Diane Ostrega

Defective insulin secretion in hepatocyte nuclear factor 1alpha-deficient mice.

Mutations in the gene for the transcription factor hepatocyte nuclear factor (HNF) 1alpha cause maturity-onset diabetes of the young (MODY) 3, a form of diabetes that results from defects in insulin secretion. Since the nature of these defects has not been defined, we compared insulin secretory function in heterozygous [HNF-1alpha (+/-)] or homozygous [HNF-1alpha (-/-)] mice with null mutations in the HNF-1alpha gene with their wild-type littermates [HNF-1alpha (+/+)]. Blood glucose concentrations were similar in HNF-1alpha (+/+) and (+/-) mice (7.8+/-0.2 and 7.9+/-0.3 mM), but were significantly higher in the HNF-1alpha (-/-) mice (13.1+/-0.7 mM, P < 0.001). Insulin secretory responses to glucose and arginine in the perfused pancreas and perifused islets from HNF-1alpha (-/-) mice were < 15% of the values in the other two groups and were associated with similar reductions in intracellular Ca2+ responses. These defects were not due to a decrease in glucokinase or insulin gene transcription. beta cell mass adjusted for body weight was not reduced in the (-/-) animals, although pancreatic insulin content adjusted for pancreas weight was slightly lower (0.06+/-0.01 vs. 0.10+/-0.01 microg/mg, P < 0.01) than in the (+/+) animals. In summary, a null mutation in the HNF-1alpha gene in homozygous mice leads to diabetes due to alterations in the pathways that regulate beta cell responses to secretagogues including glucose and arginine. These results provide further evidence in support of a key role for HNF-1alpha in the maintenance of normal beta cell function.

Small-intestinal dysfunction accompanies the complex endocrinopathy of human proprotein convertase 1 deficiency

We have previously described the only reported case of human proprotein convertase 1 (PC1) deficiency, in a female (Subject A) with obesity, hypogonadism, hypoadrenalism, and reactive hypoglycemia. We now report the second case of human PC1 deficiency (Subject B), also due to compound heterozygosity for novel missense and nonsense mutations. While both subjects shared the phenotypes of obesity, hypoadrenalism, reactive hypoglycemia, and elevated circulating levels of certain prohormones, the clinical presentation of Subject B was dominated by severe refractory neonatal diarrhea, malabsorptive in type. Subsequent investigation of Subject A revealed marked small-intestinal absorptive dysfunction, which was not previously clinically suspected. We postulate that PC1, presumably in the enteroendocrine cells, is essential for the normal absorptive function of the human small intestine. The differences in the nature and severity of presentation between the two cases cannot readily be explained on the basis of allelic heterogeneity, as the nonsense and missense mutations from both subjects had comparably severe effects on the catalytic activity of PC1. Despite Subject As negligible PC1 activity, some mature ACTH and glucagon-like peptide 17-36(amide) were detectable in her plasma, suggesting that the production of these hormones, at least in humans, does not have an absolute dependence on PC1. The presence of severe obesity and the absence of growth retardation in both subjects contrast markedly with the phenotype of mice lacking PC1 and suggest that the precise physiological repertoire of this enzyme may vary between mammalian species.

Defective Pancreatic β-Cell Glycolytic Signaling in Hepatocyte Nuclear Factor-1α-deficient Mice

Mutations in the hepatocyte nuclear factor-1α (HNF-1α) gene cause maturity onset diabetes of the young type 3, a form of type 2 diabetes mellitus. In mice lacking the HNF-1α gene, insulin secretion and intracellular calcium ([Ca2+] i ) responses were impaired following stimulation with nutrient secretagogues such as glucose and glyceraldehyde but normal with non-nutrient stimuli such as potassium chloride. Patch clamp recordings revealed ATP-sensitive K+currents (KATP) in β-cells that were insensitive to suppression by glucose but normally sensitive to ATP. Exposure to mitochondrial substrates suppressed KATP, elevated [Ca2+] i , and corrected the insulin secretion defect. NAD(P)H responses to glucose were substantially reduced, and inhibitors of glycolytic NADH generation reproduced the mutant phenotype in normal islets. Flux of glucose through glycolysis in islets from mutant mice was reduced, as a result of which ATP generation in response to glucose was impaired. We conclude that hepatocyte nuclear factor-1α diabetes results from defective β-cell glycolytic signaling, which is potentially correctable using substrates that bypass the defect.

Apoptosis in insulin-secreting cells. Evidence for the role of intracellular Ca2+ stores and arachidonic acid metabolism.

This study investigated the role of intracellular free Ca2+ concentration ([Ca2+]i) in apoptosis in MIN6 cells, an insulin secreting cell line, and in mouse islets. Thapsigargin, an inhibitor of sarcoendoplasmic reticulum Ca2+-ATPases (SERCA), caused a time- and concentration-dependent decrease in the viability of MIN6 cells and an increase in DNA fragmentation and nuclear chromatin staining changes characteristic of apoptosis. Two structurally distinct SERCA inhibitors, cyclopiazonic acid and 2,5-di-[t-butyl]-1,4-hydroquinone also caused apoptosis, but agents that increased [Ca2+]i by other mechanisms did not induce apoptosis in MIN6 cells. Carbachol- or ionomycin-releasible intracellular Ca2+ stores were completely depleted in cells treated by SERCA inhibitors, but not by other agents that increase [Ca2+]i. The ability of thapsigargin to induce cell death was not affected by blocking Ca2+ influx or by clamping [Ca2+]i with a cytosolic Ca2+ buffer suggesting that the process did not depend on changes in [Ca2+]i per se. However, application of the lipoxygenase inhibitors 5,8,11-eicosatrienoic acid and nordihydroguaiaretic acid partially prevented MIN6 cell apoptosis, while exposure of cells to the product of lipoxygenase, 12-hydroxy-[5,8,10,14]-eicosatetraenoic acid, caused apoptosis. In contrast, inhibition of cyclooxygenase with indomethacin did not abolish thapsigargin-induced apoptosis in MIN6 cells. Our findings indicate that thapsigargin causes apoptosis in MIN6 cells by depleting intracellular Ca2+ stores and leading to release of intermediate metabolites of arachidonic acid metabolism.

Alterations in Immunoreactive Proinsulin and Insulin Clearance Induced by Weight Loss in NIDDM

Subjects with overt non-insulin-dependent diabetes mellitus (NIDDM) were studied in comparison to obese nondiabetic control subjects and patients with subclinical diabetes. Pancreatic insulin secretion rates were measured by deconvolution of peripheral C-peptide over a 24-h period while subjects consumed an isocaloric mixed diet. Subjects were then placed on caloric restriction for at least 6 weeks, during which time body weight fell by at least 10%. Refeeding with solid mixed meals was then resumed for at least 2 weeks until isocaloric intake was attained, and then the meal profiles were repeated. Before weight loss, insulin, C-peptide, and insulin secretion rates were significantly higher in subjects with subclinical diabetes than in the other two groups. Proinsulin concentrations were significantly greater in the two diabetic groups than in control subjects, but, when expressed as a percentage of the total insulin immunoreactivity, the differences were significant only in the group with overt diabetes. Weight loss because of hypocaloric feeding resulted in a significant increase in the rate of clearance of endogenously secreted insulin but did not affect the clearance of C-peptide. In obese subjects and those with subclinical diabetes, weight loss was associated with a reduction in insulin secretion rates, presumably as a result of improvements in insulin sensitivity. In patients with overt diabetes and hyperglycemia, weight loss improved β-cell responsiveness to glucose and was associated with an increase in insulin clearance and a reduction in proinsulin immunoreactivity. contribution of proinsulin to total insulin immunoreactivity, measurement of total insulin-like immunoreactivity alone may provide misleading information in comparing β-cell function before and after weight loss in patients with insulin resistance, glucose intolerance, and diabetes.

Changes in Pancreatic Islet Glucokinase and Hexokinase Activities With Increasing Age, Obesity, and the Onset of Diabetes

We examined changes in high- and low-Km glucose phos-phorylating activity in pancreatic islet extracts from the prediabetic Zucker diabetic fatty (ZDF) rat between 5–6 weeks and 12 weeks of age (after the onset of diabetes). Comparisons were made between the activity observed in the ZDF rat and that seen in the ZDF lean control (ZLC) rat and the obese nondiabetic Zucker fatty (ZF) rat. At 5–6 weeks of age, insulin resistant ZDF and ZF rats were hyperinsulinemic, compared with the ZLC rat, but had normal plasma glucose levels. Kinetic parameters (Vmax and Km for glucose) of hex-okinase (HK) and Km of glucokinase (GCK) did not differ between groups. Islet GCK activity for ZDF and ZF rats was 1.7-fold greater than in ZLC rats (P < 0.02 and P < 0.001, respectively). By 12 weeks of age, hyper-secretion of insulin at 5.0 mmol/1 glucose was observed in perifused islets from both obese groups relative to the ZLC rat. Islets from ZDF rats failed to increase insulin secretion in response to increased glucose concentration. Group differences in the kinetic parameters for GCK or in the Km values for HK were not significant. Islet HK activity for ZDF and ZF rats was 1.9-fold (P < 0.05) and 1.7-fold (P < 0.05) greater, respectively, than for ZLC rats. Compared with the 5- to 6-week-old animals, HK activity increased 3.1-fold (P < 0.001), 2.5-fold (P < 0.002), and 2.0-fold (P < 0.05) for ZDF, ZF, and ZLC rats, respectively. Differences in GCK activity between 5- to 6- and 12-week-old rats were not significant for any of the groups. We conclude: 1) increased islet glucose phosphorylating activity is present in insulin resistant and hyperinsulinemic ZF and ZDF rats, relative to the ZLC rat; 2) at 12 weeks of age, hyperinsulinemic ZDF and ZF rats demonstrated significant increases in HK activity, compared with lean controls; and 3) deficiency in GCK activity does not explain failure of diabetic ZDF islets to respond to glucose, since differences between diabetic ZDF and non-diabetic ZF rats were not statistically significant. Increases in pancreatic islet phosphorylating activity seem to be important in maintaining basal hyperinsulinemia in insulin-resistant animals, but do not appear to play a role in the progression to glucose intolerance and diabetes.

Measurement of proinsulin and intermediates. Validation of immunoassay methods by high-performance liquid chromatography.

Human proinsulin and 32–33 split proinsulin have been measured in the peripheral circulation by immunoradiometric assays (IRMAs) and have been shown to be elevated in impaired glucose tolerance and non-insulin-dependent diabetes mellitus (NIDDM). The IRMA for 32–33 split proinsulin did not discriminate between this molecule and des-32 or des-31,32 split proinsulin. We describe the comparison of IRMA for human plasma proinsulin and 32–33 split proinsulins with assays combined with high-performance liquid chromatography (HPLC), which can discriminate between 32–33 split, des-32 split, and des-31,32 split proinsulin. Subjects were those with normal glucose tolerance (n = 8) and those with NIDDM (n = 17), who were studied while fasting and 30 min after a glucose load. After collection, blood was centrifuged promptly, and the serum/plasma was stored frozen until assay. Both IRMA and HPLC methods were calibrated against synthetic peptides. Interassay coefficients of variation for the IRMA for proinsulin and 32-33 split proinsulin were < 13% over the ranges 3.8–65 pmol/l and 6.4–65 pmol/l, respectively. The following regression lines were obtained: proinsulin IRMA ½ −0.143 + 1.066 HPLC, r = 0.860; 32–33 split proinsulin IRMA ½ 0.048 + 1.051 HPLC; and des-31,32 split proinsulin, r = 0.814. For both analytes, there was no significant difference in the relationship of IRMA to HPLC results between the various subject groups and various time points. Thus, the IRMA for proinsulin has been validated by an independent method. The 32–33 split proinsulin IRMA predominately measures des-31,32 split proinsulin, which is the major partially processed proinsulin present in human plasma of both normal and NIDDM subjects.

Hypoglycemia Due to Surreptitious Injection of Insulin: Identification of Insulin Species by High-Performance Liquid Chromatography

Objective To identify the circulating species of insulin after separation by high-performance liquid chromatography (HPLC) in patients with factitious hypoglycemia. Research Design and Methods In three of four patients presented, the diagnosis of surreptitious insulin injection was made by documenting the presence of animal insulin in the circulation after separation of the circulating insulin forms by HPLC. Results Animal insulin was identified. Conclusions Thus, the identification of the circulating form of insulin in the circulation by HPLC may be a useful adjunct in the diagnosis of factitious hypoglycemia if animal insulin has been injected and if the simultaneously measured concentrations of insulin and C-peptide are inconclusive.

Alterations in the Patterns of Insulin Secretion Before and After Diagnosis of IDDM

OBJECTIVE To study the natural history of β-cell dysfunction in an individual who developed insulin-dependent diabetes mellitus (IDDM) over a 13-month period while under observation. RESEARCH DESIGN AND METHODS Insulin secretion rates (ISR) in response to intravenous glucose and mixed meals were estimated by deconvolution of C-peptide levels. RESULTS When fasting glucose and glycosylated hemoglobin concentrations were still within the normal range, insulin secretory responses to intravenous glucose infusion were reduced, but 80- to 100-min secretory oscillations could still be detected. Sequential glucose infusion studies over a 3-month period demonstrated a progressive reduction in insulin secretion. The tight temporal coupling between ultradian oscillations in ISR and glucose observed in nondiabetic subjects was lost. In response to mixed meals, the oscillatory pattern of secretion was preserved, but the magnitude of the secretory responses was reduced. CONCLUSIONS Our results indicate that despite the lower absolute secretory rates, ultradian ISR oscillations persist in the period before and immediately after the onset of IDDM in this subject, but they are less tightly coupled to glucose than in nondiabetic subjects.

Lack of effect of high-dose biosynthetic human C-peptide on pancreatic hormone release in normal subjects

We studied the effect of high doses of biosynthetic human C-peptide on pancreatic hormone secretion in response to oral (75 g) and intravenous [( IV] 0.33 g/kg of D50%) glucose on normal volunteers. The infusion of human C-peptide at a rate of 360 ng/kg/min body weight, increased the plasma C-peptide concentration from a basal level of 0.32 +/- 0.04 pmol/mL to 38.5 +/- 1.8 pmol/ml. Overall, C-peptide had no significant effect on the serum levels of glucose, insulin, proinsulin, glucagon, and pancreatic polypeptide, either under basal conditions or following IV and oral glucose administration. However, small decreases in glucose and insulin concentrations that were not statistically significant were seen during the first hour after C-peptide infusion. The results of the present studies are therefore consistent with the conclusion that even supraphysiologic plasma concentrations of infused C-peptide do not affect basal insulin secretion or overall insulin secretory responses to oral or IV glucose. However, we cannot definitively exclude a small reduction in insulin secretion in the first hour after oral glucose ingestion.