aberrant fibroblast growth factor receptor (FGFR3) signaling in cell and animal models of FGFR3-related chondrodysplasia. This opened an intriguing therapeutic possibility for human dwarfing conditions caused by gain-of-function mutations in FGFR3, although the mechanism of statin action on FGFR3 remains unclear. Here, we determine the effect of statins on FGFR signaling in chondrocytes. DESIGN: Cultured chondrocyte cell lines, mouse embryonic tibia cultures and limb bud micromasses were treated with FGF2 to activate FGFR signaling. The effects of atorvastatin, fluvastatin, lovastatin and pravastatin on FGFR3 protein stability and on FGFR-mediated chondrocyte growth-arrest, loss of extracellular matrix (ECM), induction of premature senescence and hypertrophic differentiation were evaluated. RESULTS: Statins did not alter the level of FGFR3 protein expression nor produce any effect on FGFR-mediated inhibition of chondrocyte proliferation and hypertrophic differentiation in cultured chondrocyte cell lines, mouse tibia cultures or limb bud micromasses. CONCLUSION: We conclude that statins do not inhibit the FGFR signaling in chondrocytes. Therefore the statin-mediated rescue of FGFR3-related chondrodysplasia, described before, is likely not intrinsic to the growth plate cartilage.

MeSH
buněčná diferenciace účinky léků MeSH
buněčné linie MeSH
chondrocyty účinky léků metabolismus MeSH
chondrogeneze účinky léků MeSH
končetinové pupeny účinky léků metabolismus MeSH
krysa rodu rattus MeSH
kultivované buňky MeSH
lidé MeSH
myši MeSH
receptor fibroblastových růstových faktorů, typ 3 antagonisté a inhibitory metabolismus MeSH
signální transdukce účinky léků MeSH
statiny farmakologie MeSH
techniky tkáňových kultur MeSH
tibie účinky léků embryologie růst a vývoj MeSH
zvířata MeSH
Check Tag
krysa rodu rattus MeSH
lidé MeSH
myši MeSH
zvířata MeSH
Publikační typ
časopisecké články MeSH
práce podpořená grantem MeSH

Článek

Fibroblast growth factor and canonical WNT/β-catenin signaling cooperate in suppression of chondrocyte differentiation in experimental models of FGFR signaling in cartilage

Biochimica et biophysica acta. 2015 ; 1852 (5) : 839-50. (Complete edition) [pub] 20150102

Biochim Biophys Acta
ISSN 0006-3002
Medvik
Zdroj

Aberrant fibroblast growth factor (FGF) signaling disturbs chondrocyte differentiation in skeletal dysplasia, but the mechanisms underlying this process remain unclear. Recently, FGF was found to activate canonical WNT/β-catenin pathway in chondrocytes via Erk MAP kinase-mediated phosphorylation of WNT co-receptor Lrp6. Here, we explore the cellular consequences of such a signaling interaction. WNT enhanced the FGF-mediated suppression of chondrocyte differentiation in mouse limb bud micromass and limb organ cultures, leading to inhibition of cartilage nodule formation in micromass cultures, and suppression of growth in cultured limbs. Simultaneous activation of the FGF and WNT/β-catenin pathways resulted in loss of chondrocyte extracellular matrix, expression of genes typical for mineralized tissues and alteration of cellular shape. WNT enhanced the FGF-mediated downregulation of chondrocyte proteoglycan and collagen extracellular matrix via inhibition of matrix synthesis and induction of proteinases involved in matrix degradation. Expression of genes regulating RhoA GTPase pathway was induced by FGF in cooperation with WNT, and inhibition of the RhoA signaling rescued the FGF/WNT-mediated changes in chondrocyte cellular shape. Our results suggest that aberrant FGF signaling cooperates with WNT/β-catenin in suppression of chondrocyte differentiation.

Článek

Expression, function and regulation of Evi-1 during embryonic avian development

Gene expression patterns. 2013 ; 13 (8) : 343-53.

Gene Expr. Patterns
ISSN 1872-7298
Medvik
Zdroj

Ecotropical viral integration site 1 (Evi-1) is a transcription factor essential for vascularisation and cell proliferation during embryonic development. The chimeric transcription factor AML1-EVI-1 is activated in leukaemia where it plays a role as a differentiation block and stimulator of proliferation. Here, we cloned chicken Evi-1 and analysed its expression during embryonic development. There was early expression in the pharyngeal arches, in the brain and intermediate mesoderm of chicken embryos at stage 15. Later at stage 20, Evi-1 mesenchymal expression was concentrated in the second pharyngeal arch, and weaker expression was found in the mandibular and maxillary prominences. Facial expression decreased in intensity during development. Evi-1 expression in the limb was also limited to the mesenchyme with the most prominent expression in the anterior margin. Evi-1 was not detectable in the posterior limb bud. At later stages, Evi-1 was expressed in the peripheral mesenchyme of the limb but not in the developing precartilage blastema. At stage 29, the expression became restricted to the perichondrium and interdigital areas; however, the cartilage condensations themselves were negative. To study the function of Evi-1 in chondrogenesis, we knocked down expression in limb micromass cultures using siRNA. Chondrogenesis was significantly reduced in both anterior and posterior cultures. Since Evi-1 was expressed adjacent to the apical ectodermal ridge and this area is a source of FGFs, we tested whether endogenous FGF receptor signalling was necessary to maintain its expression. Inhibitors of FGFRs (PD161570 and SU5402) were applied to wing mesenchyme, and downregulation of Evi-1 expression was observed after treatment with both inhibitors. Therefore, Evi-1 may be a transcription factor mediating the effects of FGF and may also be defining the size of cartilage elements in the limb.

Článek

Impairment of Sox9 expression in limb buds of rats homozygous for hypodactyly mutation

Folia biologica (Praha). 2010 ; 56 (2) : 58-65.

Medvik
Zdroj

Rat hypodactyly (hd) is an autosomal recessive mutation manifesting in homozygotes as reduction or loss of digits II and III. We mapped the hd allele to a short segment of chromosome 10, containing 16 genes. None of these genes has been shown to influence limb development yet. In situ hybridization showed no changes in several important patterning genes (Shh, Fgf8, Bmp2, 4, 7). However, we found that expression of cartilage condensation marker Sox9, and Bmp receptor Bmpr1b (acting as an upstream activator of Sox9 expression) is absent from the subepithelial mesenchyme of the digit condensations II and III. The failure of the chondrogenic condensations to extend towards the subepithelial mesenchyme may reduce the size of digit primordia and underlie the subsequent loss of phalanges and reduction of metacarpals/metatarsals in hd rats.

Článek

Deletion of a conserved noncoding sequence in Plzf intron leads to Plzf down-regulation in limb bud and polydactyly in the rat

Developmental dynamics. 2009 ; 238 (3) : 673-684.

Dev Dyn
ISSN 1058-8388
Medvik
Zdroj

Lx mutation in SHR.Lx rat manifests in homozygotes as hindlimb preaxial polydactyly. It was previously mapped to a chromosome 8 segment containing the Plzf gene. Plzf (promyelocytic leukemia zinc finger protein) influences limb development as a direct repressor of posterior HoxD genes. However, the Plzf coding sequence is intact in the Lx mutants. Using linkage mapping in F2 hybrids, we downsized the segment containing Lx to 155 kb and sequenced conserved noncoding elements (CNEs) inside. A 2,964-bp deletion in Plzf intron 2, never detected in control animals, is the only candidate for Lx. The deletion removes the most deeply conserved CNE in the 155-kb segment, suggesting a regulatory influence on Plzf expression. Correspondingly, using in situ hybridization and quantitative real-time polymerase chain reaction, we found a decrease of Plzf expression in Lx/Lx limb buds with concomitant anterior expansion of expression domains of its targets, Hoxd10-13 genes, in the absence of ectopic Sonic hedgehog expression. Upstream regulation of Plzf in limb buds is currently unknown. We present here the first candidate Plzf cis-regulatory sequence. (c) 2009 Wiley-Liss, Inc.

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