EC:3.1.27.5 - FACTA Search

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Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Basic fibroblast growth factor (bFGF) stimulates bone formation in vitro and in vivo. The purpose of this study was to determine changes in gene expression for bone matrix proteins, growth factors, and cytokines associated with the stimulatory effects of bFGF on bone formation in aged ovariectomized (ovx) rats. At 3 months of age, female Sprague-Dawley rats were sham-operated (sham) or ovariectomized (ovx), then maintained untreated for 1 year. At 15 months of age, baseline (BSL) sham and ovx rats were killed. All other rats received daily intravenous injections of bFGF (200 microg/kg) or vehicle (veh) for 14 days. Lumbar vertebrae were processed for quantitative bone histomorphometry or molecular analyses. Ovariectomy decreased vertebral cancellous bone volume by approximately 33% and increased most indices of bone turnover. Treatment of aged ovx rats with bFGF for only 14 days significantly increased cancellous bone volume compared with vehicle treatment of ovx rats, but this variable remained lower than in sham + veh rats. Osteoid volume, osteoblast surface, and osteoid surface were markedly increased, and osteoclast surface was significantly decreased in ovx + bFGF rats compared with sham + veh and ovx + veh rats. Northern analyses revealed that mRNA levels for osteocalcin and type I collagen, relative to 18S RNA, were significantly higher in ovx + bFGF rats than in ovx + veh rats by a factor of >10. RNase protection assays revealed that insulin-like growth factor (IGF-I) mRNA levels, relative to L32 housekeeping gene, were also significantly higher, by nearly a factor of 3, in ovx + bFGF rats than in ovx + veh rats. Treatment of ovx rats with bFGF did not appear to affect message levels for transforming growth factor-beta (TGF-beta), interleukin-6 (IL-6), and interferon-gamma (IFN-gamma). These in vivo results suggest that bFGF treatment upregulates gene expression for IGF-I, which may mediate, at least in part, the increased gene expression for bone matrix proteins and the bone anabolic effects of bFGF in aged ovx rats.
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PMID:Changes in gene expression associated with the bone anabolic effects of basic fibroblast growth factor in aged ovariectomized rats. 1211 Apr 27

The effects of a 50 Hz extremely low frequency (ELF) sinusoidal magnetic field (MF) on the expression of genes relating to cytokine receptors were studied in HL60 cells. Transcription levels of tumor necrosis factor receptor (TNFR) p55 and p75, interleukin-6 receptor-alpha (IL-6Ralpha) and transforming growth factor-beta receptor 1 (TGFbetaR1) were quantified in cells exposed to an intensity of 0.1 or 0.8 mT for periods ranging from 30 min to 72 h. Cells treated with 10 nM of phorbol 12-myristate 13-acetate (PMA) for 8 h served as a positive control. Gene expression values were assessed by the ribonuclease protection assay (RPA) and normalized to those of the noninducible gene GAPDH. The results showed that MF exposure at 0.1 and 0.8 mT for 72 h increased TNFR p75 and IL-6Ralpha mRNA expression in HL60 cells. No significant change in gene expression levels of TNFR p55 and TGFbetaR1 was observed under any of the exposure conditions. In addition, we report here for the first time that IL-6Ralpha mRNA expression can be suppressed by PMA in HL60 cells.
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PMID:Gene expression of cytokine receptors in HL60 cells exposed to a 50 Hz magnetic field. 1211 54

Testosterone is known to act differentially on skeletal muscle from different regions of the body. Two genes likely to mediate the testosterone effect are insulin-like growth factor I (IGF-I), an important growth regulator acting in an autocrine and paracrine way, and androgen receptor (AR), because receptor density could account for differential muscle growth. Another muscle-specific gene that may play a role in differential muscle growth is myostatin, a member of the transforming growth factor-beta superfamily, shown to be a negative regulator of skeletal muscle mass. The objective of this study was to quantify and compare the steady state expression of these three genes in two different skeletal muscles in sheep. Eleven Dorset rams were slaughtered after reaching puberty and total RNA was extracted from samples of semitendinosus and splenius muscles. Insulin-like growth factor I mRNA was measured using a competitive reverse-transcription-polymerase chain reaction. Androgen receptor and myostatin mRNA were measured by a ribonuclease protection assay (RPA) with standard curves. The means (attomoles/microg RNA) for splenius and semitendinosus muscles were 1.39 and 1.02 (SE = 0.14), 4.05 and 2.96 (SE = 0.24), and 4.30 and 3.85 (SE = 0.37) for IGF-I, AR, and myostatin, respectively. The difference between the two muscles was significant for IGF-I and AR mRNA levels with higher levels in the splenius but not significant for myostatin. Our results show that locally produced IGF-I and the regulation of AR expression may be important for sexually dimorphic muscle growth patterns.
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PMID:Gene expression in sexually dimorphic muscles in sheep. 1216 55

The molecular mechanisms by which bone morphogenetic proteins (BMPs) promote skeletal cell differentiation were investigated in the murine mesenchymal stem cell line C3H10T1/2. Both BMP-7 and BMP-2 induced C3H10T1/2 cells to undergo a sequential pattern of chondrogenic followed by osteogenic differentiation that was dependent on both the concentration and the continuous presence of BMP in the growth media. Differentiation was determined by the expression of chondrogenesis and osteogenesis associated matrix genes. Subsequent experiments using BMP-7 demonstrated that withdrawal of BMP from the growth media led to a complete loss of skeletal cell differentiation accompanied by adipogenic differentiation of these cells. Continuous treatment with BMP-7 increased the expression of Sox9, Msx 2, and c-fos during the periods of chondrogenic differentiation after which point their expression decreased. In contrast, Dlx 5 expression was induced by BMP-7 treatment and remained elevated throughout the time-course of skeletal cell differentiation. Runx2/Cbfa1 was not detected by ribonuclease protection assay (RPA) and did not appear to be induced by BMP-7. The sequential nature of differentiation of chondrocytic and osteoblastic cells and the necessity for continuous BMP treatment to maintain skeletal cell differentiation suggests that the maintenance of selective differentiation of the two skeletal cell lineages might be dependent on BMP-7-regulated expression of other morphogenetic factors. An examination of the expression of Wnt, transforming growth factor-beta (TGF-beta), and the hedgehog family of morphogens showed that Wnt 5b, Wnt 11, BMP-4, growth and differentiation factor-1 (GDF-1), Sonic hedgehog (Shh), and Indian hedgehog (Ihh) were endogenously expressed by C3H10T1/2 cells. Wnt 11, BMP-4, and GDF-1 expression were inhibited by BMP-7 treatment in a dose-dependent manner while Wnt 5b and Shh were selectively induced by BMP-7 during the period of chondrogenic differentiation. Ihh expression also showed induction by BMP-7 treatment, however, the period of maximal expression was during the later time-points, corresponding to osteogenic differentiation. An interesting phenomenon was that BMP-7 activity could be further enhanced twofold by growing the cells in a more nutrient-rich media. In summary, the murine mesenchymal stem cell line C3H10T1/2 was induced to follow an endochondral sequence of chondrogenic and osteogenic differentiation dependent on both dose and continual presence of BMP-7 and enhanced by a nutrient-rich media. Our preliminary results suggest that the induction of osteogenesis is dependent on the secondary regulation of factors that control osteogenesis through an autocrine mechanism.
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PMID:BMP treatment of C3H10T1/2 mesenchymal stem cells induces both chondrogenesis and osteogenesis. 1463 86

Testosterone is known to act differentially on skeletal muscle from different regions. Two genes likely to mediate the testosterone effect are IGF-I, an important growth regulator acting in an autocrine and paracrine way, and androgen receptor (AR), as receptor density could account for differential muscle growth. Another muscle-specific gene that may play a role in differential muscle growth is myostatin, a member of the transforming growth factor-beta superfamily, shown to be a negative regulator of skeletal muscle mass. The objective of this study was to quantify and compare the expression of these three genes in two different skeletal muscles in sheep. East Friesian x Dorset-sired ram lambs from Dorset ewes were used in a 2 x 4 factorial experiment. Eighteen sets of twins were assigned to four age groups corresponding to 77, 105, 133, and 161 d of age, and one individual from each set was castrated at birth. Total RNA was extracted from samples of splenius (SP) and semitendinosus muscles collected at the time of slaughter. Insulin-like growth factor-I mRNA was measured using competitive reverse-transcription PCR. Androgen receptor and myostatin mRNA were measured by ribonuclease protection assay with standard curves. Weight of SP was greater than semitendinosus in rams compared with wethers at 105, 133, and 161 d (P = 0.05, P = 0.04, and P = 0.02, respectively). The difference in IGF-I mRNA levels between the two muscles was greater in rams than in wethers at 133 (P = 0.001) and 161 d (P = 0.014), and the difference in AR mRNA levels was greater in rams than in wethers at 105, 133, and 161 d (P = 0.002, P < 0.001, and P < 0.001, respectively), with greater abundance in the SP. No difference was found in myostatin mRNA level between the two muscles in rams and wethers at any age. These results suggest that locally produced IGF-I and the regulation of AR expression are important for sexually dimorphic muscle growth patterns.
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PMID:Effect of testosterone on insulin-like growth factor-I, androgen receptor, and myostatin gene expression in splenius and semitendinosus muscles in sheep. 1575 34

Keloid scars represent a pathological response to cutaneous injury under the regulation of many growth factors. Activin-A, a dimeric protein and a member of the transforming growth factor-beta superfamily, has been shown to regulate various aspects of cell growth and differentiation in the repair of the skin mesenchyme and the epidermis. Thus our aim was to study the role of activin and its antagonist, follistatin, in keloid pathogenesis. Increased mRNA expression for activin was observed in keloid scar tissue by performing RNase protection assay. Immunohistochemistry showed increased localization of both activin-A and follistatin in the basal layer of epidermis of keloid tissue compared with normal tissue. ELISA demonstrated a 29-fold increase in concentration of activin-A and an approximately 5-fold increase in follistatin in conditioned media in keloid fibroblasts compared with normal fibroblasts. Although keloid keratinocytes produced 25% more follistatin than normal keratinocytes, the amounts of activin-A, in contrast, was approximately 77% lower. Proliferation of fibroblasts was stimulated when treated with exogenous activin-A (46% increase in keloids fibroblasts) or following co-culture with hbetaAHaCaT cells (66% increase). Activin-A upregulated key extracellular matrix components, namely collagen, fibronectin, and alpha-smooth muscle actin, in normal and keloid fibroblasts. Co-treatment of follistatin with activin-A blocked the stimulatory effects of activin on extracellular matrix components. These findings emphasize the importance of the activin system in keloid biology and pathogenesis and suggest a possible therapeutic potential of follistatin in the prevention and treatment of keloids.
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PMID:The role of the activin system in keloid pathogenesis. 1697 93

Wound healing in the oral mucosa is clinically distinguished by rapid healing and lack of scar formation compared with dermal wounds. Mechanisms of favorable mucosal healing are yet to be elucidated. Utilizing a murine model of equivalent-size mucosal and skin wounds, we verified the rapid reepithelializaton and reduction in scarring of oral wounds reported in humans. Collagen fibrillar structure in oral wounds rapidly approached the size of normal collagen fibrils, while the collagen ultrastructure in skin remained immature through the later phases of healing. To determine whether the transforming growth factor-beta (TGF-beta) contributes to the lack of scar formation in oral mucosa, we compared the expression and production in oral and skin wounds. The RNase protection assay demonstrated significantly lower levels of TGF-beta1 expression in oral wounds compared with dermal wounds, and no changes were observed in the expression levels of TGF-beta2 or TGF-beta 3. ELISA analysis confirmed that oral wounds contained lower levels of TGF-beta1 levels compared with dermal wounds, along with a significant increase in the ratio of TGF-beta 3 to -beta1. These findings showed reduced scarring in oral wounds at the ultrastructural level, and provide evidence that site-specific differences in TGF-beta production contributes to the superior healing of oral wounds.
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PMID:Site-specific production of TGF-beta in oral mucosal and cutaneous wounds. 1808 95

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