Altered coupling of alpha 1-adrenergic receptor-G protein in rat parotid during aging

Reduced alpha adrenergic mediated contraction of renal preglomerular blood vessels as a function of gender and aging

As human males age, a decline in baroreflex-mediated elevation of blood pressure occurs due, at least in part, to a reduction in alpha-1 adrenergic vasoconstrictor function. Alpha adrenergic constriction is mediated by guanosine triphosphate binding Protein (G Protein) coupled signaling pathways. Alpha-1 A/C, B, and D adrenergic receptor expressions, measured by GeneChip array, are not reduced during aging in renal blood vessels of male or female rats. Alpha-1 A GeneChip expression is greater, at all ages studied, in females than in males. Prazosin binding by alpha-1 adrenergic receptors is greater in young adult female rats than in young adult male rats; however, it is reduced with aging in both male and female rats. G alpha q GeneChip expression declines while expression of adrenergic receptor kinase (GRK2) and tyrosine phosphatases (TyrP) increase with aging in male rats. The declines in alpha-1 adrenergic receptor binding and G alpha q expression and also the increases in GRK2 and TyrP expression likely relate to the age-related decline of vasoconstriction in male rats. The information that the expression of alpha-1 A adrenergic receptors is greater in female rats and (GRK2) expression does not increase during aging could relate to the gender differences in vasoconstrictor function with aging. Gene therapy to ameliorate the age-related decline in renal function could possibly reduce the need for renal dialysis. Signaling pathways such as those reviewed herein may provide an outline of the molecular pathways needed to move toward successful renal gene therapy for aging individuals.

Decreased alpha-adrenergic constriction of renal preglomerular arteries occurs with age and is gender-specific in the rat

Age and/or gender appear to moderate alpha-adrenergic mediated constrictor mechanisms found in the interlobar arteries of the Munich Wistar rat. We have determined the extent of constriction to alpha-adrenergic receptor stimulation using norepinephrine, phenylephrine and A61603 (α1A-adrenergic receptor agonist) as a function of age and gender. Norepinephrine produced less constriction in male-derived arteries at ages greater than eight months as compared to the younger adult male (four to six months). The arteries derived from females did not demonstrate altered constriction until greater than 15 months of age. Similarly, arteries derived from the male demonstrated weaker constrictions to phenylephrine (10(-6) to 10(-3) M) at ages greater than eight months while arteries from females showed differences at greater than 15 months. In contrast, the effective concentration of norepinephrine to cause a 50% maximal constriction (EC50) was significantly less in the four to five-month-old male rats compared to the pooled data from older groups. Interestingly, four to five month old males had A61603 EC50 values similar to the 8 to 12-month and 15+ old females. These studies conclude that an age related loss of sympathetic α-adrenergic constriction of renal interlobar arteries is present in Munich Wistar rats. Furthermore, this loss, while similar along longitudinal aspects of age, is also different as a function of gender with the loss of α-adrenergic constrictor function delayed in the female when compared to the male.

Age-dependent alterations in mouse exorbital lacrimal gland structure, innervation and secretory response

Several studies investigated the effect of aging on rat and human lacrimal gland physiology. However, in most of these studies, only two age groups were investigated. Furthermore, those studies did not correlate the age-related histological changes that occur in the lacrimal gland to the functional changes (nerve activity and protein secretion) that might occur with aging. Thus, the purpose of the present study was to investigate the effect of aging on lacrimal gland structure, innervation and function using BALB/c mice at different ages. Exorbital lacrimal glands were removed from 3, 8, 12, 24, and 32-month-old, male BALB/c mice, fixed, embedded and processed for histology and immunohistochemistry. Sections were stained with hematoxylin and eosin to determine morphological changes and lymphocytic infiltration; giemsa to identify mast cells; and Kinyoun's carbol fucsin solution to indicate lipofuscin-like inclusions. Parasympathetic and sympathetic nerves were identified by immunofluorescence techniques. To measure acetylcholine release and protein secretion, lacrimal gland pieces were incubated in Krebs Ringer buffer containing 5 mM KCl (control), 75 mM KCl (depolarizing buffer which activates nerves), carbachol (a cholinergic agonist, 10(-4) M), or phenylephrine (an alpha1-adrenergic agonist, 10(-4) M) for 20 min. The media were collected and analysed for acetylcholine and peroxidase using a spectrofluorometric assay. KCl-, carbachol- and phenylephrine-stimulated peroxidase secretion decreased in lacrimal glands from 8, 12, and 24-month-old mice when compared to 3-month-old animals. Both the density and distribution of parasympathetic and sympathetic nerves surrounding the acini decreased with increasing age. Acetylcholine release from lacrimal gland nerves decreased in 24-month-old mice compared to 3- and 12-month-old animals. Similarly, progressive morphological changes, including increased numbers of lipofuscin-like inclusions, mast cells and lymphocytic infiltration occurred in an age-dependent manner. We conclude that structural alterations of mouse lacrimal gland, including increased accumulation of lipofuscin-like inclusions, chronic inflammation and functional alterations including decreased acetylcholine release and protein secretion occurred with aging.

Alpha 1 adrenergic receptor control of renal blood vessels during aging

Aging humans and rats have a reduced renal vascular constriction response to stress, change in posture, or exercise. In this study, renal interlobar arteries from 9- (intermediate age) to 15-month-old (aging) male Wistar rats constricted less to alpha-adrenergic agonists than those of 4-month-old (young adult) rats. The reduced contraction to A61603 (alpha 1 A agonist) was similar to that to norepinephrine and phenylephrine. Therefore, it appears that the reduction in constriction is primarily related to alpha 1 A receptor stimulation. GeneChip microarray hybridization analysis of the interlobar arteries with the RAE 230A GeneChip indicated that there were no significant differences in gene expression for alpha 1 A/C, 1B, or 1D receptors between 4-month-old (young adult) and 1-year-old (aging) male Wistar rats. Competitive binding experiments (prazosin) revealed that maximal binding (Bmax, fmol/mg protein) of the alpha 1 receptors of interlobar arteries was reduced 25% by 10 months of age and 50% by 18+ months of age. Alpha 1 receptor-induced arterial constriction and prazosin binding were both down-regulated. The loss of receptor-initiated constriction likely includes down-regulation of maximum agonist binding by alpha 1 adrenergic receptors.Key words: kidney, stress, blood flow, male vs. female, GeneChip array, prazosin.

Impairment by lovastatin of neural relaxation of the rabbit sphincter of Oddi

We sought whether inhibition of cholesterol biosynthesis by lovastatin influenced the nitrergic relaxation response of the sphincter of Oddi. Rabbit sphincters of Oddi rings were tested for changes in isometric tension in response to field stimulation in the presence of 4 microM guanethidine and 1 microM atropine. Tissue samples were then analyzed for cAMP and cGMP content by radioimmunoassay for nitric oxide concentration by electron spin resonance and for vasoactive intestinal peptide and calcitonin gene-related peptide (CGRP) release by radioimmunoassay. Membrane G(salpha) protein was determined by Western blot analysis. Field stimulation relaxed the preparations with an increase in nitric oxide, cAMP and cGMP concentrations at increased calcitonin gene-related peptide and vasoactive intestinal polypeptide (VIP) release. Preparations from rabbits pre-treated with lovastatin (5 mg/kg/day intragastrically, over 5 days) contracted under the same conditions with an attenuated cGMP-increase at preserved increase in NO content and neuropeptide release. The relaxation was recaptured combining lovastatin with farnesol (1 mg/kg intravenously, twice a day for 5 days). The field stimulation-induced increase in cyclic nucleotides was also restored. Lovastatin decreased membrane G(salpha) protein content, which was re-normalized by farnesol. Farnesol treatment reinstates neurogenic relaxation of the sphincter of Oddi deteriorated by lovastatin possibly by normalizing G-protein coupling.

Modulation of phospholipase C pathway in rat cerebral cortex during aging

The regulation of the alpha(1)-adrenoceptor-G protein-phospholipase C (PLC) cascade was investigated in rat cerebral cortex at adult (6-month-old) and senescent (24-month-old). Norepinephrine (NE)-stimulated inositol 1,4,5-trisphosphate [Ins(1,4,5)P(3)] production was enhanced 30% during aging. Moreover, maximal NE (50 microM) stimulation was much more effective in stimulating G protein low-K(m) GTPase in cortical membranes from old than adult rats. Immunoreactive G protein subunits (Gqalpha, Gialpha, Goalpha and Gcommonbeta) and PLC-beta(1) isozyme were detected in all membrane preparations. No changes in the G protein subunits and PLC-beta(1) expression were observed with aging. Nanomolar concentration of Gpp[NH]p inhibited basal Ins(1,4,5)P(3) production with a maximum inhibition of 25% in both adult and aged cortical membranes. In contrast, 100 microM Gpp[NH]p-induced stimulation of Ins(1,4,5)P(3) production was potentiated with aging. The two principal divergent pathways of old cortical Ins(1,4,5)P(3) production resulting in the activation and inhibition of PLC-beta(1) activity are abolished by treatment of the membranes with 1 microM U-73122, a putative PLC-beta inhibitor. These results suggest that the cortical PLC-beta(1) isozyme activity may be regulated by both inhibitory and stimulatory G proteins-mediated mechanisms, and that the altered PLC-beta(1) dual regulatory systems could be involved in the pathogenesis of brain aging.

Role of nitric oxide production in carbachol-induced negative chronotropy in cultured rat ventricular myocytes

It has been reported that nitric oxide (NO) plays a physiological role in mediating the effect of vagal stimulation in the autonomic regulation of the heart. In this study, the changes in NO production induced by carbachol were investigated by measuring the NO metabolites, nitrite (NO2-) and nitrate (NO3-), with a high-performance liquid chromatography-Griess reaction system, and the carbachol-induced chronotropic response was simultaneously investigated. Cultured rat ventricular myocytes exhibited a dose-dependent negative chronotropic response and NO metabolite production in response to carbachol. The negative chronotropy and the enhancement of NO metabolite production induced by 10(-4) M carbachol were completely abolished by 10(-6) M atropine. Both of these effects of carbachol were completely abolished by NO synthase inhibitors such as 3 X 10(-4) M NG-monomethyl-L-arginine acetate and 10(-5) M methylene blue. Furthermore, the negative chronotropic effect induced by 10(-4) M carbachol was also abolished by 10(-6) M 1 H-[1,2,4]oxadiazolo[4,3-alpha]quanoxalin-1-one, a selective guanylyl cyclase inhibitor. In addition, 10(-4) M 8-bromoguanosine 3':5'-cyclic monophosphate, a cell-permeable analogue of guanosine 3':5'-cyclic monophosphate, caused a negative chronotropic effect. These results suggest that the NO-signaling pathway may play an important role in the muscarinic cholinergic regulation of myocardial function.

Mechanism of endothelin-1 release from endothelial cells in pregnancy-induced hypertension

We investigated the mechanism of vasoconstrictor-induced endothelin-1 (ET-1) release from human umbilical vein endothelial cells (HUVECs) in serum from women with pregnancy-induced hypertension (PIH). We obtained serum samples from seven women with PIH, seven healthy nonpregnant women (NP), and seven normal pregnant women (NPIH). ET-1 and inositol 1,4,5-trisphosphate (IP3) were assayed by ET-1 ELISA and an IP3 3H assay system, respectively. ET-1 release from HUVECs incubated with 10% serum (NP, NPIH, and PIH) was greater than that without human serum. Angiotensin II (Ang II)- and epinephrine (Epi)-induced ET-1 release were significantly increased by PIH serum. IP3 production in HUVECs incubated with 10% serum (NP, NPIH, and PIH) was greater than that without human serum. Ang II- or Epi-induced IP3 production in HUVECs incubated with PIH serum was increased but not significantly compared to that with other sera. Our results suggest that increased ET-1 release from HUVECs incubated with human serum may be mediated by IP3 production, but that Ang II- or Epi-induced ET-1 release from HUVECs incubated with PIH serum may be mediated by another mechanism.

Molecular diversity and double regulatory mechanism of activation of phospholipase C in rat brain

Whereas evidence for a G protein-dependent stimulation of phospholipase C (PLC) is abundant, reports on the inhibition of PLC through a G protein-mediated pathway have only recently begun to appear. In the present study, cerebral cortex membranes were chosen since they have a readily measurable Gpp[NH]p and Ca2+-stimulated PLC activity. Nanomolar concentrations of Gpp[NH]p, a hydrolysis-resistant GTP analogue, inhibited basal inositol 1,4,5-trisphosphate (IP3) production, with a maximum inhibition of 25% at 10 nM. Increasing the concentrations of Gpp[NH]p to over 10 nM resulted in a reversal of the inhibitory effect and onset of stimulation of IP3 production. GDPbetaS as a G protein inhibitor and U-73122 as a putative PLC-beta inhibitor had little effect on basal IP3 production at 100 microM and 1 microM, respectively. However, GDPbetaS and U-73122 completely antagonized both the inhibition and the stimulation of IP3 production produced by lower and higher concentrations, respectively, of Gpp[NH]p. Rat cortical membranes expressed a greater amount of PLC-beta1. These data suggest that PLC-beta1 isozymes may be regulated by both inhibitory and stimulatory G protein-mediated mechanisms.

Effects of age and food restriction on calcium signaling in parotid acinar cells of Fischer 344 rats

In this study, we characterized alpha-adrenergic (alpha AR) and muscarinic induced [Ca2+]i changes in individual parotid acinar cells from male Fischer 344 rats (6-24 month-old) fed ad libitum (AL) or 60% ad libitum intake (FR). Cells were prepared by collagenase/hyaluronidase digestion. [Ca2+]i was measured by video image, fluorescent microscopy in single acinar cells loaded with FURA2. Neither age nor food restriction altered the peak [Ca2+]i achieved in response to carbachol (100 microM). Similar results were obtained for epinephrine (Epi = 100 microM) stimulation in 6- and 12-month-old animals. However, the peak [Ca2+]i response to Epi declined between 12 and 18 months in both dietary groups (e.g., AL: 12 months = 387 +/- 21 nM, 18 months = 253 +/- 10 nM; FR: 12 months = 430 +/- 22 nM, 18 months = 325 +/- 14 nM). The decline in response to Epi seen with age was less in FR than in AL animals at 18 months, but not at 24 months. In addition, db cAMP reduced the carbachol-stimulated [Ca2+]i response to levels comparable to those observed with epinephrine. The results support the view that calcium mobilization in parotid acinar cells from male Fischer 344 rats in response to alpha AR, but not to muscarinic, stimulation is impaired with age. Food restriction may slow down, but does not prevent, the functional decline. Furthermore, cAMP appears to modulate the muscarinic response.

Noradrenaline stimulation of high-affinity GTPase activity in membranes from rat aorta and caudal artery

The ability of noradrenaline (NA) to stimulate increases in high-affinity GTPase activity in sarcolemma-enriched rat aorta and caudal artery membranes was examined in the present study. In aortic membranes, NA significantly (P < 0.05; N = 5) increased the Vmax from a basal value of 103 +/- 29 to 156 +/- 38 pmol Pi/min/mg protein, but did not affect the Km which was 0.32 +/- 0.08 microM in the absence and 0.58 +/- 0.16 microM in the presence of NA. However, in caudal artery membranes, NA significantly (P < 0.05; N = 6) increased both the Vmax and the Km from basal values of 69 +/- 12 pmol Pi/min/mg protein and 0.24 +/- 0.05 microM, respectively, to 205 +/- 54 pmol Pi/min/mg protein and 1.01 +/- 0.25 microM, respectively. Removing the endothelium from both artery preparations did not alter significantly basal GTPase activity or the magnitude of the increase stimulated by NA. Prazosin significantly inhibited NA-stimulated increases in GTPase activity in membranes from endothelium-denuded caudal artery and aorta, and in endothelium-intact caudal artery membranes. However, yohimbine significantly inhibited NA-stimulated increases in GTPase activity only in preparations from endothelium-intact caudal arteries. Therefore, in endothelium-intact caudal artery membranes, NA stimulated increases in GTPase activity that were apparently mediated by both alpha 1-adrenoceptors and alpha 2-adrenoceptors, while in endothelium-denuded aortic and caudal artery membranes this increase was mediated solely by alpha 1-adrenoceptors. Western blotting of these arteries confirmed the presence of both Gi alpha 2,3 and Gq/11 alpha, which are candidates for mediating the alpha 1-adrenoceptor-stimulated increases in GTPase activity.

G-protein coupling of muscarinic receptors in adult and neonatal rat submandibular cells

The submandibular glands of neonatal and adult rats express muscarinic cholinergic receptors. Receptor occupancy initiates signaling through activation of phospholipase C, hydrolysis of inositol phospholipids, and calcium mobilization. The increased cytoplasmic [Ca2+] activates ion transport pathways, resulting in secretion of primary saliva. We have previously shown that muscarinic receptors are present in the gland of neonates and that they couple effectively to inositol trisphosphate production and Ca2+ mobilization but that the monovalent ion transport paths are poorly activated. To characterize age-related differences in signal transduction further, we examined the coupling of muscarinic receptors to G-proteins by determining the effect of GTP on the IC50 for competition by the muscarinic agonist carbachol with the radiolabeled antagonist, 3H-quinuclidinyl benzylate. Data were fit to one-site and two-site models, and in all cases the two-site model provided the better fit. Using the two-site model, a substantial GTP-induced shift from high affinity to low affinity binding was observed in membranes from adults, whereas more of the receptors were already in the low affinity form in the membranes from neonates, and little additional shift was induced by GTP. These results suggest differences in the G-protein coupling of muscarinic receptors in submandibular cells of adult and early postnatal rats that may be associated with differences in the content, affinity, or properties (i.e., posttranslational modifications) of G-proteins as the cells mature.

Muscarinic signalling in submandibular salivary acinar cells of ageing rats

Muscarinic cholinergic stimulation of submandibular acinar cells results in the activation of Ca(2+)-dependent ion-transport pathways responsible for the secretion of primary saliva. Decreased saliva production is common among elderly people and may compromise oral health with implications for systemic health, nutrition, and quality of life. The density and affinity of muscarinic receptors in the submandibular gland of rats and the Ca2+ responses to stimulation of these receptors in the acinar cells were examined. An increase in the number of receptors and increases in the affinities of the receptors were found as the rats age from 7 weeks to 11 months. However, the coupling of the receptors to the intracellular Ca2+ signals in acinar cell clusters was substantially reduced in the older animals.

Regulation of mucous acinar exocrine secretion with age

Denny and co-workers (Navazesh et al., 1992) recently reported decreased concentrations of MG1 and MG2 mucins in resting and stimulated whole human saliva with age. The current study was therefore conducted to examine whether there is a corresponding attenuation with age in stimulus secretion coupling regulating mucous cell exocrine secretion. We utilized an in vitro model system, isolated rat sublingual acini, to evaluate the regulation of mucous cell exocrine secretion. Rat sublingual glands are similar to human sublingual and minor mucous glands, both histologically and in terms of their pattern of innervation, which is predominantly parasympathetic. Mucin secretion is thus activated primarily by muscarinic cholinergic agonist and to a lesser extent by vasoactive intestinal peptide (VIP), which is co-localized with acetylcholine in parasympathetic nerve terminals. We isolated sublingual mucous acini from five-month-old and 24-month-old rats and compared the concentration responses for mucin secretion induced by VIP and the muscarinic agonist, arecaidine propargyl ester (APE). Concentration-response curves for VIP were nearly identical for mucous acini from the five-month-old and 24-month-old animals. Values for basal secretion, maximal secretion, and EC50 (approximately equal to 200 nmol/L VIP) were statistically equivalent between both age groups. Concentration-response curves for APE were also very similar between age groups, with no statistically significant difference in basal secretion or EC50 values (approximately equal to 50 nmol/L APE). Maximal secretion was slightly less but statistically different for 24-month-old vs. five-month-old animals, 158% vs. 169% above basal secretion, respectively. Collectively, we found no substantial age-related changes in the secretory responsiveness of salivary mucous cells.

Partial restoration of impaired alpha 1-adrenergic responsiveness in parotid cells of aged rats by S-adenosylmethionine treatment

The age related decrease in alpha 1-adrenergic stimulated inositol 1, 4, 5 trisphosphate (IP3) production in parotid cells of aged rats can be partially restored by treatment with S-adenosylmethionine (SAM). This effect is completely blocked by S-adenosyl homocysteine (SAH) and occurs in association with an increase in the conversion of phosphatidylethanolamine to phosphatidylcholine and a decrease in membrane viscosity. In contrast, SAM treatment actually inhibits stimulated IP3 production in cells of young rats. The membrane viscosity of these cells is lower than that of those from aged rats. Although conversion of phosphatidylethanolamine to phosphatidylcholine is enhanced, no further decrease in membrane viscosity is elicited in young cell preparations. These findings suggest that age changes in the membrane environment may result in impaired alpha 1-adrenergic signal transduction and that such alterations may be at least partially reversible by SAM treatment.

Membrane alterations as causes of impaired signal transduction in Alzheimer's disease and aging

Changes in cell-membrane composition in normal aging and in Alzheimer's and other age-related diseases appear to result in impaired neurotransmitter-triggered signal transduction. The impaired signal transduction seems to be related to dysfunctions in the coupling of G proteins to their receptors and effectors. Direct demonstration of altered physiochemical properties of brain tissue of patients with Alzheimer's disease has been achieved by small-angle X-ray diffraction. In this disease, thinner membranes correlate with a 30% decrease in moles of cholesterol:phospholipid. Such changes can affect directly the coupling and uncoupling properties of G proteins, and can account for signal transduction deficits. These findings offer a complementary alternative to the beta-amyloid hypothesis, and an opportunity to consider new types of therapeutic interventions.

Changes in tissue responsiveness to hormones and neurotransmitters during aging

Responsiveness to many hormones and neurotransmitters by target tissues is altered during aging. Three model systems that are representative of these changes are reviewed. These are (1) striatal dopaminergic regulation of motor function, (2) IP3 and calcium-mediated electrolyte and neurosecretion by the alpha1-adrenergic and muscarinic cholinergic systems in parotid and corpus striatum, and (3) beta adrenergic and epidermal growth factor (EGF) stimulated DNA synthesis in hepatocytes.

Structural and functional changes in salivary glands during aging

Various salivary glands in senescent humans and other animals have been examined extensively to characterize the structural and functional changes that occur during aging. Although a wide range of different structural changes, involving both the parenchymal and stromal tissues, have been described, it is unclear how any of these changes affects the function of the salivary glands. One major change in structure is the reduction in the volume of acini with a concomitant increase in the ductal volume. Despite this loss of functional acini, the salivary output and the contents seem to be unaltered, or minimally altered, due to aging. One consistent change observed in many salivary glands of aged animals is the decline in the rate of synthesis of proteins and their messenger RNA (mRNA). However, the salivary acinar cells from aged animals can synthesize secretory proteins at an elevated rate just as effectively as those from their younger counterparts in response to external stimuli, which are known to enhance the rate of protein synthesis. Thus, it appears that the salivary acinar cells, which remain structurally intact during aging, seem to retain their functional efficiency. Furthermore, these acinar cells, although reduced in number, are sufficient in quantity to carry out most of the salivary gland functions.

Hypoxia inverts the negative chronotropic response to norepinephrine in normoxia in cultured neonatal rat cardiac myocytes: role of the alpha 1 adrenergic signal transduction system

In the present study, we investigated the effect of hypoxia on the chronotropic response to norepinephrine (NE) of cultured neonatal rat ventricular myocytes. We measured beating of myocytes with the Fotonic sensor, using a newly developed method for a noncontact displacement measurement. The beating rate counted with the sensor had a high correlation coefficient with that counted visually under a microscope (r = 0.997, P < 0.01). NE concentrations of 10(-8) - 10(-4) M caused negative chronotropy dose dependently in the presence of 5 x 10(-7) M propranolol. NE-induced chronotropy was completely antagonized by 10(-6) M prazosin. Three hours hypoxia decreased the spontaneous beating rate 40% (P < 0.01). Negative chronotropy induced by 10(-4) M NE in normoxia was inverted to positive and was antagonized by prazosin. Hypoxia increased the basal level of inositol 1,4,5-trisphosphate (Ins(1,4,5)P3) to 190% (P < 0.01), while NE-stimulated Ins(1,4,5)P3 production was significantly suppressed. Immunoblotting analysis of G protein subunits demonstrated no quantitative changes in Gi alpha, Gq alpha, Go alpha and G beta common subunits in hypoxia. In a saturation binding assay with [3H]prazosin, Kd values were increased to 152% by hypoxia (P < 0.05) without significant change in Bmax. Basal activity of low Km-GTPase was increased to 122% by hypoxia (P < 0.05). These results suggest that the hypoxia-induced increase in low-Km GTPase activity, which could stimulate phospholipase C by an activated alpha GTP subunit of G protein and consequently induce receptor-independent increase in Ins(1,4,5)P3, may be responsible for the inversion of the NE-induced negative chronotropic response in normoxia.

Age-related changes in DNA synthesis stimulated by epinephrine and isoproterenol in primary cultured rat hepatocytes

We examined epinephrine- and isoproterenol-stimulated DNA synthesis in primary cultured hepatocytes from 6-, 12-, and 24-month-old rats. Epinephrine-stimulated DNA synthesis in 6-month-old rat hepatocytes began after 20 h and reached a maximum at 50 h. Similarly, isoproterenol-stimulated DNA synthesis in 6-month-old rat hepatocytes began after 10 h and reached a maximum at 45 h. In contrast, both epinephrine- and isoproterenol-stimulated DNA synthesis in 12- and 24-month-old rat hepatocytes were reduced approximately 40-60% and 80%, respectively, as compared to that at 6 months. Both epinephrine- and isoproterenol-stimulated DNA synthesis were strongly inhibited by the beta-adrenergic antagonist, propranolol, but not by the alpha 1-adrenergic antagonist, prazosin, or the alpha 2-adrenergic antagonist, yohimbine. However, in the presence of EGF, epinephrine-stimulated DNA synthesis activity was inhibited by prazosin but not by propranolol. These results indicate that stimulated DNA synthesis in rat hepatocytes declines with age and that there are two different pathways for epinephrine-stimulated DNA synthesis in the presence or absence of EGF.

Impaired expression of Gs alpha protein mRNA in rat ventricular myocardium with aging

We have recently reported that the responsiveness of adrenoceptors is decreased with aging in rat ventricular myocardium. Thus, the current study determined aging-dependent changes in: (a) characteristics of myocardial G proteins as determined by Western blot analysis; (b) steady-state levels of G protein mRNA as determined by Northern blot analysis; and (c) the intropic response to isoproterenol, a beta-adrenoceptor agonist. Cardiac preparations were isolated from male Wistar rats of 6 (adult) and 24 (old) months old. Compared with adults, aging decreased the combined level of the three Gs alpha subunits (45, 47 and 52 kDa) by a total of 23% in ventricular membrane preparations. In contrast, levels of Gi alpha (40/41 kDa), Gq alpha (42 kDa), Go alpha (39 kDa) and G common beta (35/36 kDa) immunoreactivity were not affected by aging in the same membrane preparations. In ventricular myocardium, steady-state levels of Gs alpha mRNA (1.9 kb) decreased by 20-28% between 6 and 24 months of age with no change in Gi alpha mRNA (2.4 kb). An aging-associated decline in beta-adrenergic stimulation was observed in the maximum positive inotropic effect elicited by isoproterenol in the presence of prazosin in left papillary muscles, with no change in ED50 values. These results suggest that age-related changes in cardiac excitation and contraction coupling following beta-adrenoceptor stimulation are mediated, at least in part, by Gs alpha protein dysfunction.

Effect of specific membrane perturbations on alpha 1-adrenergic and muscarinic-cholinergic signal transduction in rat parotid cell aggregates

Alpha 1-adrenergic and muscarinic-cholinergic stimulated IP3 production and calcium mobilization are inhibited by treatment of parotid cell aggregates with methanol, hydrogen peroxide and saponin. Only methanol exerts an effect on binding to receptors. In most cases a close correspondence exists between inhibition of alpha 1-adrenergic and muscarini-cholinergic responses as well as inhibition of IP3 production and calcium mobilization. G-protein dependent signal transduction, therefore appears to be quite sensitive to plasma membrane perturbation and membrane active agents may provide useful tools for elucidation of transduction mechanisms and their regulation.

Similar effects of saponin treatment and aging on coupling of alpha 1-adrenergic receptor-G-protein

The effects of the nonionic detergent saponin on alpha 1-adrenergic signal transduction were investigated using rat parotid cells and membrane preparations. Fifty microM epinephrine-stimulated 45Ca2+ efflux and inositol 1,4,5-triphosphate (Ins[1,4,5]P3) production in adult parotid cells were significantly decreased after saponin treatment. Saponin did not alter the concentration of alpha 1-adrenergic receptors labeled by [3H]prazosin, but significantly reduced the guanosine imido diphosphate (GppNHp)-induced shift from high to low affinity sites. Fifty microM epinephrine-stimulated high affinity GTPase activity was also reduced by saponin treatment. These data suggest that reduced alpha 1-adrenergic receptor-stimulated functional responsiveness following saponin treatment may be due to impaired uncoupling of receptor-G-protein complexes.

Characterization of alpha 1-adrenoceptors which mediate chronotropy in neonatal rat cardiac myocytes

1. In the present study, we investigated the effect of culture on alpha 1-adrenoceptors that mediate chronotropy and on alpha 1-adrenergic signal transduction in neonatal rat cardiac myocytes. 2. The spontaneous beating rate of neonatal rat myocytes after 3 or 7 days in culture was 37.4 +/- 4.2 or 102.0 +/- 4.3 beats min-1, respectively. The alpha 1-adrenoceptor-mediated chronotropic effect of norepinephrine was positive at day 3 of culture. In contrast to day 3 of culture, the neonatal myocytes exhibited a negative chronotropic response to norepinephrine on day 7 of culture. Both of these effects of norepinephrine were completely abolished by prazosin. 3. The affinity (Kd) and/or density (Bmax) of alpha 1-adrenoceptors labeled with [3H]prazosin in membranes from cultured myocytes were not significantly different between day 3 and day 7 of culture. 4. The expression of Gs, Gi, Gq and Go alpha-subunits in membranes from cultured myocytes was found to be significantly increased with the passage of culture time by immunoblot analysis. In contrast, no significant differences in G beta-subunit expression were observed between day 3 and day 7 of culture. 5. Norepinephrine-stimulated inositol 1,4,5-trisphosphate production by radio-binding protein in neonatal myocytes after 7 days of culture was significantly higher than that of the day 3 counterpart. 6. No significant changes in phospholipid and cholesterol contents in membranes from neonatal myocytes were observed with longer culture times.(ABSTRACT TRUNCATED AT 250 WORDS)

Down-regulation of beta-adrenoceptors and loss of Gs alpha subunit levels in ventricular myocardium of rats treated with isoproterenol

We investigated the influence of chronic beta-adrenergic stimulation on the beta-adrenoceptor-G protein-adenylyl cyclase system in rat ventricular myocardium. The rats received twice-daily injections of 4 mg/kg isoproterenol (ISO) alone or with 8 mg/kg propranolol (PROP) for 4 days. The ISO (10 microM)-induced increase in tissue cAMP production was lower (50%) after chronic ISO treatment than in control myocardium. The beta-adrenoceptor density decreased by 43% in ventricular membranes from ISO-treated rats. Immunoblotting techniques using specific antibodies against G proteins revealed that ventricular myocardium contains three Gs alpha subunit isoforms of 45, 47 and 52kDa. ISO treatment decreased levels of the three Gs alpha subunits by a total of 40%, while no change in Gi alpha (40/41kDa) and Gcommon beta (35/36kDa) levels were found in the same membrane preparations. The antagonist PROP almost totally blocked the effects of ISO treatment on cAMP, beta-adrenoceptors and Gs alpha subunits. These results suggest that chronic beta-adrenergic stimulation causes not only down-regulation of beta-adrenoceptors, but also loss of Gs alpha subunit levels in rat ventricular myocardium.

Adrenoceptor coupling mechanisms which regulate salivary secretion during aging

In parotid slices and membranes from Wistar rats 2, 12 and 24 months old, changes are noted in adrenoceptor-stimulated K+ fluxes, formation of [3H]inositol phosphates ([3H]IPs), cAMP production, and membrane environment. Norepinephrine-stimulated K+ efflux and formation of [3H]IPs in the slices proceed through an alpha 1-adrenergic mechanism and are reduced 20% and 40% during aging, respectively. In beta-adrenoceptor stimulation with isoproterenol, no age changes were observed in K+ influx and cAMP production. The cholesterol content in membranes was reduced with age; concomitantly, the membrane viscosity decreased with age. These results indicate that the alterations in the membrane environment may provide age-dependent modulation of alpha 1-adrenoceptor coupling mechanisms and their functions.

Alpha 1-adrenergic stimulation of low Km GTPase in rat striata is diminished with age

The effect of norepinephrine and epinephrine on the activity of low Km GTPase was studied in striata from young and old rats. Results showed that the amines stimulated the low Km GTPase activity of both young and old animals in a concentration-dependent manner. There was no differential effect of the amines as a function of age, but the stimulated low Km GTPase activity was significantly lower in the aged tissue.