Soy hydrolysate enhances the isoproterenol-stimulated lipolytic pathway through an increase in β-adrenergic receptor expression in adipocytes

ABSTRACT

Activation of the adipose lipolytic pathway during lipid metabolism is mediated by protein kinase A (PKA), which responds to β-adrenergic stimulation, leading to increased lipolysis. Soy is well known as a functional food and it is able to affect lipolysis in adipocytes. However, the mechanism by which soy components contribute to the lipolytic pathway remains to be fully elucidated. Here, we show that hydrolyzed soy enhances isoproterenol-stimulated lipolysis and activation of PKA in 3T3-L1 adipocytes. We also found that the expression of β-adrenergic receptors, which coordinate the activation of PKA, is elevated in adipocytes differentiated in the presence of soy hydrolysate. The activity of the soy hydrolysate towards β-adrenergic receptor expression was detected in its hydrophilic fraction. Our results suggest that the soy hydrolysate enhances the PKA pathway through the upregulation of β-adrenergic receptor expression and thereby, increase lipolysis in adipocytes.     

β3-Adrenergic activation of adenylyl cyclase in mouse white adipocytes: modulation by GTP and effect of obesity

Lipolysis and adenylyl cyclase (AC) activation in response to β-adrenergic agents are abnormally low in white epididymal adipose tissue (WAT) of the ob/ob mouse. The abundance of G-proteins (G_sα and G_iα) linked to AC is also abnormally low. By contrast, β-adrenergic receptor (β-AR) levels were previously found to be normal in WAT and elevated in liver. The relative importance of various forms of the β-AR in mouse WAT was reassessed in view of the discovery of the β₃-AR. The results show that (1) the β₃-AR is mainly responsible for AC activation in lean-mouse WAT; (2) the β₃-AR is only partly responsible for AC activation in obese mouse WAT; and (3) GTP modulates β₃—-but not β₁—-or β₂-AR activation of AC in a biphasic manner. Therefore, the β₃-AR appears responsible for the well-known bimodal effect of GTP on β-adrenergic receptor-mediated AC activity in WAT.     

Gender Effects on Adrenergic Receptor Expression and Lipolysis in White Adipose Tissue of Rats

Objective: To investigate the effects of short‐term (15 days) cafeteria‐diet feeding on the expression of α‐ and β‐adrenergic receptors (AR) and its association with lipolytic stimulation in isolated retroperitoneal white adipocytes. Research Methods and Procedures: Six female and 6 male Wistar rats (4 weeks old) were fed a cafeteria diet plus standard diet for 15 days. The remaining 12 age‐ and sex‐matched rats received a standard diet only. White retroperitoneal adipose tissue was isolated and used for the determination of both α₂ and β‐AR expression and for in vitro studies of lipolytic activity. Results: In female control rats, we found higher lipolytic capacities located at the postreceptor level and a lower α₂/β₃‐AR ratio than male rats. Cafeteria‐diet feeding for 15 days decreased lipolytic activity in both male and female rats and altered the α_2A‐ and β₃‐AR protein levels with an increase of α_2A‐AR in males and a β₃‐AR decrease in females. Discussion: Our results indicate that a 15‐day cafeteria‐diet feeding induced an increase in the α₂/β₃‐AR balance and impaired adipose tissue lipolytic activity, which was higher in males and may contribute to the development of increased fat mass. The higher functionality of α₂‐AR, together with the minor role developed by β₃‐AR and lower lipolytic capacities located at the postreceptor level in cafeteria‐diet‐fed male rats compared with female rats, may be responsible for the gender‐dependent differences observed in this study.     

Structure,Function, and Regulation of the Three β-Adrenergic Receptors

Three β-adrenergic receptor subtypes are now known to be functionally expressed in mammals. All three belong to the R₇G family of receptors coupled to G-proteins, and characterized by an extracellular glycosylated N-terminal and an intracellular C-terminal region and seven transmembrane domains, linked by three exta- and three intracellular loops. The catecholamine ligand binding domain, studied using affinity-labeling and site-directed mutagenesis, is a pocket lined by residues belonging to the transmembrane domains. The region responsible for the interaction with the Gs protein which, when activated, stimulates adenylyl cyclase, is composed of residues belonging to the parts most proximal to the membrane of intracellular loop i₃ and the C-terminal region. The pharmacology of the three subtypes is quite distinct: in fact most of the potent β₁/β₂ antagonists (the well known β blockers) act as agonists on β₃. The subtype is resistant to short-term desensitization mediated by phosphorylation through PKA or βARK, in stark contrast to the β₁ or β₂ subtypes. Various compounds (dexamethasone, butyrate, insulin) up regulate β₁ or β₁ subtypes while down-regulating β₃ whose expression strictly correlates with differentiation of 3T3-F442A fibroblasts into adipocytes, thus confirming that the expression of the three subtypes may each be regulated independently to exert a specific physiologic role in different tissues or at different stages of development.     

Characteristics of β-adrenergic receptors in longitudinal muscle membranes of rat uterus: Changes in kinetic properties of the receptor during gestation

Binding characteristics of β-adrenergic receptors of longitudinal muscle membranes isolated from different stages of pregnant rat myometrium were investigated using [³H]dihydroalprenolol. Between Days 15 and 21 of gestation, the ratio of β₁- and β₂-adrenergic receptors of longitudinal membranes was constant. The membranes were found to be predominant in β₂-adrenergic receptors. The concentration of longitudinal muscle β-adrenergic receptors increased significantly during the last 7 days of gestation. Kinetic binding studies implied that the affinity of the membrane β-adrenergic receptors decreased through a slight decrease in the association rate and a large increase in the dissociation rate with progression of pregnancy. A Scatchard plot indicated that longitudinal muscle in β-adrenergic receptors on Days 15 and 18 constitute a single class of independent sites. By contrast, the dissociation kinetics, the convex downward curvature in a Scatchard plot and a Hill coefficient (h) of less than 1.00 of [³H] DHA binding to β-receptors of muscle on Day 21 suggested the existence of negatively cooperative multiple binding sites for β-adrenergic ligand. These results suggest that changes in the dynamics of uterus β-adrenergic receptors play an important role in the onset of labor.     

Comparison of the Lipolytic Effects of Norepinephrine and BRL 37344 in Rat Brown and White Adipocytes

The lipolytic effects of norepinephrine (a non-selective β-agonist) and BRL 37344 (a selective β₃-agonist) were compared in isolated rat brown and white adipocytes. Norepinephrine and BRL 37344 maximally stimulated lipolysis in brown and white adipocytes, approximately 10 times above basal values. However, adipocyte sensitivity for BRL 37344 was greater than that for norepinephrine, particularly in brown adipocytes [the EC₅₀ values (nM) for BRL 37344 and norepinephrine were 5 ± 1 and 103 ± 31 in brown adipocytes (P <0.01) versus 56 ± 9 and 124 ± 17 in white adipocytes (P <0.05), respectively]. On the other hand, the lipolytic effects of norepinephrine were totally blocked by 20–40 times superior concentrations of propranolol or bupranolol in brown as well as in white adipocytes. In contrast, the lipolytic effects of BRL 37344 were fully inhibited by concentrations of propranolol or bupranolol that were 200–1000 superior to the β₃ agonist concentration. The results demonstrate that: (1) the (β₃-agonist BRL 37344 is as effective as norepinephrine for maximally stimulating lipolysis in rat brown and white adipocytes, (2) both adipocyte types are more sensitive to the lipolytic effects of BRL 37344 than to those of norepinephrine, (3) although bupranolol is a better antagonist than propranolol on BRL 37344-stimulated lipolysis, it cannot be considered as a specific β₃-antagonist, (4) brown adipocytes are 10 times more sensitive than white adipocytes to the lipolytic effects of BRL 37344, suggesting an important role of β₃-receptors in brown adipose tissue.     

Coexistence of β1- and β2-Adrenoceptors in the Melanophore of the Goby Tridentiger obscurus*

The effects of β-adrenergic agonists and antagonists on the pigmentary state of denervated melanophores in isolated, split, caudal fins of the goby Tridentiger obscurus were examined to investigate the function and the subtype of the β-adrenoceptors of the melanophores. Salbutamol, terbutaline, and dobutamine partially inhibited the pigment-aggregating response of melanophores to norepinephrine. The effects of these β-agonists were inhibited by propranolol. It was confirmed that the melanophores possess both α-and β-adrenoceptors, and that the activation of the β-adrenoceptors induces the dispersion of pigment in the melanophores. Norepinephrine, epinephrine, isoproterenol, dobutamine, salbutamol, and terbutaline evoked the dispersion of pigment in the melanophores in which pigment had previously been aggregated by treatment with verapamil in the presence of phentolamine. The pigment-dispersing effects of two β₁-selective agonists, norepinephrine and dobutamine, were effectively inhibited by metoprolol, a selective antagonist of β₁-receptors. By contrast, the pigment-dispersing effects of two β₂-selective agonists, salbutamol and terbutaline, were not inhibited by metoprolol. Both the effects of nonselective agonists, epinephrine and isoproterenol, were partially inhibited by metoprolol. The actions of all of the β-agonists used were effectively inhibited by propranolol, and they were partially inhibited by butoxamine. These results suggest coexistence of β₁- and β₂-adrenoceptors in the melanophores. The relative numbers of β₁- and β₂-adrenoreceptors as a percentage of the total population of β-adrenoceptors were estimated to be 18.6% and 81.4%, respectively, from analyses of Hofstee plots of the effects of the β-agonists on the melanophores in the presence of butoxamine or metoprolol.     

Determination of β3-Adrenoceptor Mediated Lipolysis in Human Fat Cells

The existence and relative importance of β₃-adrenoceptors in man is still controversial. The aim of the present study was 1) to find further evidence for the existence of functional β₃-adrenoceptors in human fat, and 2) to investigate factors that may influence this β₃-adrenoceptor function. Fifty individuals were examined. Lipolysis mediated by the selective β₃-adrenoceptor agonist CGP 12177 in omental fat cells correlated with the response in subcutaneous fat cells. However, lipolysis was more pronounced in omental as compared to subcutaneous adipocytes, the intrinsic activity for CGP 12177 was 41% and 33%, respectively, while dobutamine, terbutaline and norepinephrine were full agonists. Both the lipolytic response and the sensitivity to CGP 12177 correlated with the effects of norepinephrine in the omental fat cells (r²= 0. 68 and 0. 50, respectively, p=0. 0001). The β₂-adrenoceptor mediated lipolytic response did also correlate with the responses induced by β₁- and β₂-agonists and by postreceptor acting agents. The antagonistic properties (pA₂) of the β-adrenoceptor subtypes were also investigated. The pA₂ for the selective β₁- and β₂-adrenoceptor antagonists versus CGP 12177-induced lipolysis were 2 to 3 log units lower than those for the β₁-antagonist versus dobutamine or for the β₂-antagonist versus terbutaline. Furthermore, bupranolol had a significantly better antagonistic effect (pA₂ 7. 17, p<0. 001) on the CGP 12177-induced lipolysis than had the β₁- and β₂-adrenoceptor antagonists (pA₂ 6. 26 and 6. 05, respectively). These data clearly support the existence of a third human β-adrenoceptor. Several factors may contribute to the contradictory β₃-adrenoceptor results in man. The sensitivity of the different lipolytic systems vary considerably. Omental fat cells are preferable to subcutaneous cells for β₃-adrenoceptor studies in man. The β₃-responses are more attenuated in isolated fat cell preparations than in tissue fragments. Furthermore, as the β₃-adrenoceptor activity correlates to the norepinephrine activity, more pronounced effects will be expected in catecholamine sensitive subjects. At present, the number of tools available for β₃-adrenoceptor studies are limited, and the receptor is hard to study, why it is essential to perform β₃-adrenoceptor studies under optimal conditions in order to obtain conclusive effects.     

beta-Adrenergic stimulated lipolysis in pony adipocytes is exclusively via a beta2-subtype and is not affected by lactation

Catecholamines are important lipolytic agents in horses and ponies but the nature of the adrenergic receptor subtype distribution in their adipocytes is uncertain. A first objective was to identify the beta-adrenergic receptor subtype(s) present in adipocytes from horses and ponies. A second objective was to evaluate if the lipolytic responsiveness of isolated adipocytes to beta-adrenergic agonists is altered during lactation, a condition known to affect markedly maternal fat metabolism. Isoproterenol and salbutamol elicited strong lipolytic responses in adipocytes isolated from horse and pony subcutaneous adipose tissue. There were weak lipolytic responses to norepinephrine, dobutamine and BRL37344. The weak lipolytic response to NE compared to isoproterenol or salbutamol suggests an antilipolytic action from alpha2-adrenergic receptors. The relative order of potency for the beta-adrenergic agonists was isoproterenol>/=salbutamol>dobutamine=BRL37344. There was expression of beta2-adrenergic receptor mRNA in pony and horse adipose tissues, as estimated by relative RT-PCR, but no expression of mRNAs for beta1- or beta3-adrenergic receptors. Early lactation did not alter the lipolytic responses to beta-adrenergic agonists, nor the expression of beta2-adrenergic receptor mRNA. Thus, these results indicate a dominant if not exclusive presence of beta2-adrenergic receptors in pony and horse adipocytes that is not affected by lactation.     

β-Adrenergic Receptor Subtypes in Melanophores of the Marine Gobies Tridentiger trigonocephalus and Chasmichthys gulosus

The subtype of β-adrenergic receptors in melanophores of the marine gobies Tridentiger trigonocephalus and Chasmichthys gulosus was studied. Pigment of denervated melanophores in isolated, split caudal fins was preliminarily aggregated by incubating the specimens in a physiological saline containing 10 μM phentolamine and 30–100 μM verapamil or 2–10 nM melatonin, and the responses of the melanophores to a β-adrenergic agonist added to the incubating medium were recorded photoelectrically. The β-adrenergic agonists noradrenaline, adrenaline, isoproterenol, salbutamol and, dobutamine were all effective in evoking a dispersion of melanophore pigment in the presence of phentolamine and verapamil or melatonin. The pigment-dispersing effect of noradrenaline (β₁-selective agonist) was inhibited by metoprolol (β₁-selective antagonist), propranolol, and butoxamine. Whereas, the effect of salbutamol (β₂-selective agonist) was hardly inhibited by metoprolol, though it was considerably inhibited by propranolol and ICI-118551. It was estimated that β₁- and β₂-adrenergic receptors coexist at ratios of 8.6:91.4, in the melanophore of Tridentiger trigonocephalus, and 25:75, in the melanophore of Chasmichthys gulosus, through the analyses of Hofstee plots of the effects of the β-adrenergic drugs. It was suggested that the relation between the pigment-dispersing effect of a β-adrenergic agonist on the melanophores and the concentration of the drug follows mass action kinetics, when the effect is mainly caused by the activation of β₂-adrenergic receptors of the melanophores. However, when it is mainly caused by the activation of β₁-adrenergic receptors of the melanophores, the relation does not follow mass action kinetics.     

The influence of preadipocyte differentiation capacity on lipolysis in human mature adipocytes.

The ability of catecholamines to maximally stimulate adipocyte lipolysis (lipolytic capacity) is decreased in obesity. It is not known whether the lipolytic capacity is determined by the ability of adipocytes to differentiate. The aim of the study was to investigate if lipolytic capacity is related to preadipocyte differentiation and if the latter can predict lipolysis in mature adipocytes. IN VITRO experiments were performed on differentiating preadipocytes and isolated mature adipocytes from human subcutaneous adipose tissue. In preadipocytes, noradrenaline-induced lipolysis increased significantly until terminal differentiation (day 12). However, changes in the expression of genes involved in lipolysis (hormone sensitive lipase, adipocyte triglyceride lipase, the alpha2-and beta1-adrenoceptors, perilipin, and fatty acid binding protein) reached a plateau much earlier during differentiation (day 8). A significant positive correlation between lipolysis in differentiated preadipocytes and mature adipocytes was observed for noradrenaline (r=0.5, p<0.01). The late differentiation capacity of preadipocytes measured as glycerol-3-phosphate dehydrogenase activity was positively correlated with noradrenaline-induced lipolysis in preadipocytes (r=0.51, p<0.005) and mature fat cells (r=0.35, p<0.05). In conclusion, intrinsic properties related to terminal differentiation determine the ability of catecholamines to maximally stimulate lipolysis in fat cells. The inability to undergo full differentiation might in part explain the low lipolytic capacity of fat cells among the obese.     

Sympathetic Regulation of Glucose Uptake by the α1‐Adrenoceptor in Human Obesity

Objective: To investigate the involvement of α₁‐adrenoceptors in the sympathetic regulation of glucose uptake in human adipocytes. Research Methods and Procedures: Twenty‐four severely obese subjects participated in this study. The microdialysis technique was used to determine interstitial glucose concentration after stimulation of abdominal subcutaneous adipose tissue with the α₁‐agonist norfenefrine, the α_{1, 2}β‐agonist norepinephrine, and both agents in combination with the α₁‐antagonist urapidil. The effect of β‐adrenoceptor stimulation was assessed by orciprenaline. Changes in local blood flow were determined using the ethanol escape technique. Results: Both norfenefrine and norepinephrine induced a concentration‐dependent decrease of interstitial glucose concentration, with a greater decrease observed with norepinephrine. Preperfusion of adipose tissue with urapidil inhibited glucose decrease. The inhibition was overcome with high concentrations of norfenefrine and norepinephrine, respectively. Both adrenergic agents induced tachyphylaxia. Urapidil enhanced extracellular glucose level at high concentration. Blood flow decreased in the presence of norfenefrine and norepinephrine but increased in response to urapidil. The accelerated blood flow due to urapidil was counteracted by norepinephrine and norfenefrine. Orciprenaline decreased interstitial glucose concentration and increased nutritive blood flow. The observed changes in blood flow induced by adrenergic agents were not related to glucose uptake. Discussion: The stimulatory effect of the sympathetic nerves on glucose uptake in subcutaneous adipose tissue appears to be mediated by the α₁‐adrenoceptor. Norepinephrine enhances glucose entry into adipocytes independently of insulin action. In obese subjects with insulin resistance, the α₁‐adrenergic receptor may provide an important alternative pathway for glucose uptake.     

Identification of heterotrimeric G proteins in human sperm tail membranes

Heterotrimeric G proteins play important roles as signal transducing components in various mammalian sperm functions. We were interested in the distribution of G proteins in human sperm tails. Prior to membrane preparation, spermatozoa were separated from contaminating cells which are frequently present in human ejaculates. Enriched human sperm tail membranes were generated by using hypoosmotic swelling and homogenization procedures. Antisera against synthetic peptides were used to identify G proteins in immunoblots. AS 8, an antiserum directed against an amino acid sequence that is found in most G protein α-subunits, and A 86, which detects all known pertussis toxin-sensitive α-subunits, reacted specifically with a 40-kDa protein. Antisera against individual G protein α-subunits failed to detect any specific antigens in enriched tail membranes AS 36, recognizing the ã2-subunit of G proteins, identified a 35-kDa protein in sperm tail membranes. Antisera against the 36-kDa β₁-subunit did not detect any relevant proteins in the membrane fraction. Neither G protein α-subunits nor G protein β-subunits were found in the cytosol. ADP ribosylation of spermatozoal membrane or cytosolic proteins revealed no pertussis toxin-sensitive α-subunits. However, membrane preparations of nonpurified human spermatozoa contained α₂ subunits, as shown immunologically and by ADP ribosylation; they most probably derived from somatic cells which are frequently present in human ejaculates. Our results stress the fact that spermatozoa need to be purified before sperm membrane preparation to avoid misinterpretations caused by contaminating cells. Furthermore, we suggest that G proteins in membranes of human sperm tails belong to a novel subtype of G protein α-subunits; the putative β-subunit was identified as a β₂-subunit. © 1995 Wiley-Liss, Inc.     

Late expression of alpha 2-adrenergic-mediated antilipolysis during differentiation of hamster preadipocytes.

In order to study the ontogenesis of the beta- and alpha 2-adrenergic control of lipolysis during the adipose conversion process, a model based on preadipocytes isolated from the stromal-vascular fraction of hamster adipose tissue was developed. When cultured in an ITT (insulin, transferrin, triiodothyronine) medium supplemented with 2% fetal calf serum, adipose precursors differentiated into adipose-like cells. On 8-day-post-confluent differentiating preadipocytes, the rank order of potency of activation of lipolysis by various beta-adrenergic agonists (BRL37344 greater than norepinephrine = isoproterenol greater than epinephrine greater than fenoterol) was equivalent to that determined in mature adipocytes isolated from adult hamster adipose tissue. On 8-day-post-confluent differentiating preadipocytes, phenylisopropyladenosine (A1-adenosine agonist) and prostaglandin E1 evoked a strong antilipolytic response whereas that evoked by UK 14304 and clonidine (alpha 2-adrenergic agonists) remained undetectable at this step of differentiation. The activity of UK 14304 and clonidine only appeared on 20- to 25-day-post-confluent differentiating preadipocytes. They induced dose-dependent antilipolysis with a maximal effect reaching 80-85% inhibition of adenosine deaminase-stimulated lipolysis. Their action was blocked by increased concentrations of different alpha 2-adrenergic antagonists with the following order of potency, RX 821002 greater than phentolamine much greater than yohimbine. This order of potency was similar to that determined on mature adipocytes isolated from adult hamsters. Both the density of the alpha 2-adrenoceptors, identified with the selective alpha 2-adrenergic radioligand [3H]RX-821002 (19 +/- 1 vs. 30 +/- 1 fmol/mg protein: P less than 0.01) and the amount of Gi proteins identified by pertussis toxin-catalyzed ADP-ribosylation (31 +/- 4 vs. 43 +/- 4% of the amount defined in mature fat cells from adult hamsters: P less than 0.05) were significantly increased between 8 days and 20-25 days after confluence, explaining the late emergence of the alpha 2-adrenergic control of lipolysis during preadipocyte differentiation. In conclusion, the late emergence of the alpha 2-adrenergic control of lipolysis, which is also supported by previous data obtained in vivo that demonstrated the age and/or the fat cell size dependence of alpha 2-adrenoreceptor expression in mature adipocytes, allows the alpha 2-adrenoceptor to be considered as a marker of adipocyte hypertrophy.     

Induction of mouse β integrin expression following transfection with human α4 chain

We report here an analysis of the expression and function of the α chain of human VLA-4 in stable mouse L cell transfectants and the requirement for the β chain in these processes. L cells were transfected with human α4 cDNA or α4 and human β1 cDNA. Unexpectedly, human α4 cDNA, when transfected alone, could induce de novo surface expression of host β7 and increased expression of host β1. Induction of mouse β7 and β1 surface expression was not due to de novo gene activation, but instead represented α4/β intracellular subunit association and transport to the cell surface. Transfection with human β1 prevented surface expression of mouse β integrins. Whereas human α4 and human β1 subunits associated very tightly in anti-α4 immunoprecipitates, human α4 and mouse β subunits were only partially associated. Furthermore, binding of human/mouse chimeric receptors to recombinant VCAM, a major ligand for α4β7 and α4β1, was very poor, whereas human α4/human β1 receptors bound strongly to VCAM. One α4 transfectant, which exhibited a tight human α4/mouse β1 association, could be induced, but only after PMA activation, to bind strongly to VCAM. These results indicate that α4 subunits have specific affinity for β7 and β1 integrins and require β subunits for surface expression as well as high affinity ligand binding activity. Our results indicate that a tight association between the α4 and β subunit appears to be critical for ligand binding, consistent with a direct as well as regulatory role for the β subunit in ligand binding. Furthermore, these studies demonstrate that expression of foreign recombinant proteins can alter host cell protein expression resulting in de novo surface protein expression. © 1996 Wiley-Liss, Inc.     

Beta-adrenergic signal transduction in the hypothalamus of the European hamster: Relation with the seasonal hibernation cycle and the diurnal activity cycle

Mammalian hibernation, an adaptation to survive harsh winter conditions, is one of the most prominent seasonal rhythmic processes exactly regulated on a low metabolic level. Diurnal variations in vegetative physiology are missing during hibernation; however, a precisely working diurnal system is mandatory for both the proper initiation and termination of the annual hibernation phase and the periodical arousal reactions. Biorhythms and the vegetative physiological processes connected with hibernation are, among others, controlled by hypothalamic noradrenaline systems. In this study, the density, binding capacity, and relative proportions of β₁- and β₂-adrenergic receptors (AR) within the hypothalamus of: 1) motorically inactive summer; 2) motorically active summer; 3) aroused, motorically active winter; and 4) deeply hibernating winter European hamsters (Cricetus cricetus) were studied. For further analysis of the β-adrenergic signal transduction cascade, the activity of adenylyl cyclase (AC) was measured by formation of cAMP in controls, after stimulation of G proteins, or after forskolin stimulation without or in presence of manganese ions. While β₁- and β₂-AR subtypes were nearly equally abundant (50% β₁:50% β₂) in active summer, inactive summer, and hibernating hamsters, a significant redistribution in favor of β₂-AR occurred after arousal (40% β₁:60% β₂). The activity of AC was much higher in active summer hamsters than in inactive summer, aroused winter, and hibernating winter hamsters. When AC was stimulated by guanylylimidophosphate [Gpp(NH)p], MnCl₂, forskolin, or by forskolin in presence of MnCl₂ instead of MgCl₂, the potency to stimulate AC was found to show the following rank order: basal < Gpp(NH)_p < MnCl₂ ≤ forskolin + MnCl₂ < forskolin.     

Altered glycosylation of α(s)β1 integrins from rat colon carcinoma cells decreases their interaction with fibronectin

Malignant cell transformation is generally accompanied by changes in their interactions with environing matrix proteins in a way to facilitate their migration and generate invasion. Our results show the binding of rat colon adenocarcinoma PROb cells to fibronectin strongly reduced when compared to normal rat intestine epithelial cells. This decrease was not due to the level of α(s)β1 integrins expressed at the surface of the cell line. However, β₁- and α_(s)-associated subunits appeared to be structurally altered as shown by immunoprecipitation followed by electrophoresis. Pulse chase experiments using ³⁵S methionine evidenced differences in the biosynthesis of β1- and α (s) associated integrins: normal epithelial IEC18 cells required 16 h for maximal biosynthesis of the completely mature β1 subunit, while PROb cells did it within 4-6 h. Studies using endoglycosidases O, H, D, and N glycanase confirmed that the molecular weight alterations were due to abnormal glycosylation and suggested that α(s)β1 integrins of PROb cells could bear both mature complex and immature high mannose types while IEC18 cells borne only mature complex type oligosaccharidic chains. Treatment of both cell types with castanospermine, an inhibitor of N-glycosylation, reduced the differences observed in their adhesion to the fibronectin without significantly affecting β1 receptors expression at the cell surface. These results strongly suggest a role of the glycosylation of β1 receptors in the adhesion of rat colon adenocarcinoma PROb cells to fibronectin substrata. © 1996 Wiley-Liss, Inc.     

Influence of development and reduction of fat stores on the antilipolytic alpha 2-adrenoceptor in hamster adipocytes: comparison with adenosine and beta-adrenergic lipolytic responses

The response of the hamster adipocyte to various lipolytic (beta-adrenergic) and antilipolytic (alpha(2)-adrenergic and adenosine-dependent) stimuli was studied during the development and after cold-induced regression of fat stores. Alpha(2)-adrenergic binding ([(3)H]clonidine binding sites) was also investigated. Adipocytes came from young animals (4-5 weeks), adults (20-25 weeks), and adults submitted to a 6-week cold exposure (6 degrees C) that promoted a large decrease in fat stores and in fat cell size. The lipolytic response induced by isoproterenol (beta-agonist) was equivalent in the different groups. Adenosine and alpha(2)-adrenergic antilipolytic effects were estimated through the inhibition of theophylline-induced lipolysis by phenylisopropyladenosine and clonidine, respectively. The adenosine effect was unchanged in all the groups. In contrast, the alpha(2)-adrenergic effect, which was not present in young hamsters, increased simultaneously with fat cell size, was fully effective in adult hamsters, and had completely disappeared in small adipocytes from cold-exposed hamsters. In fat cell ghosts, alpha(2)-adrenoceptors ([(3)H]clonidine binding sites), followed similar modifications: they increased with fat cell enlargement and disappeared after cell size reduction following cold exposure. These results suggest that: 1) the increased alpha(2)-adrenergic antilipolytic response which is concomitant with fat cell enlargement could partly explain the growth-related decrease in the previously reported lipolytic effect of epinephrine; 2) the alpha(2)-receptivity of the adipocyte seems to be strictly fat cell size-dependent while the beta-adrenergic and adenosine responses are unaffected; and 3) the regulation in the adipocytes of the adenosine, alpha(2)- and beta-receptors seems to be unrelated.-Carpene, C., M. Berlan, and M. Lafontan. Influence of development and reduction of fat stores on the antilipolytic alpha(2)-adrenoceptor in hamster adipocytes: comparison with adenosine and beta-adrenergic lipolytic responses.     

Visualization of the turkey erythrocyte β-adrenergic receptor

We have recently described the affinity chromatography purification of the turkey erythrocyte β-adrenergic receptor. The minute amounts obtained initially precluded extensive biochemical characterization. To improve the yield of the receptor, the erythrocyte membranes have been prepared by a new method. This procedure resulted in a 10-fold higher receptor density in comparison with the membrane preparation used previously. The new membranes also contained a catecholamine-sensitive guanine triphosphatase and an adenylate cyclase sensitive to Gpp(NH)p and l-epinephrine. Solubilization by a double digitonin extraction resulted in a preparation containing 4–6 pmoles of ³H-dihydroalprenolol binding sites per mg of membrane protein. A single step of affinity chromatography on alprenolol-sepharose of the soluble digitonin extract resulted in an additional 1,000-fold purification of the receptor. The overall purification factor was 20,000 relative to the binding activity of the crude membrane preparations. Electrophoresis in SDS-polacrylamide of iodinated purified β-receptors revealed, after autoradiography, the presence of four major components. Three of these, corresponding to molecular weights of 170,000, 33,000, and 30,000, respectively, were not affected by reduction with β-mercaptoethanol and were not observed when the digitonin extracts were loaded on the affinity gel in the presence of an excess of l-propranolol. A fourth 52,000-dalton component (60,000 daltons after reduction with β-mercaptoethanol) remained apparent even when affinity purification was prevented by addition of l-propranolol. Our results suggest that the β-adrenergic receptor is composed of at least three subunits that interact by noncovalent bonds.