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11.
We have studied putative nicotinic acetylcholine receptors in the optic lobe of the newborn chick, using 125I-labeled alpha-bungarotoxin, a specific blocker of acetylcholine receptors in the neuromuscular junction, and [3H]acetylcholine, a ligand which in the presence of atropine selectively labels binding sites of nicotinic character in rat brain cortex (Schwartz et al., 1982). [3H]Acetylcholine binds reversibly to a single class of high affinity binding sites (KD = 2.2 X 10(-8) M) which occur at a tissue concentration of 5.7 pmol/g. A large fraction (approximately 60%) of these binding sites is solubilized by Triton X-100, sodium cholate, or the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate. Solubilization increases the affinity for acetylcholine and several nicotinic drugs from 1.5- to 7-fold. The acetylcholine-binding macromolecule resembles the receptor for alpha-bungarotoxin present in the same tissue with respect to subcellular distribution, hydrodynamic properties, lectin binding, and agonist affinity rank order. It differs from the toxin receptor in affinity for nicotinic antagonists, sensitivity to thermal inactivation, and regional distribution. The solubilized [3H]acetylcholine binding activity is separated from the toxin receptor by incubation with agarose-linked acetylcholine, by affinity chromatography on immobilized Naja naja siamensis alpha-toxin, and by precipitation with a monoclonal antibody to chick optic lobe toxin receptor.  相似文献   
12.
Summary The frequency-place map of the horseshoe bat cochlea was studied with the horseradish peroxidase (HRP) technique involving focal injections into various, physiologically defined regions of cochlear nucleus (CN). The locations of labeled spiral ganglion cells and their termination sites on inner hair cells of the organ of Corti from injections into CN-regions responsive to different frequencies were analyzed in three dimensional reconstructions of the cochlea. Horseshoe bats from different geographical populations were investigated. They emit orientation calls with constant frequency (CF) components around 77 kHz (Rhinolophus rouxi from Ceylon) and 84 kHz (Rhinolophus rouxi from India) and their auditory systems are sharply tuned to the respective CF-components.The HRP-map shows that in both populations: (i) the frequency range around the CF-component of the echolocation signal is processed in the second half-turn of the cochlea, where basilar membrane (BM) is not thickened, secondary spiral lamina (LSS) is still present and innervation density is maximal; (ii) frequencies more than 5 kHz above the CF-component are processed in the first halfturn, where the thickened BM is accompanied by LSS and innervation density is low; (iii) frequencies below the spectral content of the orientation call are represented in apical turns showing no morphological specializations. The data demonstrate that the cochlea of horseshoe bats is normalized to the frequency of the individual specific CF-component of the echolocation call.The HRP-map can account for the overrepresentation of neurons sharply tuned to the CF-signal found in the central auditory system. A comparison of the HRP-map with a map derived with the swollen nuclei technique following loud sound exposure (Bruns 1976b) reveals that the latter is shifted towards cochlear base by about 4 mm. This discrepancy warrants a new interpretation of the functional role of specialized morphological structures of the cochlea within the mechanisms giving rise to the exceptionally high frequency selectivity of the auditory system.Abbreviations AVCN anteroventral CN - BF best frequency - BM basilar membrane - CF constant frequency - CN cochlear nucleus - DCN dorsal CN - FM frequency modulated - HRP horseradish peroxidase - IHC inner hair cell - LSS secondary spiral lamina - OHC outer hair cell - PVCN posteroventral CN - RF resting frequency - RRc Rhinolophus rouxi from Ceylon - RRi Rhinolophus rouxi from India  相似文献   
13.
In an attempt to determine the mechanism by which rat skeletal muscle endplates generate a steady outward current, we measured the effects of several drugs (furosemide, bumetanide, 9-anthracene carboxylic acid [9-AC]) and changes in external ion concentration (Na+, K+, Cl-, Ba++) on resting membrane potential (Vm) and on the steady outward current. Each of the following treatments caused a 10-15-mV hyperpolarization of the membrane: replacement of extracellular Cl- with isethionate, addition of furosemide or bumetanide, and addition of 9-AC. These results suggest that Cl- is actively accumulated by the muscle fibers and that the equilibrium potential of Cl- is more positive than the membrane potential. Removal of external Na+ also caused a large hyperpolarization and is consistent with evidence in other tissues that active Cl- accumulation requires external Na+. The same treatments greatly reduced or abolished the steady outward current, with a time course that paralleled the changes in Vm. These results cannot be explained by a model in which the steady outward current is assumed to arise as a result of a nonuniform distribution of Na+ conductance, but they are consistent with models in which the steady current is produced by a nonuniform distribution of GCl or GK. Other treatments (Na+-free and K+-free solutions, and 50 microM BaCl2) caused a temporary reversal of the steady current. Parallel measurements of Vm suggested that in none of these cases did the electrochemical driving force for K+ change sign, which makes it unlikely that the steady current arises as a result of a nonuniform distribution of GK. All of the results, however, are consistent with a model in which the steady outward current arises as a result of a nonuniform distribution of Cl- conductance, with GCl lower near the endplate than in extrajunctional regions.  相似文献   
14.
H Rehm  B Wiedenmann    H Betz 《The EMBO journal》1986,5(3):535-541
Synaptophysin, a mol. wt 38 000 glycopolypeptide of the synaptic vesicle membrane, was solubilized using Triton X-100 and purified by immunoaffinity or ion-exchange chromatography. From gel permeation and sucrose-density centrifugation in H2O/D2O, a Stokes radius of 7.3 nm, a partial specific volume of 0.830 and a total mol. wt of 119 000 were calculated for the native protein. Cross-linking of synaptic vesicles with glutaraldehyde, dimethylsuberimidate, or Cu2+ -o-phenantroline, resulted in the formation of a mol. wt 76 kd dimer of synaptophysin. Crosslinking of the purified protein in addition produced tri- and tetrameric adducts of the polypeptide. Native synaptophysin thus is a homooligomeric protein. Synaptophysin is N-glycosylated, since cultivation of the rat phaeochromocytoma cell line PC12 in the presence of tunicamycin reduced its mol. wt by about 6 kd. Upon transfer to nitrocellulose and incubation with 45Ca2+, synaptophysin behaved as one of the major calcium-binding proteins of the synaptic vesicle membrane. Pronase treatment of intact synaptic vesicles abolished this 45Ca2+ binding indicating that the Ca2+ binding site of synaptophysin must reside on a cytoplasmic domain of the transmembrane polypeptide. Based on these data, we propose that synaptophysin may play an important role in Ca2+-dependent neurotransmitter release.  相似文献   
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18.
Two cDNAs encoding variants (alpha 1 and alpha 2) of the strychnine binding subunit of the inhibitory glycine receptor (GlyR) were isolated from a human fetal brain cDNA library. The predicted amino acid sequences exhibit approximately 99% and approximately 76% identity to the previously characterized rat 48 kd polypeptide. Heterologous expression of the human alpha 1 and alpha 2 subunits in Xenopus oocytes resulted in the formation of glycine-gated strychnine-sensitive chloride channels, indicating that both polypeptides can form functional GlyRs. Using a panel of rodent-human hybrid cell lines, the gene encoding alpha 2 was mapped to the short arm (Xp21.2-p22.1) of the human X chromosome. In contrast, the alpha 1 subunit gene is autosomally located. These data indicate molecular heterogeneity of the human GlyR at the level of alpha subunit genes.  相似文献   
19.
Abstract: The mechanism of unidirectional transport of sodium from blood to brain in pentobarbital-anesthetized rats was examined using in situ perfusion. Sodium transport followed Michaelis-Menten saturation kinetics with a V max of 50.1 nmol/g/min and a K m of 17.7 m M in the left frontal cortex. The kinetic analysis indicated that, at a physiologic sodium concentration, ∼26% of sodium transport at the blood-brain barrier (BBB) was carrier mediated. Dimethylamiloride (25 µ M ), an inhibitor of Na+/H+ exchange, reduced sodium transport by 28%, whereas phenamil (25 µ M ), a sodium channel inhibitor, reduced the transfer constant for sodium by 22%. Bumetanide (250 µ M ) and hydrochlorothiazide (1.5 m M ), inhibitors of Na+-K+-2Cl/NaCl symport, were ineffective in reducing blood to brain sodium transport. Acetazolamide (0.25 m M ), an inhibitor of carbonic anhydrase, did not change sodium transport at the BBB. Finally, a perfusate pH of 7.0 or 7.8 or a perfusate P co 2 of 86 mm Hg failed to change sodium transport. These results indicate that 50% of transcellular transport of sodium from blood to brain occurs through Na+/H+ exchange and a sodium channel in the luminal membrane of the BBB. We propose that the sodium transport systems at the luminal membrane of the BBB, in conjunction with Cl/HCO3 exchange, lead to net NaCl secretion and obligate water transport into the brain.  相似文献   
20.
J Bormann  N Rundstrm  H Betz    D Langosch 《The EMBO journal》1993,12(10):3729-3737
We have expressed glycine receptor (GlyR) alpha and beta subunit cDNAs in HEK-293 cells to study the functional properties of homo- versus hetero-oligomeric GlyR channels. Dose-response curves of whole-cell currents in cells expressing alpha 1 subunits revealed an average Hill coefficient of h = 4.2. Co-expression with the beta subunit markedly increased glycine-gated whole-cell currents, which now exhibited a mean Hill coefficient of only h = 2.5. For alpha 1, alpha 2 and alpha 3 homo-oligomers, the main-state single-channel conductances were 86, 111 and 105 pS, respectively, recorded at symmetrical Cl- concentrations of 145 mM. The mutant alpha 1 G221A gave rise to a main-state of 107 pS. This indicates that the main-state of alpha homo-oligomers depends on residue 221 which is located within transmembrane segment M2. Importantly, the main-state conductances of alpha 1/beta, alpha 2/beta and alpha 3/beta hetero-oligomers were only 44, 54 and 48 pS, respectively. The latter values are similar to those found in spinal neurons, suggesting that native GlyRs are predominantly alpha/beta hetero-oligomers. Co-expression of alpha 1 with mutant beta subunits revealed that residues within and close to segment M2 of the beta subunit determine the conductance differences between homo- and hetero-oligomers.  相似文献   
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