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Query: UMLS:C0003864 (
arthritis
)
69,039
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A study was conducted to investigate the influence of systemic inflammation on heterotopic bone formation induced by
bone morphogenetic protein
(BMP). Five-milligram pellets of BMP were implanted in mice with type II collagen-induced
arthritis
. Intraperitoneal injections of interleukin-1 (IL-1) were also administered to a group of mice without collagen-induced
arthritis
. The amount of BMP-induced heterotopic bone formation was evaluated by soft X-ray radiography, histology, and assay of calcium content. BMP-induced heterotopic bone formation was markedly enhanced in mice with collagen-induced
arthritis
, and also in IL-1-treated mice. These findings suggest that bone formation is enhanced in mice with collagen-induced
arthritis
, and that IL-1 may be responsible.
...
PMID:Heterotopic bone formation induced by bone morphogenetic protein in mice with collagen-induced arthritis. 151 Jun 67
A severe consequence of rheumatoid arthritis is depletion of proteoglycans (PGs) from articular cartilage leading to functional impairment of this tissue. We investigated whether local administration of anabolic factors (transforming growth factors-beta1 and -beta2 [TGF-beta1 and -beta2, respectively] and
bone morphogenetic protein
-2 (BMP-2) into joints could stimulate cartilage repair during
arthritis
. A unilateral
arthritis
was induced in mice by intra-articular injection of zymosan. Starting on Day 4 after the induction of
arthritis
, three injections of TGF-beta1 (200 ng) were given (Days 4, 6, and 8). On Day 11, articular cartilage PG synthesis was measured by 35S-sulfate incorporation, and histologic knee joint sections were prepared, which were used to analyze cartilage PG content by quantification of safranin O staining. Additionally, histologic sections were used to analyze inflammation and chondrophyte-formation. Local administration of TGF-beta1 did not modify inflammation but clearly stimulated PG synthesis and restored PG content of depleted cartilage. TGF-beta2 appeared to be as potent as TGF-beta1 in the stimulation of cartilage repair, and both TGF-beta isoforms also stimulated the formation of chondrophytes in this rodent model. In contrast to TGF-beta, three intra-articular injections with 200 ng BMP-2 did not stimulate the repair process. In summary, this study demonstrates for the first time that local administration of TGF-beta into arthritic joints stimulates the replenishment of PGs in depleted cartilage.
...
PMID:Stimulation of articular cartilage repair in established arthritis by local administration of transforming growth factor-beta into murine knee joints. 948 11
STATEMENT OF FINDINGS: Mesenchymal precursor cells found in the blood (BMPCs) of normal persons adhere to plastic and glass and proliferate logarithmically in DMEM-20% fetal calf serum (FCS) without growth factors. They form cells with fibroblast-like and stromal morphology, which is not affected by eliminating CD34, CD3, or CD14 cells. Osteogenic supplements (dexamethasone, ascorbic acid, and beta-glycerophosphate) added to the culture inhibited fibroblast formation, and BMPCs assumed the cuboidal shape of osteoblasts. After 5 days in supplemented medium, the elutriated cells displayed alkaline phosphatase (AP), and the addition of
bone morphogenetic protein
(BMP)2 (1 ng) doubled AP production (P < 0.04). Two weeks later, 30% of the cells were very large and reacted with anti-osteocalcin antibody. The same cultures also contained sudanophlic adipocytes and multinucleated giant cells that stained for tartrate-resistant acid phosphatase (TRAP) and vitronectin receptors. Cultured BMPCs immunostain with antibodies to vimentin, type I collagen, and BMP receptors, heterodimeric structures expressed on mesenchymal lineage cells. In addition, BMPCs stain with anti-CD105 (endoglin), a putative marker for bone-marrow mesenchymal stem cells (MSCs).
Arthritis
Res 2000
PMID:Mesenchymal precursor cells in the blood of normal individuals. 1105 78
The use of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (statins) to reduce serum cholesterol is well described. However, the recent finding that statins have direct effects on bone was unexpected. A number of epidemiological studies have recently been published that explore the effects of statins on bone mineral density and risk of fracture in humans. Statins may act by directly stimulating the expression of
bone morphogenetic protein
-2 and increasing osteoblast differentiation or, like nitrogen-containing bisphosphonates, may have effects on the mevalonate pathway that leads to inhibition of osteoclast activity and osteoblast apoptosis. In addition, the demonstration that statins can inhibit inflammation and encourage angiogenesis offers other possibilities for action.
Arthritis
Res 2002
PMID:Statins as modulators of bone formation. 1201 May 63
Inhibitors of the 3-hydroxy-3-methylglutaryl coenzyme A reductase enzyme have recently been shown to stimulate bone formation in rodents both in vitro and in vivo. In bone cells, these inhibitors increase the gene expression of
bone morphogenetic protein
-2, which is an autocrine-paracrine factor for osteoblast differentiation. The findings that statins increase bone formation and bone mass in rodents suggest a potential new action for these compounds, which may be beneficial in patients with established osteoporosis where marked bone loss has occurred. Recent clinical data suggest that they may reduce the risk of fracture in patients taking these drugs.
Arthritis
Res 2002
PMID:The role of statins as potential targets for bone formation. 1210 93
T-614 (N-[3-(formylamino)-4-oxo-6-phenoxy-4H-chromen-7-yl]methanesulfonamide), a newly developed anti-rheumatic drug under clinical trial, is an anti-inflammatory agent which has been reported to show the inhibitory effect of bone destruction in vivo
arthritis
model. We found that T-614 stimulated osteoblastic differentiation of stromal cell line (ST2) and preosteoblastic cell line (MC3T3-E1) in the presence or absence of recombinant human
bone morphogenetic protein
-2 (rhBMP-2). Calcium content of mineralized nodules was 14-fold elevated by the addition of T-614 in the presence of rhBMP-2 in ST2 but not MC3T3-E1. Oral administration of T-614 to mice also promoted rhBMP-2 induced bone formation in vivo. Northern blot analysis showed that transcriptional level of osterix, an essential transcription factor for osteoblastic differentiation, was 3-fold increased by T-614 with rhBMP-2 in ST2. Taken together, these results suggested that T-614 possessed anabolic effects on bone metabolism, besides suppressor of bone resorption, by increased expression of osterix.
...
PMID:A novel anti-rheumatic drug, T-614, stimulates osteoblastic differentiation in vitro and bone morphogenetic protein-2-induced bone formation in vivo. 1247 Jun 65
Interleukin-17 (IL-17) has been characterized as a proinflammatory cytokine produced by CD4+ CD45RO+ memory T cells. Overproduction of IL-17 was detected in the synovium of patients with rheumatoid arthritis (RA) compared with patients with osteoarthritis. This study examines differentially expressed genes after the stimulation of fibroblast-like synoviocytes of RA patients by IL-17. Among these genes we identified the following: tumor necrosis factor-stimulated gene-6 (TSG-6), IL-6, IL-8, GRO-beta, and
bone morphogenetic protein
-6 with an expression 3.6-10.6-fold that in the unstimulated control. IL-17 augmented the expression of TSG-6, a hyaluronan-binding protein, in a time- and dose-dependent manner. IL-17 showed additive effects with IL-1beta and tumour necrosis factor-alpha on the expression of TSG-6, IL-6 and IL-8. The mitogen-activated protein kinase p38 seems to be necessary for the regulation of TSG-6 expression by IL-17, as shown by inhibition with SB203580. Our results support the hypothesis that IL-17 is important in the pathogenesis of RA, contributing to an unbalanced production of cytokines as well as participating in connective tissue remodeling.
Arthritis
Res Ther 2003
PMID:Gene expression induced by interleukin-17 in fibroblast-like synoviocytes of patients with rheumatoid arthritis: upregulation of hyaluronan-binding protein TSG-6. 1282 53
Articular cartilage plays an essential role in health and mobility, but is frequently damaged or lost in millions of people that develop
arthritis
. The molecular mechanisms that create and maintain this thin layer of cartilage that covers the surface of bones in joint regions are poorly understood, in part because tools to manipulate gene expression specifically in this tissue have not been available. Here we use regulatory information from the mouse Gdf5 gene (a
bone morphogenetic protein
[BMP] family member) to develop new mouse lines that can be used to either activate or inactivate genes specifically in developing joints. Expression of Cre recombinase from Gdf5 bacterial artificial chromosome clones leads to specific activation or inactivation of floxed target genes in developing joints, including early joint interzones, adult articular cartilage, and the joint capsule. We have used this system to test the role of BMP receptor signaling in joint development. Mice with null mutations in Bmpr1a are known to die early in embryogenesis with multiple defects. However, combining a floxed Bmpr1a allele with the Gdf5-Cre driver bypasses this embryonic lethality, and leads to birth and postnatal development of mice missing the Bmpr1a gene in articular regions. Most joints in the body form normally in the absence of Bmpr1a receptor function. However, articular cartilage within the joints gradually wears away in receptor-deficient mice after birth in a process resembling human osteoarthritis. Gdf5-Cre mice provide a general system that can be used to test the role of genes in articular regions. BMP receptor signaling is required not only for early development and creation of multiple tissues, but also for ongoing maintenance of articular cartilage after birth. Genetic variation in the strength of BMP receptor signaling may be an important risk factor in human osteoarthritis, and treatments that mimic or augment BMP receptor signaling should be investigated as a possible therapeutic strategy for maintaining the health of joint linings.
...
PMID:BMP receptor signaling is required for postnatal maintenance of articular cartilage. 1549 76
Osteoarthritis is the most common degenerative disorder of the modern world. However, many basic cellular features and molecular processes of the disease are poorly understood. In the present study we used oligonucleotide-based microarray analysis of genes of known or assumed relevance to the cellular phenotype to screen for relevant differences in gene expression between normal and osteoarthritic chondrocytes. Custom made oligonucleotide DNA arrays were used to screen for differentially expressed genes in normal (n = 9) and osteoarthritic (n = 10) cartilage samples. Real-time polymerase chain reaction (PCR) with gene-specific primers was used for quantification. Primary human adult articular chondrocytes and chondrosarcoma cell line HCS-2/8 were used to study changes in gene expression levels after stimulation with interleukin-1beta and
bone morphogenetic protein
, as well as the dependence on cell differentiation. In situ hybridization with a gene-specific probe was applied to detect mRNA expression levels in fetal growth plate cartilage. Overall, more than 200 significantly regulated genes were detected between normal and osteoarthritic cartilage (P < 0.01). One of the significantly repressed genes, Tob1, encodes a protein belonging to a family involved in silencing cells in terms of proliferation and functional activity. The repression of Tob1 was confirmed by quantitative PCR and correlated to markers of chondrocyte activity and proliferation in vivo. Tob1 expression was also detected at a decreased level in isolated chondrocytes and in the chondrosarcoma cell line HCS-2/8. Again, in these cells it was negatively correlated with proliferative activity and positively with cellular differentiation. Altogether, the downregulation of the expression of Tob1 in osteoarthritic chondrocytes might be an important aspect of the cellular processes taking place during osteoarthritic cartilage degeneration. Activation, the reinitiation of proliferative activity and the loss of a stable phenotype are three major changes in osteoarthritic chondrocytes that are highly significantly correlated with the repression of Tob1 expression.
Arthritis
Res Ther 2005
PMID:Repression of anti-proliferative factor Tob1 in osteoarthritic cartilage. 1574 74
The principle function of articular cartilage is to provide a low friction load-bearing surface that facilitates free movement of joints. Maintenance of this surface depends on the maturational arrest of chondrocytes before terminal hypertrophic differentiation occurs [Exp. Cell Res. 216 (1995) 191; Osteoarthritis Cartilage 7 (1999) 389; J. Cell Biol. 139 (1997) 541; J. Cell Biol. 145 (1999) 783]. In contrast to endochondral ossification which involves a programmed process of chondrocyte maturation culminating in terminal hypertrophy and mineralization [Nat. Genet. 9 (1995) 15], articular chondrocytes (ACs) are constrained from completing the maturational program as evidenced by a lack of type X collagen (colX) and alkaline phosphatase expression [
Arthritis
Res. 3 (2001) 107; Biochem. J. 362 (2002) 473]. Also, ACs are not responsive to factors that impact the maturational process, including
bone morphogenetic protein
-2 (BMP-2), a potent stimulator of chondrocyte maturation [J. Orthop. Res. 14 (1996) 937]. Factors that constrain AC maturation are only relieved under unique circumstances such as in osteoarthritis (OA), where proliferation and an increase in the expression of hypertrophic hallmarks indicates that the cells have differentiated into a mature phenotype [Calcif. Tissue Int. 63 (2000) 230]. OA may thus involve the functional loss of mechanisms that arrest articular cartilage differentiation. Responsiveness to various growth or systemic factors translates into activation or repression of specific genes through transcriptional mediators. Understanding the downstream mechanisms involved in this process is of paramount importance. Thus, unraveling the molecular interplay between various factors that regulate chondrocyte maturation during OA occurrence and progression is the main focus of ongoing efforts.
...
PMID:Transcriptional regulation of chondrocyte maturation: potential involvement of transcription factors in OA pathogenesis. 1581 33
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