Selective mastoporan inhibition of muscarinic activation of bovine tracheal smooth muscle

Muscarinic activation of bovine tracheal smooth muscle (BTSM) leading to smooth muscle contraction involves the generation of two cGMP signals (20 and 60 s), being 20s peak associated with soluble (sGC) and the second (60s) to membrane-bound Natriuretic Peptide- receptor-Guanylylcy clases (NPR-GC). In this study, we showed that pre-incubation of isolated BTSM strips with mastoparan and superactive mastoparan (mastoparan 7) decreased significantly the muscarinic dependent contractile smooth muscle responses in dose-dependent and non-competitive manner. Moreover, mastoparan (50 nM) inhibited completely the BTSM-muscarinic contractile responses and affected dramatically the carbachol-dependent cGMP signals being the first cGMP signal inhibited in a 63 ± 5%, whereas the second signal disappeared. Mastoparan inhibition of muscarinic activation is specific since other spasmogens as serotonin and histamine fully contracted these BTSM strips under mastoparan treatment. Cyclic GMP levels were evaluated by exposing BTSM strips to activators of NO-sensitive sGC as Sodium Nitroprussiate (SNP) and Natriuretic Peptides as CNP-53 for membrane-bound NPR-GC. Thus, SNP and CNP increased in a binary way, in more than 20 fold cGMP levels at 30-40 s being both increments inhibited by mastoparan. Furthermore, the Gi/o-protein involvement on mastoparan inhibition of cGMP elevations induced by CNP and SNP is suggested by Pertussis toxin pre-treatment, which reversed mastoparan effects. These results indicate that muscarinic signal transduction cascades leading to airway smooth muscle contractions involved two different guanylyl cyclases being both regulated by mastoparan-sensitive G-proteins. ANP, Natriuretic Peptide type A; ASM, Airway Smooth Muscle; BTSM, Bovine Tracheal Smooth Muscle; CNP-53, Natriuretic Peptide type C-53; GPCR, G-Protein Coupled Receptor; Gq16, Heterotrimeric G protein subtype 16; Gi/o, Heterotrimeric G protein subtype...

La activación muscarínica del músculo liso de las vías aéreasrelacionada a la contracción de dicho músculo liso esta asociada a la generación de dos señales de GMPc (20 y 60 s), siendo la señal de los 20s relacionado a la activación de la guanililciclasa soluble mientras que el pico de los 60s a la guanililciclasa unida membranas y sensible a péptidos natriuréticos (NPR-GC). En este trabajo, nosotros mostramos que la pre-incubación de fragmentos del músculo liso traqueal de bovino (BTSM) con mastoparan y su análogo superactivo (mastoparan 7), en una forma dosis dependiente, son capaces de disminuir de manera significativa la actividad contráctil dependiente de agentes muscarinicos. Adicionalmente, mastoparan (50 nM) inhibió completamente la respuesta contráctil muscarinica del BTSM y afectó dramáticamente los picos de GMPc asociados a la activación muscarinica siendola primera señal inhibida en un 63 ± 5%, mientras que la segunda señal desapareció completamente. Esta inhibición del mastoparan de la activación muscarínica es especifica ya que otros espamogenos como la serotonina y la histamina fueron capaces de inducir respuestas máximas en presencia del mastoparan y su análogos. Este efecto del mastoparan sobre los niveles del GMPc fue evaluado en presencia de otros agentes generadores de este segundo mensajero como son el nitroprusiato de sodio (SNP) que activa la guanililciclasa soluble sensible a NO y los péptidos natriureticos como el CNP-53 (CNP) activador de la NPR-GC asociada a membranas plasmáticas. Tanto, el SNP como el CNP aumentaronen mas de 50 veces los niveles de GMPc a los 30-40 s en forma bifasica, siendo estos incrementos inhibidos de manera significativa por el mastoparan. Ademas, se sugiere la participación de proteínas Gi/o en los efectos inhibitoriosdel mastoparan, porque la Toxina pertussis revertió los efectos inhibitorios. Estos resultados indican que la cascada de activación muscarinica que conduce...

Subcellular distribution and pharmacological characterization of muscarinic receptors in tracheal smooth muscle

: Subcellular fractions isolated from tracheal smooth muscle have been identified using biochemical markers and measuring the [3H]QNB muscarinic receptor binding activity in these fractions. This muscarinic receptor (mAchR) activity was slightly enriched 1.6 times in the crude mitochondrial fraction (M), 2.6 times in the crude microsomal fraction (P), and greatly enriched in the highly purified plasma membranes fractions, being 5.3 times in a heavy plasma membrane fraction designed as P2 and 9.1 times in a light plasma membrane fraction named P1 fraction. The muscarinic receptor subtypes present in the subcellular fractions were identified using competition experiments. The binding of five selective antagonists, pirenzepine, AF-DX 116, hexahydrodifenidol, methoctramine and 4-DAMP were examined. In this sense, the M1 antagonist pirenzepine showed pKi's values between 6.44-7.45 and the M2 antagonist AF-DX 116 showed pKi's values ranging from 6.75 to 7.45 being the lowest pKi's values here described. The antagonist hexahydrodifenidol showed higher affinities than pirenzepine-derivated compounds with pKi's values from 7.25 to 7.65. The antagonist 4-DAMP exhibited pKi's values from 8.18-8.41. Finally, methoctramine showed similar affinities as 4-DAMP, with pKi's ranging from 8.09 to 8.22 suggesting the existence of M2 receptors in these fractions. These data suggest that M2 mAchR are present in all articulate fractions here studied. It is important to emphasize that the M2 muscarinic receptor presents in the light plasma membrane fraction (P1) shows poor selectivity towards the muscarinic antagonists being different from the M2 mAchRs associated with other subcellular fractions isolated from bovine tracheal smooth muscle

NaCl increases the dissociation constant (Koff) of 3H-QNB muscarinic receptor complex in an airway smooth muscle plasma membrane fraction

Muscarinic receptors associated to plasma membrane fractions isolated from bovine airway smooth muscle were previously characterized by using 3H Quinuclidinyl-benzilate (3H-QNB) binding (Bécemberg, et al. Arch. Venez. Farm Terap. (1986) 5: 244-256). 3H-QNB binding to P1 plasma membrane fraction was time dependent. In order to study the effect of NaCl on the ligand binding properties of muscarinic receptor, a kinetic approach for the evaluation of koff of the 3H-QNB muscarinic receptor complex (QNB-mR) perfomed in the presence or absence of NaCl is done. The 3H-QNB bound to the receptor is released by atropine through an exchange reaction at the antagonist binding site. NaCl decreases the t1/2 of complexes and increases the velocity of dissociation of 3H-QNB-mR producing a significant change in Koff values, whichever conditions the 3H-QNB-mR complexes are formed. Pretreatment of P1 plasma membranes fraction with N-ethyl maleimide (1mM NEM) does not alter Koff value. In addition, in these NEM-treated P1 membranes, NaCl is unable to further increase the Koff value. The effect of NEM blocking this "activator effect" of NaCl suggests thar sulphydryl groups in the receptor structure may be involved in this NaCl effect on the 3H-QNB binding to muscarinic receptors