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91.
J.-P. Bénitah J.R. Balser E. Marban G.F. Tomaselli 《The Journal of membrane biology》1997,155(2):121-131
Extracellular acidosis affects both permeation and gating of the expressed rat skeletal muscle Na+ channel (μ1). Reduction of the extracellular pH produced a progressive decrease in the maximal whole-cell conductance and
a depolarizing shift in the whole-cell current-voltage relationship. A smaller depolarizing shift in the steady-state inactivation
curve was observed. The pK of the reduction of maximal conductance was 6.1 over the pH range studied. An upper limit estimate
of the pK of the shift of the half-activation voltage was 6.1. The relative reduction in the maximal whole-cell conductance
did not change with higher [Na+]
o
. The conductance of single fenvalerate-modified Na+ channels was reduced by extracellular protons. Although the single-channel conductance increased with higher [Na+]
o
, the maximal conductances at pH 7.6, 7.0 and 6.0 did not converge at [Na+]
o
up to 280 mm, inconsistent with a simple electrostatic effect. A model incorporating both Na+ and H+ binding in the pore and cation binding to a Gouy-Chapman surface charge provided a robust fit to the single-channel conductance
data with an estimated surface charge density of 1e−/439?2. Neither surface charge nor proton block alone suffices to explain the effects of extracellular acidosis on Na+ channel permeation; both effects play major roles in mediating the response to extracellular pH.
Received: 14 May 1996/Revised: 19 September 1996 相似文献
92.
Prostaglandins are important in signaling pathways involved in modulating the rates of Na+ transport in a diverse group of tissues possessing apical membrane epithelial channels. PGE2 is known to cause either stimulation, inhibition or transient stimulatory changes of Na+ transport. We have continued our studies of frog skins that are known to respond to forskolin and PGE2 with large steady-state increases of transport and have used noninvasive methods of blocker-induced noise analysis of Na+ channels to determine their channel densities (N
T
) and open probabilities (P
o
). In the absence of exogenous hormones, baseline rates of Na+ transport are especially high in scraped skins (R. pipiens pipiens) studied in the fall of the year. Na+ transport was inhibited by indomethacin and by removal of the unstirred layers of the corium (isolated epithelia) alone suggesting
that PGE2 is responsible for the sustained and elevated rates of transport in scraped skins. Changes of transport caused by indomethacin,
forskolin or PGE2 were unquestionably mediated by considerably larger changes of N
T
than compensatory changes of P
o
. Since cAMP caused no change of P
o
in tissues pretreated with indomethacin, PGE2 appears in this tissue to serve a dual role, increasing the steady state N
T
by way of cAMP and decreasing P
o
by unknown mechanisms. Despite appreciable PGE2-related decreases of P
o
, the net stimulation of transport occurs by a considerably greater cAMP-mediated increase of N
T
.
Received: 28 February 1996/Revised: 22 August 1996 相似文献
93.
Rafael Zapata Angels Navarro Enric I. Canela Rafael Franco Carmen Lluis Josefa Mallol 《Journal of neurochemistry》1997,69(6):2546-2554
Abstract: Identification of A1 adenosine receptors (A1 Rs) in a tumor cell line derived from rat pituitary (GH4 cells) was performed by ligand binding and immunological experiments. Subsequently, the involvement of A1 Rs in the regulation of calcium conductance was studied in these cells. The agonist N 6 -( R )-(2-phenylisopropyl)adenosine ( R -PIA) did not modify the intracellular calcium basal levels, whereas it inhibited the increase produced by 15 m M KCl depolarization. The antagonist 1,3-dipropyl-8-cyclopentylxanthine led to the opening of voltage-dependent cell surface calcium channels in the absence of exogenous KCl. The channels were of the L type because the effect was abolished by calciseptine and by verapamil. These results suggest that endogenous adenosine exerts a tonic inhibitory effect on calcium transport. This was confirmed by the high adenosine concentration found in cell supernatants (up to 1 µ M ) and by the calcium mobilization produced by exogenously added adenosine deaminase. In depolarizing conditions, the calcium peak in the presence of adenosine deaminase was reduced when cells were preincubated with R -PIA, thus suggesting that A1 R activation regulates the intensity of depolarization. These results demonstrate that adenosine is an important regulator of the physiological state of pituitary tumor cells by modulating, in an autocrine manner, the activity of L-type voltage-dependent calcium channels. 相似文献
94.
Selective Changes in Cell Bodies and Growth Cones of Nerve Growth Factor-Differentiated PC12 Cells Induced by Chemical Hypoxia 总被引:2,自引:1,他引:1
Abstract: Cytosolic free Ca2+ concentration ([Ca2+]i) was measured in differentiated PC12 cells to test whether chemical hypoxia selectively alters intracellular Ca2+ in growth cones and cell bodies. Hypoxia increased [Ca2+]i and exaggerated its response to K+ depolarization in both parts of the cells. [Ca2+]i in the cell bodies was greater than that in the growth cones under resting conditions and in response to K+ or hypoxia. Ca2+-channel blockers selectively altered these responses. The L-channel blocker nifedipine reduced [Ca2+]i following K+ depolarization by 67% in the cell bodies but only 25% in the growth cones. In contrast, the N-channel blocker ω-conotoxin GVIA (ω-CgTX) diminished K+-induced changes in [Ca2+]i only in the growth cones. During hypoxia, nifedipine was more effective in the cell bodies than in the growth cones. During hypoxia, ω-CgTX diminished K+-induced changes by 50–75% in both parts of the cell, but only immediately after depolarization. The combination of nifedipine and ω-CgTX diminished the [Ca2+]i response to K+ with or without hypoxia by >90% in the cell body and 70% in the growth cones. Thus, the increased Ca2+ entry with K+ during hypoxia is primarily through L channels in the cell bodies, whereas in growth cones influx through L and N channels is about equal. The results show that chemical hypoxia selectively alters Ca2+ regulation in the growth cone and cell body of the same cell. 相似文献
95.
Eric Jakobsson 《Journal of mathematical biology》1978,6(3):235-248
Summary The axon membrane is simulated by standard Hodgkin-Huxley leakage and potassium channels plus a coupled transient excited
state kinetic scheme for the sodium channel. This scheme for the sodium channel is as proposed previously by the author. Simultations
are presented showing the form of the action potential, threshold behavior, accommodation, and repetitive firing. It is seen
that the form of the individual action potential, its all-or-none nature, and its refractory period are well simulated by
this model, as they are by the standard Hodgkin-Huxley model. However, the model differs markedly from the Hodgkin-Huxley
model with respect to repetitive firing and accommodation to stimulating currents of slowly rising intensity, in ways that
are anomn to be related to those features of the sodium inactivation which are anomalous to the H-H model. The tendency for
repetitive firing is highly dependent on that parameter which primarily determintes the existence of the inactivation shift
in voltage clamp experiments, in such a way that the more pronounced the inactivation shift, the less the tendency for repetitive
firing,. The tendency for accommodation is highly dependent on that parameter which primarily determines the “τc − τh” separation, in such a way that the greater the separation the greater the tendency for the membrane to accommodate without
firing action potentials to a slowly rising current. 相似文献
96.
Summary The morphology of tissue channels in muscle and neural tissues of Octopus was investigated, at the ultrastructural level, with a technique involving the precipitation of ferrocyanide ions. The numbers, sizes and conductivities of the channels were estimated from quantitative data. No evidence was gained to indicate that the low microvascular density in Octopus is coupled to an especially extensive network of extravascular channels. The tissue channel system in Octopus appears to be broadly comparable with the mammalian system; a lack of information prevents more appropriate comparisons with marine fishes. Probable functions of tissue channels in Octopus and mammals, and reasons for apparent similarities and differences in the channel organization of these divergent groups, are discussed. 相似文献
97.
Summary The plasma membranes of the tunicate heart exhibit an abundance of macular gap junctions distributed widely over the membrane surface. A study of these junctions by the freeze-etch technique was undertaken in an effort to elucidate the fine structure of this important membrane modification in a primitive heart. In cross or near-cross fractured junctions the junctional particles in contiguous membranes appear to be paired in register and to meet in the midline. In favorable face views, the junctional particles are seen to be disposed in hexagonal array. The individual particles display a distinct rosette-like substructure consistent with a six-membered ring of globular protein molecules clustered around a central channel. Similar junctional-type particles can be found in nonjunctional areas of membrane suggesting that the transport mechanism which they may represent is not restricted to the gap junction.Career Investigator of the American Heart AssociationWe wish to thank Dr. J.B. Jillett for use of the facilities of the Portobello Marine Biological Station; Mr. W.S. Bertaud, Physics and Engineering Laboratory, D.S.I.R., Lower Hutt, who kindly supervised the preparation of some of the freeze-etch replicas; Dr. R.H. Millar of the Dunstaffnage Marine Research Laboratory, Oban, Argyll, Scotland, who identified the tunicate used in the present (and previous) study; Prof. W.D. Trotter who made facilities in the Department of Anatomy, University of Otago Medical School, Dunedin, available to one of us (V.L.); and Mrs. S.M. O'Kane for excellent technical assistance. Generous support from the American Heart Association (to V.L.) and from the Medical Research Council of New Zealand (to D.G.R.) is gratefully acknowledged 相似文献
98.
Composition and seasonal fluctuations of the ichthyoplankton community in a shallow tidal channel of Cadiz Bay (S.W. Spain) 总被引:4,自引:0,他引:4
The composition and seasonal variation of the ichthyoplankton community in a shallow tidal channel in Cadiz Bay was studied for 5 years (1984 1988), taking fortnightly samples with a conical tide-strained net (0.5 mm mesh). Thirty-nine species belonging to 21 families of teleosts were caught. Four species ( Pomutoschistus microps Kroyer, Atherina hoyeri Risso, Liza rumuda Risso and Lizu a lira Ia Risso) totalled more than 90% of the annual ichthyoplankton abundance. Three species, assumed to be permanent residents, dominated the number offish (837%), and were represented by all their developing stages; 26 species (66.7%) were temporary residents, contributing 17.2% to the total abundance and were represented only by early developing stages; the remaining 10 species were classified as rare. Monthly numbers of species and individuals showed seasonal variation with a main annual peak in spring and in late spring-early summer, respectively. The diversity (H') and evenness (S) indices of this community were low (0.13 to 1.83 and 0.03 to 0.71. respectively), with higher values in winter and late summer, and both were significantly correlated with the log-transformed density of temporary residents (r = 0.43 and 0.41, respectively; P<0.0l) and permanent residents (r=−0.75 and −0.79, respectively; P<0.01). Multivariate classification analysis of samples revealed that similar cyclical changes were taking place in the structure of this ichthyoplankton community every year; three periods could be differentiated: (1) a cool period of low fish density but relatively high diversity; (2) moderate temperature and salinity with high numbers of species and density but low diversity and (3) a warm period of moderate diversity and fish density. 相似文献
99.
100.
Franklin F. Offner 《The Journal of membrane biology》1991,123(2):171-182
Summary A knowledge of the relationship between ion flow, both passive and active, ionic concentration, and membrane potential is essential to the understanding of cellular function. The problem has been analyzed on the basis of elementary physical and biophysical principles, providing a theoretical model of current flow and resting potential of cells, including those in epithelia. The model assumes that the permeability of the ion channets is not voltage dependent, but applies to gated channels when the gates are open. Two sources of nonlinearity of the current-voltage relationship are included in the analysis: ionic depletion and accumulation at the channels' mouths, and channel saturation at higher concentrations. The predictions of the model have been quantitative, validated by comparison with experiment, which has been limited to the only two cases in which adequate data was found. Application of the theory to the scala media of the mammalian cochlea has explained the source of its high positive potential and provided estimates of the Na+ and K+ permeabilities of the membranes of its marginel cess. This analysis provides a theoretically sound alternative to the widely used Goldman equation, the limited validity of which was emphasized by Goldman (D.E. Goldman, 1943,J. Gen. Physiol.27:37–60), as well as its derivatives, including the Goldman-Hodgkin-Katz equation for resting potentials. 相似文献