EC:3.1.4.37 - FACTA Search

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Query: EC:3.1.4.37 (CNPase)
539 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The possible involvement of a deficit of GH and insulin-like growth factor-I (somatomedin C) (IGF-I/SMC) in mediating the effects of propylthiouracil (PTU)-induced hypothyroidism on body and skeletal growth and myelination was studied in the neonatal rat. Myelination (as assessed by 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP) activity), skeletal growth (as assessed by tail length) and body weight of pups from PTU-treated mothers were significantly retarded compared with normal animals or euthyroid controls. At 20 days after birth, plasma GH in hypothyroid animals was undetectable (less than 10 micrograms/l), pituitary GH content was 1.2% of control, and plasma, liver and kidney IGF-I/SMC concentrations were 63, 68 and 50% of control values respectively. CNP activity in hypothyroid brain was 52% of normal controls but the concentration of IGF-I/SMC was 113-154% of control. Treatment of hypothyroid animals from day 1 with GH (10 mg/kg body weight per day) restored liver and plasma IGF-I/SMC concentrations at 20 days to values above those of normal animals and euthyroid controls. The concentration of IGF-I/SMC was also significantly (P less than 0.001) restored in hypothyroid kidney (79% of normal), but the concentration in brain was unaffected. These observations provide evidence that the GH treatment employed in the present experiments was adequate to restore the deficit. GH treatment had no significant effect on tail length or CNP activity, and only a small (4-24%) effect on body weight at 20 days. Only thyroxine was able fully to restore body weight and substantially restore tail length and CNP activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of growth hormone on growth and myelination in the neonatal hypothyroid rat. 319 44

Hypothyroidism was induced in rats by treatment with propylthiouracil through the mother's milk throughout the suckling period followed by surgical thyroidectomy without use of radioiodine. The growth of these animals was considerably retarded and their light-dark discriminative operant learning ability was also significantly decreased. Replacement therapy with thyroxine to maintain its normal serum concentration was effective for continuing normal growth and development of learning ability. Therefore, these hypothyroid rats are a useful model of congenital hypothyroidism. Biochemical studies showed that the inhibition of cerebral Na,K-ATPase and succinic dehydrogenase activities detected in early postnatal life in these hypothyroid rats was transient and that normal activities of these enzymes were later regained in adult rats. However, the activity of 2',3'-cyclic nucleotide 3'-phosphohydrolase and the brain myelin remained low throughout life unless thyroxine was administered. Though a critical correlation between biochemical parameters and learning ability is still uncertain, these results suggest that the formation of myelin in the neonatal period is at least dependent on thyroid hormone and would play an important role in mental development.
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PMID:An appropriate model for congenital hypothyroidism in the rat induced by neonatal treatment with propylthiouracil and surgical thyroidectomy: studies on learning ability and biochemical parameters. 339 29

The activities of 5'-nucleotidase (EC 3.1.3.5) and of 2',3'-cyclic nucleotide 3'-phosphohydrolase (CNP) (EC 3.1.4.37) were measured in crude membrane preparations from 6 brain regions of hypothyroid rats 31 days and 42 days after conception (8-9 days and 19-20 days after birth respectively) and from normal rats 31, 36 and 42 days after conception. At 42 days the activities of both enzymes were markedly and significantly lower than in controls in all hypothyroid brain regions. The pattern of increase in CNP activity in the brain regions of normal animals reflected the caudo-rostral progress of myelination. At 42 days postconception in the more caudal regions of hypothyroid brain, myelination, as assessed by CNP activity, was delayed by 5-7 days. In the more rostral regions where normal activity had not yet developed, the delay due to hypothyroidism was not clearly defined. The lowered activity of 5'-nucleotidase observed using crude membrane preparations from hypothyroid animals was shown not to be due to a redistribution of enzyme between cytosol and membranes or to losses into the supernatant fraction during preparation of the particulate fraction used for assays. In addition the lowered activity of 5'-nucleotidase could not be accounted for in terms of the delayed myelination and consequent absence of myelin-associated enzyme. In contrast to the results with CNP, the effects of hypothyroidism on 5'-nucleotidase in the 6 regions showed no caudo-rostral pattern. Although it was clear that the lowered activity of 5'-nucleotidase in hypothyroid brain at 20 postnatal days was not directly attributable to the state of delayed myelination, no identification of the structures or cell types affected could be made.
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PMID:Regional effects of hypothyroidism on 5'-nucleotidase and cyclic nucleotide phosphohydrolase activities in developing rat brain. 630 20

To assess the role of thyroid hormone on myelin gene expression, we have studied the effect of hypothyroidism on the mRNA steady state levels for the major myelin protein genes: myelin basic protein (MBP), proteolipid protein (PLP), myelin-associated glycoprotein (MAG) and 2':3'-cyclic nucleotide 3'-phosphodiesterase (CNP) in different rat brain regions, during the first postnatal month. We found that hypothyroidism reduces the levels of every myelin protein transcript, with striking differences between the different brain regions. Thus, in the more caudal regions, the effect of hypothyroidism was extremely modest, being only evident at the earlier stages of myelination. In contrast, in the striatum and the cerebral cortex the important decrease in the myelin protein transcripts is maintained beyond the first postnatal month. Therefore, thyroid hormone modulates in a synchronous fashion the expression of the myelin genes and the length of its effect depends on the brain region. On the other hand, hyperthyroidism leads to an increase of the major myelin protein transcripts above control values. Finally, lack of thyroid hormone does not change the expression of the oligodendrocyte progenitor-specific gene, the platelet derived growth factor receptor alpha.
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PMID:Hypothyroidism coordinately and transiently affects myelin protein gene expression in most rat brain regions during postnatal development. 910 69

The effects of hypothyroidism on oligodendroglial differentiation and myelination are for the first time studied by immunohistochemical localization of an early oligodendroglial marker, the 2'3'cyclic nucleotide 3'phosphodiesterase (E.C. 3.1.4.37-CNPase), in developing rats. Two groups received methimazol; one during gestation (H) and another postnatally (PN). One H sub-group received thyroxine after birth (T). We observed a delay in CNPase expression followed by a decrease in the number of CNPase immunoreactive fibers in both H and PN groups. The T sub-group was not different from controls. Furthermore, the immunoreactive fibers, in mature hypothyroid animals, showed a continuous pattern of staining in contrast with a discontinuous one in controls. Myelinogenesis is a highly regulated timed event. CNPase links myelin related proteins to the cytoskeleton also interacting with membrane lipids during extension and wrapping of the oligodendroglial process around the axon (ensheathment phase). In mature myelinated fiber the CNPase is absent from compact myelin sheath, being located only in the inner and outer loops and in paranodal loops. Thus, our data suggest a disorder in myelin compaction and point once more to the post-natal period as critical for the mechanisms that are thyroid hormone regulated in myelinogenesis.
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PMID:2'3'Cyclic nucleotide 3'phosphodiesterase immunohistochemistry shows an impairment on myelin compaction in hypothyroid rats. 1115 57

Brain composition and developmental changes were investigated in mice homozygous for the locus "dwarf," and characterized by a reduced level of growth hormone, thyroid stimulating hormone, and prolactin, and by secondary hypothyroidism. The difference in adult brain weight (-32%) between the dwarf and the normal mice was not found to parallel the difference in body weight (-71%), whereas the differences in the weight of the liver (-79%) and that of the kidney (-75%) did. Several biochemical parameters of brain development were assayed in dwarf and normal mice between the ages of 15 and 210 days. Levels of cerebrosides, sulfatides, gangliosides, phospholipids, cholesterol, protein, and RNA (per gram wet weight) were the same for the dwarf and the controls, but the net difference in total brain DNA was less than the net total brain RNA difference (-11% vs. -27%). Total brain lipids (absolute quantities) were the same at 15 days. The difference was -37% by the 50th day, and remained constant thereafter. No change in the specific activity of 2',3'-cyclic nucleotide 3'-phosphohydrolase or 3'-phosphoadenosine-5'-phosphosulfate: galactocerebroside sulfotransferase was observed. These data suggest that the regulation of the development of brain structures is maintained, but the level of the synthesis of the various brain constituents is reduced in proportion to the brain weight. The development of the dwarf brain seems to proceed harmoniously.
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PMID:Changes in brain components during the development of mice homozygous for the locus "dwarf" (dw)(1,5.). 2427 46