Project description:C-type natriuretic peptide (CNP) has been recently identified as an important anabolic regulator of endochondral bone growth, but the molecular mechanism mediating these effects are not completely understood. Here we demonstrate that CNP activates the p38 MAP kinase pathway in chondrocytes and that pharmacological inhibition of p38 blocks the anabolic effects of CNP in a tibia organ culture system. We further show that CNP stimulates endochondral bone growth largely through expansion of the hypertrophic zone of the growth plate, while delaying mineralization. Both effects are reversed by p38 inhibition. We performed Affymetrix microarray analyses to identify CNP target genes in the organ culture system. These studies confirmed that hypertrophic chondrocytes are the main targets of CNP signaling in the growth plate, potentially because cGMP-dependent kinases I and II, important transducers of CNP signaling and are expressed at much higher levels in these cells than in other areas of the tibia. One of the genes most strongly induced by CNP was the Ptgs2 gene, encoding Cox2. Real-time PCR confirmed that Cox2 expression was induced by CNP in hypertrophic chondrocytes, but surprisingly in a p38-independent manner. Moreover, Cox2 inhibition – in contrast to p38 inhibition - did not block the anabolic effects of CNP. In summary, our data identify novel target genes of CNP and demonstrate that the p38 pathway is a novel, essential mediator of CNP effects on endochondral ossification, with potential implications for numerous skeletal diseases. Experiment Overall Design: Tibiae from E15.5 day old embryonic mice were isolated and cultured in minimal media in the presence of vehicle, BSA/HCl (1mM), or C-type natriuretic peptide, CNP (10-6M). On the sixth day of treatment cultured tibias were micro-dissected into the resting/proliferating, hypertrophic, and mineralized areas. Distinct zones from approximately 24 bones were pooled together, from which RNA was isolated using the Qiagen RNeasy Lipid Extraction Kit. Once the quality of total RNA from three independent trials was determined using the Agilent 2100 bioanalyzer, microarray analyses were performed at the London Regional Genomics Centre using MOE430_2.0 Affymetrix arrays. Results were analyzed using GeneSpring 7.2 software.

Project description:Longitudinal bone growth depends upon the execution of an intricate series of cellular activities by epiphyseal growth plate chondrocytes. In order to better understand these coordinated events, microarray analysis was used to compare gene expression in chondrocytes isolated from the proliferative and hypertrophic zones of the avian growth plate. In this experiment we compared pooled samples of proliferative and hypertrophic chondrocytes isolated from the chick growth plate. The expression of 745 genes was found to differ 3-fold or greater at the 0.05 level of probability. Experiment Overall Design: We examined 8 samples using arrays: 4 from proliferative and 4 from hypertrophic chondrocytes.

Project description:Longitudinal bone growth depends upon the execution of an intricate series of cellular activities by epiphyseal growth plate chondrocytes. In order to better understand these coordinated events, microarray analysis was used to compare gene expression in chondrocytes isolated from the proliferative and hypertrophic zones of the avian growth plate. In this experiment we compared pooled samples of proliferative and hypertrophic chondrocytes isolated from the chick growth plate. The expression of 745 genes was found to differ 3-fold or greater at the 0.05 level of probability.

Project description:Kinase activity of cGMP-dependant, type II, protein kinase (PRKG2) is required for the proliferative to hypertrophic growth transition of growth plate chondrocytes during endochondral ossification. Loss of PRKG2 function in rodent and bovine models results in dwarfism. We compared growth plate cartilage gene expression profiles of PRKG2R678X/R678X, dwarf and PRKG2R678X/+, unaffected Angus cattle using microarray technology to discover pathways regulated by PRKG2. Calves used in this analysis were produced by the mating between a dwarf carrier sire and two dams- a mother (carrier) and daughter (dwarf) pair. Each dam produced three calves by embryo transfer, which were born in two calving groups. Growth plate cartilage was harvested from the tibia of each animal at approximately 215 days of age. Total RNA was extracted by a modified Trizol protocol. The bovine cDNA microarray (GEO Accession: GPL8813) was used for this analysis. Samples were labeled with Cy3 or Cy5 and hybridized by dye swapping the dwarf (4 dwarf animals- 2 per dam/calving group) and unaffected individuals (2 unaffected animals- 1 per dam/ calving group) such that each dwarf was compared to the unaffected full-sib produced in the same calving group. Each cDNA array was analyzed at three different PMT levels (PMT70,80 and 90), resulting in 12 total image files for statistical analysis.

Project description:Bovine Hypertrophic Growth Plate Chondrocytes vs. Reserve Zone Chondrocytes

Project description:The ability to generate chondrocytes and osteoblasts from induced pluripotent stem cells (iPSCs) will provide insights into skeletal development and genetic skeletal disorders and generate cells for regenerative medicine applications. Here we describe a method that directs iPSC-derived sclerotome to chondroprogenitors in 3D pellet culture then to articular chondrocytes or, alternatively, along the growth plate cartilage pathway to become hypertrophic chondrocytes that can transdifferentiate to osteoblasts. Osteogenic organoids deposit and mineralize a collagen I extracellular matrix (ECM), mirroring in vivo endochondral bone formation. We have identified gene expression signatures at key developmental stages including chondrocyte maturation, hypertrophy and transdifferentiation to osteoblasts, and show that this system can be used to model genetic cartilage and bone disorders.

Project description:Growth plate chondrocytes were isolated from the distal metacarpus of young dairy cattle (all under 10 mo of age), the chondrocytes were released from the extracellular matrix by digestion with Collagenase P for 4 hours, and the various zones of the growth plate were separated by density centrifugation. The least-dense Hypertrophic Zone (HZ) cells were compared to the most-dense Reserve Zone (RZ) cells. 6 pairs of HZ vs RZ were compared by microarray. Experiment Overall Design: Growth plate chondrocytes were isolated from the distal metacarpus of young dairy cattle (all under 10 mo of age), the chondrocytes were released from the extracellular matrix by digestion with Collagenase P for 4 hours, and the various zones of the growth plate were separated by density centrifugation. The least-dense Hypertrophic Zone (HZ) cells were compared to the most-dense Reserve Zone (RZ) cells. Six independent sample pairs of HZ vs RZ were compared by microarray.

Project description:We set out to generate transcriptional maps of chondrocyte UPR gene networks in vivo using two mouse models (Schmid and Cog) of Schmid chondrodysplasia, in order to define the consequences of UPR activation for the adaptation, differentiation, and survival of chondrocytes experiencing ER stress during hypertrophy, thus providing insights into ER stress signaling and its impact on cartilage pathophysiology. Our data demonstrate that both models displayed similar unfolded protein responses (UPRs), involving activation of ER stress sensors Ire1 and Atf6 and upregulation of their downstream targets, including molecular chaperones, foldases, and ER-associated degradation machinery. Also upregulated were the emerging UPR regulators Wfs1 and Syvn1, recently identified UPR components including Armet and Creld2, and genes not previously implicated in ER stress such as Steap1 and Fgf21. Moreover, we transcriptionally profiled the expression of wildtype growth plate zone gene signatures in the mutant hypertrophic zones, in order to define the differentiation status of ER-stressed chondrocytes in the mutant hypertrophic zones. Hypertrophic zone gene upregulation and proliferative zone gene downregulation were both inhibited in Schmid hypertrophic zones, resulting in the persistence of a proliferative chondrocyte-like expression profile in ER-stressed Schmid chondrocytes. For the mutant hypertrophic zone gene expression profiling, the hypertrophic zone from one tibia from each of three two week old Schmid, wildtype (Schmid background), Cog, and wildtype (Cog background) mice was microdissected. In all cases, total RNA was extracted and amplified through two rounds of linear amplification, labelled with Cy3, and interrogated by microarray analysis using the Agilent 44K, mouse whole genome platform.

Project description:We set out to determine the role of the IRE1/XBP1 pathway, the most ancient and highly conserved endoplasmic reticulum (ER) stress-sensing pathway of the unfolded protein response (UPR), in Schmid metaphyseal chondrodysplasia (MCDS). RNA derived from hypertrophic zones microdissected from growth plates of wildtype mice, mice lacking XBP1 activity in chondrocytes (Xbp1Cart?Ex2), mice carrying a COL10A1 pN617K mutation (ColXN617K), and compound mutants (C/X) was analyzed by whole genome microarray analysis. 1633 probes were differentially expressed between ColXN617K and wildtype, 215 probes were differentially expressed between Xbp1Cart?Ex2 and wildtype, and 1337 probes were differentially expressed between C/X and wildtype. 885 probes were differentially expressed between ColXN617K and wildtype but not Xbp1Cart?Ex2 and wildtype or C/X and wildtype, thus representing the XBP1-dependent response to hypertrophic chondrocyte ER stress. 688 probes were differentially expressed between ColXN617K and wildtype and between C/X and wildtype but not Xbp1Cart?Ex2 and wildtype, thus representing the XBP1-independent response to hypertrophic chondrocyte ER stress. Results were validated by qPCR. Entire growth plate hypertrophic zones were microdissected from one tibia from each of three 2-week old wildtype mice, three 2-week old mice carrying a COL10A1 p.N617K mutation (ColXN617K), three 2-week old mice lacking XBP1 activity in chondrocytes (Xbp1Cart?Ex2), and three 2-week old mice resulting from a cross between ColXN617K and Xbp1Cart?Ex2 (C/X).

Project description:Kinase activity of cGMP-dependant, type II, protein kinase (PRKG2) is required for the proliferative to hypertrophic growth transition of growth plate chondrocytes during endochondral ossification. Loss of PRKG2 function in rodent and bovine models results in dwarfism. We compared growth plate cartilage gene expression profiles of PRKG2R678X/R678X, dwarf and PRKG2R678X/+, unaffected Angus cattle using microarray technology to discover pathways regulated by PRKG2. Calves used in this analysis were produced by the mating between a dwarf carrier sire and two dams- a mother (carrier) and daughter (dwarf) pair. Each dam produced three calves by embryo transfer, which were born in two calving groups. Growth plate cartilage was harvested from the tibia of each animal at approximately 215 days of age. Total RNA was extracted by a modified Trizol protocol. The bovine cDNA microarray (GEO Accession: GPL8813) was used for this analysis. Samples were labeled with Cy3 or Cy5 and hybridized by dye swapping the dwarf (4 dwarf animals- 2 per dam/calving group) and unaffected individuals (2 unaffected animals- 1 per dam/ calving group) such that each dwarf was compared to the unaffected full-sib produced in the same calving group. Each cDNA array was analyzed at three different PMT levels (PMT70,80 and 90), resulting in 12 total image files for statistical analysis. Dwarf PRKG2 R678X homozygous cattle were compared to unaffected, age matched samples. Samples were labeled with Cy3 or Cy5 and hybridized by dye swapping the dwarf (4 dwarf animals- 2 per dam/calving group) and unaffected individuals (2 unaffected animals- 1 per dam/ calving group) such that each dwarf was compared to the unaffected full-sib produced in the same calving group (i.e. unaffected samples had 2 technical replicates). Each cDNA array was analyzed at three different PMT levels (PMT70,80 and 90), resulting in 12 total image files for statistical analysis.