Identification of a putative receptor for subgroup A feline leukemia virus on feline T cells.

Retrovirus infection is initiated by the binding of virus envelope glycoprotein to a receptor molecule present on cell membranes. To characterize a receptor for feline leukemia virus (FeLV), we extensively purified the viral envelope glycoprotein, gp70, from culture supernatants of FeLV-61E (subgroup A)-infected cells by immunoaffinity chromatography. Binding of purified 125I-labeled gp70 to the feline T-cell line 3201 was specific and saturable, and Scatchard analysis revealed a single class of receptor binding sites with an average number of 1.6 x 10(5) receptors per cell and an apparent affinity constant (Ka) of 1.15 x 10(9) M-1. Cross-linking experiments identified a putative gp70-receptor complex of 135 to 140 kDa. Similarly, coprecipitation of 125I-labeled cell surface proteins with purified gp70 and a neutralizing but noninterfering anti-gp70 monoclonal antibody revealed a single cell surface protein of approximately 70 kDa. These results indicate that FeLV-A binds to feline T cells via a 70-kDa cell surface protein, its presumptive receptor.     

Evidence for Shared Receptor Proteins for Human Interleukin-3 and Granulocyte-Macrophage Colony-Stimulating Factor in the Human M-07 Cell Line

Abstract

The biologic response of the human leukemia cell line M-07 to granulocyte-macrophage colony stimulating factor (GM-CSF), interleukin 3 (IL-3) and interleukin 4 (IL-4) is mediated by a low number of high affinity receptors. Cross-competition studies revealed that IL-3 and GM-CSF partially inhibited the specific binding of the heterologous radiolabeled ligand, whereas IL-4 binding was not affected by these cytokines. The molecular mechanism of cross-competition was investigated by chemical crosslinking and immuno-precipitation. Trimolecular receptor complexes consisting of a major 73kDa and two minor 120 and 128kDa membrane proteins for IL-3, and a major 84kDa and two minor 120 and 130 kDa proteins for GM-CSF were found on M-07 cells. The 73 and 84kDa proteins represent distinct and non-linked membrane proteins and are identical with the cloned, low affinity IL-3 and GM-CSF receptor proteins (Gearing et al, 1989, Hayashida et al, 1990). The higher molecular weight proteins share common binding sites as evidenced by immunoprecipitation of double-crosslinked membranes. The 120/128kDa proteins are most likely identical with the recently cloned and shared β-subunit of the IL-3 and GM-CSF receptor (Kitamura et al, 1991) containing a single or two IL-3 and/or GM-CSF molecules.     

Neuronal membrane depolarization and the control of cholinergic muscarinic receptors: selective effect on different neuronal cell types

1. The possibility that a long-lasting neuronal activation regulates the expression of muscarinic cholinergic receptors was studied with three cultured neuronal cell lines. 2. Continuous depolarization of a subclone of the neuroblastoma-glioma NG108-15 hybrid cells with potassium chloride increased by 45-75% the number of cholinergic muscarinic receptors, monitored with 3H-QNB, whereas a short incubation with KCl for 10 min or 6 hr had no effect. 3. The calcium channel blocker verapamil increased the effect of KCl. 4. Two cell lines, named SC9 and WC5, that originate from the rat brain, also bind 3H-QNB. They were therefore used to test whether the effect of chronic depolarization is universal. Depolarized SC9 and WC5 cells, in the presence or absence of verapamil, did not show an increased 3H-QNB binding. 5. Muscarinic receptors of both SC9 and WC5 cells have a higher affinity to pirenzepine than the M-3 receptor subtype of the neuroblastoma-glioma cells, suggesting therefore that the two rat brain cell lines possess M-1 or M-2 receptors. 6. The physiological significance of this differential role of depolarization on the expression of different muscarinic receptors is discussed in the context of their postreceptor second messengers.     

Characterization of Muscarinic Receptors: Type M2 (Subtype B) on Neuro-2A Neuroblastoma Cells

Abstract

The binding of the nonselective muscarinic antagonist, [³H]N-methylscopolamine (NMS) to a mouse neuroblastoma cell line (Neuro-2A) and its coupling to the inhibition of adenylate cyclase were characterized. Specific [³H]NMS binding to membrane preparations was rapid, saturable, and of high affinity. Saturation experiments revealed a single class of binding sites for the radioligand. Competition experiments with the muscarinic drugs pirenzepine, AF DX 116, dicyclomine and atropine revealed that the muscarinic receptors present on these cells are predominantly of a single class, subtype B (M2). In addition, agonist binding demonstrated existence of a GTP-sensitive high affinity binding state of the receptors. Coupling of these muscarinic receptors to the adenylate cyclase system was investigated using the muscarinic agonist carbachol which was able to inhibit the prostaglandin (PGE₁)-stimulated activation of adenylate cyclase. The agonist carbachol did not stimulate the formation of IP₃ above basal levels, which indicated that the receptors are not coupled to phosphatidylinositol metabolism. In conclusion, we show that possessing predominantly one subtype of muscarinic receptor, the Neuro-2A cells provide a useful model for the investigation of the heterogeneity of muscarinic receptors and the relationship of subtype to the coupling of different effectors.     

Isolated rat gastric parietal cells: Cholinergic response and pharmacology

Isolated, partially purified or enriched rat gastric muscosal parietal cells were shown to respond to carbamycholine (EC₅₀ = 2 μM) and other muscarinic cholinergic agonists as measured by an increased accumulation of ¹⁴C-aminopyrine, an indirect measure of acid secretion. The secretory response to carbamylcholine was shown to be inhibited stereoselectively and reversibly by nanomolar concentrations of muscarinic cholinergic antagonists. Non-muscarinic antagonists, including cimetidine, were either ineffective or very weak inhibitors. The affinity constants calculated for cholinergic antagonist inhibition of ¹⁴C-aminopyrine accumulation induced by carbamylcholine were similar to those previously calculated from direct binding studies on purified parietal cell particulate fractions using ³H-QNB (1). These studies support the existence of specific parietal cell muscarinic cholinergic receptors with which the natural secretagogue acetylcholine interacts to regulate gastric acid secretion.     

Affinity chromatography of the muscarinic acetylcholine receptor

A novel compound, 3-(2'-aminobenzhydryloxy)-tropane (ABT), and an ABT-agarose gel were synthesized and used for the purification of solubilized muscarinic receptors. ABT had a high affinity with an apparent dissociation constant (Kd) of 7 nM for the muscarinic receptors solubilized from the porcine brain by digitonin. An ABT-agarose gel was prepared by coupling ABT with epoxy-activated Sepharose 6B, and the degree of substitution to the gel was determined to be 4-5 mumol/ml of the gel by UV absorption spectrum. During affinity chromatography using 10 ml of the ABT-agarose gel and 100 ml of the digitonin-solubilized preparation, 70% of muscarinic receptors were adsorbed to the gel, in marked contrast with the adsorption of only 2% of proteins. Approximately 25% of muscarinic receptors applied to the gel were eluted biospecifically with 1 mM muscarinic ligands. The purified fraction showed a high affinity for [3H]quinuclidinyl benzylate with a Kd of 0.4 nM and similar specificity for muscarinic ligands to that of unpurified soluble receptors. The protein concentration of the purified fraction was too low to be determined accurately, but very approximately a purification of 10(3)-fold was indicated.     

Monoclonal antibodies against the native or denatured forms of muscarinic acetylcholine receptors.

BALB/c mice were immunized with affinity-purified muscarinic acetylcholine receptors from calf brain and their splenocytes fused with NS1 myeloma cells. Hybrid cultures were grown and selected for production of antibodies on the basis of enzyme immunoassays on calf and rat forebrain membrane preparations. Thirty-four clones were retained and six of them further subcloned. Two of these subclones produced antibodies that selectively recognized muscarinic acetylcholine receptor-bearing membranes. The M-35b antibodies interacted only with native digitonin-solubilized receptors, and not with denatured receptors. The M-23c antibodies did not react with active digitonin-solubilized receptors but recognized the denatured form. The M-23c antibodies should thus be useful in the purification of the receptor and its precursor translation products, while the M-35b antibodies could be used for the immunocytochemical localization of the receptor in cells and tissues of different species.     

Carbohydrate-binding profile of a pregnancy-associated rat uterine glycoprotein

Sugar-binding proteins obtained from the peri-implantation uterine tissue have been thought in recent years to have significant roles in embryo implantation, where carbohydrate moieties of the protein are actively involved. Based on this rationale a mannose-containing glycoprotein/lectin (named uterine agglutinin or UA) was purified by Concanavalin A (Con A) affinity chromatography in a previous study. A modification of the original purification procedure to include a 33% ammonium sulfate fractionation improves the yield of the protein significantly. An alternative purification procedure by Mannan affinity matrix, indicates that apart from containing mannose, UA possesses mannose-binding properties as well.In this paper, we report some of the biochemical and more specifically, the carbohydrate-binding characteristics of UA. The protein is seen to contain mannose-6-phosphate (M-6-P)-binding sites, which is of importance since M-6-P receptors have a large number of biologically significant roles, including that of binding to growth factors.SDS-PAGE, gel filtration chromatography and alkaline PAGE indicate the homogenous nature of the protein with subunit molecular weights of 36 kDa and 19 kDa, and a native size of 64kDa. Amino acid analysis shows glycine, glutamic acid and aspartic acid to be the major constituents.UA is a glycoprotein and shows presence of N-acetyl glucosamine and galactose, apart from mannose.De nove synthesis studies in the presence of tunicamycin show that the carbohydrate moiety of the glycoprotein is attached by N-linkage to the protein. Binding characteristics of the protein is studied quantitatively in which (¹²⁵I)-labelled lectin is bound to Mannan-Sepharose affinity matrix. The sugar inhibition pattern of this binding shows -methyl mannopyranoside and M-6-P to be equally effective as inhibitors. Scatchard analysis of the binding of UA to (¹⁴C)-mannose shows a Ka of 6.43×10⁵ (M^–1) and that 1 mole of UA can bind to 8 moles of mannose. The possible role of the protein in implantation has also been discussed.Abbreviations b.w. body weight - BSA Bovine Serum Albumin - Con A Concanavalin A - cpm counts per minute - Endo H endoglycosidase H - GlcNAc N-acetyl glucosamine - Man mannose - M-6-P mannose-6-phosphate - MEM-deficient Minimum Essential Medium Eagle-deficient modification - NaBH₄ sodium borohydride - NaN₃ sodium azide - (NH₄)₂SO₄ ammonium sulphate - p.c. post coitum - PMSF phenyl methyl sulphonyl fluoride - PTA phosphotungstic acid - RCA Ricinus communis Agglutinin - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis - TCA trichloroacetic acid - UA Uterine Agglutinin - WGA Wheat-germ Agglutinin     

Changes in glycosylation alter the affinity of the human transferrin receptor for its ligand

When transferrin receptors of human erythroleukemic cells were pulse-labeled with [35S]methionine and then chased in the absence of radioactive precursor, the first detectable immunoprecipitable form of the receptor had a molecular mass of 85 kDa. This form of the receptor was converted to the mature form of 93 kDa with a half-time of about 40-60 min. Both the immature (85 kDa) and mature (93 kDa) receptors associated as dimers, the native form of the receptor. The 85-kDa, as well as the 93-kDa, receptors bound to a monoclonal antibody raised against the transferrin receptor or to transferrin-Sepharose. In order to determine whether glycosylation was necessary for ligand binding, purified receptors were isolated from cells grown in the presence of tunicamycin. When K562 cells were grown in the presence of tunicamycin, an 80-kDa nonglycosylated form of the receptor was synthesized. This nonglycosylated receptor was also capable of dimer formation; however, much less of it reached the cell surface than the fully glycosylated form, although both untreated and tunicamycin-grown cells appeared to synthesize transferrin receptors at similar rates. Although the number of receptor molecules/cell was similar in control and tunicamycin-treated cells, the nonglycosylated receptors exhibited a much lower affinity for transferrin than those of untreated cells; in contrast, when receptors were purified by immunoprecipitation and digested with bacterial alkaline phosphatase, no difference was observed between the affinity of these receptors and undigested immunoprecipitated receptors. These results suggest that glycosylation is not necessary for specific binding of transferrin to its receptor, but the affinity of this binding can be influenced greatly by the presence or absence of carbohydrate residues.     

Epidermal growth factor receptors

EGF-Rs are cell membrane glycoproteins of wide distribution. They have not yet been fully characterized or purified but are probably molecules of 170-190,000 mol. wt. in most cells. The growth factor EGF binds and will saturate cell surface receptors with a KA of about 5 X 10(9) M-1 although a receptor class with an affinity in excess of 10(10) M-1 has been detected in some cells. The number of receptors on a cell does not determine the level of its response. Some cell types have receptors which bind EGF, but with no mitogenic response. The ways in which receptor affinity and/or number is modulated are described. This and other evidence is reviewed in a search for a suitable model of a mechanism of action on the cell, which best fits the current data. There is ample evidence that EGF binds to the receptor; that ligand-receptor complexes cluster or aggregate; and then are internalized and degraded, but evidence for a direct connection between internalization and the subsequent mitogenic response is lacking. Good correlations between internalization and mitogenic responses have been observed and developed into a theory of endocytic activation, but there is a body of evidence which cannot be accommodated by this theory. Instead, an alternative model is suggested.     

Co-purification of A1 adenosine receptors and guanine nucleotide-binding proteins from bovine brain

A1 adenosine receptors and guanine nucleotide-binding proteins (G proteins) solubilized with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate have been co-purified from bovine cerebral cortex. A portion of solubilized receptors which displays high affinity GTP-sensitive agonist binding (40-50%) adheres tightly to agonist affinity columns composed of N6-aminobenzyladenosine-agarose. A1 adenosine receptors and G proteins are rapidly and selectively coeluted from agonist columns by the addition of 8-p-sulfophenyltheophylline, but only in combination with Mg2+-GTP or N-ethylmaleimide, agents which lower the affinity of receptors for agonists. Purified receptors and G protein alpha-subunits can be detected with the potent A1-selective antagonist radioligand, [125I]3-(4-amino-3-iodo)phenethyl-1-propyl-8-cyclopentylxanthine (125I-BW-A844U) and [35S]guanosine 5'-3-O-(thio)triphosphate [( 35S]GTP gamma S), respectively. Pretreatment of solubilized receptors with 0.1 mM N-ethylmaleimide or 0.1 mM R-phenylisopropyladenosine abolishes adsorption of receptors and G proteins to affinity columns. Following removal of 8-p-sulfophenyltheophylline and GTP, purified receptors bind agonists (2 sites) and antagonists (1 site) with affinities similar to crude soluble receptors and typical of A1 receptors. Some receptors may be denatured as a result of purification since only 23% of the radioligand binding sites which adhere to the affinity column can be detected in the eluate. The Bmax of purified receptors, 820 +/- 100 pmol/mg protein (n = 3) is 1800-fold higher than crude soluble receptors. The specific activity of [35S]GTP gamma S binding sites in affinity column eluates is 4640 pmol/mg protein. Assuming a 1:1 stoichiometry, this specific activity indicates that receptor-G protein complexes are greater than 50% pure following affinity chromatography. The photoaffinity labeled purified receptor was identified by polyacrylamide gel electrophoresis as a single band with a molecular mass of 35 kDa which when deglycosylated undergoes a characteristic shift in molecular mass to a sharp band at 32 kDa. In addition to the receptor, silver staining revealed polypeptides with molecular masses of 39 and 41 kDa, which are ADP-ribosylated by pertussis toxin, and 36 kDa corresponding to G protein beta-subunits.     

Phosphorylation of the cardiac muscarinic receptor in intact chick heart and its regulation by a muscarinic agonist

We have tested the possibility that regulation of cardiac muscarinic receptor function may involve receptor phosphorylation. Chick heart muscarinic receptors were purified from relatively small amounts of tissue to near homogeneity using a three-step chromatographic procedure that utilized the affinity chromatography procedure of Haga and Haga (Haga, K., and Haga, T. (1983) J. Biol. Chem. 258, 13575-13579). The purified preparations contained a single major peptide which migrated on sodium dodecyl sulfate gels with an apparent Mr of 79,000. When receptors were purified from 32P-bathed hearts, a single major phosphopeptide eluted from the affinity column and comigrated on sodium dodecyl sulfate gels with the band of stained receptor. Treatment of hearts with the agonist carbachol led to marked increases (10-12-fold) in the phosphorylation of the receptor. The results show that the muscarinic receptor is a phosphoprotein in cardiac tissue and that treatment with a receptor agonist regulates its phosphorylation in the intact cell.     

The disappearance of an hsc70 species in mung bean seed during germination: purification and characterization of the protein

We have purified a 73 kDa protein from the cytosolic fraction of mung bean seeds. It comprises 0.5–1% of the total protein in seeds. This purified protein is a bona fide hsc70 on the basis of several lines of evidence. First, antibodies against bovine brain hsc70 cross-react with the purified 73 kDa protein. Second, the purified protein comigrates on two-dimensional gels with one of the heat-inducible hsc70s in mung bean seedlings. Third, similar to other hsc70 species, the purified 73 kDa protein has a high affinity for ATP. Finally, the hydrolysis of ATP by the purified protein can be stimulated by peptides; ATPase activity increases from 40 nmol/h to 165 nmol/h per mg of protein. The purified mung bean hsc70 autophosphorylates at a substoichiometric level. Moreover, the amount of this hsc70 species diminishes while new species of hsc70s appear after germination, suggesting that the expressionof hsc70 in mung bean is subject to developmental regulation.     

M2-Muscarinic Receptors: How Does Ligand Binding Affinity Relate to Intrinsic Activity?

Abstract

In this study we looked for evidence regarding a correlation between M₂-muscarinic receptor binding affinity and ligand intrinsic activity. Guanine nucleotide-binding protein-coupled receptors have been shown to exist in both a high affinity and a low affinity, agonist state. The agonist [³H]Oxotremorine-M, was used to determine the affinity of compounds for the high affinity state and the antagonist, [³H]N-methylscopolamine, plus GppNHp, was used to determine the affinity for the low agonist state. The magnitude of the difference in the affinity a compound has for the high versus the low agonist state of the receptor has been related to the intrinsic activity of the compound. NMS/Oxo-M ratios were established for muscarinic agonists, partial agonists and antagonists. NMS/Oxo-M ratios varied from 1695 for the agonist carbachol to 1.9 for the antagonist AFDX-116 with intermediate values for the partial agonists oxotremorine-M, pilocarpine and RS86 (233, 36 and 17 respectively). Intrinsic activity was assessed by receptor-mediated G_i-protein GTPase activity. Indeed, a close correlation (r=0.92) was found between the NMS/Oxo-M ratios of the ligands on the one hand, and their ability to activate the M₂-receptor coupled G_i-protein on the other.     

Drastic decrease in dopamine receptor levels in the striatum of acetylcholinesterase knock-out mouse

BackgroundThe acetylcholinesterase knock-out mouse lives to adulthood despite 60-fold elevated acetylcholine concentrations in the brain that are lethal to wild-type animals. Part of its mechanism of survival is a 50% decrease in muscarinic and nicotinic receptors and a 50% decrease in adrenoceptor levels.HypothesisThe hypothesis was tested that the dopaminergic neuronal system had also adapted.MethodsRadioligand binding assays measured dopamine receptor level and binding affinity in the striatum. Immunohistochemistry of brain sections with specific antibodies visualized dopamine transporter. Effects on the intracellular compartment were measured as cAMP content, PI-phospholipase C activity.ResultsDopamine receptor levels were decreased 28-fold for the D₁-like, and more than 37-fold for the D₂-like receptors, though binding affinity was normal. Despite these huge changes in receptor levels, dopamine transporter levels were not affected. The intracellular compartment had normal levels of cAMP and PI-phospholipase C activity.ConclusionSurvival of the acetylcholinesterase knock-out mouse could be linked to adaptation of many neuronal systems during development including the cholinergic, adrenergic and dopaminergic. These adaptations balance the overstimulation of cholinergic receptors caused by high acetylcholine concentrations and thus maintain homeostasis inside the cell, allowing the animal to live.     

Antipsychotic-Like Effect of the Muscarinic Acetylcholine Receptor Agonist BuTAC in Non-Human Primates

Cholinergic, muscarinic receptor agonists exhibit functional dopamine antagonism and muscarinic receptors have been suggested as possible future targets for the treatment of schizophrenia and drug abuse. The muscarinic ligand (5R,6R)-6-(3-butylthio-1,2,5-thiadiazol-4-yl)-1-azabicyclo[3.2.1]octane (BuTAC) exhibits high affinity for muscarinic receptors with no or substantially less affinity for a large number of other receptors and binding sites, including the dopamine receptors and the dopamine transporter. In the present study, we wanted to examine the possible antipsychotic-like effects of BuTAC in primates. To this end, we investigated the effects of BuTAC on d-amphetamine-induced behaviour in antipsychotic-naive Cebus paella monkeys. Possible adverse events of BuTAC, were evaluated in the same monkeys as well as in monkeys sensitized to antipsychotic-induced extrapyramidal side effects. The present data suggests that, the muscarinic receptor ligand BuTAC exhibits antipsychotic-like behaviour in primates. The behavioural data of BuTAC as well as the new biochemical data further substantiate the rationale for the use of muscarinic M₁/M₂/M₄-preferring receptor agonists as novel pharmacological tools in the treatment of schizophrenia.     

Protein affinity chromatography reveals cell cycle dependent association of cellular factors with human DNA polymerase α

DNA polymerase α/primase (Polα) is the key replication enzyme in eukaryotic cells. This enzyme synthesizes and elongates short RNA primers at an unwound origin of replication. Polα was used as an affinity ligand to identify cellular replication factors interacting with it. Protein complexes between Polα and cellular factors were analyzed by co-immunoprecipitations with monoclonal antibodies directed against Polα and by protein affinity chromatography of cell extracts derived from pure G₁-and S-phase cell populations on Polα affinity columns. Co-immunoprecipitations resulted in the identification of a polypeptide with a molecular weight of 46 kDa. For Polα affinity chromatography, the ligand was purified from insect cells infected with a recombinant baculovirus encoding the catalytic subunit (p180) of Polα (Copeland and Wang, 1991). With 5×10⁸ infected Sf9 cells, a rapid one step purification protocol was used which yielded in five hours 0.6 mg pure enzyme with a specific activity of 140,000 units/mg. The G₁-and S-phase cell populations were generated by block, release and counterflow centrifugal elutriation of exponentially growing human MANCA cells. Starting with 2×10⁹ non synchronous cells, 5×10⁸ G₁-phase cells were isolated. Chromatography of cell extracts derived from G₁-or S-phase cells on Polα affinity columns resulted in identifying several polypeptides in the range of 40–70 kDa. Some of these polypeptides are more abundant in eluates derived from S-phase extracts than from G₁-phase extracts.     

Autoradiographic distribution of high affinity muscarinic and nicotinic cholinergic receptors labeled with [3H]acetylcholine in rat brain

The relative distribution of muscarinic and nicotinic cholinergic receptors labeled with [3H]acetylcholine was determined using autoradiography. [3H]Acetylcholine binding to high affinity muscarinic receptors was similar to what has been described for an M-2 distribution: highest levels of binding occurred in the pontine and brainstem nuclei, anterior pretectal area and anteroventral thalamic nucleus, while lower levels occurred in the caudate-putamen, accumbens nucleus and primary olfactory cortex. Nicotinic receptors were labeled with [3H]acetylcholine to the greatest extent in the interpeduncular nucleus, several thalamic nuclei, medial habenula, presubiculum and superior colliculus, and to the least extent in the hippocampus and inferior colliculus. By using autoradiography to localize cholinergic binding sites throughout the brain it was observed that the distributions of high affinity muscarinic and nicotinic sites labeled with the endogenous ligand, [3H]acetylcholine are different from each other and are different from distributions of muscarinic and nicotinic sites labeled with muscarinic and nicotinic antagonists.     

Purification and Characterization of Lysine- and Arginine-Specific Gingivain Proteases from Porphyromonas Gingivalis

Abstract

Four gingivain proteases, active in presence of L-cysteine, were purified from spent culture media of oral pathogen Porphyromonas gingivalis by ion-exchange chromatography on MonoQ and chromatofocusing on MonoP columns. Three of the purified proteases, with molecular masses of 75 kDa, 70 kDa and 55 kDa, respectively, hydrolyzed synthetic chromogenic substrates with arginine in the P1 position. One protease, with a molecular mass of 80 kDa, hydrolyzed substrates with lysine in the P1 position. It is proposed these enzymes be named: arg-gingivain-75, arg-gingivain-70, arg-gingivain-55, and lys-gingivain-80, respectively, based on their molecular mass and specificity for either arginine or lysine in the P1 position.     

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. © 1996 Wiley-Liss, Inc.