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Query: UNIPROT:P61278 (
somatostatin
)
22,083
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
High calcium leads to the secretion of calcitonin, and the administration of 1,25-dihydroxyvitamin D3 leads to a decreased transcription of the calcitonin gene. We now report the effect of chronic hypercalcemia, hypocalcemia, and vitamin D deficiency on calcitonin gene expression in vivo in the rat. Hypercalcemia was created by calcium infusions for 6 h, a high-calcium diet given to weanling rats for 3 weeks, and the transplantation of the
Walker
carcinosarcoma 256 cell line. Despite serum calcium as high as 22 mg/dl, there was no difference in calcitonin mRNA levels among these rats. The control genes studied, actin and
somatostatin
, which is specific for C cells in the thyroparathyroid tissue, also did not differ among the different groups of rats. Injected 1,25-(OH)2D3 decreased calcitonin mRNA levels at 6 h, as previously reported. Hypocalcemia, created by feeding diets deficient in calcium and vitamin D to weanling rats for 3 weeks, had no effect on calcitonin mRNA levels, in contrast to the large increases in PTH mRNA levels. These results demonstrate that calcitonin gene expression in vivo in the rat is regulated by administered 1,25-(OH)2D3 but not by changes in serum calcium.
...
PMID:Regulation of calcitonin gene expression by hypocalcemia, hypercalcemia, and vitamin D in the rat. 136 Jul 44
The distribution of neurotensin-containing fibers was examined in the frontal cortex of the monkey Macaca fuscata using the immunoperoxidase histochemical technique. An extremely dense network of neurotensin-containing fibers was observed in the medial prefrontal regions. The majority of cortical neurotensin fibers was observed in the anterior cingulate cortex (
Walker
's area 24) and adjacent medial prefrontal regions (areas 6 and 32). In area 24, the fiber density was similar to that in the nucleus accumbens. Immunoreactive fibers were particularly dense in two pyramidal layers (III, V). The medial prefrontal regions, areas 6 and 32, contained a moderate density of immunoreactive fibers. This regional distribution of neurotensin-containing fibers was not observed in other cortical fiber systems that contained substance P,
somatostatin
, or tyrosine hydroxylase. No neurotensin-containing cell bodies were observed in the frontal cortex. The present study demonstrates that the laminar and regional distributions of neurotensin-containing fibers are unique when compared to those of substance P- or
somatostatin
-containing fibers, and also distinct from that of catecholaminergic fibers. The distribution of telencephalic neurotensin fibers points to a relationship with limbic structures.
...
PMID:Distribution of neurotensin-containing fibers in the frontal cortex of the macaque monkey. 169 32
Administration of a long active analogue of
somatostatin
, SMS 201-995 (2 micrograms subcutaneously twice a day) for 3 weeks after intraportal administration of
Walker
cells significantly inhibited their growth and development in the liver. This was not due to a direct cytotoxic effect of the analogue on
Walker
cells whose growth was stimulated in vitro. Furthermore, SMS 201-995 had no effect on the growth of
Walker
cells implanted into the thigh of rats suggesting that the inhibitory action of the analogue could be confined to tumour cells growing in the liver. Further studies suggested that the inhibitory effect of SMS 201-995 on the growth of
Walker
cells in the liver could be related to a marked stimulation of the hepatic reticuloendothelial system, by a reduction in portal venous flow in the early stages of treatment or by a combination of these effects. Further studies are required to delineate more precisely the mechanism whereby SMS 201-995 inhibits the growth of hepatic tumour derived from intraportal administration of
Walker
cells.
...
PMID:Effects of a somatostatin analogue (SMS 201-995) on the growth and development of hepatic tumour derived by intraportal injection of Walker cells in the rat. 238 43
We employed a test model, which we had developed for the investigation of platelet adhesiveness and aggregation in vivo. Our experiments demonstrated that
somatostatin
is not only able to dose-dependently inhibit the stickiness of i.v. injected
Walker
256 carcinosarcoma cells to the vascular endothelium of the rat mesentery and the drastic, immediate reduction of platelet count in venous blood, but also to significantly reduce the rate of instantly occurring terminal tumor cell embolism of the lung. These actions may be explained as being mediated via an inhibition of platelet adhesion and aggregation to circulating cancer cells. Because some oral antidiabetics showed a similar but weaker effect in our test system (Gastpar et al. 1982), it should be examined as to whether the in vivo inhibition of platelet adhesiveness and aggregation of the investigated compounds are mediated by a
somatostatin
release from the pancreas.
...
PMID:The inhibition of cancer cell stickiness by somatostatin. 613 10
A study has been made of the nonpyramidal, local circuit neurons in developing and mature macaque monkey prefrontal cortex with Golgi and immunocytochemical techniques. The area chosen for study is located between the cingulate gyrus and the ventral bank of the principal sulcus, and contains areas 9 and 46 as described by
Walker
(J. Comp. Neurol. 73:59-86, '40). In Golgi studies, the unique axonal features of impregnated neurons made possible the identification of thirteen separate classes of local circuit neurons. Five of these cell types, in their general characteristics, resembled classes identified in human prefrontal cortex, as well as in other cortical areas of macaque monkeys and other species. Measurements of the scale of axon arbors and dendritic fields of the Golgi-stained local circuit neurons also suggested particular spatial relationships of certain classes to the scale of intrinsic lattice connections made by the axons of pyramidal neurons in the same region. Similarities in morphology between cells described in human prefrontal cortex and neuron varieties described in this study indicate that this region of monkey prefrontal cortex may serve as a useful model for neuron populations in human prefrontal cortex. Sufficient morphological detail was present in immunocytochemical studies to suggest one or more identifying biochemical characteristics for seven of the thirteen classes of local circuit neurons. The calcium binding proteins, parvalbumin, calbindin D-28K, and calretinin, were found in chandelier and wide arbor neurons, neurogliaform cells, and double bouquet neurons, respectively. In addition, cholecystokinin immunoreactivity was present in medium arbor neurons and in narrow arbor cells connecting layers 2 and 4.
Somatostatin
28(1-12) immunoreactivity was detected in beaded axon neurons in layers 5 and 6. This biochemical characterization of local circuit neurons, although incomplete, confirms the separate identity of at least some of the varieties distinguished by Golgi morphology, and allows a start to be made on studies examining changes in their functional state. The general inhibitory nature of these interneurons suggests that they are likely to play a crucial role in determining patterns of neural activation in the prefrontal cortex.
...
PMID:Local circuit neurons of developing and mature macaque prefrontal cortex: Golgi and immunocytochemical characteristics. 767 12
A variety of cells including cardiac myocytes and neuronal cells possess inwardly rectifying K+ (Kir) channels through which currents flow more readily in the inward direction than outward. These K+ channels play pivotal roles in maintenance of the resting membrane potential, in regulation of the action potential duration, in receptor-dependent inhibition of cellular excitability, and in the secretion and absorption of K+ ions across cell membrane. Recent molecular biological dissection has shown that the DNAs encoding Kir channels constitute a new family of K+ channels whose subunits contain two putative transmembrane domains and a pore-forming region. So far, more than ten cDNAs of Kir channel subunits have been isolated and classified into four subfamilies: 1) IRK subfamily (IRK1-3/Kir1.1-1.3), 2) GIRK subfamily (GIRK1-4/Kir3.1-3.4), 3) ATP-dependent Kir subfamily (ROMK1/Kir1.1, K(AB)-2/Kir4.1), and 4) ATP-sensitive Kir subfamily (uKATP-1/Kir6.1, BIR/Kir6.2). Xenopus oocytes injected with the cRNAs of IRKs elicit classical Kir channel currents. GIRKs, as heteromultimers, compose the G protein-gated Kir (KG) channels, which are regulated by a variety of Gi/Go-coupled inhibitory neurotransmitter receptors such as m2-mus-carinic, serotonergic (5HT1A), GABAB,
somatostatin
and opioid (mu, delta, kappa) receptors. ROMK1 and KAB-2 are characterized with a
Walker
type-A ATP-binding motif in their carboxyl termini, and may be involved in K+ transport in renal epithelial and brain glial cells. uKATP-1 and BIR form with sulfonylurea receptors, the so-called ATP-sensitive K+ channels. Thus, it is a feature of the Kir channel family that each subfamily plays a specific physiological functional role. The (Na+)-activated Kir channels identified electrophysiologically in neurons and cardiac myocytes have not yet been cloned. In this review, we overviewed the current understandings of the features of the molecular structures and functions of the four main subfamilies of Kir channels.
...
PMID:Inwardly rectifying potassium channels: their molecular heterogeneity and function. 915 40
