Short-term exposure to exenatide can restore the insulin secretory pattern in response to acute rises in glucose concentrations in DM2 patients who, in the absence of exenatide, do not display a first phase of insulin secretion. Loss of first-phase insulin secretion in DM2 patients may be restored by treatment with exenatide.
OBJECTIVE -To assess long-term weight loss efficacy and safety of pramlintide used at different dosing regimens and in conjunction with lifestyle intervention (LSI).RESEARCH DESIGN AND METHODS -In a 4-month, double-blind, placebocontrolled, dose-ranging study, 411 obese subjects were randomized to receive pramlintide (six arms: 120, 240, and 360 g b.i.d. and t.i.d.) or placebo in conjunction with a structured LSI program geared toward weight loss. Of the 4-month evaluable subjects (n ϭ 270), 77% opted to continue preexisting treatment during an 8-month single-blind extension (LSI geared toward weight maintenance).RESULTS -At month 4, mean weight loss from baseline in the pramlintide arms ranged from 3.8 Ϯ 0.7 to 6.1 Ϯ 0.8 kg (2.8 Ϯ 0.8 kg with placebo). By month 12, initial 4-month weight loss was regained in the placebo group but was maintained in all but the 120-g b.i.d. group. Placebo-corrected weight loss with 120 g t.i.d. and 360 g b.i.d. averaged 3.2 Ϯ 1.2 kg (3.1 Ϯ 1.1% body wt) and 3.3 Ϯ 1.1 kg (3.1 Ϯ 1.0% body wt), respectively, at month 4 (both P Ͻ 0.01; 4-month evaluable n ϭ 270) and 6.1 Ϯ 2.1 kg (5.6 Ϯ 2.1% body wt) and 7.2 Ϯ 2.3 kg (6.8 Ϯ 2.3% body wt), respectively, at month 12 (both P Ͻ 0.01; 12-month evaluable n ϭ 146). At month 12, 40 and 43% of subjects treated with 120 g t.i.d. and 360 g b.i.d., respectively, achieved Ն10% weight loss (vs. 12% for placebo). Nausea, the most common adverse event with pramlintide in the 4-month study (9 -29% pramlintide vs. 2% placebo), was generally mild to moderate and occurred in Ͻ10% of subjects during the extension. CONCLUSIONS -When used over 12 months as an adjunct to LSI, pramlintide treatment, with low-dose three-times-daily or higher-dose two-times-daily regimens, helped obese subjects achieve greater initial weight loss and enhanced long-term maintenance of weight loss.
. Overexpression of hexokinase II increases insulin-and exercise-stimulated muscle glucose uptake in vivo. Am. J. Physiol. 276 (Endocrinol. Metab. 39): E70-E77, 1999.-The hypothesis of this investigation was that glucose uptake would be increased in skeletal muscle of transgenic mice (TG) overexpressing hexokinase II (HK II) compared with their nontransgenic littermates (NTG) during euglycemic hyperinsulinemia and treadmill exercise. For insulin experiments, catheters were surgically implanted in the jugular vein and carotid artery for infusions and sampling, respectively. Conscious mice underwent experiments ϳ5 days later in which 4 mU·kg Ϫ1 · min Ϫ1 insulin and variable glucose (n ϭ 7 TG and n ϭ 7 NTG) or saline (n ϭ 5 TG and n ϭ 4 NTG) was infused for 140 min. Over the last 40 min of the experiments, 2-deoxy-[ 3 H]glucose ([2-3 H]DG) was infused, after which muscles were removed. For the exercise experiments, jugular vein catheters were surgically implanted. Five days later, mice received a bolus of [2-3 H]DG and then remained sedentary (n ϭ 6 TG and n ϭ 8 NTG) or ran on a motorized treadmill (n ϭ 12 TG and n ϭ 8 NTG) for 30 min. TG and NTG had similar muscle [2-3 H]DG 6-phosphate ([2-3 H]DGP) accumulation in the basal state (P Ͼ 0.05). In the hyperinsulinemic experiments, TG required ϳ25% more glucose to maintain euglycemia (P Ͻ 0.05), and muscle [2-3 H]DGP accumulation normalized to infusate [2-3 H]DG was similarly increased (P Ͻ 0.05). In the exercise experiments, muscle [2-3 H]DGP accumulation was significantly greater in TG than NTG (P Ͻ 0.05). In conclusion, we did not detect an effect of HK II overexpression on muscle [2-3 H]DGP accumulation under basal conditions. Hyperinsulinemia and exercise shift the control of muscle glucose uptake so that phosphorylation is a more important determinant of the rate of this process. transgenic mice; glucose phosphorylation; 2-deoxyglucose
Evidence from rodent studies indicates that the β-cell-derived neurohormone amylin exerts multiple effects on eating behavior, including reductions in meal size, intake of highly palatable foods, and stress-induced sucrose consumption. To assess the effect of amylin agonism on human eating behavior we conducted a randomized, blinded, placebo-controlled, multicenter study investigating the effects of the amylin analog pramlintide on body weight, 24-h caloric intake, portion sizes, “fast food” intake, and perceived control of eating in 88 obese subjects. After a 2-day placebo lead-in, subjects self-administered pramlintide (180 μg) or placebo by subcutaneous injection 15 min before meals for 6 wk without concomitant lifestyle modifications. Compared with placebo, pramlintide treatment elicited significant mean reductions from baseline in body weight on day 44 (−2.1 ± 0.3 vs. +0.1 ± 0.4%, P < 0.001), 24-h caloric intake (−990 ± 94 vs. −243 ± 126 kcal on day 3, P < 0.0001; −680 ± 86 vs. −191 ± 161 kcal on day 43, P < 0.01), portion sizes, and caloric intake at a “fast food challenge” (−385 ± 61 vs. −109 ± 88 kcal on day 44, P < 0.05). Pramlintide treatment also improved perceived control of eating, as demonstrated by a 45% placebo-corrected reduction in binge eating scores ( P < 0.01). The results of this translational research study confirm in humans various preclinical effects of amylin agonism, demonstrating that pramlintide-mediated weight loss in obese subjects is accompanied by sustained reductions in 24-h food intake, portion sizes, fast food intake, and binge eating tendencies.
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