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Digitale Medien

Copper addition prevents the inhibitory effects of interleukin 1-β on rat pancreatic islets (1995)

Vinci, C. ; Caltabiano, V. ; Santoro, A. M. ; [weitere]

Springer

Diabetologia 38 (1995), S. 39-45

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ISSN: 1432-0428

Schlagwort(e): Copper ; interleukin-1β ; islets ; insulin secretion ; glucose metabolism ; nitric oxide

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Since copper [Cu(II)] is a necessary cofactor for both intra-mitochondrial enzymes involved in energy production and hydroxyl scavenger enzymes, two hypothesised mechanisms for action of interleukin-Iβ (IL-1β), we studied whether CU(II) addition could prevent the inhibitory effect of IL-1β on insulin release and glucose oxidation in rat pancreatic islets. Islets were incubated with or without 50 U/ml IL-1β, in the presence or absence of various concentrations of Cu(II)-GHL (Cu(II) complexed with glycyl-l-histidyl-l-lysine, a tripeptide known to enhance copper uptake into cultured cells). CuSO4 (1–1000 ng/ml) was used as a control for Cu(II) effect when present as an inorganic salt. At the end of the incubation period, insulin secretion was evaluated in the presence of either 2.8 mmol/l (basal insulin secretion) or 16.7 mmol/l glucose (glucose-induced release). In control islets basal insulin secretion was 92.0±11.4 pg · islet−1 h−1 (mean ± SEM,n=7) and glucose-induced release was 2824.0±249.0 pg · islet−1 h−1. In islets pre-exposed to 50 U/ml IL-1β, basal insulin release was not significantly affected but glucose-induced insulin release was greatly reduced (841.2±76.9,n=7,p〈0.005). In islets incubated with IL-1β and Cu-GHL (0.4 μmol/l, maximal effect) basal secretion was 119.0±13.1 pg · islet−1 h−1 and glucose-induced release was 2797.2±242.2, (n=7,p〈0.01 in respect to islets exposed to IL-1β alone). In contrast to data obtained with Cu(II)-GHL, increasing concentrations of CuSO4 (up to 10 μmol/l) did not influence the inhibitory effect of IL-1β on glucose-stimulated insulin release. Glucose oxidation (in the presence of 16.7 mmol/l glucose) was 31.5±2.4 pmol · islet−1·90min−1 in control islets and 7.0±0.9 (p〈0.01) in IL-1β-exposed islets. In islets exposed to IL-1β and Cu-GHL glucose oxidation was similar to control islets (31.9±1.9). In contrast, Cu-GHL did not prevent the IL-1β-induced increase in nitric oxide production. Nitrite levels were 5±1.7, 26±5 and to 29±4 pmol · islet−1·48 h−1 (mean ± SEM,n=5) in the culture medium from control IL-1β and IL-1β+Cu-GHL exposed islets, respectively. These data indicate that the Cu(II) complexed to GHL is able to prevent the inhibitory effects of IL-1β on insulin secretion and glucose oxidation, but not on NO production. The mechanism of action of Cu-GHL is still unclear, but it might restore the activity of the enzymatic systems inhibited by IL-1β. [Diabetologia (1995) 38∶39–45]

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF02369351

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Digitale Medien

Inhibition of the high-affinity glucose transporter GLUT 1 affects the sensitivity to glucose in a hamster-derived pancreatic beta cell line (HIT) (1993)

Rabuazzo, A. M. ; Buscema, M. ; Vinci, C. ; [weitere]

Springer

Diabetologia 36 (1993), S. 1204-1207

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ISSN: 1432-0428

Schlagwort(e): GLUT 1 ; GLUT 2 ; glucokinase ; glucose sensitivity ; insulin release ; HIT cells

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary HIT is a hamster-derived beta-cell line which in contrast to normal beta cells that only express the high Km GLUT-2 glucose transporter, also expresses the low Km glucose transporter GLUT 1. In HIT cells the abnormal glucose transport mechanism is associated with a marked shift to the left of the glucose-induced insulin release dose-response curve. We have used this cell model to investigate whether changes in glucose transport affect the glucose-induced insulin release. HIT cells were first incubated with a concentration of cytochalasin B (0.4 μmol/l) that selectively inhibits the GLUT-1 but not the GLUT-2 transporter. The consequences of blocking glucose phosphorylation and insulin release were studied. Exposure to 0.4 μmol/l cytochalasin B for 1 h caused a selective loss of the low Km transport: the calculated Vmax of GLUT 1 was reduced from 1726±98 to 184±14 pmol · mg protein−1 5 min−1 (mean±SEM, n=6, p〈0.005), while no major difference in the high Km (GLUT-2) transport was observed. In cytochalasin B exposed HIT cells the glucose phosphorylating activity (due to hexokinase and glucokinase) was unaffected. In these cells, however, the dose-response curve of glucose-induced insulin release was significantly shifted to the right: the 50% of maximal response (increment over baseline) was reached at an average glucose concentration of 2.9±0.2 mmol/l (vs 0.6±0.01 mmol/l in control HIT cells mean±SE, n=5, p〈0.05) and the maximal effect was reached at 11.0 mmol/l glucose (vs 2.8 mmol/l in control HIT cells p〈0.005). These results are consistent with the hypothesis that the affinity of the glucose transport system may contribute to determination of the glucose threshold concentration that triggers insulin secretion.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00401067

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Digitale Medien

Different effects of glucose and glyburide on insulin secretion in rat pancreatic islets pre-exposed to interleukin-1β. Possible involvement of K+ and Ca2+ channels (1993)

Buscema, M. ; Rabuazzo, A. M. ; Vinci, C. ; [weitere]

Springer

Diabetologia 36 (1993), S. 791-796

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ISSN: 1432-0428

Schlagwort(e): Interleukin-1β ; islets ; insulin secretion ; ion channels ; glyburide

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary In vitro islet exposure to interleukin 1β inhibits the beta-cell response to glucose. We have studied whether a similar inhibition also occurs in response to the sulphonylurea glyburide. Rat pancreatic islets were cultured for 24 h in the presence or absence of 50 U/ml interleukin 1β and then stimulated with either glucose or glyburide for 1 h at 37 °C. In control islets basal insulin secretion was 117±32 pg · islet−1 · h−1 (mean ± SEM, n=7) and greatly increased in response to 16.7 mmol/l glucose (2140±293) or 10 μmol/l glyburide (1464±234). When islets were pre-exposed to interleukin 1β, insulin release was significantly reduced in response to glucose (323±80, p〈0.001) but not in response to glyburide (1316±185). Since both glucose and glyburide influence beta-cell K+ and Ca2+ efflux, to further investigate this different response in islets exposed to interleukin 1β we measured both Rb+ efflux (as index of the ATP-sensitive K+ channel activity) and Ca2+ uptake. In control islets, the increased insulin secretion in response to 16.7 mmol/l glucose or 10 μmol/l glyburide was associated with a reduction of 86Rb efflux (decrement of −50±1.2 % and −49±2.3 %, respectively, mean ± SEM, n=5). In contrast, in interleukin 1βpre-exposed islets both glucose and glyburide stimulation only slightly modified 86Rb efflux (decrement of −19±1.9% and −5.3±3.1 %, respectively, n=5, p〈0.001). 45Ca2+ uptake in control islets was 2.6±0.4 pmol · islet−1 · 20 min−1 under basal conditions (at 2.8 mmol/l glucose), and increased to 16.8±3.2 and 10.7±2.1 pmol · islet−1 · 20 min−1 in islets stimulated with 16.7 mmol/l glucose or 10 μmol/l glyburide, respectively (mean ± SEM, n=6). 45Ca2+ uptake in interleukin 1β treated islets was higher than in control islets under basal conditions (4.6±0.6 pmol · islet−1 · 20 min−1 at 2.8 mmol/l glucose, p〈0.05), but was significantly reduced in response to glucose 16.7 mmol/l (7.1±1.1, p〈0.01 with respect to control islets). In contrast to glucose, 10 μmol/l glyburide was able to stimulate calcium uptake in interleukin 1β treated islets in a similar way to control islets (12.8±2.5). The present data demonstrate that rat pancreatic islets treated with interleukin 1β for 24 h lose their responsivity to glucose, but not to glyburide. The difference between the two secretagogues is associated with the persistent ability of glyburide to influence Ca2+ uptake even in islets with impaired K+-channel function.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00400351

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Digitale Medien

Copper addition prevents the inhibitory effects of interleukin 1-b on rat pancreatic islets (1995)

Vinci, C. ; Caltabiano, V. ; Santoro, A. M. ; [weitere]

Springer

Diabetologia 38 (1995), S. 39-45

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ISSN: 1432-0428

Schlagwort(e): Key words Copper ; interleukin-1β ; islets ; insulin secretion ; glucose metabolism ; nitric oxide.

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary Since copper [Cu(II)] is a necessary cofactor for both intra-mitochondrial enzymes involved in energy production and hydroxyl scavenger enzymes, two hypothesised mechanisms for action of interleukin-Iβ (IL-1β), we studied whether Cu(II) addition could prevent the inhibitory effect of IL-1β on insulin release and glucose oxidation in rat pancreatic islets. Islets were incubated with or without 50 U/ml IL-1β, in the presence or absence of various concentrations of Cu(II)-GHL (Cu(II) complexed with glycyl-l-histidyl-l-lysine, a tripeptide known to enhance copper uptake into cultured cells). CuSO4 (1–1000 ng/ml) was used as a control for Cu(II) effect when present as an inorganic salt. At the end of the incubation period, insulin secretion was evaluated in the presence of either 2.8 mmol/l (basal insulin secretion) or 16.7 mmol/l glucose (glucose-induced release). In control islets basal insulin secretion was 92.0 ± 11.4 pg · islet–1· h–1 (mean ± SEM, n = 7) and glucose-induced release was 2824.0 ± 249.0 pg · islet–1· h–1. In islets pre-exposed to 50 U/ml IL-1β, basal insulin release was not significantly affected but glucose-induced insulin release was greatly reduced (841.2 ± 76.9, n = 7, p 〈 0.005). In islets incubated with IL-1β and Cu-GHL (0.4 μmol/l, maximal effect) basal secretion was 119.0 ± 13.1 pg · islet–1· h–1 and glucose-induced release was 2797.2 ± 242.2, (n = 7, p 〈 0.01 in respect to islets exposed to IL-1β alone). In contrast to data obtained with Cu(II)-GHL, increasing concentrations of CuSO4 (up to 10 μmol/l) did not influence the inhibitory effect of IL-1β on glucose-stimulated insulin release. Glucose oxidation (in the presence of 16.7 mmol/l glucose) was 31.5 ± 2.4 pmol · islet–1· 90min–1 in control islets and 7.0 ± 0.9 (p 〈 0.01) in IL-1β-exposed islets. In islets exposed to IL-1β and Cu-GHL glucose oxidation was similar to control islets (31.9 ± 1.9). In contrast, Cu-GHL did not prevent the IL-1β-induced increase in nitric oxide production. Nitrite levels were 5 ± 1.7, 26 ± 5 and to 29 ± 4 pmol · islet–1· 48 h–1 (mean ± SEM, n = 5) in the culture medium from control, IL-1β and IL-1β + Cu-GHL exposed islets, respectively. These data indicate that the Cu(II) complexed to GHL is able to prevent the inhibitory effects of IL-1β on insulin secretion and glucose oxidation, but not on NO production. The mechanism of action of Cu-GHL is still unclear, but it might restore the activity of the enzymatic systems inhibited by IL-1β. [Diabetologia (1995) 38: 39–45]

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s001250050251

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Digitale Medien

Glucose regulates both glucose transport and the glucose transporter gene expression in a hamster-derived pancreatic Beta-cell line (HIT) (1991)

Purrello, F. ; Buscema, M. ; Vetri, M. ; [weitere]

Springer

Diabetologia 34 (1991), S. 366-369

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ISSN: 1432-0428

Schlagwort(e): Glucose transport ; glucose transporters ; insulin secretion ; pancreatic Beta cells ; chronic high glucose

Quelle: Springer Online Journal Archives 1860-2000

Thema: Medizin

Notizen: Summary We studied the effect of chronic exposure to high glucose on the glucose transport regulation in hamster pancreatic Beta cells in permanent culture (HIT). Cells were exposed to either 5.5 mmol/l or 16.7 mmol/l glucose for 48 h and then glucose transport was studied by measuring the (3H)-2-deoxyglucose uptake for 5 and 10 min at 37 °C. The 2- deoxyglucose uptake was lower in cells pre-exposed to glucose 16.7 mmol/l for 48 h compared to cells pre-exposed to glucose 5.5 (12.0±1.6 vs 19.1±1.2 nmol/0.1 mg after 5 min, and 22.2±2.6 vs 39.0±2.9 after 10 min respectively, mean ±SEM, n=5, p 〈 0.01). In order to investigate the mechanism(s) for glucose impairment of glucose transport, we studied the glucose carrier gene expression in the same cells by Northern and slot-blot analysis. When total RNA was extracted from HIT cells cultured at either 5.5 or 16.7 mmol/l glucose and then hybridized to 32P-labelled cDNA probes for the glucose transporter 1, the glucose transporter 2 and β-actin, a significant reduction of both glucose transporter 1 (−63.9±4.1%, mean±SEM, n=3) and glucose transporter 2 (−48.9±3.2%) mRNA was observed in HIT cells cultured with high glucose. In the same experiments no change of β-actin mRNA was observed, suggesting that the effect of high glucose was specific on the glucose-transporter mRNAs. In HIT cells cultured at glucose 16.7 mmol/l the glucose-induced insulin release was also reduced compared to cells cultured at glucose 5.5 (715±19 μU · h−1 · mg−1 vs 1301±28 μU · h−1 · mg−1, respectively, mean ±SEM, n=3, p 〈 0.05). In conclusion, in hamster pancreatic Beta-cells, chronic exposure to high glucose concentrations impairs glucose transporter mRNA levels, glucose transport, and glucose-induced insulin secretion in a co-ordinate manner.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF00405011

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