1.
Arterial norepinephrine concentration is inversely and independently associated with insulin clearance in obese individuals with metabolic syndrome.
Straznicky, NE, Grima, MT, Lambert, EA, Sari, CI, Eikelis, N, Nestel, PJ, Phillips, SE, Hering, D, Karapanagiotidis, S, Dixon, JB, et al
The Journal of clinical endocrinology and metabolism. 2015;(4):1544-50
-
-
Free full text
-
Abstract
CONTEXT Impaired insulin clearance contributes to the hyperinsulinemia of obesity, yet relatively little is known concerning the pathophysiological determinants of insulin clearance in obese populations. OBJECTIVE To examine the cross-sectional relationship between insulin clearance and resting sympathetic nervous system activity in a cohort of obese subjects with metabolic syndrome. PARTICIPANTS AND METHODS Unmedicated, nonsmoking subjects (31 male, 27 female; aged 56 ± 1 year; body mass index 33.7 ± 0.6 kg/m(2)) underwent euglycemic hyperinsulinemic clamp to determine insulin sensitivity (M) and insulin clearance, assessment of norepinephrine kinetics, peripheral arterial tonometry, Doppler echocardiography, and oral glucose tolerance test. RESULTS Univariate correlation analyses showed inverse associations between insulin clearance and arterial norepinephrine concentration (r = -0.44, P = .0006), calculated norepinephrine spillover rate (r = -0.33, P = .01), augmentation index (AI, r = -0.37, P = .005), and positive associations with M (r = 0.30, P = .02), Matsuda insulin sensitivity index (r = 0.27, P = .04), and cardiac output (r = 0.27, P = .04). Insulin clearance and sensitivity did not differ between genders, however females had higher AI compared to males (35 ± 3% versus 14 ± 2%, P < .001). In age and gender adjusted stepwise regression analyses, arterial norepinephrine concentration alone explained 19% of the variance in insulin clearance. When all significant variables were entered into the regression model, arterial norepinephrine, AI, gender, and M were independent predictors of insulin clearance, together explaining 41% of the variance. CONCLUSIONS Arterial norepinephrine concentration is inversely and independently associated with whole-body insulin clearance rate in obese individuals with metabolic syndrome. Prospective studies are needed to determine the direction of causality and the chronology of interactions between insulin clearance and sympathetic neural activity.
2.
Weight variation before and after surgery in Parkinson's disease: a noradrenergic modulation?
Guimarães, J, Moura, E, Vieira-Coelho, MA, Garrett, C
Movement disorders : official journal of the Movement Disorder Society. 2012;(9):1078-82
Abstract
Changes in the nutritional profile of patients with Parkinson's disease have been reported before and after deep brain stimulation surgery. The major determinants of the weight variation in Parkinson's disease are not yet understood, and the mechanism seems complex. Based on the influence of the sympathetic nervous system in metabolic syndrome obesity, the intent of the present review is to consider the role of noradrenergic modulation on weight variations in Parkinson's disease. In this review the authors raise the following hypothesis: weight variation in Parkinson's disease before and after deep brain stimulation of the subthalamic nucleus could be influenced by noradrenergic interaction between the locus coeruleus, subthalamic nucleus, and hypothalamic nucleus.
3.
The Trp64Arg beta3-adrenergic receptor amino acid variant confers increased sensitivity to the pressor effects of noradrenaline in Sardinian subjects.
Melis, MG, Secchi, G, Brizzi, P, Severino, C, Maioli, M, Tonolo, G
Clinical science (London, England : 1979). 2002;(4):397-402
Abstract
The beta(3)-adrenergic receptor (beta(3)AR) plays a critical role in lipid metabolism, and thus alterations in its function may be involved in the metabolic syndrome. Indeed, we have found previously that the Trp64Arg amino acid variant of the beta(3)AR is associated with hypertension and higher serum triacylglycerol levels in the Sardinian population. The aim of the present study was to evaluate the effect of the Trp64Arg beta(3)AR variant on the regulation of triacylglycerol levels and blood pressure during the exogenous infusion of noradrenaline. We studied groups of non-diabetic normotensive subjects: eight with the wild-type Trp64Trp beta(3)AR and eight with the Trp64Arg variant. The subjects each received, on two different days (randomized, double-blind fashion), a 4 h infusion of either noradrenaline (0.147 nmol.min(-1).kg(-1)) or Emagel (subjects had fasted for at least 12 h). The only available subject with a homozygous mutant Arg64Arg beta(3)AR was also studied. Blood pressure was measured every 10 min using a sphygmomanometer, and blood samples were taken every 30 min from the contralateral vein for biochemical determinations. After a 4 h noradrenaline infusion, significant increases in diastolic blood pressure (from 83+/-2 to 91+/-3 mmHg; P <0.01) and serum triacylglycerol levels (from 1.69+/-0.4 to 1.79+/-0.6 mmol/l; P <0.05) were observed compared with basal values in subjects with the Trp64Arg beta(3)AR variant, whereas subjects with the Trp64Trp beta(3)AR did not show any significant change over the infusion period. Glycaemia had increased significantly only at the end of the first 1 h of infusion in subjects with the Trp64Arg variant (from 5.0+/-0.1 to 5.8+/-0.3 mmol/l; P <0.05), with no significantly different behaviour compared with those subjects with the Trp64Trp beta(3)AR during the remaining infusion period. The effects of noradrenaline infusion were more marked in the subject with the Arg64Arg variant. In conclusion, our data indicate that the Trp64Arg amino acid variant of the beta(3)AR confers increased sensitivity to the pressure effect of noradrenaline. Moreover, this variant also influences blood triacylglycerol levels and, to a degree, glucose metabolism.