Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been demonstrated that nerve fibres storing immunoreactivity of vasoactive intestinal polypeptide, peptide histidine iso-leucine, neuropeptide Y, substance P, calcitonin gene-related peptide, galanin, and cholecystokinin exists in the thyroid, though the content of these neuropeptides is lower in the thyroid than in other organs, like in the gut. Furthermore, the parafollicular C-cells have been shown to harbour several different peptides: calcitonin, somatostatin, calcitonin gene-related peptide, gastrin-releasing peptide, katacalcin and helodermin. In addition, other regulatory peptides like atrial natriuretic hormone, growth factors, and cytokines are also produced in the thyroid. This review summarizes today's knowledge on the effects of these peptides on thyroid hormone secretion and their possible role in thyroid physiology. So far, functional studies have failed to establish any convincing effect of substance P, calcitonin gene-related peptide, galanin and cholecystokinin on basal or TSH-stimulated thyroid hormone secretion. In contrast, vasoactive intestinal peptide has convincingly been demonstrated to stimulate thyroid hormone secretion, and neuropeptide Y to potentiate the inhibitory action of noradrenaline on TSH-induced thyroid hormone secretion. This suggests that these two neuropeptides are involved in the intrathyroidal neural regulation of thyroid function. Moreover, the C-cell peptides somatostatin, calcitonin, calcitonin gene-related peptide, and katacalcin seem to be involved as inhibitors of thyroid hormone secretion, whereas both gastrin-releasing peptide and helodermin stimulate thyroid hormone secretion. Atrial natriuretic hormone and growth factors, and cytokines seem to inhibit thyroid hormone secretion. Hence, studies undertaken so far suggest a local intrathyroidal peptidergic regulatory concept, the exact role of which remains to be established.
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PMID:Regulatory peptides in the thyroid gland--a review on their localization and function. 182 1

The effects of peptide HI (PHI), neuropeptide Y (NPY), and substance P (SP) on thyroid blood flow and hormone levels were studied in anesthetized rats. Regional blood flows were determined using radioactive microspheres. No change in heart rate or mean left ventricular pressure occurred during these neuropeptide infusions (0.625 micrograms iv over 2 min). PHI treatment resulted in a four-fold increase in thyroid blood flow. Blood flows to the pancreas and salivary gland also increased during PHI treatment. Infusions of NPY or SP did not significantly alter thyroid blood flow. However, SP decreased blood flow to the spleen and small intestine. These neuropeptides had no effect on blood flows to the adrenal, kidney, brain, heart, and adipose tissues. Following PHI, NPY, and SP infusions, plasma triiodothyronine and thyroxine levels were not different from values in saline-treated rats. This study demonstrates that PHI, like vasoactive intestinal peptide, is a potent thyroidal vasodilator at a dose that does not affect circulating thyroid hormone secretion.
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PMID:Neuropeptide control of thyroid blood flow and hormone secretion in the rat. 243 Dec 47

The distribution of neurokinin A (NKA) and galanin (GAL) in the thyroid gland of several species was examined with immunocytochemistry. NKA-immunoreactive fibers were observed around blood vessels and follicles in all species examined, whereas GAL-immunoreactive fibers were found in mice and rats only. NKA-containing fibers were more numerous than GAL-containing fibers. All thyroid NKA-containing fibers harbored substance P (SP), and the majority of them stored calcitonin gene-related peptide (CGRP) as well. Most thyroid GAL-immunoreactive fibers contained NKA, SP, and CGRP; in a minor population GAL coexisted instead with vasoactive intestinal peptide. Cervical vagotomy (extirpation of the nodose ganglion) reduced the number of NKA- and GAL-containing fibers in the thyroid by approximately 50%. The jugular ganglion and cervical dorsal root ganglia are fairly rich in GAL-, NKA/SP-, and CGRP-containing cell bodies, which presumably represent the source of GAL-, NKA/SP-, and CGRP-containing fibers in the thyroid. The thyroid ganglion is rich in vasoactive intestinal peptide nerve cell bodies, which presumably project to the thyroid gland; a minor proportion of these cell bodies was found to contain GAL as well. Although the distribution of NKA and GAL fibers in the thyroid suggests that the two peptides are involved in the regulation of local blood flow and follicular cell activity, neither NKA nor GAL had any influence on thyroid hormone release as tested in conscious mice.
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PMID:Neurokinin A and galanin in the thyroid gland: neuronal localization. 243 17

The regulatory effects of thyroid hormone on adenohypophysial substance P (SP) were studied in heterotopically implanted anterior pituitaries. Three or four anterior pituitaries from 21-day-old rat pups were implanted under the renal capsule in 175- to 200-g adult rats. The donor and recipient animals were sex matched. One week after implantation, animals were thyroidectomized or sham operated. A separate group of animals received daily T4 treatment (1.5 g/100 g, ip). After 2 weeks, the native and heterotopic pituitaries were assayed for SP, TSH, PRL, and LH. Thyroidectomy resulted in a 3- to 10-fold increase in the SP concentration in both the heterotopic and native pituitaries compared to euthyroid values. T4 treatment suppressed the SP levels in the heterotopic pituitaries of the thyroidectomized rats. In contrast to the reduction of TSH concentrations in native pituitaries in thyroidectomized animals vs. controls, TSH concentrations in the heterotopic pituitaries of thyroidectomized rats were approximately 10 times greater than those in euthyroid animals. PRL concentrations were unaffected by hypothyroidism in native and heterotopic pituitaries. Thyroidectomy resulted in a decrease in LH concentrations in the native anterior pituitary, without affecting LH concentrations in the implanted pituitary. These findings indicate that a direct link from the hypothalamus to the anterior pituitary is not required for the pituitary SP response to hypothyroidism.
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PMID:Hypothyroidism increases substance P concentrations in the heterotopic anterior pituitary. 245 52

Neuropeptide Y (NPY), a 36-amino acid member of the pancreatic polypeptide family, was found to be present by RIA and immunocytochemistry in the rat anterior pituitary gland. NPY prohormone messenger RNA (mRNA) was identified in the pituitary by Northern blot analysis. The possible regulation of NPY was examined by determining the effects of thyroid hormone manipulation on peptide synthesis. Three other anterior pituitary neuropeptides, neurotensin (NT), substance P (SP), and vasoactive intestinal peptide (VIP), were studied for comparison. Hypothyroidism was found to significantly increase the pituitary content of NPY, SP, and VIP and their respective mRNAs but to decrease the quantity of NT. Immunocytochemistry revealed very weak NPY immunoreactivity in scattered cells in control rat anterior pituitaries, but in hypothyroid rats a greater number of positive cells were seen, and the staining was relatively intense. These positive cells were identified as a subset of thyrotropes. In T4-induced hyperthyroidism NPY, NT, and VIP levels were unaffected whereas SP concentrations fell considerably. TRH treatment produced a decrease in NT and had no effect on NPY, SP, or VIP. These changes were found only in the pituitary; no net change occurred in hypothalamic peptide and mRNA levels. Since the changes in pituitary peptide and mRNA levels occurred coordinately it appears that regulation by thyroid hormone status occurs, at least in part, directly at the level of gene transcription. The changes in these 4 regulatory peptides in hypothyroidism and their known powerful effects on pituitary function suggest that they may have a significant paracrine or autocrine influence in controlling the alterations in pituitary secretion.
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PMID:Evidence for neuropeptide Y synthesis in the rat anterior pituitary and the influence of thyroid hormone status: comparison with vasoactive intestinal peptide, substance P, and neurotensin. 247 69

Substance P (SP) and substance K (SK) are mammalian tachykinin peptides derived from a single preprotachykinin-A (PPT-A) gene and are widely but selectively distributed in neural and endocrine tissues. SP is present in the rat anterior pituitary, and its content there varies with the thyroid status of the animal. The present studies were undertaken to determine whether the PPT-A gene is expressed in the anterior pituitary and if so, whether PPT-A messenger RNA (mRNA) abundance is regulated by thyroid hormone status. Male rats were surgically or chemically thyroidectomized or made hyperthyroid by thyroid hormone (T3) injection. Total RNA was isolated from individual anterior pituitaries, and PPT-A mRNA abundance was determined by dot blot procedures. In parallel groups of rats, anterior pituitaries were extracted for measurement of SP and SK by specific RIAs. Surgical or chemical thyroidectomy increased PPT-A mRNA abundance 4 to 6-fold and increased both SP and SK content in the anterior pituitary. Administration of T3 to thyroidectomized rats reversed the increase in both PPT-A mRNA abundance and SP and SK content in the adenohypophysis. T3 administration to euthyroid rats also decreased PPT-A mRNA abundance and SP and SK content in the anterior pituitary. The coordinate presence of PPT-A mRNA with SP and SK in the anterior pituitary strongly suggests that these peptides are synthesized within this gland.
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PMID:Thyroid hormone status regulates preprotachykinin-A gene expression in male rat anterior pituitary. 282 Jul 2

Angiotensin-converting enzyme, although most prominent in vascular endothelium, has been identified in numerous tissues. Recent studies have indicated that several hormones, including glucocorticoids and thyroid hormone, may affect the activity of this enzyme. In the present study, angiotensin-converting enzyme was examined in homogenates of cultured human skin fibroblasts. Angiotensin-converting enzyme activity was measured by a radiometric assay using [Glycine-1-14C] Hippuryl-L-histidyl-L-leucine (1.1 mmol/L) as substrate, and was expressed as nmol hippuric acid formed per minute/mg protein. Angiotensin-converting enzyme was identified in all five cell strains tested, and the activity observed was 0.97 +/- 0.18 nmol/min/mg protein (mean +/- SE). The optimum pH was between 6.9 and 7.6, and optimum temperature was 37 degrees C, with loss of activity of 55 degrees C and higher. Buffer strength was optimized at Tris 0.025 mol/L, and 1.0 mol/L NaCl. Activity increased linearly with protein concentration and with time, and the Km = 1.14 mmol/L. The most potent inhibitor of fibroblast ACE was captopril (SQ 14,225) with an IC50 = 10(-10) mol/L; other inhibitors included SQ 20,881, EDTA, and phenanthroline. Competitive substrates included angiotensin-I, substance P, and bradykinin. Four hormones, T3 (10(-9)-10(-7) mol/L), 1,25 (OH)2D3 (10(-8)-10(-7) mol/L), dexamethasone (10(-7)-10(-6) mol/L), and a synthetic androgen, R1881 (10(-8)-10(-7) mol/L) were incubated with cells for 72 hours. In all incubations, there was no significant effect on cellular ACE activity induced by any agent. Angiotensin-converting enzyme activity in serum free media was less than 1% of cell activity and was unaltered by hormone treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin-converting enzyme: characteristics in human skin fibroblasts. 302 Mar 42

Calcitonin gene-related peptide (CGRP) in the thyroid has a dual localization to nerve fibers around blood vessels and follicles and to parafollicular (C) cells. CGRP was found to coexist with substance P (SP) in most of the nerve fibers; a few CGRP fibers seemed to lack SP, and a few SP fibers seemed to be devoid of CGRP. In the C cells, CGRP coexisted with calcitonin (CT). Cervical vagotomy (extirpation of the nodose ganglion) eliminated approximately 50% of the CGRP/SP fibers in the thyroid without any overt influence on CGRP/CT in the C cells. Removal of the superior cervical ganglion or chemical sympathectomy (6-hydroxydopamine treatment) affected neither thyroid CGRP/SP nerve fibers nor CGRP/CT-storing C cells. CGRP nerve cell bodies were numerous in the jugular-nodose ganglionic complex (notably in the jugular portion); in many of them, CGRP coexisted with SP. A few scattered CGRP nerve cell bodies also occurred in the laryngeal ganglion, whereas none was found in the thyroid ganglion. Hypercalcemia evoked by vitamin D2 treatment, which is known to degranulate thyroid C cells, reduced the thyroid content of both CGRP and CT. As tested in mice in vivo, CGRP and SP alone or together had no effect on basal or TSH- or isoprenaline-induced thyroid hormone secretion. Vasoactive intestinal peptide-stimulated iodothyronine release, on the other hand, was enhanced by CGRP, but not by SP. SP had no effect on combined vasoactive intestinal peptide-CGRP-stimulated iodothyronine release. These findings suggest that CGRP participates in the control of thyroid hormone secretion and that, like CT, CGRP in the C cells is under control of the serum calcium level.
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PMID:Calcitonin gene-related peptide in thyroid nerve fibers and C cells: effects on thyroid hormone secretion and response to hypercalcemia. 309 6

Recent developments in thyroid hormone metabolism have helped to understand the complex events which characterize the regulation of TSH secretion. Plasma T3 concentration as well as intrapituitary T3 generation from T4, exert a profound effect on TSH synthesis and release. Pituitary Type II deiodinase differs from Type I deiodinase found in other tissue such as liver and kidney, and in fact different conditions such as hypothyroidism and hyperthyroidism affect these enzymes in opposite direction. Thyroid hormones exert other effects on the pituitary such as increased synthesis of substance P, increased synthesis of GH, and decreased TRH receptors, TRH also modifies its own receptors in the pituitary and exerts modulatory effects on TSH molecule. Patients with non thyroidal illness may display TSH molecules with decreased biological activity. Various agents used in every day praxis may alter TSH and thyroid secretion. The physician must be aware of changes in order to avoid diagnostic pitfalls.
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PMID:Pituitary-thyroid interaction: effects of thyroid hormone, non thyroidal illness and various agents on TSH secretion. 314 May 59

The effects of neonatal thyroidectomy and thyroid hormone replacement therapy on the development of catecholamine-, TRH-, and substance P-containing neurons in discrete rat brain nuclei were studied. Newborn male rats were rendered hypothyroid by the injection of 125 muCi 131I and, after 45 days, were compared with normal littermate controls and 131I-injected animals subsequently maintained on T4 injections. The peptide or catecholamine content of discrete brain nuclei removed by punches of frozen brain slices was measured by RIA or radioenzymatic assay, respectively. The success of the thyroidectomy was verified by criteria of weight, length, plasma T4, and pituitary GH content. Animals receiving T4 replacement therapy were indistinguishable from normal littermates. Substance P was measured in 32 different brain nuclei and was significantly increased in 19 of these areas in hypothyroid animals. No changes in norepinephrine were detected, and the dopamine content of all but 3 brain nuclei was increased by thyroidectomy. The TRH concentration was drastically reduced in the median eminence of hypothyroid animals and also changed in 3 other extrahypothalamic areas. All of the changes seen in catecholamine, TRH, and substance P distribution in hypothyroid animals were completely reversed by T4 replacement therapy. These results demonstrate changes in brain peptide neurotransmitters during the hypothyroid state and open new vistas for comprehension of biochemical mechanisms underlying central nervous system malfunction.
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PMID:Effect of neonatal thyroid deficiency on the catecholamine, substance P, and thyrotropin-releasing hormone contents of discrete rat brain nuclei. 616 45


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