Effect of electrical stimulation on beta-adrenergic receptor population and cyclic amp production in chicken and rat skeletal muscle cell cultures

Expression of the beta-adrenergic receptor (betaAR) and its coupling to cyclic AMP (cAMP) synthesis are important components of the signaling system that controls muscle atrophy and hypertrophy, and the goal of this study was to determine if electrical stimulation in a pattern simulating slow muscle contraction would alter the betaAR response in primary cultures of avian and mammalian skeletal muscle cells. Specifically, chicken skeletal muscle cells and rat skeletal muscle cells that had been grown for 7 d in culture were subjected to electrical stimulation for an additional 2 d at a pulse frequency of 0.5 pulses/sec and a pulse duration of 200 msec. In chicken skeletal muscle cells, the betaAR population was not significantly affected by electrical stimulation; however, the ability of these cells to synthesize cyclic AMP was reduced by approximately one-half. In contrast, the betaAR population in rat muscle cells was increased slightly but not significantly by electrical stimulation, and the ability of these cells to synthesize cyclic AMP was increased by almost twofold. The basal levels of intracellular cyclic AMP in neither rat muscle cells nor chicken muscle cells were affected by electrical stimulation.

Downregulation of beta adrenergic receptor expression on B cells by activation of early signals in alloantigen-induced immune response

Previously we described a decrease in beta-adrenergic receptor expression in B lymphocytes as a consequence of in vivo alloimmunization. This decrease correlates with the highest response of alloantibody production by B cells. In the present report we examined the participation of intracellular signals elicited after alloimmune stimulation. We showed that in vitro stimulation of B cells with mitomycin C-treated allogenic cells induced a reduction in the number of beta-adrenoceptors. This downregulation correlated to changes in basal and in isoproterenol-stimulated intracellular cAMP levels. We found that calcium mobilization and protein kinase C activation triggered after direct allogenic stimulation and/or by the action of T cell-soluble factors induced the reduction in beta-adrenoceptor sites. These findings could be of interest to understand the neuroendocrine mechanisms involved in the regulation of B cell activation.

Potential future therapies for heart failure: gene transfer of beta-adrenergic signaling components

Congestive heart failure (CHF), despite the improved prevention and treatment modalities adopted for cardiovascular disease over the past two decades, remains a significant therapeutic challenge. Efficacious therapies are few, and death rates from CHF continue to rise. Recent advances in our understanding of the molecular basis of CHF have given rise to experimental animal models demonstrating related genetic phenotypes, which further elucidate cellular mechanisms involved in the pathogenesis of the failing heart. Studies involving transgenic mice have elucidated novel potential gene therapy interventions aimed at the genetic modification of beta-adrenergic signaling in the heart. This review will briefly discuss beta-adrenergic signaling in CHF, while focusing on potential gene therapy strategies to improve the performance of the failing heart.

Mechanisms underlying immunologic states during pregnancy: possible association of the sympathetic nervous system

NK and extrathymic T cells are abundant in the decidua of the pregnant uterus. To determine how this unique pattern is induced, overall populations of leukocytes were examined in the blood and other tissues in pregnant women. Time-kinetic studies showed that a basal change of leukocytes during pregnancy was granulocytosis and lymphocytopenia in the blood. This change might be due to sympathetic nerve activation during pregnancy, because the administration of catecholamine is known to activate myelopoiesis in the bone marrow. In addition to the numerical change, the functional activation of NK and extrathymic T cells also seemed to be present. This might be due to NK cells and extrathymic T cells (as well as granulocytes), which carry a high density of surface adrenergic receptors. Such functional activation of NK and extrathymic T cells was more prominent in the blood and urine in patients with preeclampsia and hyperemesis gravidarum than in normal pregnant women. The present results suggest that the activation of granulocytes, NK cells, and extrathymic T cells is essential for the maintenance of pregnancy but that overactivation thereof may be responsible for the onset of pregnancy disorders.

Interspecies differences in the cardiac negative inotropic effects of beta(3)-adrenoceptor agonists

The aim of the present study was to compare the effects of three preferential (BRL 37344, SR 58611, CL 316 243) and a partial (CGP 12177) beta-adrenoceptor (beta(3)-AR) agonists on the contractility of ventricular strips sampled from various mammalian species including humans. In the human heart, all beta(3)-AR agonists tested decreased contractility by 40 to 60% below control with an order of potency: BRL 37344 > CL 316 243 = SR 58611 >> CGP 12177. In the dog, the negative inotropic effects produced by beta(3)-AR stimulation were less pronounced than in humans, approximately 30% below control. The order of potency of beta(3)-AR agonists was CGP 12177 > BRL 37344 = SR 58611 >> CL 316 243; i.e., very different from that observed in humans. In rat, only BRL 37344 was efficient to decrease contractility. In guinea pig, only CL 316 243 significantly reduced peak tension. In both species, the reduction in peak tension did not exceed 20 to 30%. Finally, in the ferret, none of the agonists tested induced a negative inotropic effect. In dog, the negative inotropic effects of CGP 12177 were not modified by nadolol, but were abolished by bupranolol, a beta(1-3)-AR. beta(3)-AR transcripts were detected in the dog but not in the rat ventricle by using a reverse transcription-polymerase chain reaction assay. We conclude that cardiac negative inotropic effects related to beta(3)-AR agonist stimulation vary markedly depending on the species. A comparable interspecies variation previously has been reported concerning the lipolytic effects of beta(3)-AR agonist stimulation. Our study demonstrates that the pharmacological profile of a beta(3)-AR agonist on the human myocardium cannot be extrapolated from usual animal models.

Depressed expression of adipocyte beta-adrenergic receptors is a common feature of congenital and diet-induced obesity in rodents

OBJECTIVE

To determine whether the dramatic reduction in expression and functional activity of the beta3-adrenergic receptor (AR) and beta1AR subtypes originally observed in adipose tissue of the C57BL/6J Lep(ob)/Lep(ob) ('obese') mouse are general features of all models of obesity, and whether obesity-related differences in betaAR subtype expression occur between adipose depots.

DESIGN

Survey of adipose tissue betaAR expression from four mouse models of congenital obesity: the 'obese' mouse (C57BL/6J Lep(ob)/Lep(ob)), the 'diabetic' mouse (C57BL/KsJ LepRdb/LepRdb), the 'tubby' mouse (C57BL/6J tub/tub) and the 'fat' mouse (C57BL/KsJ Cpe(fat)/Cpe(fat)), and in a model of high-fat diet-induced obesity in C57BL/6J mice.

MEASUREMENTS

Expression of the betaAR subtypes was measured by Northern blot hybridization in white and brown adipose depots.

RESULTS

In the severely obese Lep(ob) and LepRdb mice, mRNA concentrations of beta3AR and beta1AR in white adipose tissue (WAT) were decreased by > 99% and by > 70%, respectively. More modest effects on beta3AR expression were observed in brown adipose tissue (BAT, decreased by 20 - 30%). In less severe forms of obesity, as found in the tubby and carboxypeptidase (Cpe)fat mice, and in diet-induced obese B6 mice, beta3AR expression was decreased in WAT by up to 90%, with more modest decreases in interscapular BAT (IBAT). Changes in beta1AR mRNA concentrations were more variable. Beta2AR mRNA levels did not differ in most cases, with the exception that there was a 3-5-fold increase in BAT for both Lep(ob) and LepRdb mice.

CONCLUSIONS

Impaired expression of adipocyte betaAR subtypes is a general feature of both genetic and dietary obesity in mice. The degree of obesity is correlated with the extent of loss of beta3AR and beta1AR expression in WAT. The distinct endocrine abnormalities associated with these obesity models may be responsible for the degree of impaired adipocyte betaAR expression.

Synergistic effects of neurotensin and beta-adrenergic agonist on 3,5-cyclic adenosine monophosphate accumulation and DNA synthesis in prostate cancer PC3 cells

Since neurotensin is often co-stored with catecholamines and since it can excite the release of dopamine and norepinephrine, responses to this peptide might depend upon the activity of catecholaminergic systems. In this study, we used prostate cancer PC3 cells, which express neurotensin receptors and 12-adrenergic receptors, to demonstrate that neurotensin can potentiate the effects of isoproterenol on 3',5'-cyclic adenosine monophosphate (cAMP) formation and on inhibition of DNA synthesis. While neurotensin had only a slight effect on basal cAMP levels, it nearly doubled the response to isoproterenol even at maximal levels without altering potency. Neurotensin increased the rate of cAMP accumulation and the steady-state level achieved. Consistent with the known antimitogenic action of dibutyryl-cAMP in PC3 cells, isoproterenol was found to inhibit DNA synthesis concentration-dependently, measured using [3H]thymidine. Neurotensin enhanced DNA synthesis when given alone. However, it inhibited DNA synthesis when given with a threshold level of isoproterenol, which by itself had no significant effect. These results, demonstrating cross-talk in the neurotensin and beta-adrenergic signaling pathways, suggest that there may be other physiologic instances of similar interactions between neurotensin and catecholamines.

Modeling geriatric depression in animals: biochemical and behavioral effects of olfactory bulbectomy in young versus aged rats

Geriatric depression exhibits biological and therapeutic differences relative to early-onset depression. We studied olfactory bulbectomy (OBX), a paradigm that shares major features of human depression, in young versus aged rats to determine mechanisms underlying these differences. Young OBX rats showed locomotor hyperactivity and a loss of passive avoidance and tactile startle. In contrast, aged OBX animals maintained avoidance and startle responses but showed greater locomotor stimulation; the aged group also exhibited decreased grooming and suppressed feeding with novel presentation of chocolate milk, effects which were not seen in young OBX. These behavioral contrasts were accompanied by greater atrophy of the frontal/parietal cortex and midbrain in aged OBX. Serotonin transporter sites were increased in the cortex and hippocampus of young OBX rats, but were decreased in the aged OBX group. Cell signaling cascades also showed age-dependent effects, with increased adenylyl cyclase responses to monoaminergic stimulation in young OBX but no change or a decrease in aged OBX. These data indicate that there are biological distinctions in effects of OBX in young and aged animals, which, if present in geriatric depression, provide a mechanistic basis for differences in biological markers and drug responses. OBX may provide a useful animal model with which to test therapeutic interventions for geriatric depression.

[Gene expression of beta-adrenoceptor signal transmitters in heart failure]

OBJECTIVE

To investigate the alteration in steady-state levels of messenger RNA(mRNA) of beta-adrenoceptor signal transmitters in heart failure.

METHODS

The reverse transcription polymerase chain reaction (RT-PCR) was used to assess gene expression in small quantity of circulatory lymphocytes. With selected oligonucleotide primers, we used quantitative RT-PCR to amplify mRNAs encoding beta 2-adrenergic receptor(beta 2-AR), adenylate cyclase (AC), beta 2-adrenergic receptor kinase(beta-ARK), and beta-arrestin and cAMP response element binding protein (CREB) in 16 healthy subjects and 30 heart-failing patients.

RESULTS

The alteration of gene expression in heart failure appeared to be selective, the steady-state levels of mRNA increased significantly involving AC and the transcription factor, CREB; decreased significantly involving membrane receptor, beta 2-AR; unchanged significantly involving phosphorylating factors of beta-AR uncoupling, beta-ARK and beta-arrestin.

CONCLUSION

The aberrant gene expression of beta-adrenergic receptor might play an important role in the pathogenesis of heart failure.

Effects of chronic electroconvulsive shock on the expression of beta-adrenergic receptors in rat brain: immunological study

The purpose of the present study is to determine the effect of chronic electroconvulsive shock (ECS) on the expression of beta-adrenergic receptors in rat brain by Western blot using mAb beta CO2, a monoclonal antibody against beta-adrenergic receptors. Rats in ECS treated groups received maximal ECS (70 mA, 0.5 second, 60 Hz) through ear-clip electrodes for 12 consecutive days. The experiment was carried out in 14 discrete regions of brain. Chronic ECS reduced the expression of beta-adrenergic receptors in frontal cortex, temporal cortex, parietooccipital cortex, hippocampus and limbic forebrain, but not in other areas of brain. The regional specificity and the magnitude of the reduction of receptor expression are well correlated with those of the reduction of receptor ligand binding, which was determined using [3H]dihydroalprenolol. To the best of our knowledge, this is the first report to demonstrate that chronic ECS decreases the expression of receptor protein in specific regions of rat brain.

Expression and possible functional role of the beta3-adrenoceptor in human and rat detrusor muscle

PURPOSE

To investigate the presence of the beta3-adrenoceptor (beta3-AR) in human and rat detrusor muscle and the usefulness of beta3-AR agonists as drugs for the treatment of urinary frequency.

MATERIALS AND METHODS

FK175, ethyl [(S)-8-[(R)-2-(3-chlorophenyl)-2-hydroxyethylamino]-6,7,8,9-tetrah ydro-5H-benzocyclohepton-2-yloxy]acetate monohydrochloride monohydrate, was used as a beta3-AR selective agonist. The expression of beta-AR subtypes (beta1-, beta2-, beta3-AR) mRNA was investigated in rat and human detrusor muscle by RT-PCR. Beta3-AR agonist induced cyclic AMP (cAMP) levels were measured in rat detrusor muscle strips. The relaxation response produced by a beta3-AR agonist was measured in a KCl induced tonic contraction model in rat detrusor muscle strips. The effect of a beta3-AR agonist on urinary bladder function was investigated by cystometry using a conscious rat model of urinary frequency.

RESULTS

beta3-AR mRNA was substantially expressed in both rat and human detrusor muscles. The beta3-AR agonist, FK175 (10(-7) M), increased the cAMP level by 30% in rat detrusor muscle. In isolated rat detrusor muscle strips contracted with KCl, the beta3-AR agonist, FK175 (10(-8) to 10(-4) M), produced a concentration-dependent relaxation. Moreover, although the relaxation induced with FK175 was blocked by the non-selective beta-AR antagonist, bupranolol, it was unaffected by ether the beta1-AR selective antagonist, CGP 20712A, or the beta2-AR selective antagonist, ICI 118551, suggesting that FK175 induced the relaxation via the beta3-AR. Furthermore, in the rat model, the orally administered beta3-AR agonist, FK175 (10 mg./kg.) significantly increased bladder capacity with no change of micturition pressure or threshold pressure.

CONCLUSIONS

These results suggest that beta3-AR agonists may be effective in the treatment of urinary frequency.

Regulated endocytosis of G-protein-coupled receptors by a biochemically and functionally distinct subpopulation of clathrin-coated pits

beta-2 Adrenergic receptors (B2ARs) are endocytosed by clathrin-coated pits. This process serves specialized functions in signal transduction and receptor regulation, raising the question of whether B2ARs are associated with biochemically specialized membrane vesicles during their endocytic trafficking. Here we show that B2ARs are endocytosed by a distinct subpopulation of clathrin-coated pits, which represent a limited subset of coated pits present in the plasma membrane, even in cells overexpressing both B2ARs and beta-arrestin. Coated pits mediating agonist-induced endocytosis of B2ARs differ from other coated pits mediating constitutive endocytosis of transferrin receptors in their temperature dependence for fission from the plasma membrane and in the association of their membrane coats with beta-arrestin. Endocytosis of these coated pits generates endocytic vesicles selectively enriched in B2ARs, which fuse within approximately 10 min after their formation with a common population of endosomes containing both B2ARs and transferrin receptors. These observations demonstrate, for the first time, the existence of a functionally and biochemically distinct subpopulation of clathrin-coated pits that mediate the agonist-regulated endocytosis of G-protein-coupled receptors, and they suggest a new model for the formation of compositionally specialized membrane vesicles at the earliest stage of the endocytic pathway.

Differential coupling of alpha1-, alpha2-, and beta-adrenergic receptors to mitogen-activated protein kinase pathways and differentiation in transfected PC12 cells

Three adrenergic receptor families that selectively activate three different G proteins (alpha1/Gq/11, alpha2/Gi, and beta/Gs) were used to study mitogen-activated protein kinase (MAPK) activation and differentiation in PC12 cells. PC12 cells were stably transfected with alpha1A-, alpha2A-, or beta1-adrenergic receptors (ARs) in an inducible expression vector, and subclones were characterized. Norepinephrine stimulated inositol phosphate formation in alpha1A-transfected cells, inhibited cyclic adenosine 3'5'-monophosphate (cAMP) formation in alpha2A-transfected cells, and stimulated cAMP formation in beta1-transfected cells. Nerve growth factor activated extracellular signal-regulated kinases (ERKs) in all cell lines; however, norepinephrine activated ERKs only in alpha1A- and beta1-transfected cells but not in alpha2A-transfected cells. Norepinephrine also activated c-Jun NH2-terminal kinase and p38 MAPK in alpha1A-transfected cells but not in beta1- or alpha2A-transfected cells. Norepinephrine caused differentiation of PC12 cells expressing alpha1A-ARs but not those expressing beta1- or alpha2A-ARs. However, norepinephrine acted synergistically with nerve growth factor in promoting differentiation of cells expressing beta1-ARs. Whereas ERKs are activated by Gi- but not Gs-linked receptors in many fibroblastic cell lines, we observed the opposite in PC12 cells. The results show that activation of the different G protein signaling pathways has different effects on MAPKs and differentiation in PC12 cells, with Gq signaling pathways activating all three major MAPK pathways.

Mice expressing human but not murine beta3-adrenergic receptors under the control of human gene regulatory elements

Beta-adrenergic receptors (ARs) are expressed predominantly in adipose tissue, and beta3-selective agonists are effective anti-obesity drugs in rodents. Rodent and human beta3-ARs differ with respect to expression in white versus brown adipocytes as well as their ability to be stimulated by beta3-AR-selective agonists. Humans express beta3-AR mRNA abundantly in brown but not white adipocytes, while rodents express beta3-AR mRNA abundantly in both sites. To determine the basis for this difference, we have transgenically introduced 74 kilobases (kb) of human beta3-AR genomic sequence into gene knockout mice lacking beta3-ARs. Importantly, human beta3-AR mRNA was expressed only in brown adipose tissue (BAT) of transgenic mice, with little or no expression being detected in white adipose tissue (WAT), liver, stomach, small intestine, skeletal muscle, and heart. This pattern of expression differed from that observed in mice bearing a murine beta3-AR genomic transgene in which beta3-AR mRNA was expressed in both WAT and BAT, but not in other sites. Furthermore, we have transgenically introduced smaller human constructs containing -14.5 and -0.6 kb of upstream sequence into beta3-AR gene knockout mice. Both -14.5 and -0.6 kb constructs were expressed in BAT but not WAT. Thus, human but not murine cis-regulatory elements direct beta3-AR gene expression preferentially to brown adipocytes. Identification of responsible cis-regulatory element(s) and relevant trans-acting factor(s) should provide insight into mechanisms controlling human beta3-AR gene expression. In addition, the beta3-AR agonist, CGP-12177, stimulated oxygen consumption in mice expressing human but not murine beta3-ARs by 91% compared with only 49% in control beta3-AR gene knockout mice, demonstrating that the human beta3-AR can functionally couple with energy expenditure. These "humanized" mice should assist us in the development of drugs that may become effective anti-obesity agents in humans.

Beta-adrenergic receptor gene expression in bovine skeletal muscle cells in culture

Beta-adrenergic receptors (betaAR) are abundant in fetal, neonatal, and adult skeletal muscles of cattle; however, only minimal levels of functional betaAR were detected in multinucleated muscle cell cultures prepared from 90- to 150-d fetal bovine skeletal muscle. Two other lines of evidence were consistent with low levels of betaAR expression in bovine muscle cultures. First, treating the cells with 10(-6)M isoproterenol for up to 20 min did not increase intracellular cAMP concentration. Second, neither the quantity of myosin heavy chain (MHC) nor its apparent synthesis rate were changed by treating the cells for 4 d with 10(-7) or 10(-6) M isoproterenol. Despite these results, the mRNA for the beta2AR could be detected in muscle cultures by PCR and on slot blots. Thus, the beta2AR mRNA was expressed, but significant levels of functional receptors could not be detected. Glucocorticoids are known to activate expression of OAR genes in several tissues, and the effect of dexamethasone on OAR gene expression in bovine multinucleated muscle cell cultures was evaluated. The intracellular concentration of cAMP following treatment with isoproterenol was elevated 10-fold by dexamethasone, and the population of functional receptors was elevated by approximately 50%. The effect of dexamethasone on muscle protein synthesis and accumulation was analyzed after pretreating the cells with dexamethasone for 24 h, followed by treatment with dexamethasone and 10(-6)M isoproterenol for an additional 48 h. The quantity of MHC synthesized and the apparent synthesis rate of MHC were stimulated by 10 to 35%. These effects seem to be due to posttranscriptional events, because the quantity of beta2AR receptor mRNA on slot blots was not increased by treatment with dexamethasone. Results of this study emphasize the importance of verifying that muscle cells contain functional betaAR when they are used to study the effects of betaAR agonists on muscle protein metabolism.

Leptin induction of UCP1 gene expression is dependent on sympathetic innervation

We previously demonstrated that leptin increases uncoupling protein 1 (UCP1) and lipoprotein lipase (LPL) gene expression in brown adipose tissue (BAT) of rats. To determine whether the induction of these transcripts is dependent on sympathetic innervation of BAT, we unilaterally surgically denervated interscapular BAT in both pair-fed and leptin (0.9 mg/day by infusion)-treated rats. In pair-fed rats, the level of UCP1 mRNA in the denervated BAT pad was 30-47% less than in the innervated pad. In the intact BAT pad, leptin administration increased UCP1 mRNA levels by nearly 2.5-fold compared with pair-fed rats. In contrast, in the denervated BAT pad, there was no increase in UCP1 gene expression. When LPL mRNA was examined in pair-fed rats, there was no difference between innervated and denervated BAT pads. With leptin administration, LPL gene expression increased by 75% in both the innervated and denervated BAT pads. beta3-Adrenergic receptor mRNA was unaffected by either denervation or leptin, whereas uncoupling protein 2 mRNA levels were increased in epididymal white adipose tissue (WAT) but not in perirenal WAT. CGP-12177, a specific beta3-adrenergic receptor agonist, induced nearly a fourfold increase in UCP1 and a twofold increase in LPL gene expression in both the innervated and denervated BAT pads. These data indicate that the leptin induction of UCP1 gene expression in BAT is dependent on sympathetic innervation but that the leptin induction of LPL gene expression is not.

Regulation of beta-adrenoceptors in a rat model of cardiac failure: effect of perindopril

This study investigated the effects of myocardial infarction (MI)-induced cardiac failure and treatment with an angiotensin-converting enzyme (ACE) inhibitor perindopril (2 mg/kg/day) on rat beta-adrenoceptor (beta-ar) subtypes in anatomically defined regions of infarcted left ventricular (LV) free wall and noninfarcted tissue from right ventricle (RV) by using autoradiography. After 5 weeks of MI, rats with large MI size (>42%) had developed cardiac failure and beta1-ars were significantly decreased (-59%; p < 0.01) in the border region of the infarcted LV and almost abolished in the infarcted area (-90%; p < 0.005) compared with normal LV from sham-operated controls. The beta-ar changes were not found in the noninfarcted area of the same LV or in RV. MI did not significantly alter the number of beta2-ar subtypes in any region of the ventricles. Perindopril treatment for 4 weeks reduced mean cardiac region weights but did not affect beta-ar density in any cardiac region in either sham-operated or MI rats. These results indicate that cardiac failure due to MI causes significant downregulation of beta1-ars only in border and infarcted regions of rat LV and no change in beta2-ar in any area. It also suggests that the improved response of the infarcted rat heart to isoprenaline stimulation after ACE inhibitors does not result from changes in the numbers of cardiac beta-ars.

Differential regulation of beta3-adrenoceptors in gut and adipose tissue of genetically obese (ob/ob) C57BL/6J-mice

1. Levels of beta3-adrenoceptor (AR) mRNA were compared using reverse transcription-polymerase chain reaction (RT PCR) in white adipose tissue (WAT), brown adipose tissue (BAT), ileum and colon from genetically obese (ob/ob) and lean (+/+) C57BL/6J mice. Functional responses to the beta3-AR agonist CL 316243 were also characterized in ileal longitudinal smooth muscle from obese and lean mice. 2. Beta3-AR mRNA levels were significantly higher in WAT (100+/-16%) and BAT (100+/-13%) from lean compared to WAT (21.0+/-0.9%; n=4; P<0.005) and BAT (14.1+/-2.2%; n=5; P<0.01) from obese mice. In contrast, beta3-mRNA levels were not significantly different in ileum (100+/-15%) and colon (100+/-22%) from lean mice, compared to ileum (78+/-13%; n=4; P= 0.31) or colon (82+/-15%; n =4; P=0.52) from obese mice. 3. Concentration-response curves to CL 316243 did not differ significantly in slope or position in ileal longitudinal smooth muscle from obese or lean mice. pEC50 (+/-s.e.mean) values were not significantly different (P= 0.59) between obese (7.90+/-0.13, n = 7) and lean (7.77+/-0.20, n = 7) mice. 4. pKB values for the beta1-AR and beta2-AR selective antagonist propranolol or the beta3-AR selective antagonist SR 58894 against relaxations to CL 316243 were similar in ileum of genetically obese (propranolol 6.31+/-0.22 and 6.13+/-0.12; SR 58894 8.22+/-0.06) and lean mice (propranolol 6.40+/-0.08 and 6.60+/-0.13; SR 58894 8.27+/-0.12) and were consistent with values previously found at beta3-AR. 5. Treatment of lean C57BL/6J mice with dexamethasone (1 mg kg(-1), i.p.) significantly reduced beta3-AR mRNA levels after 4 h in WAT (100+/-6.1 to 41.4+/-4.3; n= 16 18; P<0.0001) and BAT (100+/-8.0 to 35.1+/-5.8; n= 17; P<0.0001), but caused no change in ileum (100+/-6.1 to 101+/-17; n= 10-11; P=0.95) or colon (100+/-11 to 101+/-11; n= 11; P= 0.94). Beta3-mRNA levels in ileum and colon also did not change significantly when examined over 24 h or after the administration of a higher dose of dexamethasone (5 mg kg(-1)). 6. In summary, beta3-AR mRNA levels were considerably lower in WAT and BAT of obese compared to lean mice whereas the levels in ileum and colon were not significantly different. The similar beta3-mRNA levels in ileum of obese and lean mice were associated with indistinguishable responses of carbachol-contracted ileum to a beta3-agonist and similar affinity for beta-antagonists. Administration of glucocorticoids to lean mice reduced beta3-AR mRNA levels in WAT and BAT but not in ileum or colon. These studies show that in mice, beta3-ARs are differentially regulated in ileum and colon compared to adipose tissues.

Nerve growth factor, beta3-adrenoceptor and uncoupling protein 1 expression in rat brown fat during postnatal development

An analysis was made of the expression of nerve growth factor (NGF) mRNA and protein in the brown fat of rats at different ages, and the results compared with the expression of beta3-adrenoceptor and uncoupling protein 1 (UCP1). NGF, beta3-adrenoceptor, and UCP1 messenger RNA and protein levels were measured by means of reverse transcription-polymerase chain reaction (RT-PCR) and Western blotting in the brown fat of rats at different ages (from 20-day-old fetuses (E20) to 16-month-old rats). During the perinatal period, NGF production increased and then declined to adult levels (which are comparable with fetal levels) by eight months, and remained stable thereafter. Relatively low levels of NGF were present in the brown fat of aged rats. Taken together, these results suggest that NGF may be responsible for regulating sympathetic innervation during the perinatal and adult periods.

Anti-obesity effects of selective agonists to the beta 3-adrenergic receptor in dogs. I. The presence of canine beta 3-adrenergic receptor and in vivo lipomobilization by its agonists

It is known that in rodents and humans the beta 3-adrenergic receptor (beta 3-AR) is present primarily in adipocytes and plays a significant role in the adrenergic stimulation of lipolysis. We examined the expression of beta 3-AR mRNA in the dog and the lipomobilizing effects of beta 3-AR-selective agonists in vivo. Reverse transcription polymerase chain reaction of RNA extracted from dog adipose tissue produced a cDNA fragment, the nucleotide sequence of which was highly homologous to the corresponding regions of human (86.4%) and mouse (79.5%) beta 3-AR cDNA. The beta 3-AR mRNA was present at high levels in subcutaneous and visceral adipose tissues, but undetectable in other organs. When a selective beta 3-AR agonist, CL316,243, was infused intravenously into beagle dogs, the plasma level of free fatty acid increased in 30 min and persisted at higher levels for several hours. ICI D7114, another beta 3-AR agonist, also showed a similar lipomobilizing effect, but with lower potency. beta 3-AR agonist infusion also increased the plasma insulin level. These results suggested that functional beta 3-AR is present in adipose tissues of the dog and that it is effective for in vivo lipomobilization.

Expression of beta-adrenergic receptors in the rat uterus: effects of puberty and oestrogen treatment during prepubertal development

The expression of beta-adrenoceptors in the rat uterus has been analysed during the peripubertal transition and following acute and chronic oestradiol treatment during prepubertal development. The distribution and density of beta-adrenoceptors was assessed autoradiographically on cryostat tissue sections using [3H]-dihydroalprenolol ([3H]-DHA). Binding sites were localised in all ages and experimental situations examined and showed the following intensity of labelling: endometrial epithelium > longitudinal muscle layer > circular myometrial layer > endometrial stroma. Competition experiments with the selective antagonists ICI 118,551 and atenolol, showed that most of the beta-adrenoceptors in the uterus belong to the beta(2) receptor subclass. In prepubertal animals, the density of [3H]-DHA binding sites was extremely low. Following puberty the density of binding sites showed a generalised increase. Acute administration of oestradiol at the end of the prepubertal period provoked an increase in the density of [3H]-DHA binding sites in all uterine regions, but the levels of labelling were lower than in peripubertal animals at proestrus and oestrus. Following chronic oestrogen treatment during postnatal development, oestradiol increased further the density of [3H]-DHA binding sites. Results are discussed considering both the endocrine and neural changes accompanying puberty and oestradiol treatment.