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Enzyme
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Target Concepts:
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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Metformin (1,1-dimethylbiguanide; MET) is used in the treatment of type 2 diabetes mellitus. MET's antihyperglycemic action depends at least in part on its inhibitory effect on hepatic gluconeogenesis. As to gluconeogenesis from amino acids (e.g. L-alanine), this is associated with an inhibition of L-alanine uptake into hepatocytes. Since this uptake is mediated by an electrogenic transport mechanism, the aim of the present study was to investigate whether MET has an influence on the liver cell membrane potential which might explain its inhibitory effect on L-alanine uptake. The experiments were performed in vivo in anesthetized rats and in vitro using superfused mouse liver slices with the conventional microelectrode technique. In vivo, MET (160 mg/kg intraperitoneally (i.p.)) significantly depolarized (dV) the liver cell membrane by 6 mV. MET (1 mmol/l) also depolarized the liver cell membrane in vitro (e.g. 15 min after start of superfusion: dV=8 mV). MET's effect was at least partly reversible.
Glucagon
(10(-7) mol/l), which hyperpolarized the liver cell membrane, abolished MET's effect. Further, the MET-induced depolarization was completely absent during superfusion with low Cl(-) ([Cl(-)]=27 mmol/l) medium, and significantly attenuated by the Cl(-) channel blocker NPPB (25 micromol/l). While MET's effect was only somewhat attenuated by blockade of the Na(+)/K(+)/2Cl(-) cotransporter or by superfusion with (HCO(-)(3)-free)
HEPES
buffer, the carboanhydrase blocker acetazolamide (1 mmol/l) or blockade of the HCO(-)(3)/Cl(-) exchanger by DIDS (100 micromol/l), which, however, also blocks Cl(-) channels, abolished its effect. The depolarization of the liver cell membrane by MET was unaffected by a blockade of K(+) channels with Ba(2+), a blockade of the Na(+)/K(+) pump or superfusion with low Na(+) medium ([Na(+)]=26 mmol/l). According to these results, the MET-induced depolarization of the liver cell membrane could be due to an activation of the Cl(-)/HCO(-)(3) exchanger and thus depend on intracellular HCO(-)(3) formation. This activation could then lead to a disturbance of the equilibrium between intra- and extracellular Cl(-) and therefore to an enhanced Cl(-) efflux via Cl(-) channels. It is plausible that the depolarizing effect induced by MET is associated with its inhibitory effect on gluconeogenesis by inhibiting uptake of L-alanine and other amino acids into hepatocytes.
...
PMID:Depolarization of the liver cell membrane by metformin. 1147 89
The expression of the Na+-K+-2Cl- cotransporter (NKCC1) in alpha cells and beta cells from the rat pancreas was examined. Isolated alpha cells and beta cells in a mixed islet cell preparation were identified by volume using video-imaging methods, and by the expression of
glucagon
or insulin. The expression of mRNA for NKCC1 in pancreatic islets was demonstrated by RT-PCR. Immunocytochemical studies showed that the NKCCI protein was expressed in rat beta cells, but not alpha cells. The activity of Na+-K+-2Cl- cotransporter was also examined, by studying cell volume regulation in response to
HEPES
-buffered, hypertonic solutions. A regulatory volume increase was observed in the beta cells but not the alpha cells. It is concluded that the NKCC1 is expressed in rat pancreatic beta cells but not alpha cells. This is consistent with the hypothesis that Cl- is accumulated above the expected equilibrium distribution in beta cells, but is below equilibrium in alpha cells.
...
PMID:Expression of the Na+K+-2CI- cotransporter in alpha and beta cells isolated from the rat pancreas. 1151 Aug 90
Secretin, a 27-amino acid neuropeptide, is a member of the secretin/
glucagon
/vasoactive intestinal polypeptide (VIP) superfamily of amphipathic peptides. The peptide modulates gastrointestinal and neuronal function and is currently being evaluated for the treatment of autism. However, as most peptides, it has a short circulation half-life. Previously, we have shown that VIP self-assembles in aqueous environment and interacts with a biomimetic phospholipid membrane. These in vitro characteristics increase VIP half-life and bioactivity in vivo. The purpose of this study was to investigate whether secretin exhibits similar properties in vitro by forming micelles in aqueous solution and interacting with phospholipids. Results of this study demonstrated that secretin self-assembles to form micelles in
HEPES
buffer at 25 degrees C above approximately 0.4 microM. Additionally, secretin interacts with a biomimetic phospholipid membrane as indicated from a significant increase in membrane surface pressure (from 25.5 +/- 1.3 to 32.5 +/- 3.0, P < 0.05). Importantly, the peptide undergoes conformational transition from predominantly random coil in saline to alpha-helix in the presence of phospholipid, distearoyl-phosphatidylcholine-poly(ethylene) glycol (mol mass 2000) micelles. We suggest that these distinct biophysical attributes could modulate secretin bioactivity in vivo.
...
PMID:Secretin self-assembles and interacts spontaneously with phospholipids in vitro. 1181 35
In vitro proliferation of isolated pancreatic islets has become an area of great interest given the scarcity of clinical islet donors and the islet mass requirements for clinical islet transplantation. Small intestinal submucosa (SIS), a naturally occurring extracellular matrix, has been investigated to promote wound healing, tissue remodeling and cell growth. This study evaluated recovery and function of isolated canine pancreatic islets following in vitro tissue culture. Pancreatic islets were isolated from mongrel dogs using standard surgical procurement followed by intraductal collagenase distension, mechanical dissociation and EuroFicoll purification. Groups of purified islets were cultured in a humidified atmosphere of 95% air and 5% CO(2) for 48 hours in standard islet culture conditions of CMRL 1066 tissue culture media (Gibco) which had been supplemented with 25microM
HEPES
, penicillin/streptomycin and either 10% heat inactivated fetal calf serum (FCS, Gibco) or solubilized SIS solution (Cook Biotech, Inc., West Lafayette, IN). The mean recovery of islets following the culture period was determined by sizing duplicate counts of a known volume and viability was assessed by static incubation with low glucose (2.8 mM), high glucose (20 mM) and high glucose solution supplemented with 50 microm IBMX solution. Remaining islets were embedded histologically. From a consecutive series of six culture experiments, a significantly higher (p < 0.05) recovery of islets co-cultured with SIS was observed when compared to controls. Mean islet recovery was 84.5 +/- 2.9% (mean +/- SEM) from the SIS cultured group compared with 64.7 +/- 4.5% from the control group cultured in FCS (p < 0.05, n=6). Islets from the SIS treated group exhibited a significantly higher (p <, 0.05) insulin response to the high glucose stimulus than islets cultured in the standard FCS cultured solution. The calculated stimulation index was 12.3 +/- 3.4 for the SIS-treated group compared with 5.6 +/- 1.8 for the standard cultured group (p < 0.05). The overall mean numbers of islets recovered following in vitro culture was also higher in the SIS-treated group. The proportion of islets with a mean diameter >150 microm increased from 24% to 31% in the SIS-treated group, whereas the same proportion decreased to 18% from 22% in the control (FCS-treated) group. Histological evaluation of fixed tissue samples collected following the culture period identified insulin and
glucagon
-secreting cells in the SIS and FCS treated groups, however a higher frequency of insulin positive cells were detected consistently in the SIS treated group. A proliferation marker (PCNA) identified positive cells within both groups as well. This study suggests that co-culture of freshly isolated canine islets in medium supplemented with solubilized SIS can improve the post-culture recovery and in vitro islet function. Future investigations will focus on the cellular interactions of SIS, both in vitro and in vivo.
...
PMID:Improved islet survival and in vitro function using solubilized small intestinal submucosa. 1525 4
