EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

During sea urchin development, esophageal muscle arises from secondary mesenchyme cells, descendants of the vegetal plate that delaminate from the coelomic epithelium at the end of gastrulation. In lithium-induced exogastrulae, where vegetal plate descendants evert rather than invaginate, myogenesis occurs normally, indicating that myocyte progenitors do not have to be near the future stomodeum for differentiation to occur. Vegetal plate descendants isolated along with the extracellular matrix at different times during gastrulation produce differentiated myocytes in culture as monitored by staining with a myosin heavy chain antibody. Vegetal isolates prepared at mid-gastrulation or later consistently produce differentiated myocytes whose form and position resembled their counterparts in the intact embryo, whereas vegetal isolates prepared a few hours earlier while capable of gut differentiation, as evidenced by the de novo synthesis of the endodermal surface marker Endo 1, did not produce differentiated myocytes. These results suggest that sometime after early gastrulation, a subset of secondary mesenchyme cells are competent to differentiate into muscle cells. RNase protection assays showed that the accumulation of sea urchin myogenic factor (SUM-1) mRNA is likely to be coincident with the earliest demonstrable commitment of myogenic precursors. Premature expression of SUM-1 coding sequences in mesenchyme blastulae resulted in the activation of muscle-specific enhancer elements, demonstrating that SUM-1 can function precociously in the early embryo. However, SUM-1 expressed in this manner did not activate the endogenous MHC gene, nor induce premature or ectopic production of muscle cells.
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PMID:Developmental potential of muscle cell progenitors and the myogenic factor SUM-1 in the sea urchin embryo. 838 81

In vivo gene transfer and RNase protection assay were used to follow thyroid hormone (T3)-dependent regulation of myosin heavy chain (myHC) genes in Xenopus tadpole dorsal muscle. One embryonic and one adult myHC form were measured by each approach. RNase protection assay showed that T3 decreased expression of endogenous embryonic mRNA (E3), but increased adult (A7) transcripts. Gene transfer showed that T3 exerted transcriptional effects on mammalian embryonic and adult myHc promoters injected into the same muscle. The kinetics and profiles of the transcriptional responses were superimposable on endogenous responses. The results strengthen the use of in vivo approaches for determining the roles of transcription factors and cis-regulatory sequences in integrated contexts.
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PMID:Use of heterologous DNA-based gene transfer to follow physiological, T3-dependent regulation of myosin heavy chain genes in Xenopus tadpoles. 861 69

To characterize the phenotypic modulation of mesangial and glomerular epithelial cells, we investigated the expression of a nonmuscle type myosin heavy chain, SMemb, and alpha-smooth muscle actin (alpha-SM actin) in rat experimental glomerular diseases, which included anti-Thy 1 nephritis, 5/6 nephrectomy, diabetes, and anti-glomerular basement membrane nephritis. SMemb was only slightly expressed in normal glomerular epithelial cells but not in mesangial cells. In the anti-Thy 1 nephritis rats, both SMemb and alpha-SM actin were most conspicuously induced in mesangial cells. However, the expression profile was shifted from alpha-SM actin to SMemb dominant pattern over the course of glomerulonephritis. The expression of SMemb was also increased in epithelial cells in this model. In the other three models, glomerular cells did not express alpha-SM actin, but did so for SMemb. In the nephrectomized and the diabetic rats SMemb was newly expressed in mesangial cells at earlier stages, but at later stages was remarkably enhanced in epithelial cells when severe glomerular hypertrophy developed. In the anti-GBM nephritis rats, SMemb expression was increased in epithelial cells. In all models examined, mesangial and epithelial expression of SMemb was confirmed by immunoelectron microscopy, and enhanced expression of SMemb mRNA in glomeruli was verified by RNase protection assay. We conclude from these results that glomerular cells change their phenotypes differently depending on various types of glomerular diseases. These phenotypic changes in glomerular cells can be revealed by the combined immunostaining for SMemb and alpha-SM actin. SMemb is especially useful to detect both mesangial and glomerular epithelial cell activation in these glomerular disease models. Understanding the functional difference and regulatory mechanisms of these cytoskeletal proteins will provide insight into the pathogenesis and progression of glomerular diseases.
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PMID:Expression of a nonmuscle myosin heavy chain in glomerular cells differentiates various types of glomerular disease in rats. 873 Oct 86

The myofibrillar protein synthesis rate in old human skeletal muscle is slower than that in young adult muscle. To examine whether this difference in protein synthesis rate is explained by reduced availability of the mRNAs that encode the most abundant myofibrillar proteins, we determined relative hybridization signals from probes for actin mRNA, myosin heavy chain mRNA, and total polyadenylated RNA in vastus lateralis muscle biopsies taken from young (22- to 31-yr-old) and old (61- to 74-yr-old) human subjects. The mean fractional rate of myofibrillar synthesis was 38% slower in the older muscles, as determined by incorporation of a stable isotope tracer. Total actin and myosin heavy chain mRNAs, and polyadenylated RNA, were determined using slot-blot assays. Isoform-specific determinations of alpha-actin mRNA, type I myosin heavy chain mRNA, and type IIa myosin heavy chain mRNA were done with ribonuclease protection assays. Hybridization signals were expressed relative to tissue DNA content. There was no difference between age groups in total polyadenylated RNA or in any of the specific mRNAs. We conclude that the slower myofibrillar synthesis rate in older muscle is not caused by reduced mRNA availability.
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PMID:Polyadenylated RNA, actin mRNA, and myosin heavy chain mRNA in young and old human skeletal muscle. 877 42

The adult ventricular isoform of chicken myosin heavy chain (MHC-V) is transiently expressed in all skeletal muscle primordia analyzed and is completely repressed around embryonic days 10-12, when functional innervation is established. By ribonuclease protection assay, we demonstrated that denervation of the adult anterior latissimus dorsi muscle resulted in reexpression of MHC-V mRNA. In contrast, treatment of primary cultures of fetal breast or leg muscles with embryonic brain extract or conditioned media from glial or neuroblastoma cell lines, but not from a myogenic cell line or primary muscle cell cultures, led to inhibition of MHC-V expression. This inhibitory activity was abolished by heating and increased with protein concentration. The acquisition of both brain inhibitory activity and the competence of myogenic cells to downregulate MHC-V mRNA expression were age dependent. Furthermore, either paralysis of muscle in ovo by curare or contraction arrest of cultured myotubes resulted in persistent expression of MHC-V mRNA. Thus a putative soluble factor(s) of nerve origin as well as muscle activity are involved in the developmental downregulation of MHC-V expression in muscle primordia.
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PMID:Developmental shift of myosin heavy chain mRNA expression due to neural factor(s) and muscle activity. 889 42

Peptide growth factors likely play an important role in cardiac development, but growth factors which inhibit or prevent differentiation in cardiac myocytes are largely unknown. Using immunocytochemistry, Western and Northern blotting, and RNase protection assays, we demonstrate that epidermal growth factor (EGF) significantly inhibits differentiation and promotes proliferation in cultured human fetal ventricular cardiac myocyte cell lines. In enriched cell lines and in a pure myocyte cell strain, EGF inhibited increases in immunoreactive sarcomeric actin and sarcomeric myosin heavy chain (SMHC) normally seen after serum withdrawal. In the pure myocyte strain, EGF induced a cardiomyoblastic phenotype; i.e., it caused a complete loss of detectable sarcomeric proteins in the majority of cells; it was also mitogenic. EGF inhibited expression of cardiac alpha-actin and SMHC mRNAs, but inhibition of SMHC expression was predominantly of the beta-MHC isoform. Removal of EGF was followed by reexpression of sarcomeric proteins. Blocking the EGF receptor (EGFR) with monoclonal anti-receptor antibody completely abolished the dedifferentiating effects of EGF and also significantly reduced the mitogenic effect of the peptide. The results indicate that activation of the EGFR both inhibits differentiation and promotes proliferation of human fetal ventricular myocytes in vitro. These findings suggest an important role for EGF in human cardiac differentiation and development.
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PMID:Epidermal growth factor promotes a cardiomyoblastic phenotype in human fetal cardiac myocytes. 891 16

Following myocardial Infarction (MI) the heart undergoes a process of remodeling characterized by considerable hypertrophy of the non-infarcted myocardium. We have recently characterized the molecular basis of key electrophysiologic alterations that may provide insight into the arrhythmogenecity of post-MI remodeled hypertrophied myocardium. To further characterize other key alterations in the pattern of cardiac gene expression in a time-dependent manner, we have measured mRNA and immunoreactive protein levels of selective cardiac genes in the remodeled hypertrophied left-ventricular (LV) myocardium of rats, 3 and 21 days after left-coronary ligation and compared the results with sham-operated rats. RNase protection assay was performed to assess the expression of c-fos, atrial natriuretic factor (ANF), brain natriuretic factor (BNF), alpha2/3 isoform of Na-K ATPase, cardiac alpha/beta isoform of myosin heavy chain (MHC). Compared to the sham group, the expression of c-fos was increased 10-fold (P<0.02) in the MI group on day 3, but unlike other overload hypertrophy models, the expression remained elevated by three-fold on day 21. Similar to other overload models, the ANF and BNF expression increased significantly. No alterations were observed in the expression of cardiac alpha-actin. There was reexpression of the fetal isogene form of MHC and Na-K ATPase after MI. The beta-MHC mRNA levels, the fetal isoform of MHC, returned to basal levels after 21 days. After an initial five-fold decrease the adult isoform of alphaNa-K ATPase, alpha2 Na-K ATPase mRNA, returned to control levels and similar changes were seen in the corresponding protein levels. These findings indicate that during LV remodeling and hypertrophy following MI, there is an upregulation of early response genes and fetal isogene expression. The pattern of activation, however, is distinct from that observed in other overload models, indicating the possible involvement of alternate signal transduction pathways.
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PMID:Alterations in cardiac gene expression during ventricular remodeling following experimental myocardial infarction. 951 38

Smooth muscle myosin heavy chains (MHCs), the motor proteins that power smooth muscle contraction, are produced by alternative splicing from a single gene. The smooth muscle MHC gene is capable of producing four isoforms by utilizing alternative splice sites located at the regions encoding the carboxy terminus and the junction of the 25- and 50-kDa tryptic peptides. These four isoforms, SM1A, SM1B, SM2A, and SM2B, are a combination of one of two heavy chains containing different carboxy-terminal tails (1 or 2) without (A) or with (B) an additional motif in the myosin head. In the present study, using RNA analysis and isoform-specific antibodies, we demonstrate the expression patterns of MHC isoforms during development in rat smooth muscle tissues. RNase protection analysis indicates that the mRNAs for SMA and SMB isoforms, which differ by a 21-nucleotide insertion in the region encoding the S1 head region of the myosin molecule, are differentially expressed during development in a highly tissue-specific manner. Smooth muscle MHC transcripts are first detectable in developing rat smooth muscle tissues at 17 days of fetal development. The SMB mRNA is shown to be expressed in smooth muscle from fetal bladder, intestine, and stomach and from neonatal aorta; however, it is not expressed in cultured smooth muscle cells from rat aorta. The SMA mRNA is also present at all stages of development in the smooth muscles examined; however, it is much less abundant than SMB mRNA in most fetal smooth muscles. We show here that the SMB isoform, which contains a unique seven-amino acid insertion at the junction of the 25- and 50-kDa tryptic peptides, is present in conjunction with SM1 and SM2 tails on immunoblots of smooth muscle from stomach, intestine, bladder, and uterus and is expressed during development in a pattern distinct from that of the SM1 and SM2 tail isoforms.
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PMID:Myosin heavy chain isoform expression in rat smooth muscle development. 968 13

Denervation differs from other models of reduced neuromuscular activation due to the absence of a nerve-muscle connection and limited data exists regarding the effects of denervation on myosin heavy chain (MHC) expression. Thus, adult MHC expression (I, IIa, IIx, IIb) was studied in the rat soleus and tibialis anterior (TA) at the mRNA and protein levels 2, 4, 7, 10, 14, and 30 days following sciatic nerve transection. MHC protein content was quantified with SDS/PAGE and mRNA levels with the RNase-protection assay. Control soleus consisted predominately of type I MHC mRNA and protein, however, 4 days after denervation type I MHC mRNA was significantly decreased to 41+/-8% of control and continued to remain below control values. Soleus IIa mRNA was significantly elevated 7 and 10 days after denervation while IIx mRNA remained relatively constant until 30 days when it increased to 197+/-23% of control. At the protein level, soleus I MHC significantly decreased to 80% of the total while IIa MHC significantly increased to 20% of the total. At 30 days, Hx MHC protein accounted for 9.4+/-1.6% of the total soleus MHC protein. In the TA, IIb mRNA was significantly decreased to 57% of control by day 4 and remained significantly decreased for up to a month. TA IIx mRNA was also significantly decreased at 10 and 30 days after denervation. Similar to the soleus, TA Ha mRNA was significantly increased over control 7-14 days after denervation. There were no significant changes in TA MHC protein profile during one month of denervation. In both the soleus and TA, denervation significantly shifted the MHC mRNA profile as early as 4 days following denervation without any corresponding changes at the protein level. Significant mRNA changes without large changes in MHC protein composition continued throughout the denervation period suggesting that the muscle may be prevented from premature functional transitions by mechanisms such as decreased mRNA stability, translational block, or increased turnover of newly synthesized proteins.
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PMID:Changes in myosin mRNA and protein expression in denervated rat soleus and tibialis anterior. 974 44

We previously reported a clinical study in which probucol reduced the restenosis rate. The mechanism of this effect is unclear. Restenosis is characterized by neointimal hyperplasia caused by proliferation of smooth muscle cells (SMCs), which increases the expression of Platelet-derived growth factor (PDGF)-A and SMemb. SMemb, a non-muscle-type myosin heavy chain most predominantly expressed in embryonic smooth muscle, can be used as a good molecular marker for dedifferentiated SMC. The aim of this study was to analyze the effect of probucol on neointimal proliferation and the level of expression of PDGF-A and SMemb after balloon injury in rabbits. Probucol was given orally 1.3 g/d from 2 weeks prior to carotid balloon injury to the time of killing (2 or 4 weeks after balloon injury). Intimal area was determined histologically using a computerized morphometry program. For quantification of SMC proliferation, alpha-actin-positive cells and proliferating cell nuclear antigen (PCNA)-labeled cells were counted. The expression of PDGF-A and SMemb mRNA was analyzed by the RNase protection assay. SMemb expression was also examined by immunohistochemistry. Probucol remarkably decreased intimal area by 70% and the number of SMC and PCNA-labeled cells in the intima. The expression of PDGF-A mRNA was significantly increased after balloon injury in untreated rabbits, whereas it was markedly suppressed with probucol treatment. The expression of SMemb was significantly increased in injured arteries at mRNA and protein levels. However, probucol did not suppress SMemb expression. Probucol is effective in preventing SMC proliferation, which is possibly due to a decrease in the expression of PDGF.
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PMID:Effect of probucol on smooth muscle cell proliferation and dedifferentiation after vascular injury in rabbits: possible role of PDGF. 978 4

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