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Query: UMLS:C0011849 (diabetes)
 277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Metabolism of glutamine (Gln, 2 mM) and glucose (5 mM) was studied in vitro in isolated resident peritoneal macrophages from both normal (BBn) and spontaneously diabetic BB (BBd) rats. The major products from Gln were ammonia, glutamate, CO2 and to a lesser extent aspartate. Glucose decreased (P less than 0.01) the production of ammonia, CO2 and aspartate from Gln by 34-60%, but had no effect on the amount of glutamate accumulated. The major products from glucose were lactate and to a much lesser extent pyruvate and CO2. Gln decreased (P less than 0.01) 14CO2 production from [U-14C]glucose by 19-28%, increased (P less than 0.01) pyruvate production by 35-49%, but had no effect on lactate production. The fraction of glucose metabolized via the pentose phosphate pathway (PC) was less than 5%. There were no significant differences in Gln metabolism between BBn and BBd macrophages. The production of lactate and pyruvate and the flux from glucose into the PC were increased (P less than 0.01) by 2.4, 1.8 and 1.5-fold, respectively, in BBd cells. Increased macrophage glucose metabolism was also observed in diabetes-prone BB (BBdp) rats at 75-80 days but not at 50 days of age. In the presence of both Gln and glucose, potential ATP production from glucose was 2- and 4-times that from Gln, respectively, in BBn and BBd cells. Lactate production was the major pathway for glucose-derived ATP generation. These results demonstrate (a) glycolysis and flux from glucose through the pentose phosphate pathway are enhanced with no alteration in glutaminolysis in BBd macrophages; and (b) glucose may be a more important fuel than Gln for macrophages, particularly in BBd rats. The increased glucose metabolism may be associated with functional activation of the macrophages that have been proposed to be involved in beta-cell destruction and the development of diabetes.
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PMID:Glucose and glutamine metabolism in rat macrophages: enhanced glycolysis and unaltered glutaminolysis in spontaneously diabetic BB rats. 176 69

Fifteen spontaneously diabetic, non-obese mice (NOD strain), 17 non-diabetic NOD mice (in which diabetes had not yet developed) and 9 diabetic NOD mice were treated with insulin. All animals were superovulated with 5 iu of pregnant mares' serum gonadotrophin followed 48 h later by 5 iu human chorionic gonadotrophin (hCG) and mated overnight with NOD males of proven fertility. To assess in-vitro and early in-vivo development, 23 NOD mice were killed 72 h after hCG treatment. Embryos were recovered from oviduct flushings and cultured in Ham's F-10 medium with 0.1% bovine serum albumin at 37 degrees C in an atmosphere of 5% O2, 5% CO2, and 90% N2. Development was assessed at intervals of 24 h for 72 h. Compared with embryos from non-diabetic NOD mice (n = 81), embryos from diabetic NOD mice (n = 68) demonstrated marked impairment in growth assessed by distribution of developmental stages at each observation period (24, 48, 72 h, all P less than 0.001) and by overall rates of progression of developmental stages (P less than 0.01). In diabetic NOD mice treated with insulin, embryo development (n = 7) was not significantly different from that of embryos from non-diabetic NOD mice (n = 81), but was significantly faster than in embryos from diabetic NOD mice not treated with insulin (n = 68) (P less than 0.001, for all periods, overall rate P less than 0.01). To assess late in-vivo growth, 18 NOD mice were killed 120 h after hCG.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of diabetes mellitus on mouse pre-implantation embryo development. 178 51

In islets from adult rats injected with streptozocin during the neonatal period, the oxidative and secretory responses to D-glucose are more severely affected than those evoked by L-leucine. A possible explanation for such a preferential defect was sought by comparing the rate of aerobic glycolysis, taken as the sum of D-[3,4-14C]glucose conversion to labeled CO2, pyruvate, and amino acid, with the total glycolytic flux, as judged from the conversion of D-[5-3H]glucose to 3H2O. A preferential impairment of aerobic relative to total glycolysis was found in islets from diabetic rats incubated at either low or high D-glucose concentration. This coincided in islet mitochondria of diabetic rats with a severe decrease in both the basal (no-Ca2+) generation of 3H2O from L-[2-3H]glycerol-3-phosphate and the Ca2(+)-induced increment in [3H]glycerophosphate detritiation. The mitochondria of diabetic rats were also less efficient than those of control animals in generating 14CO2 from [1-14C]-2-ketoglutarate. The diabetes-induced alteration of 2-ketoglutarate dehydrogenase in islet mitochondria was less marked, however, than that of the FAD-linked glycerophosphate dehydrogenase and was not associated with any change in responsiveness to Ca2+. Sonicated islet mitochondria of diabetic rats displayed normal to slightly elevated glutamate dehydrogenase activity. We propose, therefore, that the preferential impairment of the oxidative and secretory responses of islet cells to D-glucose in this experimental model of diabetes may be at least partly attributable to an altered transfer of reducing equivalents into the mitochondria as mediated by the glycerol phosphate shuttle.
Diabetes 1991 Feb
PMID:Impairment of glycerol phosphate shuttle in islets from rats with diabetes induced by neonatal streptozocin. 182 72

We used the fluorescent dye 2',7'-bis-(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) to examine intracellular pH (pHi) regulation in single hepatocytes isolated from control rats and rats with either spontaneous or drug-induced diabetes mellitus (DM). In the absence of CO2-HCO3-, both control and DM cells recovered from cellular acid loads applied by the NH4+ prepulse technique. Because the pHi recovery was blocked by either Na+ withdrawal or ethylisopropylamiloride in both control and DM cells, it was presumably mediated by Na(+)-H+ exchange. In the control cells, the pHi threshold above which the rate of change of pHi (dpHi/dt) was zero was 7.06, and the slope of the dpHi/dt-pHi relationship was -0.030 s-1. In the DM cells, the pHi threshold was 7.22 and the slope was -0.017 s-1. Thus, at pHi values below approximately 6.9, the pHi recovery was slower in the DM cells. Inasmuch as we observed no difference in the cellular buffering power between control and DM cells, diabetes inhibits Na(+)-H+ exchange within this low pHi range. At pHi values above approximately 6.9, however, Na(+)-H+ exchange was apparently stimulated by diabetes. Thus diabetes induces two distinct alterations of Na(+)-H+ exchange, an alkaline shift in pHi threshold and decrease in slope. Treatment of diabetic rats with insulin for 48 h restored both Na(+)-H+ exchange parameters to normal. On the other hand, insulin added in vitro to DM cells for 2-5 h shifted the threshold toward the control value without affecting the slope, thus leading to a further inhibition of Na(+)-H+ exchange over the entire pHi range.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of diabetes on Na(+)-H+ exchange by single isolated hepatocytes. 184 69

We have previously reported a decrease in gluconeogenesis from alanine in normal pregnant women at term gestation as compared with nonpregnant women. In the present study, the effect of diabetes on alanine metabolism was examined in five gestationally diabetic (GDM) women and seven women with type I (insulin-dependent) diabetes (IDDM) during the third trimester of pregnancy. The hemoglobin A1c (HbA1c) concentrations in all subjects were within normal range, indicating good metabolic control. After an overnight fast, each subject was infused simultaneously with L-[2,3, 13C2]alanine and D-[6,6,2H2]glucose tracers as prime constant rate infusion. Plasma alanine and glucose isotopic enrichments were measured by gas chromatography-mass spectrometry. Alanine and glucose turnover rates were quantified by tracer dilution. In five subjects, the contribution of alanine carbon to CO2 was quantified by respiratory calorimetry and by measurement of 13C enrichment of expired CO2. Data from 15 previously reported normal pregnant subjects were used for comparison. The rate of alanine turnover was similar in the GDM and IDDM subjects and was not different from the normal subjects (GDM, 4.6 +/- 1.9; IDDM, 5.4 +/- 2.5; normals, 4.4 +/- 0.8 mumol/kg.min, mean +/- SD). The rate of glucose turnover was significantly reduced (P less than .05) in IDDM as compared with GDM and normal subjects (IDDM, 8.1 +/- 0.8; GDM, 11.5 +/- 3.5; normals, 12.2 +/- 2.2 mumol/kg.min). The contribution of alanine C to glucose C and expired CO2 was similar in the three groups. These data demonstrate that rigorous metabolic control results in normal glucose and alanine metabolism in diabetic pregnancy during fasting.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose-alanine relationship in diabetes in human pregnancy. 190 12

The natural history of tissue repair and the critical determinants of faulty healing of diabetic ulcers remain obscure despite recent advances in our knowledge of the cellular physiology of normal cutaneous healing. To characterize the chronology and identify important factors affecting healing, we applied an objective method to quantify the rate of wound healing of full-thickness lower-extremity ulcers in 46 diabetic outpatients who received local wound care under a standardized clinical protocol. The initial ulcer healing rate, eventual status of tissue repair, and definitive clinical outcome were not significantly associated with age; diabetes type, duration, or treatment; level or change in glycosylated hemoglobin; current smoking; presence of sensory neuropathy; ulcer location or class; initial infection; or frequency of recurrent infections. However, direct measures of local cutaneous perfusion, estimated by periwound measurements of transcutaneous O2 tension (TcPo2) and transcutaneous CO2 tension (TcPco2), were significantly associated with the initial rate of tissue repair (P = 0.003 and 0.005, respectively). The strong prediction of early healing by these parameters of local skin perfusion was independent from the effects of segmental Doppler arterial blood pressure at the dorsalis pedis, although eventual ulcer reepithelialization was significantly related to foot blood pressure and periwound TcPo2 and TcPco2. We conclude that periwound cutaneous perfusion is the critical physiological determinant of diabetic ulcer healing, indicating a 39-fold increased risk of early healing failure when the average periwound TcPo2 is less than 20 mmHg.
Diabetes 1991 Oct
PMID:Chronology and determinants of tissue repair in diabetic lower-extremity ulcers. 193 93

In hepatocytes from starved streptozocin-induced diabetic rats, vanadate increases the glycolytic flux because it raises the levels of fructose-2,6-bisphosphate (Fru-2,6-P2), the main regulatory metabolite of this pathway. This effect of vanadate on Fru-2,6-P2 levels is time and dose dependent, and it remains in cells incubated in a calcium-depleted medium. Vanadate is also able to counteract the decrease on Fru-2,6-P2 levels produced by glucagon, colforsin, or exogenous cAMP. However, vanadate does not modify 6-phosphofructo-2-kinase and pyruvate kinase activities, but it does counteract the inactivation of these enzymes induced by glucagon. Likewise, Fru-2,6-P2ase activity is also not affected by vanadate. In addition, vanadate is able to increase the production of both lactate and CO2 in hepatocytes from streptozocin-induced diabetic rats incubated in the presence of glucose in the medium. Vanadate behaves as a glycolytic effector in these cells, and this effect may be related to its ability to normalize blood glucose levels in diabetic animals.
Diabetes 1991 Oct
PMID:Activation by vanadate of glycolysis in hepatocytes from diabetic rats. 193 97

The possibility of using xenogeneic islets for transplantation in insulin-dependent diabetes mellitus (IDDM) necessitates characterization of their potential for growth and functional differentiation. Fetal pig pancreas (FPP) of various gestational ages was examined with respect to morphology, ability to produce insulin before and during culture, and development and function in nude mice. Insulin-containing beta cells were present, but distinct islets were not apparent in FPP even in late gestation, and did not develop during culture. FPP remained viable and produced insulin for up to 30 days in vitro. Mitotic figures were seen in cultured tissue. Culture on a gelfoam raft resulted in more viable tissue than free-floating culture. Culture in a high concentration of O2 (90% O2/10% CO2) was detrimental compared with culture in 10% CO2 in air. Responses to static incubation in secretagogues showed that IMBX, theophylline, and tolbutamide all stimulated insulin secretion, but high glucose concentration (5 g/L), arginine, and leucine did not. The potential of this tissue for growth and its ability to regulate blood glucose levels appropriately were tested in athymic (nu/nu) mice. Pancreatic tissue from fetuses as young as 4 weeks gestation showed growth after transplantation into athymic mice, with representation of the major pancreatic endocrine cells demonstrated by selective immunochemical staining. The increase in the size of the grafts showed an impressive proliferative capacity, and histology confirmed mitotic activity and islet structure in the graft. The amount of endocrine tissue in grafts reflected the condition of the explants at the time of grafting, and prolonged culture times were detrimental to eventual graft size. Functional capability of the grafted FPP to release insulin in response to hyperglycemia was tested by transplantation into mice made diabetic with streptozotocin. Blood glucose levels, animal weights and survival, and the histological appearance of the tissue after graft nephrectomy indicated that either fresh tissue or tissue cultured for up to 8 days (Gelfoam; 10% CO2 in air) had better eventual graft function then FPP grown in 90% O2 or transplanted as a secondary graft following an interim period to allow gestational maturation in a nondiabetic nu/nu host. Return to euglycemia took 3-4 months after transplantation of FPP. The in vitro characteristics of FPP are similar to those reported for human fetal tissue, and since FPP is capable of growth and proliferation in vivo and has the ability to normalize hyperglycemia, further investigation of FPP to establish its suitability as a source of xenogeneic insulin-secreting tissue for human transplantation is warranted.
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PMID:Fetal pig pancreas. Preparation and assessment of tissue for transplantation, and its in vivo development and function in athymic (nude) mice. 196 85

Cultured cells derived from hamster insulinoma (In-111 R1 cells) were placed in 1.4 M dimethyl sulfoxide (Me2SO)-containing RPMI 1640 at 20 degrees C for 20 min. They were frozen to -40 degrees C at a cooling rate of 1.0 or 0.5 degrees C/min, subsequently to -80 degrees C at 3 degrees C/min with a programmable freezer. After being maintained at -80 degrees C, they were rapidly thawed to 37 degrees C. Thawed cells were washed with 0.75 M sucrose for removal of Me2SO. Recovered cells were cultured in 2 ml of RPMI 1640 with 1.3 mM theophylline under a gas phase of 95% air -5% CO2 at 37 degrees C for 2 days. In both cooling rates, frozen-thawed cells discharged more insulin than the thawed in the absence of theophylline. However, this released insulin level was higher in the cells frozen at a cooling rate of 0.5 degrees C/min than that at 1.0 degrees C/min. Moreover, insulin released from frozen-thawed hamster insulinoma cells increased significantly with the addition of 1.3 mM theophylline. Considering that the higher insulin release level at 11.1 mM glucose alone might indicate cellular damage, it is suggested that the cooling rate of 1 degree C/min may be better for cryopreservation of the dispersed cells under the present protocol for the assessment of the function of insulin release.
Diabetes Res Clin Pract 1991 Feb
PMID:Effect of the cooling rate on insulin release from frozen-thawed In-111 cells. 202 80

Animal models of diabetes mellitus during pregnancy have repeatedly suggested that maternal hyperglycemia was teratogenic during organogenesis, and thus may contribute to diabetic teratogenesis. However, little attention has been focused on the effects of hyperglycemia on pre-organogenic development. In this report, we examine the effect of hyperglycemia (950 mg glucose/dL) on the development of mouse pre-embryos in vitro. B6C3F1 mice were superovulated with 5 U pregnant mare serum gonadotropin (PMSG) followed by 5 U human chorionic gonadotropin (hCG) 48 hours later. Two cell pre-embryos were recovered 48 hours later, pooled together, and randomly assigned to different treatment groups. Cultures were performed in HAM's F-10 media (Gibco, Long Island, NY) with 0.1% bovine serum albumin (BSA; Sigma, St. Louis, MO) BSA at 37 degrees C in an atmosphere of 5% CO2, 5% O2, and 90% N2 with 15 to 30 embryos per milliliter of culture fluid. Cultures were viewed daily at 24, 48, and 72 hours after culturing, with recording of the development. Compared with control pre-embryos (n = 216), embryos cultured in elevated glucose levels (950 mg/dL) (n = 226) demonstrated marked growth retardation as assessed both by (1) distribution of developmental stages at each observation point (24 hours, P less than .001; 48 hours, P less than .006; 72 hours, P less than .001); and (2) a difference in the average rank sums indicating a delay in maturation (P less than .005). In a second protocol group, pre-embryos were cultured in an equivalent amount of L-glucose; no impairment in development compared with controls was noted.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Manifestation of diabetes mellitus on mouse follicular and pre-embryo development: effect of hyperglycemia per se. 210 6


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