EC:1.11.1.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucagon, insulin, somatostatin, and pancreatic polypeptide have been localized in the anolian pancreas using peroxidase-antiperoxidase immunocytochemistry. The most abundant endocrine cell type contains glucagon. Insulin-containing cells are the next most numerous. Somatostatin-immunoreactive cells tend to be localized at the periphery of the islet cords. Pancreatic polypeptide-containing cells are a minor endocrine component scattered throughout the exocrine pancreas and occasionally within the islet areas. No staining was observed after application of antigastrin serum.
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PMID:Localization of four polypeptide hormones in the saurian pancreas. 34 17

Glucagon was iodinated with the lactoperoxidase method at pH 10.0 in the presence of propylene glycol using a substitution of 0.3 g-atom I/mol glucagon. Under these conditions the reactivity of the iodine to tyrosine at position 13 is found to be 4-fold that of the tyrosine at position 10. The amount of diiodotyrosine was less than one-twentieth that of the monoiodotyrosine at either tyrosine residue. Relatively pure monoiodo[125I]tyrosine-13-glucagon can be separated from other iodoglucagons by means of DEAE-chromatography. Such a homogeneous preparation with a known position of the iodine makes it possible to study a specific interaction between the monoiodoglucagon and the glucagon antisera or the glucagon receptor.
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PMID:Preparation of monoiodotyrosine-13-glucagon. 85 7

Twenty medullary carcinomas of the thyroid gland were examined for the presence of immunoreactive calcitonin, thyroglobulin, glucagon, keratin, gastrin/CCK, carcinoembryonic antibody (CEA), insulin, serotonin, adreno-corticotropic hormone (ACTH), prostatic acid phosphatase, and somatostatin using the immunoperoxidase peroxidase-antiperoxidase technique. In addition, they were stained with mucicarmine, alcian blue/periodic acid-Schiff (PAS), Grimelius, Congo red, crystal violet, and Fontana-Masson stains. Calcitonin-immunoreactive cells were absent in one tumor and present in 19 tumors (95%). Thyroglobulin was present in seven tumors (35%). Twenty tumors contained CEA-immunoreactive cells (100%). Fourteen cases were immunoreactive to serotonin (70%) and 12 were positive for somatostatin (60%). Glucagon- and gastrin/CCK-immunoreactive cells were found in two cases each (10%). Four tumors (20%) contained ACTH-immunoreactive cells and three cases (15%) were positive for prostatic acid phosphatase. Five cases (25%) contained keratin-immunoreactive cells. One case was immunoreactive to insulin (5%). Grimelius-positive cells were present in 19 of the cases (95%). Mucin-containing cells were present in 65% of the cases. The validity of the immunocytochemical localizations was tested by specific absorption of each antibody with the corresponding antigen. The demonstration of immunoreactivity for multiple antigens in each of the 20 cases suggests that the origin of medullary thyroid carcinomas is from a neuroendocrine cell potentially capable of producing numerous hormone substances. In addition, as the neoplastic cells in 35% of the tumors contained hormonal substances as well as thyroglobulin, it is suggested that papillary or follicular tumors mixed with a neuroendocrine component exist more commonly than previously suspected. Finally, psammoma bodies might be present in pure medullary carcinoma of the thyroid gland.
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PMID:Medullary carcinoma of the thyroid gland. Clinical, pathological, and immunohistochemical features with review of the literature. 241 97

The cochleae of juvenile guinea pigs were investigated for the presence of several neuropeptides. Glucagon, insulin, CCK and beta-endorphin immunoreactive neurons and nerve fibers as well as hair cells were demonstrated by the peroxidase antiperoxidase technique. Small amounts of substance P were also found in different sites in the inner ear. In contrast, prolactin-like material could not be found at all. These findings have significance with regard to the putative role of neuropeptides in neuromodulation.
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PMID:Immunocytochemical detection of peptides in the guinea pig cochlea. 242 64

Four endocrine cell types were identified using peroxidase-antiperoxidase (PAP) technique and ultrastructurally characterized in the pancreas of Mauremys caspica in both winter and summer. In winter, insulin-immunoreactive cells were more abundant and the cell groups larger in the splenic than in the duodenal region, whereas in summer, medium or small cell groups were evenly distributed. Glucagon- and somatostatin-immunoreactive cells were found throughout the gland; they were more numerous in the splenic than in the duodenal region. Polypeptide pancreatic (PP)-immunoreactive cells were found only in the duodenal region. Somatostatin-immunoreactive cells were mainly isolated in winter and grouped in summer. Glucagon- and PP-immunoreactive cells had a similar arrangement in both seasons. Somatostatin- and PP-containing cells showed cytoplasmic processes and could be found next to the pancreatic ducts; the latter were also observed near insulin-immunoreactive cells. Some large secretory granules and numerous, isolated and long rough endoplasmic reticulum (RER) cisternae were seen in winter B cells; in summer B cells numerous lysosomes and few, dilated RER cisternae were found. Summer A cells showed well-developed, dilated RER cisternae and numerous vacuoles; secretory granules were more numerous in winter A cells. In winter B cells and summer A cells some nuclear filamentous inclusions were observed. Few RER cisternae were observed in winter D cells and many in summer D cells; secretory granules were found, the shape and electron density of which differed with the season. PP cells were characterized by their small secretory granules, which were less numerous in winter than in summer, being clustered at the cell pole or dispersed in the cytoplasm, respectively; in winter, the well-developed RER cisternae were dilated and irregularly distributed.
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PMID:Comparative study on the endocrine cells in the pancreas of Mauremys caspica (chelonia) in summer and winter. 267 1

Four major pancreatic hormones were immunolocalized at the light and electron microscopic levels in the pancreas of the Nile crocodile, Crocodilus niloticus. Immunogold was used for electron microscopy, and peroxidase-antiperoxidase was used for light microscopy. Somatostatin-positive D-cells and pancreatic polypeptide-containing F-cells accounted for about 60% of the immunoreactive cells in the ventral pancreas. Glucagon-positive A-cells were the least frequent cell type in the ventral pancreas, about 15%, but were the predominant cell type, about 40%, in the pancreas that was dorsal in character. An expanded population of D-cells (relative to mammals and other higher vertebrates) in association with two very different numbers of A-cells can be expected to have important consequences for the homotropic control of secretory activity of the endocrine pancreas as well as for the function of the acinar pancreas. F-cells were absent from the dorsal part of the pancreas, whereas insulin-containing B-cells were slightly more abundant in this portion of the pancreas. The regional character of the endocrine pancreas was related to the complex looping of the proximal small intestine. Without immunolabeling, only B-granules were morphognomonic in electron micrographs. The insulin-reactive B-granules were the smallest (370 nm) of the secretory granules and were followed in size by somatostatin-positive D-granules (380 nm). The pancreatic polypeptide-containing secretory granules were the largest (580 nm). Glucagon-reactive A-granules (430 nm) sometimes exhibited a protuberance or extension of secretory granule matrix and limiting membrane. Such a morphological feature has previously been associated with secretion of glucagon and the initiation of insulin secretion. Taken together these studies indicate that protuberances have a significant, but as yet undefined, role in pancreatic endocrine cells.
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PMID:Quantitative immunocytochemical analysis of the endocrine pancreas of the Nile crocodile. 355 58

Cells reactive to anti-anglerfish insulin, anti-porcine glucagon, anti-synthetic somatostatin, and anti-bovine pancreatic polypeptide were identified in adult Rana pipiens male pancreases using peroxidase anti-peroxidase immunohistochemistry. Insulin positive cells are columnar shaped and arranged in cords. Glucagon positive and somatostatin positive cells are located around the core of insulin positive cells. Isolated cells and clusters of cells of only one cell type are also found. Adjacent sections stained with anti-glucagon and anti-bovine pancreatic polypeptide showed that glucagon positivity and pancreatic polypeptide positivity are found in the same cells. Comparison of double stained adjacent sections confirmed the presence of these two antigens in the same cells, and further showed the occasional presence of cells which are positive to only glucagon or pancreatic polypeptide. Staining of rat pancreas with these two antisera showed that glucagon and pancreatic polypeptide are present in two distinct cell populations. Morphometric quantitation of immunohistochemically stained sections of Rana pipiens pancreases showed that about 2% of the pancreas is endocrine tissue. Of this, 43% is comprised of insulin positive cells, and 43% is occupied by glucagon-pancreatic polypeptide positive cells. Somatostatin positive cell occupy about 14% of the total islet volume. The presence of glucagon and pancreatic polypeptide in the same cell population in the frog, but in different cell populations in mammals, may reflect special functional adaptation in this species, or a close relation of these two hormones and their cells of production during evolution.
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PMID:Distribution and morphometric quantitation of pancreatic endocrine cell types in the frog, Rana pipiens. 610 38

Paired indirect immunoenzyme staining based on primary antisera from the same species was performed sequentially without intermediate antibody elution. The first antigen was labelled brown by an immunoperoxidase procedure (either the two-stage indirect method, the unlabelled antibody peroxidase-antiperoxidase method, or the avidin-biotin bridge method using diaminobenzidine (DAB) and hydrogen peroxide as the substrates. The second antigen was labelled blue by applying a two-stage indirect immuno-alkaline phosphatase procedure using naphthol AS phosphate and Fast Blue BB salt as the substrate. In this way, polyclonal mucosal immunocytes were revealed in distinctly contrasting colours when stained for kappa and lambda light chains. Glucagon and somatostatin (D) cells in human pancreatic islets, and gastrin and D cells in human gastric antral glands, were likewise clearly differentiated. Conversely, a mixed colour appeared in some immunocytes after staining for alpha and kappa chains. However, unbalanced colour mixing was sometimes difficult to interpret, and additional experiments demonstrated that unwanted interactions could take place between the two sequences of reagents if the density of the DAB deposits was insufficient. These pitfalls were incompatible with unequivocal double staining in the same cell. Nevertheless, paired staining could be conveniently applied with the described procedures when prior knowledge had established that the antigens in question were located in separate cells.
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PMID:Paired indirect immunoenzyme staining with primary antibodies from the same species. Application of horseradish peroxidase and alkaline phosphatase as sequential labels. 620 74

Glucagon-like peptides in the central nervous system (CNS) of man with the immunofluorescence and the peroxidase-antiperoxidase method were studied. It has been found that there are immunoreactive glucagon cells present in the hypothalamus hippocampus, amygdaloid nuclei cerebral cortex, and medulla oblongata region. The findings confirm earlier investigations from this laboratory performed along this line.
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PMID:Glucagon-like peptides in the CNS of man: localization and possible functional importance. 654 47

The synthesis of the heterobifunctional cross-linking reagent 2-nitro-4-azidophenylsulfenyl chloride (NAPSCl) is described. This reagent can be used to specifically attach a photoactivatable nitrophenyl azide to tryptophan-containing polypeptides and proteins lacking sulfhydryl groups. The sulfenyl chloride group of NAPSCl reacts with the indole ring of tryptophan following second-order reaction kinetics in 50-100% acetic acid. The labeled product can be effectively photolyzed at wavelengths above 300 nm. The reaction of glucagon, a peptide hormone containing a single tryptophan residue at position 25 and no cysteine, with NAPSCl gave one major product, the photosensitive derivative glucagon-NAPS. The structure and properties of the purified derivative were established by amino acid analysis, absorption spectroscopy, and photolysis. Only the tryptophan residue of this derivative was modified. The photosensitive glucagon was shown to activate the adenylate cyclase of hepatocyte plasma membranes to the same extent as the native hormone at equimolar concentrations. Glucagon-NAPS could be radiolabeled by the lactoperoxidase-catalyzed iodination of the peptide. A glucagon-specific antibody bound both radiolabeled glucagon and glucagon-NAPS peptides. The covalent labeling of protein molecules with radiolabeled glucagon-NAPS peptide upon photolysis was demonstrated. Glucagon-NAPS can be used as an effective photoaffinity probe for labeling the glucagon receptor site in plasma membranes of target cells.
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PMID:Synthesis and characterization of a heterobifunctional photoaffinity reagent for modification of tryptophan residues and its application to the preparation of a photoreactive glucagon derivative. 742 13

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