Counterregulatory responses to hypoglycemia in patients with glucokinase gene mutations

The glucokinase gene is expressed not only in pancreatic B cells and in the liver, but also in pancreatic alpha cells, and in some cells of the central nervous system. A decreased glucokinase activity in the latter cell types may interfere with counterregulatory responses to hypoglycemia. In order to assess functional consequences of glucokinase mutations, counterregulatory hormones secretion and glucose production (6,6(- 2) H glucose) were monitored during an hyperinsulinemic clamp at about 2.4 pmol.kg(- 1).min(- 1) insulin with progressive hypoglycemia in 7 maturity onset diabetes of the young (MODY) type 2 patients, 5 patients with type 2 diabetes, and 13 healthy subjects. Basal glucose concentrations were significantly higher in MODY2 patients (7.6 +/- 0.4 mmol.l(- 1) ) and type 2 diabetic patients (12.4 +/- 2.3 mmol.l(- 1) ) than in healthy subjects (5.3 +/- 0.1 mmol.l(- 1), p<0.01) but counterregulatory hormones concentrations were identical. Insulin-mediated glucose disposal and suppression of endogenous glucose production at euglycemia were unchanged in MODY2 patients, but were blunted in type 2 diabetes. During progressive hypoglycemia, the glycemic thresholds of MODY2 patients for increasing glucose production (5.0 +/- 0.4 mmol.l(- 1) ) and for glucagon stimulation (4.5 +/- 0.4 mmol. l(- 1) ) were higher than those of healthy subjects and type 2 diabetic patients (3.9 +/- 0.1 and 4.1 +/- 0.1 mmol.l(- 1) respectively for glucose production and 3.7 +/- 0.1 and 3.5 +/- 0.1 mmol.l(- 1) for glucagon stimulation, p <0.02 in both cases). These results indicate that counterregulatory responses to hypoglycemia are activated at a higher plasma glucose concentration in MODY2 patients. This may be secondary to decreased glucokinase activity in hypothalamic neuronal cells, or to alterations of glucose sensing in pancreatic alpha cells and liver cells

Paraoxonase2 polymorphisms are associated with nephropathy in Type II diabetes.

AIMS/HYPOTHESIS: Paraoxonase is a member of a multigene family of three genes. Paraoxonase2 gene polymorphisms have been associated with coronary heart disease in non-diabetic patients and with an increased fasting glycaemia in patients with Type II (non-insulin-dependent) diabetes mellitus. We tested the hypothesis of whether paraoxonase1 and paraoxonase2 polymorphisms were associated with diabetic nephropathy. METHODS: Our case-control study of 299 Swiss patients with Type II diabetes included 147 patients with confirmed diabetic nephropathy. RESULTS: In univariate analyses the two paraoxonase2 polymorphisms were associated with diabetic nephropathy. When subjected to multivariate analyses, both paraoxonase2 polymorphisms remained statistically associated with diabetic nephropathy independent of traditional risk factors (paraoxonase2-148: OR = 2.53, p = 0.003; paraoxonase2-311: OR = 2.67, p = 0.002). In addition, BMI interacted with paraoxonase2 polymorphisms as a risk factor of nephropathy. CONCLUSIONS/INTERPRETATION: The paraoxonase2 gene polymorphisms were significantly associated with diabetic nephropathy independent of traditional risk factors in Type II diabetic patients. The susceptibility to diabetic nephropathy was intensified by the degree of obesity. Pathophysiological pathways should be investigated and could be involved in insulin resistance or lipids metabolism or both

Non oxidative fructose disposal is not inhibited by lipids in humans

Elevated free fatty acid concentrations are known to decrease insulin-mediated glucose uptake, glucose oxidation and glycogen synthesis. In order to determine whether free fatty acids inhibit glycogen synthesis at the level of liver cells, the effects of an infusion of lipids on carbohydrate metabolism were investigated in healthy subjects during a two-step (16.7 and 33.4 mumol/(kg.min) 13C-fructose infusion. Fructose infusion dose-dependently stimulated fructose (measured from 13CO2 production) and net carbohydrate oxidation (measured with indirect calorimetry). It also stimulated systemic 13C glucose appearance, indicating a dose-dependent stimulation of gluconeogenesis. Net glucose output (measured with 6,6 2H glucose) was however not altered. Lipid infusion significantly reduced fructose oxidation (measured from 13CO2 production) at both rates of fructose infusion, but did not alter plasma fructose or lactate concentrations, nor plasma 13C glucose appearance or net glucose production. Non oxidative fructose disposal was increased by 31% (p < 0.05) at the lowest, and by 18% (p < 0.01) at the highest infusion rate. Since nonoxidative fructose disposal corresponds mainly to liver glycogen deposition, these results suggest that lipid infusion increased hepatic glycogen synthesis, and hence that hepatic glycogen synthase is not inhibited by fatty acids

Thermic effect of food: possible implication of parasympathetic nervous system

To investigate the effect of the autonomic nervous system on the thermic response to food ingestion, respiratory exchange measurements were performed on seven healthy young men for 1 h and 45 min before and 6 h after ingestion of a mixed meal, approximately 560 kcal, 53% carbohydrate, 30% fat, and 17% protein (control) and under the same conditions during infusion of either propranolol (80 micrograms/kg bolus and 1 microgram.kg-1.min-1), atropine (10 micrograms/kg and 10 micrograms.kg-1.min-1), or atropine plus propranolol. The postabsorptive resting metabolic rates were the same on each occasion and were slightly altered by drug treatment. The thermic responses to the meal were the same with the control and propranolol tests (9.3 +/- 0.9 and 9.2 +/- 0.5%, respectively) and were greater (P less than 0.001) than with atropine 3.6 +/- 0.6% and atropine plus propranolol 3.3 +/- 0.8%. Blockade of the sympathetic nervous system does not decrease the thermic response to food taken orally, whereas muscarinic receptor blockade does. Although some confounding effects of atropine might explain some of this decrease, our results suggest that the parasympathetic nervous system is involved in the thermic effect of food

Effect of alpha-glycohydrolase inhibitors (Bay m1099 and Bay o1248) on sucrose metabolism in normal men

The inhibitory effect of N- beta-(4-ethoxycarbonylphenoxy-ethyl-1-desoxynojirimycin (BAY o1248) and of N-hydroxyethyl-1-desoxynojirimycin (BAY o1099) was studied in normal men. Nine healthy volunteers (weight range of 82% to 117% of their ideal body weight) ingested a 50 g sucrose load together with placebo, 50 mg BAY m1099, or 10 mg BAY of o1248. Their substrate oxidation rate was measured by continuous indirect calorimetry during four hours. The plasma glucose and plasma insulin peaks were both significantly blunted and the late fall of glycemia reduced. Mean plasma glucose, fructose, and insulin were reduced by both drugs during the first two hours following the sucrose load and led to a decrease of the suprabasal glucose oxidation (oxidation above baseline) during the first two hours of the test. However, the total suprabasal glucose oxidation during the four hours of the test was not significantly different from that of the control. Breath hydrogen, as an index of malabsorption, was shown to increase with both 50 mg BAY m1099 and 10 mg BAY o1248, starting from the third hour. These findings are consistent with a significant delay of sucrose absorption induced by these new alpha-glycohydrolase inhibitors

Normogonadotropic primary amenorrhea in a growth hormone-deficient woman with ectopic posterior pituitary: gonadotropin pulsatility and follicle-stimulating hormone bioactivity

We studied the gonadotropic function in a 25-year-old woman suffering from congenital GH deficiency, complaining of primary amenorrhea and wishing to become pregnant. She disclosed a hypoplasic anterior pituitary within a small sella turcica and an ectopic posterior pituitary lobe located below the median eminence. Immunoreactive LH and FSH plasma levels were normal, basal and in response to a GnRH iv bolus but estradiol was low. LH pulse frequency was elevated and FSH bioactivity was low in a granulosa cell aromatase bioassay. Pulsatile administration of iv GnRH at a slower, normal pace, failed to induce ovulation or to increase FSH bioactivity, with or without concomitant GH replacement. However treatment with exogenous im gonadotropins, when preceeded by GH replacement, succeeded in inducing mature oocytes and pregnancy. We concluded that the hypogonadism observed in this patient was due to rapid GnRH pulsatility and poor biological activity of endogenous FSH

Glucose utilization and production in patients with maturity-onset diabetes of the young caused by a mutation of the hepatocyte nuclear factor-1alpha gene

Mutations of the hepatocyte nuclear factor (HNF)-1alpha gene cause impaired insulin secretion and hyperglycemia in patients with maturity-onset diabetes of the young (MODY)3. Whether these mutations also affect glucose metabolism in tissues other than the beta-cell has not yet been documented. We therefore assessed, in five MODY3 patients and a dozen healthy control subjects, insulin secretion, oxidative and nonoxidative glucose disposal, and glucose production during a two-step hyperglycemic clamp and a euglycemic hyperinsulinemic (0.4 mU x kg(-1) x min(-1)) clamp. Compared with healthy control subjects, MODY3 patients had higher fasting plasma glucose (+100%) but similar rates of fasting glucose production and oxidation. Both the early and late phases of insulin secretion were virtually abolished during the hyperglycemic clamp, and glucose production was suppressed by only 43% in MODY3 patients vs. 100% in healthy control subjects. The rate of glucose infusion required to produce a 5 mmol/l increase above basal glycemia was reduced by 30%, net nonoxidative glucose disposal (which is equal to net glycogen deposition) was inhibited by 39%, and net carbohydrate oxidation during hyperglycemia was 25% lower in MODY3 patients compared with control subjects. Insulin-stimulated glucose utilization and oxidation measured during the hyperinsulinemic clamp (at approximately 200 pmol/l insulin) were identical in MODY3 patients and in healthy control subjects, indicating that peripheral insulin sensitivity was not altered. Suppression of endogenous glucose production was, however, mildly impaired. It is concluded that MODY3 patients have severely depressed glucose-induced insulin secretion. The development of hyperglycemia in these patients appears to be caused by a decreased stimulation of glucose utilization, oxidation, and nonoxidative glucose disposal as well as by a blunted suppression of endogenous glucose output. These phenomena are essentially secondary to insulinopenia, whereas insulin sensitivity remains intact

Diagnosis, treatment, and outcome of pituitary tumors and other abnormal intrasellar masses. Retrospective analysis of 353 patients

We reviewed the clinical features, essential laboratory data, pituitary imaging findings (computerized tomography and magnetic resonance imaging), management, and outcome of 353 consecutive patients with the presumptive diagnosis of pituitary tumor investigated from January 1984 through December 1997 at University Hospital, Lausanne, Switzerland. In 18 cases primary empty sella turcica was diagnosed, and in 13 cases of pseudacromegaly there were no endocrine abnormalities. The remaining 322 patients disclosed abnormal pituitary masses, including 275 pituitary adenomas, 18 craniopharyngiomas, 6 cases of primary pituitary hyperplasia, 6 intrasellar meningiomas, 6 cases of distant metastases, 4 intrasellar cysts, 2 chordomas, 1 primary lymphoma, and 1 astrocytoma. Biologic data and immunohistochemical analysis of the excised tissues demonstrated that prolactinomas and nonsecreting adenomas (NSAs) were the most frequent pituitary tumors (40% and 39%, respectively), followed by somatotropic adenomas with acromegaly (11%) and Cushing disease (6%). In contrast with the vast majority of NSAs, which significantly expressed glycoprotein hormones in tissue without secreting them, there was a small group of glycoprotein hormone-secreting adenomas (2%), which had a more severe clinical course after surgery. Thirty-eight pituitary masses were incidentally discovered, most of them NSAs. The expansion of pituitary adenomas into the right cavernous sinus was twice as frequent as to the left cavernous sinus. For the differential diagnosis of hyperprolactinemia, basal prolactin (PRL) levels above 85 micrograms/L, in the absence of renal failure and PRL-enhancing drugs, and a PRL increment of less than 30% after thyrotropin-releasing hormone (TRH) accurately ruled out functional hyperprolactinemia due to NSA, and were typical of prolactinomas. For screening and follow-up of acromegaly, basal growth hormone (GH) and insulin-like growth factor 1 (IGF-1) levels, as well as the paradoxical GH response to TRH (present in 2/3 acromegalic patients), could be used as convenient tools, but the most accurate test for diagnosis and prediction of outcome after therapy was GH (lack of) suppression during oral glucose tolerance test. In Cushing disease, single evening plasma cortisol was as good as the overnight dexamethasone suppression test for screening, and a combined dexamethasoneovine corticotropin-releasing hormone (oCRH) test was as accurate as the long dexamethasone suppression test to confirm the diagnosis. Bilateral inferior petrosal sinus catheterization coupled with oCRH test confirmed the pituitary origin of excess adrenocorticotropic hormone (ACTH) in all patients, including those with normal pituitary on magnetic resonance imaging (50% of the cases). However, this procedure failed to predict tumor localization correctly within the pituitary in 21% of patients. Pituitary cysts, meningiomas, and craniopharyngiomas with an intrasellar component were correctly diagnosed based on pituitary imaging in 75%, 67%, and 44% of cases, respectively. The remainder, as well as the cases of pituitary hyperplasia, metastases, and other less frequent pathologies, were initially diagnosed as NSAs or as masses of unknown nature. When surgery was indicated, pituitary adenomas and other intrasellar masses were operated on by the transsphenoidal route, with the exception of 100% of meningiomas, 83% of craniopharyngiomas, and 10% of NSAs, which were operated on by the transcranial route. Favorable late surgical outcome of prolactinomas could be predicted by a restored PRL response to TRH. However, dopamine agonist (DA) therapy, usually resulting in satisfactory control of PRL levels and in tumor shrinkage, progressively displaced surgery as primary treatment for prolactinomas throughout the study period. After full-term pregnancy, the size of prolactinoma decreased in 7 of 9 patients, and PRL was normal in 2. Surgery was the first treatment for NSAs, with a tumor rel