Lena Hellström

Human beta-2 adrenoceptor gene polymorphisms are highly frequent in obesity and associate with altered adipocyte beta-2 adrenoceptor function.

Catecholamines play a central role in the regulation of energy expenditure, in part by stimulating lipid mobilization through lipolysis in fat cells. The beta-2 adrenoceptor (BAR-2) is a major lipolytic receptor in human fat cells. To determine whether known polymorphisms in codons 16, 27, and 164 of this receptor play a role in obesity and subcutaneous adipocyte BAR-2 lipolytic function, we investigated a group of 140 women with a large variation in body fat mass. Only the polymorphisms in codons 16 and 27 were common in the study population. The Gln27Glu polymorphism was markedly associated with obesity with a relative risk for obesity of approximately 7 and an odds ratio of approximately 10. Homozygotes for Glu27 had an average fat mass excess of 20 kg and approximately 50% larger fat cells than controls. However, no significant association with changes in BAR-2 function was observed. The Arg16Gly polymorphism was associated with altered BAR-2 function with Gly16 carriers showing a fivefold increased agonist sensitivity and without any change in BAR-2 expression. However, it was not significantly linked with obesity. These findings suggest that genetic variability in the human BAR-2 gene could be of major importance for obesity, energy expenditure, and lipolytic BAR-2 function in adipose tissue, at least in women.

Beta-adrenoceptor expression in human fat cells from different regions.

The expression of beta-adrenoceptors (BAR) was investigated in abdominal and gluteal fat cells of 32 nonobese men and women using radioligand binding and RNA excess solution hybridization. In both sexes the number of BAR binding sites was about twice as high in abdominal as in gluteal fat cells (P less than 0.01). Northern blot analysis of total RNA from adipose tissue showed hybridization of the BAR1 probe to an mRNA species of about 2.5 kb and of the BAR2 probe to an mRNA species of approximately 2.2 kb. The steady-state mRNA levels of BAR 1 and BAR 2 were also about twice as high in abdominal as in gluteal adipocytes of men and women (P less than 0.01). In abdominal fat cells the mRNA levels were approximately 45 and 30 molecules/cell for BAR1 and BAR2, respectively. There were no regional or sex variations in BAR 1 and BAR 2 mRNA stability. The apparent half-life of mRNA for both receptor subtypes was approximately 6 h in both regions. The mRNA levels for beta actin did not differ between the two regions in either sex. Thus, differences in expression of the genes encoding for BAR 1 and BAR 2 can explain why abdominal fat cells have more BAR than gluteal fat cells. This variation in gene expression may be a molecular mechanism underlying the well known regional differences in catecholamine-induced lipolysis activity between central and peripheral adipose tissue.

The different effects of a Gln27Glu β2-adrenoceptor gene polymorphism on obesity in males and in females

Objectives. To investigate the role of a polymorphism in codon 27 (Gln27Glu) of the β2‐adrenoceptor gene for obesity in males compared to previously investigated females with an association of this polymorphism to obesity.

Lipolytic catecholamine resistance due to decreased beta 2-adrenoceptor expression in fat cells.

The existence of lipolytic beta-adrenoceptor (BAR) resistance was investigated in vivo and in isolated abdominal subcutaneous adipocytes in 65 healthy and drug-free subjects. The concentration of isoprenaline (nonselective BAR agonist) causing half-maximum lipolysis effect (ED50) varied bimodally and 10(6)-fold between individuals but was almost constant in the same subject when measured two times at rest or before and 30 min after exercise. The subjects were categorized as having either high or low isoprenaline sensitivity. The former group had a 50% reduced in vivo lipolytic response to exercise and mental stress, despite a 50% increased plasma noradrenaline response (P < 0.01) and a 350% increased plasma adrenaline response (P < 0.02). In fat cells the lipolytic ED50 values for noradrenaline and terbutaline (BAR2 agonist) were 10 times lower (P < 0.001) in low-sensitive subjects, but the maximum lipolytic actions of these agents (and of isoprenaline) were similar in both groups. The action on lipolysis of dobutamine (BAR1 agonist), forskolin (stimulating adenylate cyclase), dibutyryl cyclic AMP (activating protein kinase), clonidine (alpha 2-adrenergic agonist), or phenyl isopropyladenosine (adenosine receptor agonist) were almost identical in high- and low-sensitivity subjects. ED50 for isoprenaline correlated with ED50 for terbutaline (r = 0.75), but not with ED50 for dobutamine. In high-sensitivity subjects the number of BAR2 was almost three-fold increased (P < 0.002) and the steady-state adipocyte mRNA level for BAR2 was sixfold increased (P < 0.005). BAR2 affinity as well as BAR1 number, affinity and mRNA expression were similar in both groups. In 11 cholecystectomy patients (otherwise healthy) lipolytic ED50 for beta agonists correlated in omental and subcutaneous fat cells (r = 0.85 for isoprenaline; r = 0.95 for terbutaline). In conclusion, lipolytic resistance to catecholamines is present in vivo in apparently healthy subjects due to reduced expression of BAR2 in adipocytes.

Mechanisms behind gender differences in circulating leptin levels

Abstract. Hellström L, Wahrenberg H, Hruska K, Wahrenberg H, Reynisdottir S, Arner P (Danderyd Hospital and Karolinska Institute, Stockholm, Sweden). Mechanisms behind gender differences in circulating leptin levels. J Intern Med 2000; 247: 457–462.

Adipocyte lipolysis in normal weight subjects with obesity among first-degree relatives

SummaryIn this study we investigated whether fat cell lipolysis could be involved in the aetiology of obesity by comparing non-obese subjects with (Hob) or without (Hnorm) a family trait for overweight. A family history of obesity was present when at least one of the first-degree relatives had body mass index of 27 kg/m2 or more. Twenty-seven healthy, drugfree non-obese adult subjects were investigated; 13 were Hob and the remaining 14 were Hnorm. Eleven Hob had at least one obese parent. Isolated fat cells from abdominal subcutaneous adipose tissue were incubated in vitro. Glycerol release (lipolysis index), mRNA levels and enzymatic activity of hormone-sensitive lipase and radioligand binding to beta1- and beta2-adrenoceptors were determined. The lipolytic effects of noradrenaline (major endogenous lipolytic agent), isoprenaline (a non-selective beta-adrenoceptor agonist), forskolin (a direct activator of adenylyl cyclase) and dibutyryl cyclic AMP (activating protein kinase and thereby hormone-sensitive lipase) were reduced by about 50% (p from 0.001 to 0.01). The maximum activity of hormone-sensitive lipase was reduced 50% in Hob (p<0.05) and correlated with the lipolytic responsiveness of fat cells in the whole population (r=0.71). However, there was no difference between the groups in steady-state mRNA levels for the enzyme. Beta1-, beta2- and alpha2-adrenoceptor sensitivity as well as beta1- and beta2-adrenoceptor numbers were normal in Hob. Fasting plasma insulin was 49.1 and 32.6 pmol/l, respectively in Hob and Hnorm (p=0.01). There was, however, no significant correlation between lipolysis in vitro and plasma insulin. Thus, lipolytic catecholamine resistance in fat cells, at least partly due to impaired function of hormone-sensitive lipase, is an adipocyte abnormality associated with a family tendency to obesity.