B. J. Wallum scite author profile

In this study, we found that the ratio of proinsulin to total immunoreactive insulin was much higher in 22 patients with Type 2 (non-insulin-dependent) diabetes mellitus than in 28 non-diabetic control subjects of similar age and adiposity (32 +/- 3 vs 15 +/- 1%, p less than 0.001). In addition, the arginine-induced acute proinsulin response to total immunoreactive insulin response ratio was greater in diabetic patients (n = 10) than in control subjects (n = 9) (8 +/- 2 vs 2 +/- 0.5%, p = 0.009), suggesting that increased islet secretion per se accounted for the increased ratio of proinsulin to immunoreactive insulin. One explanation for these findings is that increased demand for insulin in the presence of islet dysfunction leads to a greater proportion of proinsulin secreted from the B cell. We tested this hypothesis by comparing proinsulin secretion before and during dexamethasone-induced insulin resistance in diabetic patients and control subjects. Dexamethasone treatment (6 mg/day for 3 days) raised the proinsulin to immunoreactive insulin ratio in control subjects from 13 +/- 2 to 21 +/- 2% (p less than 0.0001) and in diabetic patients from 29 +/- 5 to 52 +/- 7% (p less than 0.001). Dexamethasone also raised the ratio of the acute proinsulin response to the acute immunoreactive insulin response in control subjects from 2 +/- 0.5 to 5 +/- 2% (p = 0.01) and in diabetic patients from 8 +/- 2 to 14 +/- 4% (p = NS), suggesting that the dexamethasone-induced increment in the basal ratio of proinsulin to immunoreactive insulin was also due to increased secretion.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cerebrospinal Fluid Insulin Levels Increase During Intravenous Insulin Infusions in Man*

Wallum

Taborsky

Porte

et al. 1987

The Journal of Clinical Endocrinology & Metabolism

238

134

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We hypothesized that plasma insulin crosses the blood-cerebrospinal fluid (CSF) barrier and, as people gain weight, provides a physiological feedback signal to the central nervous system to inhibit food intake and further weight gain. However, it has not been demonstrated in man that insulin can enter the CSF from peripheral blood. To test whether increases in plasma insulin result in elevated CSF immunoreactive insulin (IRI) levels, we infused insulin iv in varying amounts approximating postprandial levels in eight normal subjects for 4.5 h. Euglycemia was maintained [88 +/- 3 (+/- SEM) mg/dl] by means of a variable glucose infusion. Samples were obtained every 30 min for measurements of insulin in peripheral plasma and insulin in lumbar CSF. Plasma IRI increased from a mean basal level of 12 +/- 1.2 microU/ml to a mean (during the 180- to 270-minute period) of 268 +/- 35 microU/ml. CSF IRI increased in all subjects during the infusion from a mean basal level of 0.9 +/- 0.1 microU/ml to a mean (during the 180- to 270-min period) of 2.8 +/- 0.4 microU/ml (P less than 0.006). By contrast, CSF IRI in two subjects who received an infusion of 0.9% saline did not increase. In summary, CSF insulin concentrations increased during peripheral infusions of insulin. This is the first demonstration in man that plasma insulin gains access to CSF and indicates a mechanism whereby peripheral insulin could provide a feedback signal to the central nervous system.

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Reduction of Glycemic Potentiation: Sensitive Indicator of β-Cell Loss in Partially Pancreatectomized Dogs

Ward

Wallum

Beard

et al. 1988

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To determine which test of islet function is the most sensitive indicator of subclinical beta-cell loss, we studied six conscious dogs before and 1 and 6 wk after removal of the splenic and uncinate lobes [64 +/- 2% pancreatectomy (PX)]. To assess hyperglycemic potentiation, acute insulin secretory responses (AIR) to 5 g i.v. arginine were measured at the fasting plasma glucose (FPG) level after PG was clamped at approximately 250 mg/dl and after PG was clamped at a maximally potentiating level of 550-650 mg/dl. FPG levels were unaffected by PX (112 +/- 4 mg/dl pre-PX vs. 115 +/- 5 mg/dl 6 wk after PX, P NS). Similarly, basal insulin levels remained constant after PX (11 +/- 2 microU/ml pre-PX vs. 11 +/- 1 microU/ml 6 wk after PX, P NS). The AIR to 300 mg/kg i.v. glucose decreased slightly from 42 +/- 9 microU/ml pre-PX to 32 +/- 5 microU/ml 6 wk after PX (P NS), and thus the beta-cell loss was underestimated. In contrast, insulin responses to arginine declined markedly after PX. The AIR to arginine obtained at FPG levels declined from 23 +/- 3 microU/ml pre-PX to 13 +/- 2 microU/ml 6 wk after PX (P = .04). The AIR to arginine obtained at PG levels of approximately 250 mg/dl declined even more, from a pre-PX value of 56 +/- 7 microU/ml to 21 +/- 4 microU/ml 6 wk after PX (P = .02).(ABSTRACT TRUNCATED AT 250 WORDS)

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B. J. Wallum

Disproportionate elevation of immunoreactive proinsulin in Type 2 (non-insulin-dependent) diabetes mellitus and in experimental insulin resistance

Cerebrospinal Fluid Insulin Levels Increase During Intravenous Insulin Infusions in Man*

Reduction of Glycemic Potentiation: Sensitive Indicator of β-Cell Loss in Partially Pancreatectomized Dogs

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