EC:3.1.27.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

We have examined the expression of mRNAs encoding five major neurotransmitter-synthesizing enzymes in MAH cells, a clonal cell line derived by retroviral immortalization of a rat embryonic sympathoadrenal progenitor cell. These mRNAs include tyrosine hydroxylase (TH), choline acetyltransferase (ChAT), tryptophan hydroxylase (TpH), and glutamic acid decarboxylases (GADs) 1 and 2. We find that MAH cells express high levels of TH mRNA and low levels of ChAT and TpH mRNAs. Neither GAD1 nor GAD2 mRNAs are detectable using an RNase protection assay with a detection limit of less than one transcript per cell. A similar pattern of mRNA expression is observed in postnatal superior cervical ganglia, adrenal medulla, and in PC12 cells. Transmitter synthesis and accumulation assays indicate that MAH cells can synthesize both catecholamines and acetylcholine. Thus the TH and ChAT mRNAs detected in these cells are likely to be translated into active enzyme. To corroborate these data obtained using MAH cells, we performed similar transmitter synthesis and accumulation assays on sympathoadrenal progenitors directly isolated from E14.5 fetal adrenal glands by fluorescence-activated cell sorting. These progenitor cells also synthesize and accumulate both catecholamines and acetylcholine, albeit to different extents than MAH cells. Both MAH cells and their nonimmortal counterparts are able to increase slightly their cholinergic function upon short-term exposure to CDF/LIF, a factor known to induce acetylcholine synthesis in postmitotic sympathetic neurons. Taken together, these data suggest that progenitor cells in the sympathoadrenal lineage acquire the ability to simultaneously transcribe several different neurotransmitter enzyme genes early in development, prior to their choice of final cell fate. At the same time, the progenitors possess receptors which regulate expression of these genes in response to environmental factors. This ability may permit the cells to choose from several different transmitter phenotypes in response to different environments, as they migrate through the embryo. The persistent transcription of these genes in adult cells, moreover, may in part account for the phenotypic plasticity of cells in this lineage.
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PMID:Co-expression of multiple neurotransmitter enzyme genes in normal and immortalized sympathoadrenal progenitor cells. 168 90

We determined during photoreceptor development if there is a retina-specific hypomethylation of the mouse gene encoding interphotoreceptor retinoid-binding protein (IRBP) that is associated with its activation. Second, the role of IRBP gene and protein expression in development was assessed by determining if their expression occurs before that of opsin. Retina-specific hypomethylation of the IRBP promoter region started on Embryonic (E) Day 11, at the time of cone formation, increased from E12 to E14, at the time of rod formation, and reached a peak on Postnatal (P) Day 4, which was followed thereafter by a slow decrease. Starting on E11, IRBP and opsin mRNA levels were quantitated relative to that of the beta-actin gene with RNase protection analysis. beta-Actin and IRBP transcripts were readily detected on E11. beta-actin levels remained constant during embryonic and early postnatal stages and decreased slightly afterward. On the other hand, beginning on E13, when the rods are formed, the IRBP level markedly increased. In contrast, the opsin transcript first appeared later on P0 and then increased from P3 onward. After P6, the opsin and IRBP transcript levels became comparable and by P20 their levels reached constancy. The timing of the onset of protein expression for the IRBP and opsin genes was determined during the last proliferative cycle of the rod precursor cells before their differentiation. Mice at P2 or P3 were injected with bromodeoxyuridine (BrdU) and their retinal cells were dissociated and then double-labeled with antibodies against BrdU and either IRBP or opsin. Cells positive for both IRBP and BrdU were always observed as soon as 2 hr after injection but it took at least 40 hr before they became positive for both opsin and BrdU. Taken together, these results indicate that IRBP gene activation is associated with hypomethylation during the last mitosis before photoreceptor cell differentiation.
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PMID:Timing of interphotoreceptor retinoid-binding protein (IRBP) gene expression and hypomethylation in developing mouse retina. 831 88

Pituitary adenylate cyclase-activating polypeptide (PACAP) is a neuropeptide which was first isolated from ovine hypothalamic tissue by screening for pituitary adenylate cyclase stimulating activity. Our previous data showed that radioimmunoassayable PACAP and PACAP-binding sites were detected in the whole rat brain as early as embryonic day 14(E14). In order to understand more precisely the developmental pattern of the synthesis of PACAP and its receptors in the brain, we studied the expression of PACAP and its receptor genes in the prenatal and postnatal mouse brain using RNase protection assay. The mRNAs for both PACAP and its receptor were detected as early as 9.5 days of gestation (E9.5) in the whole head of mouse embryos. The levels of PACAP mRNA in the brain increased during the prenatal period peaking at postnatal day 0 (P0). On the other hand, the levels of PACAP receptor mRNA gradually increased after E9.5. The levels sharply increased at P6 (479.0 +/- 82.5% of P0 levels), and then fell to the P3 levels at P10. These data together with our previous study on the ontogeny of PACAP immunoreactivity and its binding sites in the rat brain support the view that PACAP plays an important regulatory role in the development of brain.
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PMID:Ontogeny of pituitary adenylate cyclase activating polypeptide and its receptor mRNA in the mouse brain. 895 77

Mouse submandibular salivary gland (SMG) mucin is the primary histodifferentiation product of submandibular epithelia. We demonstrate marked differences between embryonic, neonatal, and adult SMG mucin mRNA and protein by Northern and Western blot analyses: E17 and 1-day-old neonates exhibit two unique mucin transcripts (1.20 and 0.85 kb) which are approximately 19% greater or smaller in size than the single (1.01 kb) adult transcript. Two embryonic protein isoforms (Mr approximately 110 and 152 kDa) are immunodetected compared to a single adult protein (Mr approximately 136 kDa), with the larger (approximately 152 kDa) embryonic isoform persisting in neonatal glands. Mucin transcripts are localized to the branching epithelia in E14 and older SMGs, with increased hybridization signal being seen in terminal bud and proacinar epithelial cells with age; a significant 26% increase in transcript levels is detected by RNase protection assay between E14 and E19. By contrast, submandibular mucin protein is not immunodetected until E17, being primarily immunolocalized to terminal bud and proacinar epithelial cell membranes. Our data clearly shows that substantial qualitative differences exist between embryonic and adult SMG mucin mRNA and protein.
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PMID:Mouse submandibular gland mucin: embryo-specific mRNA and protein species. 965 22

Osteogenic protein-1 (OP-1) or bone morphogenetic protein-7 (BMP-7) stimulates cartilage formation in mouse bone rudiments in vitro but arrests terminal differentiation of prehypertrophic chondrocytes into hypertrophic chondrocytes. In this study we report that these effects of OP-1 depend on the developmental stage of the bone rudiment, early stages (E14 and E15 metatarsals) being most responsive. E17 metatarsals that already contained a hypertrophic area that had initiated mineralization were no longer affected by OP-1. We then investigated whether the sensitivity of the early long bone rudiments to OP-1 correlated with high expression of the OP-1 binding type I serine/threonine kinase receptors (activin receptor-like kinase: ALK-2/ActR-I, ALK-3/BMPR-IA or ALK-6/BMPR-IB) at this early stage. We did not find any significant difference in overall mRNA levels of these ALKs between stages E14 through E17 as assessed by RNase protection assays. However, by immunohistochemistry we found that ALK-6 staining was strong in E14 early cartilage primordium and its future perichondrium but dropped sharply to low levels in these cell types until onset of chondrocyte (pre)hypertrophy at E16. By contrast, ALK-2 and ALK-3 immunostainings in E14 were barely detectable. We also examined by immunohistochemistry the local synthesis of OP-1. OP-1 was present in E14 early chondrocytes and forming perichondrium but in low amounts; however, production of OP-1 increased in these cell types with age. All three receptor types as well as OP-1 were present in significant amounts in prehypertrophic chondrocytes and late hypertrophic chondrocytes including those undergoing mineralization. The temporary high immunostaining for ALK-6 in the early proliferating chondrocytes and future perichondrium of E14 bone rudiments, and its absence in older bones correlated with the sensitivity of chondrocytes and perichondrium to (exogenous) OP-1. We therefore propose that the effects of OP-1 on these cells in vitro are mediated by ALK-6/BMPR-IB. We furthermore conclude that locally produced OP-1 is a potential autocrine/paracrine growth factor. Increased local production of OP-1 may be partially responsible for the age-related decrease in responsiveness to exogenous OP-1 with respect to hypertrophy and mineralization of cartilage.
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PMID:Correlation between ALK-6 (BMPR-IB) distribution and responsiveness to osteogenic protein-1 (BMP-7) in embryonic mouse bone rudiments. 1070 76

We determined melanocortin-4 receptor (MC4-R) mRNA ontogeny in the rat using in situ hybridization and a rat MC4-R riboprobe and showed numerous peripheral sites of expression for MC4-R. The developing heart showed MC4-R mRNA expression as early as embryonic day (E) 14. In the lungs of E16-E20 fetuses, the cells surrounding developing bronchi expressed relatively strong in situ signal. Muscles associated with the respiratory system such as diaphragm and intercostal muscle expressed MC4-R mRNA as early as E14. Occipital and tongue muscles, in particular the genioglossus, showed diffuse signal at E15-E20. In the eye, a discrete signal was detected in an outer neuroblastic layer which may correspond to retina or extraocular muscle. Developing limb buds expressed relatively strong signal at E14, whereas skull bone and joint capsules of the paw of the forelimb showed signal at E18-E20. Using RT-PCR and ribonuclease protection assays, we determined that MC4-R mRNA is also expressed in adult rat heart, lung, kidney, and testis. The expression of the MC4-R in cardiorespiratory, musculoskeletal, and integumentary systems supports functional roles for the MC4-R in addition to its roles in appetite, weight control, and regulation of linear growth.
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PMID:Melanocortin-4 receptor messenger ribonucleic acid expression in rat cardiorespiratory, musculoskeletal, and integumentary systems. 1295 74

Dicer, a ribonuclease essential for miRNA processing, is expressed abundantly in developing mouse cornea and lens. We studied the roles of Dicer and miRNAs in eye development by conditionally deleting the Dicer gene in the mouse lens and corneal epithelium. Adult Dicer conditional null (DicerCN) mice had severe microphthalmia with no discernible lens and a poorly stratified corneal epithelium. Targeted deletion of Dicer effectively inhibited miRNA processing in the developing lens at 12.5 day of embryogenesis (E12.5). Lens development initiated normally but underwent progressive dystrophy between E14.5 and E18.5. Microarray analysis revealed activation of P53 signaling in DicerCN lenses at E13.5, consistent with increased apoptosis and reduced cell proliferation between E12.5 and E14.5. Expression of Pax6 and other lens developmental transcription factors were not greatly affected between E12.5 and E14.5 but decreased as the lens degenerated. Our data indicated an indispensible role for Dicer and miRNAs in lens and corneal development.
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PMID:Targeted deletion of Dicer disrupts lens morphogenesis, corneal epithelium stratification, and whole eye development. 1968 Nov 34