Photoaffinity labeling of the tetrabenazine binding sites of bovine chromaffin granule membranes

An azido derivative of tetrabenazine, a specific inhibitor of the monoamine carrier of chromaffin granule membranes, has been synthesized. In the dark, this compound, 3H-labeled N-(3-isobutyl-9,10-dimethoxy-1,2,3,4,6,7-hexahydro-11bH-benzo [a]quinolizin-2-yl)-4-[(4-azido-2-nitrophenyl)amino]butanamide+ ++ ([3H]TBA), bound reversibly to purified chromaffin granule membranes. Centrifugation through SP-Sephadex columns was used to separate bound and free [3H]TBA. This technique gave low levels of nonspecific binding and allowed recovery of [3H]TBA-membrane complexes. Scatchard analysis of the data indicated one class of sites with an equilibrium dissociation constant KD of 50 nM and a density of sites of 40-50 pmol/mg of protein, consistent with reported densities of reserpine and dihydrotetrabenazine binding sites. Competition experiments showed that TBA and tetrabenazine bound to the same site. Irradiation at 435 nm of [3H]TBA-membrane mixtures induced some irreversible binding of the probe to membranes. After irreversible binding of TBA, the number of dihydrotetrabenazine binding sites was decreased, indicating that the probe was covalently bound to the monoamine carrier. [3H]TBA-membrane complexes isolated by centrifugation through SP-Sephadex columns were irradiated, and their radioactivity was analyzed by electrophoresis on sodium dodecyl sulfate/polyacrylamide gels. A polypeptide with a molecular weight of 70 000 was labeled. This polypeptide was different from dopamine beta-hydroxylase, and it was not adsorbed on concanavalin A-Sepharose. It is proposed that the monoamine carrier of chromaffin granule membrane has an oligomeric structure, involving a 45K subunit [Gabizon, R., Yetinson, T., & Schuldiner, S. (1982) J. Biol. Chem. 257, 15145] and a 70K subunit.     

Photoaffinity labeling of uncoupler binding sites on mitochondrial membrane

³H 2-azido-4-nitrophenol, a photoactive uncoupler, has been synthesized, and its uncoupling action on oxidative phosphorylation and its binding to the mitochondrial membrane have been studied. The uncoupler bound covalently to the mitochondrial membrane on photoirradiation was 3–4 times that bound reversibly in the absence of light. When irradiation was carried out in the presence of serum albumin, covalent binding was significantly depressed. The pattern of loss of ATP-P_i' exchange activity with increasing amounts of the uncoupler suggests that serum albumin prevents the binding of the uncoupler to the functional sites as well. Polyacrylamide gel electrophoresis of photoaffinity labeled submitochondrial particles in the presence of sodium dodecyl sulfate revealed that a 9000 dalton peptide bound high levels of uncoupler. Other proteins in the molecular weight range of 20,000–40,000 and 55,000 were also labeled. Photolysis in the presence of serum albumin or ATP decreased the covalent binding of the uncoupler to all the proteins, but particularly to the 20,000 dalton component. Soluble ATPase and the mitochondrial proteolipid purified from labeled mitochondria showed the presence of label.Abbreviations NPA 2-azido-4-nitrophenol - DNP 2,4-dinitrophenol - DCCD N, N¹-dicyclohexylcarbodiimide - AE particles=bovine heart submitochondrial particles prepared by treatment with NH₄OH and EDTA at pH 8.8 - RCI respiratory control index - BSA bovine serum albumin     

Specific binding sites for platelet activating factor in human lung tissues

Specific and saturable binding of [3H]-labeled 1-0-alkyl-2-0-acetyl-sn-glycero-3-phosphocholine (PAF) to membrane preparations of human lung tissues is demonstrated. The equilibrium dissociation constant (KD) was determined by Scatchard analysis to be 4.9 (+/- 1.7) X 10(-10)M and the maximal number of binding sites was estimated to be 140 (+/- 37) fmole/mg protein. The binding site is PAF specific and its selectivity toward PAF analogs is very similar to that in rabbit platelets. Two PAF receptor antagonists, kadsurenone and ginkgolide B, previously characterized in platelet systems, also displace the binding of [3H]-PAF to human lung homogenates. These data indicate that human lung tissues contain PAF specific receptors, and binding of PAF to these receptor sites may be the first step to initiate PAF-induced lung pathophysiology.     

Photoaffinity labeling of procaine-binding sites in normal and sickle cell membranes

A photoaffinity probe, procaine azide, was employed to determine the sites of interaction of procaine in normal and sickle cell erythrocytes. Studies show that the number of binding sites and affinity of procaine to membranes derived from normal and sickled cell erythrocytes were similar, although procaine retards the in vitro formation of irreversibly sickled cells from cells. The results show that procaine azide, a photoaffinity analogue of procaine, is covalently incorporated into both protein (60–70%) and lipid (40–30%) components of the membrane. Sodium dodecyl sulfate-gel electrophoresis of the labeled ghosts show that procaine binds specifically to band 3 and periodic acid-Schiff staining bands in membranes derived from labeled erythrocytes. Binding of procaine or covalent incorporation of procaine azide into membrane proteins does not affect the phosphate transport. Moreover, pre-treatment of intact erythrocytes with 4,4′-diisothiocyano-2,2′-stilbene disulfonate, an anion transport inhibitor, did not affect either the binding or covalent incorporation of procaine azide into erythrocytes. These results indicate that the binding of procaine azide to Band 3 protein occurs at a locus different than that involved in anion translocation process.     

Characterization of 3H-labelled platelet activating factor receptor complex solubilized from rabbit platelet membranes

Rabbit platelet membranes, preincubated with 3H-labeled platelet activating factor ([3H]PAF), were solubilized with 2% digitonin. Sedimentation of the detergent extract in a sucrose density gradient revealed a major labeled component with a sedimentation coefficient (s20,omega) of 10.5 S, which was substantially diminished when an excess of unlabeled PAF or L-652,731, (trans-2,5-bis(3,4,5-trimethoxyphenyl)tetrahydrofuran), (PAF antagonist) was present in the preincubation mixture, suggesting that the 10.5 S component is a specific receptor-bound [3H]PAF complex. Gel filtration of the [3H]PAF-receptor complex on Sephacryl S-300 revealed a single radiolabeled fraction with an apparent Stokes' radius of 4.9 nm. The apparent molecular weight and the frictional ratio of the agonist-receptor complex were computed to be 220,000 and 1.13, respectively. Dissociation of [3H]PAF from the radioligand-receptor complex was facilitated by Na+ and Li+, whereas K+ and Cs+ were ineffective. The guanine nucleotide, GTP, was also found to promote the dissociation in a manner that is additive with the effect of Na+, suggestive of the coupling of a guanine nucleotide binding protein to the solubilized PAF-receptor complex.     

Characterization of3H-labelled platelet activating factor receptor complex solubilized from rabbit platelet membranes

Rabbit platelet membranes, preincubated with³H-labeled platelet activating factor ([³H]PAF), were solubilized with 2% digitonin. Sedimentation of the detergent extract in a sucrose density gradient revealed a major labeled component with a sedimentation coefficient (s_20,ω) of 10.5 S, which was substantially diminished when an excess of unlabeled PAF or L-652,731, (trans-2,5-bis(3,4,5-trimethoxyphenyl)tetrahydrofuran), (PAF antagonist) was present in the preincubation mixture, suggesting that the 10.5 S component is a specific receptor-bound [³H]PAF complex. Gel filtration of the [³H]PAF-receptor complex on Sephacryl S-300 revealed a single radiolabeled fraction with an apparent Stokes' radius of 4.9 nm. The apparent molecular weight and the frictional ratio of the agonist-receptor complex were computed to be 220 000 and 1.13, respectively. Dissociation of [³H]PAF from the radioligand-receptor complex was facilitated by Na⁺ and Li⁺, whereas K⁺ and Cs⁺ were ineffective. The guanine nucleotide, GTP, was also found to promote the dissociation in a manner that is additive with the effect of Na⁺, suggestive of the coupling of a guanine nucleotide binding protein to the solubilized PAF-receptor complex.     

Specific receptor sites for platelet activating factor on rat liver plasma membranes

The binding of 3H-labeled 1-O-alkyl-2-O-acetyl-sn-glycero-3-phosphocholine (PAF) to isolated rat liver plasma membranes and its inhibition by PAF agonists and receptor antagonists was demonstrated. The specific binding was readily saturable with a high affinity. The equilibrium dissociation constant (KD) value was 0.51 (+/- 0.14) nM and the maximal number of binding sites (Bmax) was estimated to be 141 (+/- 18) fmol/mg protein. The binding site was PAF specific-biologically inactive enantiomer was practically inactive. Two PAF-like receptor antagonists, Ono-6240 and CV-3988, and two PAF-unlike receptor antagonists, L-652,731 and kadsurenone, also displaced the binding of [3H]PAF to rat liver plasma membranes but their relative potencies in this system differed from those found in other receptor systems. Mg2+ potentiated [3H]PAF binding but inhibited it at concentrations higher than 10 mM. Both Na+ and K+ inhibited the Mg2+-potentiated binding, an ionic effect which was different from that found in rabbit platelets. These results suggest that rat livers contain PAF-specific receptors, and the receptors in rat livers are different from those found in other receptor systems.     

Photoaffinity labeling of platelet thrombin-binding proteins

The interaction of thrombin and platelets was studied with a heterobifunctional photoactivable crosslinking agent. Radiolabeled thrombin that was modified with ethyl-N-5-azido-2-nitrobenzoylaminoacetimidate formed two types of complex with platelet proteins; platelet-associated complexes and supernatant complexes. The platelet-associated complexes formed within 20 s. Autoradiography after electrophoresis with sodium dodecyl sulfate indicated that these complexes had apparent masses of 210, 185, 155 and 125 kDa. Formation of the complexes was blocked by hirudin; this is consistent with crosslinking that was a direct consequences of the binding of thrombin to a specific receptor, since hirudin blocks thrombin-induced platelet activation and the saturable binding of thrombin to platelets. The labeled supernatant complex had an apparent mass of about 490 kDa. It also formed in the supernatant solution of platelets after activation with a divalent cation ionophore, suggesting a complex of thrombin with a secreted protein. The supernatant complex did not involve fibrinogen or α₂-macroglobulin, but a similar complex was formed with partially purified secreted glycoprotein G (thrombin-sensitive protein, thrombospondin). Formation of the complex was blocked by hirudin. A similar complex was formed after prolonged (1 h) incubation without photoactivation. It is concluded that thrombin forms high-affinity, hirudin-sensitive complexes with secreted glycoprotein G, as well as with platelet surface proteins.     

Photoaffinity labeling of adenosine 3',5'-cyclic monophosphate binding sites of human red cell membranes.

To identify and investigate the cAMP binding sites of human red cell membranes a photoaffinity analog of cAMP, 8-azidoadenosine 3',5'-cyclic monophosphate (8-N3cAMP), has been synthesized. This analog activates cAMP-dependent protein kinase(s) in the red cell membrane. It exhibits tight, but reversible binding to the membranes which is competitive with cAMP. Photolysis of [32P]-8-N3cAMP with red cell membranes results in covalent incorporation of radioactive label onto two specific membrane proteins. This incorporation requires activating light and is reduced to background levels with addition of low levels of cAMP. Prephotolysis of 8-N3cAMP completely abolished its ability to photolabel membrane proteins. Both the reversible and photocatalyzed binding of 8-N3cAMP show saturation kinetics. The molecular weights of the two primarily labeled proteins are approximately 49,000 and 55,000. The differential effects of cAMP, ATP, and adenosine on the photocatalyzed incorporation of [32P]-8-N3cAMP onto these two proteins suggest that they have biochemically different properties. The potential usefulness of this compound for investigating various molecular aspects of cAMP action is discussed.     

Photoaffinity labeling of specific alpha-thrombin binding sites on Chinese hamster lung cells

Binding sites for alpha-thrombin on cultured Chinese hamster lung cells were identified using photoactivatable cross-linking conjugates of diisopropylphosphorofluoridate-inactivated alpha-thrombin. A series of photoaffinity reagents was synthesized that permitted systematic variation of the extent of thrombin modification and of steric factors affecting the ability of the photoaffinity reagent to contact thrombin receptors. The reagents were synthesized with a tritium label to accurately determine the number of photoaffinity molecules linked to each thrombin. Also, they were synthesized with different length spacer arms between the photoreactive cross-linking group (a nitroarylazide) and the end which linked to alpha-thrombin (a succinimide ester). By calculating the percentage of the thrombin surface that would be accessed by modifying it with a fixed molar excess of each reagent, it was possible to select the photoaffinity reagents that would be most effective for cross-linking 125I-labeled diisopropylphosphorofluoridate-inactivated alpha-thrombin to its cellular binding sites. The validity of this selection procedure was confirmed in experiments in which an Mr = 150,000 cellular component was labeled. This component had the properties of a specific binding site for thrombin since labeling was readily competed for by nonlabeled alpha-thrombin. The cross-linking achieved was due to the photoactivatable reagent since no detectable cross-linked complex was formed in the absence of photoactivation or with 125I-labeled diisopropylphosphorofluoridate-inactivated alpha-thrombin that was not conjugated with the photoaffinity reagent.     

Biosynthesis of platelet activating factor in rabbit polymorphonuclear neutrophils

The synthesis of platelet activating factor (1-O-alkyl-2-acetyl-sn-glycero-3-phosphocholine) was studied in rabbit peritoneal polymorphonuclear neutrophils. Upon stimulation with ionophore A23187 and Ca2+, these cells are able to incorporate [3H]acetate or 1-O-[3H]alkyl-2-lyso-sn-glycero-3-phosphocholine into platelet activating factor. Under the same incubation conditions, however, the cells do not synthesize platelet activating factor from [14C]hexadecanol, which is an immediate precursor of O-alkyl chains in the de novo pathway. In the absence of ionophore, [14C] hexadecanol is incorporated into 1-O-alkyl-2-acyl-sn-glycerol-3-phosphate and subsequently into the 1-O-alkyl-linked choline and ethanolamine phosphoglyceride pools. However, in the presence of ionophore, [14C] hexadecanol incorporation is limited to phosphatidic acid, perhaps due to the inhibition of choline phosphotransferase. These findings provide strong evidence that platelet activating factor is synthesized by a deacylation-reacylation mechanism. Upon stimulation, these cells can utilize both plausible substrates of this pathway to make the final product, while under the same conditions it appears that a key step of the de novo pathway is inhibited.     

Specific receptor sites for 1-O-alkyl-2-O-acetyl-sn-glycero-3-phosphocholine (platelet activating factor) on rabbit platelet and guinea pig smooth muscle membranes

By using tritiated 1-O-alkyl-2-O-acetyl-sn-glycero-3-phosphocholine (3H-PAF), we have directly identified its specific binding sites on rabbit platelet plasma membranes. The equilibrium dissociation constant for 3H-PAF is 1.36 (+/- 0.05) X 10(-9) M at 0 degrees C. The number of binding sites is 1.61 (+/- 0.34) X 10(12)/mg of membrane, which corresponds to approximately 150-300 receptors/platelet (depending on membrane vesicle orientation). Binding of 3H-PAF to rabbit platelet plasma membrane is rapid (t1/2 less than 5 min at 0 degrees C) and reversible. For a series of PAF analogues, their affinity for the receptor sites parallels with their relative potency to induce platelet aggregation. PAF can cause contraction of smooth muscle of heart, parenchymal strip, trachea, and ileum. Specific PAF receptor binding was demonstrated with purified plasma membrane from several smooth muscles and from polymorphonuclear leukocytes but not from presumably PAF nonresponsive cells such as erythrocytes and alveolar macrophages. It is likely that the interaction of PAF with these binding sites initiates the specific responses of platelets, polymorphonuclear leukocytes, and smooth muscles.     

Photoaffinity labeling of atrial natriuretic factor receptors of rat kidney cortex plasma membranes

Synthetic rat atrial natriuretic factor (ANF) was derivatized with the N-hydroxysuccinimide ester of [125I]iodoazidosalicylic acid to yield a radioactive photoaffinity probe. Incubation of purified plasma membranes from rat kidney cortex with this photoaffinity probe resulted in the specific labeling of a 140-kDa glycoprotein. The photoaffinity labeling of this protein was inhibited by ANF but not by reduced and alkylated ANF nor by other unrelated peptides. A 140-kDa band was also specifically labeled in liver plasma membranes but not in adipocyte plasma membranes. These observations suggest strongly that the 140-kDa glycoprotein is the ANF receptor.     

Photoaffinity labeling of atrial natriuretic factor receptor in bovine and rat adrenal cortical membranes

Radioiodinated synthetic atrial natriuretic factor (ANF) bound to a single class of high affinity binding sites in the plasma membrane from bovine adrenal cortex with a KD of 7.4 X 10(-10) M. The binding affinities of related peptides showed close parallelism to their potencies in natriuretic and vasorelaxant activities. Incubation of adrenal membranes with radioiodinated 4-azidobenzoyl ANF or a similar derivative of its analogue followed by photolysis resulted in specific radiolabeling of a protein band in SDS gel electrophoresis with an apparent Mr of 124,000 in bovine or Mr of 126,000 in rat, which was abolished by inclusion of unmodified ANF in the incubation. Prevention of the labeling was dependent on the concentration of ANF and was not observed with atriopeptin I or with unrelated peptides, angiotensin II, ACTH or [Arg8] vasopressin. These results indicate specific covalent labeling of ANF-receptor or its subunit by the photoaffinity ligands.     

Location of platelet activating factor binding in rat liver.

Autoradiographs of tissue slices from livers perfused with 1 x 10(-9) M-1-O-[3H]octadecyl-2-acetyl-sn-glycero-3-phosphocholine ([ 3H]18:0-sn-3-AGEPC) indicate that binding of this agonist is localized in the portal venules in anterograde perfused livers, and in the central venules in retrograde perfused livers. The pattern of silver grains in anterograde perfused liver was not affected significantly by prior exposure to 100-fold excesses of unlabelled 16:0- or 18:0-sn-3-AGEPC, 16:0-sn-1-AGEPC, or a 1000-fold excess of U.66985. [3H]18:0-sn-3-lyso-GEPC produced the same pattern of binding as the acetylated analogue. Measurement of glucose release stimulated by 16:0-sn-3-AGEPC demonstrated that the retrograde perfused liver was nearly 1000-fold less sensitive to this compound than the anterograde perfused liver. Exposure of the livers to bovine serum albumin prior to 5 x 10(-11) M-[3H]18:0-sn-3-AGEPC resulted in inhibition of stimulated glucose release, and decreased both the amount of label retained in the livers and the amount of silver grains over the portal sinusoidal cells without affecting the amount of grains seen over all other regions of the liver. Glucose release from primary monolayer cultures of hepatocytes or suspensions of liver slices was not stimulated by 16:0-sn-3-AGEPC. The results suggest that specific binding of [3H]18:0-sn-3-AGEPC is restricted to the portal side of the liver microvasculature, the majority of binding is nonspecific, and the biological response to AGEPC requires an intact and perfused vasculature.     

Platelet-activating factor binding to human platelet membranes

Previously reported methods for quantifying platelet-activating factor (PAF) binding to rabbit platelet membranes were modified for studies of PAF binding to human platelet membranes. The membranes were prepared by the "glycerol lysis" method and PAF binding was quantified by using polyethylene glycol precipitation to recover membrane-bound PAF. Optimal PAF binding required buffers containing 3 to 10 mm KCl and either 5 to 10 mM MgCl2 or 5 to 10 mM CaCl2. NaCl was not as effective as KCl and concentrations of NaCl greater than 3 mM strongly inhibited PAF binding. Maximal binding occurred after incubation for 60 min at 0 degree C and was reversed by the addition of excess unlabeled PAF. PAF binding was saturable. Scatchard analysis of PAF binding to 50 micrograms of membrane protein revealed 10.3 +/- 1.7 x 10(11) receptors per milligram of membrane protein and the receptors had a Kd of 7.6 +/- 1.9 nM. The calculated receptor number, binding affinity, and specificity of binding are similar to those previously calculated for PAF binding to intact human platelets, suggesting that the membrane binding site for PAF is the PAF receptor.     

Staurosporine potentiates platelet activating factor stimulated phospholipase C activity in rabbit platelets but does not block desensitization by platelet activating factor

The possible involvement of protein kinase C activation in regulating PAF-stimulated PLC activity was studied in rabbit platelets. PAF (100 nM for 5 seconds) stimulated incorporation of 32P into proteins and caused [3H]InsP3 levels to increase about 260% of control. These responses were compared after platelets were pretreated with either PAF, phorbol 12-myristate 13-acetate (PMA) or staurosporine and also after pretreatments with staurosporine followed by PAF or PMA. Pretreating platelets with staurosporine potentiated PAF-stimulated [3H]InsP3 levels by 54% and blocked protein phosphorylation. Pretreatments with PAF and PMA caused PAF-stimulated [3H]InsP3 levels to decrease to 115 and 136%, respectively. Staurosporine pretreatment blocked the decrease caused by the PMA pretreatment but not that by PAF. This study demonstrates that PAF-stimulated PLC activity is negatively affected by protein kinase C (PKC) activation and that inhibition of PKC activity did not prevent desensitization of PLC by PAF.     

Photoaffinity labeling of the acetylcholine binding sites on the nicotinic receptor by an aryldiazonium derivative

p-(Dimethylamino)benzenediazonium fluoroborate (DDF) behaves, in the dark, as a reversible competitive antagonist of the electrical response of Electrophorus electricus electroplaque to acetylcholine and of the acetylcholine-gated single-channel currents recorded in the C2 mouse cell line. This chemically stable but highly photoreactive compound binds irreversibly to the acetylcholine receptor when irradiated by visible light. In vivo, it irreversibly blocks the postsynaptic response of E. electricus electroplaque to agonists. In vitro, it reduces the alpha-bungarotoxin-binding capacity of acetylcholine receptor rich membrane fragments prepared from Torpedo marmorata electric organ. Once reversibly bound to the T. marmorata acetylcholine receptor, this ligand can be selectively photodecomposed by an energy-transfer reaction involving a tryptophan residue(s) of the protein. By use of reagent concentrations that are below the dissociation constant at equilibrium, up to 60% of the agonist-binding sites are covalently labeled. Under these conditions the alpha subunit of the acetylcholine receptor is preferentially labeled, and this labeling is partially prevented by agonists or competitive antagonists. This protective effect is substantially increased by prior incubation with phencyclidine, a compound known to prevent the binding of DDF at the level of the high-affinity site for noncompetitive blockers [Kotzyba-Hibert, F., Langenbuch-Cachat, J., Jaganathen, J., Goeldner, M. P., & Hirth, C. G. (1985) FEBS Lett. 182, 297-301]. The incorporation of about one molecule of label in an agonist/competitive antagonist protectable manner per alpha-bungarotoxin-binding site suffices to fully block alpha-bungarotoxin binding to the membrane-bound receptor. Thus, DDF behaves as a monovalent photoaffinity label of the acetylcholine-binding site.     

Photoaffinity labeling of the nucleotide binding site of actin

Rabbit skeletal muscle actin was photoaffinity-labeled by the nucleotide analogue 8-azidoadenosine 5'-triphosphate. In both G-actin and F-actin about 25% covalent incorporation was achieved. The labeled actins were digested with cyanogen bromide, and the labeled peptides were isolated and sequenced. In F-actin the label was bound primarily to Lys-336, while in G-actin the label was bound to Lys-336 or to Trp-356. The results indicate that the nucleotide binding site is near the phalloidin binding site of actin [Vanderkerckhove, J., Deboben, A., Nassal, M., & Wieland, T. (1985) EMBO J. 4, 2815-2818]. The binding of the azido group to Trp-356 in G-actin but not in F-actin may indicate that a change in the conformation of actin occurs in this region.