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Query: EC:3.1.3.5 (
5'-nucleotidase
)
3,167
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A membrane preparation was obtained from rat striated muscle. The preparation used has been shown to contain plasma membranes by electron microscopy as well as by enrichment in specific activity of both a plasma membrane enzyme "marker" (
5'-nucleotidase
) and cell surface 125I-incorporated radioactivity. The characteristics of 125I-insulin binding to this striated muscle preparation were studied, and it was found that 125I-insulin readily and specifically binds to this membrane preparation. The binding reaction was time, pH, and temperature dependent with optimal steady-state binding conditions occurring at 20 degrees C and at pH 7.6. Under these conditions (20 degrees C, pH 7.6) skeletal muscle plasma membranes displayed little ability to degrade insulin. Binding of 125I-insulin was readily inhibited at physiologic concentrations of unlabeled insulin and the specificity of this receptor for insulin was demonstrated by finding that high concentrations of glucagon, b-LH, b-FSH, p-PRL, hCG,
TSH
, and HGH were without effect on 125I-insulin binding and that insulin analogues inhibited binding in proportion to their biologic activity. When membranes from older, fatter rats were compared to membranes from younger, lean animals,
5'-nucleotidase
specific activity and insulin degrading activity were found to be comparable. On the other hand, insulin binding to membrane receptors was decreased 30%-40% in the older, fatter animals. Thus, these studies indicate that (1) specific insulin receptors exist in skeletal muscle plasma membranes, and (2) membranes from older, fatter rats have fewer receptors than those from younger, lean animals.
...
PMID:Insulin receptors of skeletal muscle: specific insulin binding sites and demonstration of decreased numbers of sites in obese rats. 0 34
The effects of LATS and
TSH
on the cyclic nucleotide content and enzymatic activity in rat thyroid was observed during the continuous administration of LATS or
TSH
for 6 days. Serum T4 and T3 levels were increased significantly compared with the saline controls. The cyclic nucleotide (cAMP and cGMP) levels and enzyme activities per wet weight of tissue were determined. The thyroid weight in both the LATS and
TSH
groups increased approximately two-fold, but cAMP and cGMP content per wet weight did not significantly change. Neither cyclic nucleotide showed any significant change in plasma. The cAMP-PDE activity in the thyroid significantly increased in both the LATS and
TSH
groups, but the cGMP-PDE activity was unchanged. Neither was cyclic nucleotide-PDE activity changed in the plasma. The ATPase activity in the thyroid increased markedly in both the LATS and
TSH
groups, while
5'-nucleotidase
activity did not change. These data suggest that LATS and
TSH
appear to have a stimulatory effect on the metabolism of cAMP, but do not affect the metabolism of cGMP.
...
PMID:Changes in cyclic nucleotides of rat thyroid by chronic administration of LATS and TSH. 21 Jun 9
Changes in the content of cyclic nucleotides (cAMP and cGMP) and related enzyme activities were observed in the rat thyroid, pituitary and plasma during the prolonged increase of endogenous
TSH
produced by treatment with methylthiouracil (MTU). Experiments were performed after 4 weeks treatment with MTU. The wet weight and cAMP content per wet weight of the thyroid increased 3 and 1.4 times respectively, but cGMP showed a slight decrease. Pituitary weight increased 1.3 times, but cAMP and cGMP content did not change. The cAMP level in plasma also increased about 1.3 times, but cGMP did not increase. The cAMP-phosphodiesterase activity in the thyroid, pituitary and plasma was increased 1.9, 1.4 and 1.3 times respectively after MTU treatment, while cGMP-phosphodiesterase showed no significant change. ATPase activity in the thyroid and pituitary was also increased more than 1.5 times after MTU treatment, while
5'-nucleotidase
activitity decreased remarkably. These data indicate that the metabolism of the cyclic nucleotide system in the thyroid is stimulated by
TSH
.
...
PMID:Changes in the cyclic nucleotides of rat thyroid, pituitary and plasma caused by methylthiouracil treatment. 21 61
A tissue disruption technique leading to the separation of thyroid epithelial cell components from interfollicular material has been used to study the distribution and the properties of membrane adenylate cyclase originating from intraglandular thyroid and non-thyroid cells. Bovine thyroid fragments were forced through a metallic sieve. The material which filtrates was composed of open cells and cell debris (fraction A); the material remaining on the sieve contained the basal lamina and the interfollicular material as shown by photon and electron microscopic observations (fraction B). Homogenates (HA and HB) were prepared from fractions A and B and centrifuged on a 41% sucrose layer to prepare membrane fractions: MA and MB, which were tested for the presence of adenylate cyclase,
TSH
-responsive adenylate cyclase and 125I-labelled
TSH
binding activity. HA and HB contained respectively 70% and 30% of the total thyroid adenylate cyclase activity. MA and MB were similarly enriched in
5'-nucleotidase
and adenylate cyclase: 8- to 10-fold as compared to the corresponding homogenates. MA and MB exhibited a marked difference in the response to
TSH
:
TSH
either alone or in the presence of Gpp(NH)p stimulated the adenylate cyclase of MA and did not have any effect on MB. Fractionation of MA by isopycnic centrifugation on Percoll gradients yielded a membrane peak exhibiting a
TSH
-responsive adenylate cyclase activity and a 125I-labelled
TSH
binding activity displaceable by an excess of unlabelled
TSH
. A membrane peak at the same density was obtained from MB but its adenylate cyclase did not respond to
TSH
and there was no specific binding of labelled
TSH
. Our data indicate that an important fraction of membrane adenylate cyclase of the thyroid does not seem to be coupled with
TSH
receptor; the major part of this fraction (MB) likely originates from intraglandular non-thyroid epithelial cells. The separation of this membrane fraction from the thyroid cell plasma membrane fraction (MA) allows to increase the response of this latter fraction to
TSH
.
...
PMID:Separation and analysis of two plasma membrane fractions from bovine thyroid which differ in TSH binding and TSH activation of adenylate cyclase. 299 9
The binding of 125I-bovine thyrotropin to thyroid particulate fractions from sham-operated (control) and hemithyroidectomized rats was compared to determine if a change in either the number of bovine thyroid-stimulating hormone (bTSH) binding sites or their affinity for bTSH occurs in physiological situations that evoke changes in the intensity of thyroid stimulation. Following hemithyroidectomy serum
TSH
levels increase and the remnant thyroid lobe enlarges. Because of compensatory thyroid hypertrophy the concentration of
TSH
binding sites in the thyroid glands from hemithyroidectomized and control rats was related to particulate protein concentration, to the degree of thyroid cellularity as indicated by DNA concentration, and to the concentration of the plasma membrane markers,
5'-nucleotidase
and magnesium-dependent ATPase. In each of four experiments, saturation studies revealed that the maximum specific binding of
TSH
per unit particulate protein and per thyroid lobe was greater in particulates from remnant than from control thyroid lobes. When related to DNA concentration, the concentration of
TSH
binding sites in remnant lobes was approximately twice that in control lobes. Because of an increase in plasma membrane markers per lobe after hemithyroidectomy, however, there was no difference in the number of
TSH
binding sites when related to the concentrations of the membrane marker enzymes in the particulate fractions. As judged from Scatchard analysis, the affinity of
TSH
binding was lower in remnant than in control lobes. This was partially but not completely due to the increased concentration of particulate protein in the remnant thyroid. These experiments demonstrate that the increase in serum
TSH
levels after hemithyroidectomy in the rat is associated with alterations in
TSH
receptor capacity and affinity.
...
PMID:Binding of bovine thyrotropin to specific sites in thyroid tissue from control and hemithyroidectomized rats. 299 11
Thyrotropin given to support-anchored cultures of porcine thyroid cells, either in a serum-containing or in a serum-free system, produced an increase of about 50% in the total activity of
5'-nucleotidase
. In the serum-free culture, in which
TSH
was administered to well-reformed follicles, this increase in
5'-nucleotidase
activity concerns both the ecto-enzymic and intracellular forms of the enzyme and it coincides with the period of several days during which several glycosyltransferase activities are elevated and thyroglobulin production increased. Taken together, and in view of a recent in vitro study (Brandan and Fleisher, 1982) documenting the fate of uridine diphosphate in Golgi vesicles, these results suggest that there might be a functional correlation between the stimulation of
5'-nucleotidase
and an increased production of nucleoside mono- and diphosphates when the activity of a number of glycosyltransferases is increased.
...
PMID:Thyrotropin increases 5'-nucleotidase activity in primary cultures of porcine thyroid cells. 609 84
The localization of adenylate cyclase and
5'-nucleotidase
activities in the follicular cells of adenomatous goiter and normal thyroid was studied by light and electron microscopy. Simultaneous biochemical measurement for both activities was carried out to confirm the histochemical findings. Adenylyl-imidodiphosphate (AMP-PNP) was used as an effective substrate for adenylate cyclase. The specificity of the adenylate cyclase reaction was also examined by adding oxalacetic acid or PCMB as an adenylate cyclase inhibitor, and by adding sodium fluoride or
TSH
as an adenylate cyclase stimulator to the reaction mixture. In the case of tissue from adenomatous goiter, a large amount of the reaction product of the adenylate cyclase activity was found uniformly in the apical and lateral plasma membrane and not in the basal plasma membrane. In the cases of normal thyroid, a small amount of the reaction product of adenylate cyclase activity was demonstrated, and only in the lateral plasma membrane of the follicular cells. On the otherhand, the histochemical localization of
5'-nucleotidase
activity was the same in adenomatous goiter and normal thyroid. The reaction product of
5'-nucleotidase
activity was found predominantly in the apical plasma membrane of the follicular cells. The biochemical findings indicated that the activity of adenylate cyclase per gram tissue was approximately 2 times higher in the case of adenomatous goiter than that in the case of normal thyroid, while the
5'-nucleotidase
activity in adenomatous goiter was in slightly higher level than in normal thyroid. Thus the histochemically demonstrable amount of adenylate cyclase and
5'-nucleotidase
reflected the activity levels measured biochemically. The lack of demonstrable adenylate cyclase activity in the basal plasma membrane suggests the possibility that this structure may not play any important role in
TSH
reception.
...
PMID:Localization of adenylate cyclase and 5'-nucleotidase activities in human thyroid follicular cells. 628 89
The adenylate cyclase and
5'-nucleotidase
activity was measured biochemically in the thyroid glands from patients with various thyroid diseases in comparison with normal thyroid. The basal adenylate cyclase activity in normal thyroid was 159.3 p-moles cAMP/min./g tissue. The activity was elevated to 230% of basal with 20 mM NaF and 190% of basal with 100 mU/ml
TSH
. These values in chronic thyroiditis and Graves' disease were not significantly different from the values of normal thyroid. In adenomatous goiter, adenoma and carcinoma, the basal adenylate cyclase activity was significantly higher than that of normal thyroid. Parallel to the biochemical determination of both enzyme activities, the distribution of histochemically demonstrable adenylate cyclase and
5'-nucleotidase
activity was described in the follicular cells with normal and various thyroid diseases. The reaction product of adenylate cyclase and
5'-nucleotidase
activity was restricted to the plasma membrane of the follicular cells. However, the distribution and intensity of the adenylate cyclase reaction varied in each thyroid disease, except for the absence of reaction product in the basal plasma membrane. The lack of demonstrable adenylate cyclase activity in the basal plasma membrane suggests the possibility that the basal plasma membrane may not play an important role of
TSH
-reception.
...
PMID:Histochemical and biochemical study on adenylate cyclase and 5'-nucleotidase activity in thyroid glands with normal and various thyroid diseases. 631 19
