Interaction of amiodarone and triiodothyronine on the expression of beta-adrenoceptors in brown adipose tissue of rat.

1. This study was undertaken to evaluate in vivo the influence of amiodarone on the effects of triiodothyronine (T3) in brown adipose tissue (BAT) which are independent of thyroid hormone synthesis and of the conversion of thyroxine (T4) to T3. Thyroidectomized rats were given a replacement dose of T3 (0.5 mg kg(-1) p.o. daily for 3 days) with or without amiodarone (50 mg kg(-1) p.o. daily for 1 week). 2. As assessed by RT-PCR, treatment of thyroidectomized rats with T3 caused a 2 fold decrease in beta3-adrenoceptor (beta3-AR) mRNA levels and a 2 fold increase in beta1-AR mRNA levels. 3. Binding studies using [3H]-CGP 12177 as a ligand showed that treatment of thyoidectomized rats with T3 resulted in a 70% decrease in beta3-AR number and in an 80% increase in beta1-AR in BAT membranes. 4. T3-treatment abolished the increase in BAT adenylyl cyclase (AC) activity induced by CGP12177 in thyroidectomized rats. It also decreased the amount of Gi protein (ADP-ribosylation) by 30%. 5. At variance with the literature on the heart, amiodarone administration did not inhibit the positive effect of T3 on beta1-AR expression in BAT in thyroidectomized rats. However, it antagonized the effect of T3 on beta3-AR number, but not on AC activity or on Gi expression. 6. These results indicate that the effects of thyroid hormones on the responsiveness of BAT to catecholamines involves both receptor and post-receptor mechanisms, they also suggest that interaction between amiodarone and thyroid hormones is highly tissue-specific and depends on the beta-AR subtype.

Triiodothyronine and amiodarone effects on beta 3-adrenoceptor density and lipolytic response to the beta 3-adrenergic agonist BRL 37344 in rat white adipocytes.

The beta-adrenergic effects of catecholamines are potentiated by thyroid hormones in adipose tissue. Amiodarone (AM) is structurally similar to thyroid hormones and was used to explore the mechanism of the triiodothyronine (T3) effect on beta-adrenergic receptors (beta-ARs) in adipose tissue. AM decreases the expression of some T3 sensitive genes in various tissues and antagonizes the effect of T3 on its nuclear receptors. In this study, the T3, AM and AM + T3 effects on the beta 1- and beta 3-AR density were assessed on rat white adipocytes by radioligand binding using [3H]CGP 12177 after characterization of these subtypes by displacement of [3H]CGP 12177 binding by isoproterenol, BRL 37344 and noradrenaline. BRL 37344 was used to study beta 3-AR lipolysis. White adipocytes from hyperthyroid rats had increased responsiveness (Emax x 2) and sensitivity (+ 38%) to BRL 37344, while those given AM alone had decreased values. Moreover, AM antagonized the T3 effect on lipolysis. The beta 1-binding characteristics (receptor density [Bmax]: 45 +/- 4 fmol/mg of proteins; dissociation factor [Kd]: 0.96 +/- 0.10 nM) were not modified by either compound. Finally, T3 significantly increased beta 3-AR density (587 +/- 69 versus 363 +/- 25 fmol/mg of proteins) and Kd (38 +/- 2 versus 23 +/- 3 nM), while AM alone had no effect and did not antagonize the T3 effect on beta 3-AR number. In conclusion, the hyperthyroid state in the rat potentiated the lipolytic response of white adipocytes to a specific beta 3-agonist and increased the beta 3-AR density without changing in beta 1-AR number and affinity. Furthermore, the lack of antagonism between AM and T3 on beta 3-AR expression suggests that T3 does not work directly on the beta 3-AR gene. Moreover, AM induced a functional tissular hypothyroid-like effect and its antilipolytic effect probably occurred at a postreceptor level.

Role of gender in road accidents.

Influence of driver sex on road accidents is assessed in this article. Accident records for 3 years and for three different income regions were analyzed. Annual distance traveled, social and economic participation, and effect of public vehicle accidents were considered. Effects of environmental factors and driver age were also included. Driver faults analysis identified possible reasons for accident differences. Analysis of accident severity was used to assess degree of harm. Statistical analysis at the 5% significance level was used to evaluate all differences. The results show that male accident rates are significantly higher. This trend is consistent through all the analyses. Accident differences are significant only in normal driving conditions. Drivers over age 50 had the lowest accident rates. Accident rate differences were caused by lack of attention and impatience among male drivers. Appropriate means of communication should alert concerned populations to these findings.

[Hemodynamic consequences of endogenous hyperinsulinism in obese rats with lesions of the ventromedial hypothalamus]. / Conséquences hémodynamiques de l'hyperinsulinisme endogène chez les rats obèses ayant des lésions de l'hypothalamus ventro-médian.

The rat with ventromedian hypothalamus lesions (VMH) is characterized by massive obesity, hyperinsulinemia, increase in parasympathetic tonus and sympathetic depression. The aim of this study was to examine in this model the hemodynamic changes and the baroreflex response and to compare the data with the evaluation of beta adrenergic sensitivity. In VMH rats and Sham operated rats hemodynamic parameters were followed until 8 weeks after operation. Heart rate (HR) and blood pressure (BP) were monitored each week during 24 hours by a telemetric system, a catheter being implanted in aorta. In VMH, HR was significantly lower by the first week (p = 0.02) and until the last measurement. Systolic BP increased progressively in the two groups but was higher in VMH only at 8 weeks (p = 0.03). Compared with Sham rats, 5 days after operation, the percentage of HR acceleration in response to atropine and isoprenaline was significantly higher in VMH, whereas HR response to sodium nitroprussiate was similar in the two groups. Plasma epinephrine and norepinephrine levels were significantly higher in VMH rats. The density of cardiac beta receptors decreased from 15 days to 3 months after operation, similarly in VMH and Sham rats. The affinity of cardiac beta receptors remained stable during the same period and very similar in VMH and Sham rats. This study suggests that in VMH rats 1. bradycardia results mainly from an increase in parasympathetic tone; 2. the increase in reflex tachycardia described in normal rats after insulin infusion needs a normal activity of the sympathetic nervous system; 3. catecholamine levels may be increased despite sympathetic depression, probably as a result of an increase in adrenomedullary secretion possibly due to endogenous hyperinsulinemia; 4. the lack of hypertension in this model including a massive obesity is likely to result from the proper vasodilatory effect of insulin.

Effects of triiodothyronine administration on the adenylyl cyclase system in brown adipose tissue of rat.

This study was undertaken to investigate the effect of triiodothyronine (T3) administration to euthyroid rats on beta 3-adrenoceptor (beta 3-AR) expression and on the different components of the adenylyl cyclase (AC) system in brown adipose tissue (BAT). In rats treated with T3, the beta 3-AR density (assessed by the binding of [3H]CGP-12177) showed a decrease of 50%, as did their mRNA, as analyzed by reverse transcriptase-polymerase chain reaction. In hyperthyroid rats, compared with control rats, there was a 40% increase in G alpha s activity (stimulated by NaF or GTP gamma S) and a fourfold increase in the protein concentration (Western blotting). In contrast, the level of the pertussis toxin substrate Gi declined by 35% in response to T3. Analysis of dose-response curves for isoproterenol and CGP-12177 revealed that neither basal nor stimulated AC activities nor 50% stimulatory concentration for these agonists was changed by T3 administration. In conclusion, these results suggest that downregulation of the beta 3-AR by T3 was counter-balanced by changes in other components of the AC cascade (i.e., Gs and Gi), so no change occurred in the capacity of BAT to generate adenosine 3',5'-cyclic monophosphate.

Impaired beta-adrenergic signaling pathway in white adipocytes of suckling fa/fa Zucker rats: a defect in receptor coupling.

BACKGROUND: In fa/fa Zucker rats, leptin receptor deficiency is responsible for both a deficit of energy expenditure and hyperphagia which lead to massive obesity and insulin resistance in adulthood. This obesity is also characterised by alterations of the beta-adrenergic signaling pathway. OBJECTIVE: To determine whether alterations in beta-adrenergic pathway could occur at the onset of obesity when fa/fa rats are not yet hyperinsulinemic. ANIMALS: Fourteen-day-old suckling fa/fa and Fa/fa littermates (from heterozygous lean (Fa/fa) female and homozygous obese (fa/fa) male mating). MEASUREMENTS: Membranes were prepared from isolated adipocytes after collagenase treatment of inguinal adipose tissue. The response of adenylyl-cyclase activity to stimulation by isoprenaline, GTPgamma-S or forskolin was studied. Bmax and Kd of (beta1+beta2) and of beta3 adrenoceptors were measured using 3H-CGP saturation binding experiments. mRNA concentration of beta1- and beta3-AR was determined by semi-quantitative RT-PCR. G(s)alpha protein was quantified by Western blotting and Gi protein by ADP-ribosylation. RESULTS: Despite an almost normal body weight, inguinal fat pad weight was increased two-fold by the expression of fa mutation. This increase was entirely accounted for by fat cell hypertrophy (x2.5 in volume). In fa/fa compared to Fa/fa pups, response of adenylyl cyclase to isoprenaline was decreased two-fold but responses to GTPgammaS or forskolin were unchanged. Density of (beta1+beta2) and beta3-AR was not affected by the fa/fa genotype, as well as G(s)alpha and Gi concentration. CONCLUSION: Response of inguinal fat cells to catecholamines was decreased without any quantitative modifications of the different elements of the adenylyl cyclase cascade. This suggests an alteration in the coupling between beta-AR and G proteins. Due to the important increase in fat cell volume we hypothesize that changes in the physical properties of plasma membranes and/or changes in cytoskeleton-extracellular-matrix interactions could disturb the beta-adrenergic pathway responsiveness. In addition to the excess of lipid storage, which occurs very early at the onset of obesity, the impairment of the responsiveness to catecholamines reported in this study might worsen the obesity syndrome.