UNIPROT:P01275 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Various preparations of glucagon treated with chloramine-T under different conditions have been studied with respect to their immunoreactivity toward two different glucagon antisera; one specific for pancreatic glucagon and the other capable of reacting with enteroglucagon as well. The glucagon preparations exposed to chloramine-T for different periods reacted almost identically with the nonspecific antibody whether they were used as tracer or standard. On the contrary, treatment with chloramine-T under severe conditions led to reduced immunoreactivity toward the specific antibody. Inclusion of dimethyl sulfoxide (DMSO) in the chloramine-T reaction resulted in preservation of the immunoreactivity of the treated preparations. The cyanogen bromide cleaved-glucagon, (1-26) homoserine lactone, showed little cross-reactivity with the specific antibody whereas it reacted to a similar extent with the nonspecific antibody as natural glucagon did. Amino acid analysis of the hormone exposed to chloramine-T demonstrated that the methionine residue at position 27 in the glucagon molecule had been oxidized to methionine sulfoxide. In addition, tryptophan had also been affected. DMSO protected methionine and tryptophan from the oxidative action of chloramine-T. We postulate from these results that the change in the immunoreactivity toward the specific antibody of glucagon exposed to chloramine-T is mainly due to oxidation of the methionine residue at position 27 in the molecule. The usefulness of DMSO in the iodination process is also discussed.
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PMID:Effect of an exposure to chloramine-T on the immunoreactivity of glucagon. 116 32

The octapeptide Lys-Arg-Asn-Lys-Asn-Asn-Ile-Ala (Arg4 in the human sequence) is the C-terminal part of porcine oxyntomodulin, an endogeneous peptide which is a potent inhibitor of stimulated acid secretion. This octapeptide exhibits the whole range of biological activities of the parent hormone. In the present work we report an 1H n.m.r. investigation of the conformational properties of the octapeptides of pig and human sequences in dimethylsulfoxide-d6 (DMSO) solution. The various resonances were assigned on the basis of two-dimensional COSY and NOESY experiments. Other experiments such as (i) temperature and concentration dependence of the amide proton chemical shifts, (ii) effects of ionic strength, (iii) comparison of the spectra with different analogues, were performed. We showed that in DMSO, the conformation of the octapeptide is directly related to the ionisation state of the C-terminus carboxyl group of alanine. In carboxylic state, the peptide adopts an extended conformation, while in the carboxylate state the four last residues (Asn-Asn-Ile-Ala) are involved in a type II beta-turn structure probably locked by a salt bridge between the carboxyl group of Ala8 and the epsilon ammonium group of Lys4 (or the guanidinium group of Arg4). These observations provide an insight into the possible conformational tendencies of this peptide in biological media.
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PMID:1H n.m.r. conformational studies on the C-terminal octapeptide of oxyntomodulin, a beta-turn locked by a salt bridge. 259 65

In an attempt to assess pancreatic glucagon's efficacy at repeatedly reducing food ingestion during differing circadian periods, three groups of 8 rats each were randomly assigned to 4-hr food deprivations beginning at 0800, 1200 or 1600 with light off at 2000. Subjects were then refed following injections of pancreatic glucagon (400 micrograms/kg b.wt. dissolved in DMSO) or vehicle alone every third day (no injection on intervening day). Food intake was measured at 1 and 20 hr following each injection. Following 3 cycles of the above procedure, each animal was again food deprived at the appropriate time, stunned and sacrificed by decapitation. The liver was sampled and glycogen determinations were made. Glucagon suppressed food intake when injected at 1200 (49.6%) and at 1600 (43.1%) but not when given at 2000 (-2.2%). Glycogen content measured after similar deprivation ending at these times was 5.6, 3.9 and 2.0%, respectively. With repeated glucagon injections, the hormone lost its ability to reduce food intake. In a second study, designed to evaluate the role of insulin in glucagon's action, three groups of 6 rats each were given atropine plus glucagon or glucagon or atropine injections alone; food ingestion was then measured one hr later. Atropine alone somewhat decreased eating, however, in combination with glucagon (given 10 min following atropine), no significant decrements in ingestion were achieved. Glucagon injected after saline produced a significant reduction in food intake (62.5%). Since glucagon stimulates insulin release and hyperglycemia; perhaps insulin release is necessary for glucagon's satiety effect.
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PMID:Glucagon, satiety from feeding and liver/pancreatic interactions. 377 54

The present study was undertaken to define the conditions for optimal cryopreservation of hepatocytes. Two different freezing procedures were analyzed: a slow freezing rate (SFR) (-2 degrees C/min down to -30 degrees C and then quick freezing to -196 degrees C) and a fast freezing rate (FFR) (direct freezing of tubes to -196 degrees C: -39 degrees C/min). Cells were frozen in fetal bovine serum containing 10% Dimethyl sulfoxide (DMSO). After rapid thawing at 37 degrees C, followed by dilution and removal of the cryoprotectant, cells were plated and several parameters were followed as criteria for optimal cryopreservation of cells. The FFR cells showed no apparent ultrastructural damage after 24 h of culture. Plating efficiency and spreading were similar as controls. Gluconeogenesis from pyruvate and fructose, tyrosine amino transferase induction by glucagon and dexamethasone, urea production, and plasma protein synthesis of FFR cells were similar to those found in control cultures. The FFR procedure, in comparison to the SFR method, seemed to render the best preserved hepatocytes.
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PMID:Biochemical functionality and recovery of hepatocytes after deep freezing storage. 615 44

The actions of dimethyl sulfoxide (DMSO), acetone and two other aprotic solvents on the activity of rat hepatic adenylate cyclase were studied in order to detect their possible effects on both hormonal and nonhormonal enzyme stimulation. The glucagon- or guanylylimidodiphosphate [Gpp(NH)p]-stimulated activity was significantly increased by all DMSO concentrations (0.08--2.57 M) while the highest concentrations of this solvent decreased the enzyme activity stimulated by sodium fluoride. The effect of DMSO on adneylate cyclase activity is reversible and the stimulatory effect of this drug can be seen even on adenylate cyclase activity in the persistent active state induced by preincubation of the enzyme with Gpp(NH)p. An increase in adenylate cyclase activity stimulated by glucagon or Gpp(NH)p was also seen after the addition of other aprotic solvents (acetone, acetonitrile and dimethylformamide) to the assay system. These effects of aprotic solvents on the rat hepatic adenylate cyclase activity may be caused by an increase of membrane fluidity and facilitated movement of the adenylate cyclase subunits in the plane of the cell membrane.
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PMID:Effects of dimethyl sulfoxide and other dipolar aprotic solvents on rat hepatic adenylate cyclase. Potentiating effects on glucagon and guanylylimidodiphosphate stimulation. 737 94

We have previously described the use of a chemically defined medium (CDM) supplemented with epidermal growth factor (EGF) and dimethylsulfoxide (DMSO) to maintain long-term cultures of rat hepatocytes in a highly differentiated state. In this study, conditions necessary to stimulate high levels of DNA synthesis in hepatocytes in long-term DMSO culture were defined. Hepatocytes were maintained in culture for 20 days in CDM containing DMSO and EGF, insulin, and glucagon. EGF, insulin, and glucagon were then removed for 7 days. Readdition of EGF, insulin, and glucagon at day 27 (shiftup) was accompanied by a three- to sixfold increase in labeling index. If DMSO or dexamethasone (dex) + DMSO were removed at time of shiftup, the labeling index increased by 18- to 54-fold. TGF beta inhibited DNA synthesis stimulated by EGF shiftup, TGF alpha shiftup, or EGF shiftup in combination with removal of dex + DMSO. Stimulation of DNA synthesis was accompanied by a specific, sequential induction of protooncogene mRNA levels; c-fos mRNA was induced 23-fold at 0.5 h after readdition of EGF; c-myc mRNA was induced three- to four-fold by 0.5 h; TGF alpha mRNA was induced sevenfold by 8 h; K-ras mRNA was induced fourfold by 26 h. Changes in protooncogene expression paralleled changes seen in regenerating liver. When DMSO was removed for greater than 48 h, the cells flattened and spread out, chords of cells were no longer well defined, albumin mRNA levels decreased, and fibronectin, beta 1 integrin, and TGF beta transcripts increased.
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PMID:Stimulation of DNA synthesis and protooncogene expression in primary rat hepatocytes in long-term DMSO culture. 843 3

Although we recently reported our success in inducing and maintaining the gap junction proteins connexin 26 (Cx26) and connexin 32 (Cx32) in adult rat hepatocytes cultured in serum-free L-15 medium supplemented with epidermal growth factor, dimethylsulfoxide (DMSO) and glucagon, the mechanisms by which DMSO induces gap junctions are still not clear. It is known that DMSO is not only a differentiation reagent for various cells but also a powerful scavenger of oxygen radicals. In the present study, by using this culture system and the measurement of oxidative stress by the nitro blue tetrazolium (NBT) formazan assay, we have examined the effect of oxygen radical scavengers such as DMSO, dimethylthiourea (DMTU) and alpha-tocopherol on the expression of both Cxs and on gap junctional intercellular communication (GJIC), as compared to another differentiation reagent, hexamethylene-bis-acetamide (HMBA). DMSO and DMTU clearly inhibited the oxidative stress of the cultured hepatocytes, while alpha-tocopherol and HMBA did not. The expression of Cx26 and Cx32 in the cultured hepatocytes was markedly induced by DMSO and DMTU. Furthermore, extensive GJIC was also observed with DMSO and DMTU. These results suggest that the expression of gap junctions in the hepatocytes may be closely related to oxidative stress and that oxygen radical scavengers may be important substances in inducing this expression.
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PMID:Effects of oxygen radical scavengers on connexins 32 and 26 expression in primary cultures of adult rat hepatocytes. 863 Nov 41

Expression of tryptophan 2,3-dioxygenase (TO) and serine dehydratase (SDH) has not previously been maintained or re-induced in long-term cultured hepatocytes. In the present study, we succeeded in inducing expression of TO and SDH mRNAs in adult rat hepatocytes cultured in serum-free L-15 medium supplemented with epidermal growth factor and 2% dimethyl sulfoxide (DMSO). After the start of culture, the expression of TO mRNA rapidly disappeared and at 96 h it was less than 10% of that at isolation. However, after the addition of 2% DMSO from 96 h, the transcript level gradually increased and reached about 40% of that of the isolated cells at day 14. In addition, the expression of TO mRNA was enhanced in cells treated with both 10(-5) M dexamethasone and 10(-7) M glucagon. In contrast, the expression of SDH mRNA decreased very rapidly and we could not detect it after 24 h of culture. Furthermore, 2% DMSO failed to induce it. However, when both 10(-5) M dexamethasone and 10(-7) M glucagon were added to the culture medium at day 9, we observed dramatic induction of SDH mRNA 24 h later. Primary hepatocytes cultured by this method could express and maintain highly differentiated hepatic functions for a long time. Thus, this in vitro system is suitable for the investigation of hepatic functions.
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PMID:Recovery of mRNA expression of tryptophan 2,3-dioxygenase and serine dehydratase in long-term cultures of primary rat hepatocytes. 890 14

Actin filament organization may play an important role in the maintenance of differentiated functions in epithelial cells. We previously reported our success in inducing and maintaining gap junctions, which are two kinds of differentiated function, in primary rat hepatocytes cultured with 2% DMSO and 10-7 M glucagon. In the present study, we demonstrated the formation of actin filament networks in the hepatocytes cultured with 2% DMSO and 10-7 M glucagon. Actin filaments in hepatocytes cultured in medium with only 2% DMSO added from 96 h after plating were concentrated under the plasma membrane and were observed to be circumferential. In hepatocytes cultured in the medium with both 2% DMSO and 10-7 M glucagon added from 96 h, not only the circumferential actin filaments but also the formation of actin filament networks were observed and the networks developed well with time in culture. The networks were observed as a dome-like structure under the cell face and terminated at the circumferential actin filaments. They were composed of electron-dense star-like vertices connected by microfilament bundles of varying length and were also very sensitive to the actin disruptor cytochalasin B. However, during the network formation, there were no significant increases in the amounts of actin protein and mRNA. The actin filament networks of the hepatocytes in this culture system might be closely related to the maintenance of differentiated functions.
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PMID:Formation of actin filament networks in cultured rat hepatocytes treated with DMSO and glucagon. 919 52

In the present study, we determined in detail the changes of liver gap junctions, connexin 26 (Cx26), and connexin 32 (Cx32), during DNA synthesis and redifferentiation of hepatocytes in vitro. We used primary rat hepatocytes that expressed the liver gap junction proteins, which were cultured in the medium containing epidermal growth factor (EGF) with 2% dimethylsulfoxide (DMSO) and 10(-7) mol/L glucagon (a DMSO culture system), as we previously reported. In the present cultures, almost confluent hepatocytes cultured in the medium containing EGF with 2% DMSO and 10(-7) mol/L glucagon, underwent a nearly synchronous wave of DNA synthesis induced by the removal of 2% DMSO and 10(-7) mol/L glucagon, and the addition of 10 mmol/L nicotinamide, after which the DNA synthesis was completely re-inhibited by the re-addition of 2% DMSO and 10(-7) mol/L glucagon. During stimulation of DNA synthesis, both Cx26 and Cx32 messenger RNA (mRNAs) in hepatocytes transiently increased in the G1 phase and then markedly decreased before the onset of the S phase, while only Cx26 messenger RNA (mRNA) increased slightly in the S/M phase. Furthermore, before the onset of the S phase, a disappearance of both Cx26 and Cx32 immunoreactivities and gap junction plaques were observed. Gap junctional intercellular communication (GJIC), as measured by lucifer yellow, which indicated the function of Cx32, decreased markedly from before the onset of the S phase. GJIC measured by propidium iodide, which indicated the function of Cx26, decreased from before the onset of the S phase and then increased slightly in the S/M phase. During the re-inhibition after the stimulation of DNA synthesis, Cx32 mRNA, but not Cx26 mRNA, rapidly returned to the pretreatment control level. Cx32 immunoreactivity and gap junction plaques also recovered. However, the recovery of GJIC measured by lucifer yellow was later than that of Cx32 expression. These results indicated the different changes of expression and function of Cx26 and Cx32 in the hepatocytes during stimulation and re-inhibition of DNA synthesis. This culture system should be useful as a model in which to study liver gap junctions during hepatocyte growth and differentiation in vitro.
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PMID:Different changes in expression and function of connexin 26 and connexin 32 during DNA synthesis and redifferentiation in primary rat hepatocytes using a DMSO culture system. 930 87

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