UMLS:C0432222 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0432222 (SEM)
47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The voltage-dependent properties of the voltage-activated sodium channel were studied in neonatal (1-2-day-old) and adult rat ventricular cardiac myocytes using the whole-cell variation of the patch-clamp technique (16 degrees C, [Na]i = 15 mM, [Na]o = 25 mM). The voltage dependence of the sodium conductance-membrane potential relation was similar in both neonatal and adult myocytes except for a difference in slope; the adult sodium conductance-membrane potential relation was slightly more steep. Neonatal cells also differed from adult cells by demonstrating a more negative voltage midpoint of their sodium availability curve, a slower rate of recovery from inactivation at hyperpolarized potentials, and a greater extent of slow inactivation development compared with adult cells. Phenytoin (40 microM) reduced the sodium current in a tonic and use-dependent manner in both adult and neonatal myocytes. However, phenytoin (40 microM) produced significantly more tonic block at negative holding potentials (e.g., -140 mV) in neonatal myocytes (22 +/- 5% [mean +/- SEM], n = 14) than in adult myocytes (10 +/- 2%, n = 11) (p less than 0.05). The amplitudes of use-dependent block obtained during trains of 1-second pulses to -20 mV were also significantly greater in neonatal myocytes than in adult myocytes when the diastolic interval was varied over a range of 0.1-1.5 seconds (p less than 0.05). Definition of the time courses of block development at -20 mV indicated that phenytoin had a slightly higher affinity for inactivated sodium channels in neonatal cells. In addition, the time constant of recovery from use-dependent block by phenytoin was found to be significantly longer in neonatal cells than in adult cells at membrane potentials between -160 and -100 mV (p less than 0.001). The marked differences in phenytoin effect on cardiac sodium channels in neonatal versus adult rat cardiac myocytes suggest that there may be significant developmental changes in the sodium channel blocking effects of class I antiarrhythmic drugs in cardiac tissue.
...
PMID:Evidence for developmental changes in sodium channel inactivation gating and sodium channel block by phenytoin in rat cardiac myocytes. 165 16

Despite its widespread clinical use, the precise mechanism of action of amiodarone (AMI) has not been completely defined. We examined the effects of AMI (20 micrograms/ml) on Vmax and on conduction velocity (theta) during longitudinal (LP) and transverse (TP) propagation with respect to fiber orientation, in 10 strips of uniform anisotropic epicardial muscle obtained from the left ventricle of adult canine hearts. Mean values +/- SEM (standard error of the mean) were calculated as normalized values (beat 50/beat 1) after 4 h of AMI superfusion at five different basic cycle lengths (BCL). Vmax decreased from 0.99 +/- 0.01 at a BCL of 5,000 ms to 0.43 +/- 0.03 at a BCL of 300 ms during LP. During TP, Vmax decreased from 0.99 +/- 0.01 at a BCL of 5,000 ms to 0.54 +/- 0.05 at a BCL of 300 ms. The differences in the relative changes between both directions at a BCL of 300 ms, as well as at intermediate values of 1,000, 500, and 400, were significant (p less than 0.01). theta during LP (theta L) was depressed from 0.99 +/- 0.01 at a BCL of 5,000 ms to 0.80 +/- 0.04 at a BCL of 300 ms. In contrast, theta during TP (theta T) did not change as the BCL was decreased. In consequence, theta L was significantly more depressed than theta T at BCLs shorter than 1,000 ms (p less than 0.05). Moreover, theta T after AMI was not statistically different from control at any BCL studied. The lack of depression of theta T associated with a marked depression of Vmax during either LP or TP suggests that in addition to its sodium channel blocking properties, AMI could produce a decrease in the effective axial resistivity.
...
PMID:Differential effects of amiodarone on Vmax and conduction velocity in anisotropic myocardium. 169 14

1. The kidney taken from a rat rendered nephrotic by exposure to puromycin aminonucleoside retains sodium abnormally when perfused in isolation and has an abnormally low vascular resistance (J. D. Firth et al., Clin. Sci. 1989; 76, 387-95). In this study the relation of oxygen consumption to sodium reabsorption has been examined in the isolated nephrotic organ, which has also been exposed to a variety of natriuretic agents and to the effect of inhibition of metabolism by cooling, in an attempt to discern the transport process, or processes, responsible for abnormal tubular handling of sodium. In addition, the effects of three endogenous vasoconstrictors, noradrenaline, angiotensin II and endothelin, on the function of the isolated nephrotic kidney have been examined. 2. The ratio of mol of sodium reabsorbed by the tubules of the isolated nephrotic kidney to mol of oxygen consumed was reduced in comparison with the control kidney (means +/- SEM): 9.22 +/- 0.97 versus 15.43 +/- 1.55 (P less than 0.002). 3. In the presence of ouabain (1 mmol/l), acetazolamide (1 mmol/l), frusemide (200 mumol/l), the combination of these three agents together, hydroflumethiazide (100 mumol/l), benzamil (100 nmol/l) or atrial natriuretic peptide (1000 pmol/l), a lesser increment in sodium excretion was induced in the isolated nephrotic kidney than in the control kidney and the nephrotic organ continued to excrete less sodium in both absolute and fractional terms. 4. This suggests that enhanced tubular sodium reabsorption in the isolated nephrotic kidney does not depend upon abnormally increased activity of the Na+/K(+)-adenosine triphosphatase, bicarbonate-dependent sodium transport, Na+/K+/2Cl- co-transport, electrically neutral proportionate reabsorption of sodium and chloride (distal tubule), epithelial sodium channel (distal tubule) or atrial natriuretic peptide-sensitive sodium transport processes. 5. When isolated nephrotic kidneys and normal kidneys were cooled to 8-10 degrees C the handling of sodium became virtually identical in the two groups. On re-warming to 37 degrees C, the original differences in sodium handling between nephrotic and control kidneys were restored. This implies that the mechanism responsible for the abnormal tendency to retain sodium is temperature-sensitive; as yet it remains otherwise undefined. 6. The sensitivity of the renal vessels to noradrenaline, angiotension II and endothelin, as judged by the percentage reduction in perfusate flow rate produced by a given concentration of any of these agents, was not substantially altered in the nephrotic kidney compared with the control kidney. Increase in vascular tone was not associated with amelioration of the tendency of the isolated nephrotic organ to retain sodium. Increasing concentrations of angiotensin II caused the filtration rate to increase in the nephrotic kidney. This effect was unexpected: in the control preparation, as anticipated, angiotensin II caused the filtration rate to decrease.
...
PMID:Effect of natriuretic agents, vasoactive agents and of the inhibition of metabolism on sodium handling in the isolated perfused kidney of the nephrotic rat. 217 43

Sodium currents in cultured rat muscle cells converted to myoballs by treatment with colchicine were recorded using a giga-ohm seal voltage-clamp procedure in the whole-cell configuration. Geographutoxin II (GTX II), a novel polypeptide toxin from the piscivorous marine snail Conus geographus, reduces sodium currents in rat myoballs without marked alteration of the time course or voltage dependence of activation of the remaining current. Titration of the inhibition of sodium currents by GTX II showed that, in individual myoballs, a fraction of the sodium current averaging 49 +/- 9% (SEM) was inhibited by saturating (25 microM) concentrations of GTX II. The concentration-effect curve fit a noncooperative, 1:1 binding isotherm with a single KD for GTX II of 19 nM characteristic of inhibition of the TTX-sensitive sodium channels of adult rat muscle. Titration of the sodium current remaining in the presence of 2.5 microM GTX II with TTX gave complete inhibition. The dose-response curve fit a noncooperative, 1:1 binding isotherm with a single KD for TTX of 1.3 microM characteristic of TTX-insensitive sodium channels of embryonic muscle. The action of GTX II was not frequency dependent. The all-or-none inhibition of these 2 sodium channel subtypes by GTX II suggests substantial structural differences in the region of neurotoxin receptor site 1 on TTX-sensitive and -insensitive sodium channels and provides definitive evidence that these 2 sodium channel subtypes function in parallel in muscle cells developing in the absence of innervation.
...
PMID:The Conus toxin geographutoxin IL distinguishes two functional sodium channel subtypes in rat muscle cells developing in vitro. 243 63

The density of sodium channels in premyelinated axons was estimated from measurements of the binding of [3H]saxitoxin to neonatal rat optic nerve. The maximum saturable binding capacity of the nerve was 16.2 +/- 1.2 fmol/mg of wet weight, with an equilibrium dissociation constant of 0.88 +/- 0.18 nM (mean +/- SEM). These values correspond to a high-affinity saxitoxin-binding site density of approximately 2/microns 2 within premyelinated axon membrane. Action potential propagation in neonatal rat optic nerve is completely blocked by 5 nM saxitoxin, indicating that action potential electrogenesis is mediated by channels that correspond to high-affinity saxitoxin-binding sites. These results demonstrate that action potential conduction is supported by a low density of sodium channels in this system. Since the internodal axon membrane of myelinated fibers may contain a low density of sodium channels, it is possible that restoration of conduction in some demyelinated fibers may not require additional sodium channel incorporation into the demyelinated axon membrane.
...
PMID:Low density of sodium channels supports action potential conduction in axons of neonatal rat optic nerve. 253 96

When cultured on collagen coated nitrocellulose filters, thyroid epithelial cells form morphologically and functionally polarized monolayers. The bioelectric parameters of these monolayers were measured after mounting in Ussing chambers; transepithelial potential (Vab), short circuit current (Isc) and transepithelial resistance were respectively 12 +/- 1 mV (apical side negative), 3.8 +/- 0.2 microA cm-2 and 3250 +/- 214 omega cm2 (mean +/- SEM, n = 75). Eighty two percent of the short circuit current was related to sodium absorption as shown by inhibition by apical amiloride (Km = 0.2 microM) and by basal ouabain (K1/2 = 0.3 microM). Amphotericin B (5-25 micrograms/ml) added to the apical bath increased Isc suggesting an apical rate-limiting step. Step by step replacement of choline by Na+ in a Na+-free medium resulted in a progressive increase in Vab and Isc with half maximal effect at 20 +/- 1 mM Na+. Thyrotropin (TSH) increased Isc and Vab in a biphasic way with a transient maximum after 5 min and a plateau after 20 min (about four times the basal level at 100 microU/ml TSH). This increase in sodium transport was also inhibited by apical amiloride. Thus, in culture, the thyroid cell monolayer behaves as a tight sodium absorbing epithelium controlled by TSH, with a rate limiting apical sodium channel as the entry mechanism and a basolateral Na+, K+-ATPase as the electromotive force.
...
PMID:The thyroid cell monolayer in culture. A tight sodium absorbing epithelium. 255 Aug 88

Conduction slowing is the major in vivo effect of sodium channel blocking drugs. Although this action may promote arrhythmia suppression, apparently paradoxical arrhythmia aggravation does occur. The latter outcome is most frequently seen during treatment with the class IC agents such as encainide or flecainide, which are potent depressors of conduction even at usual plasma concentrations and heart rates. Anecdotal reports in patients with such drug toxicity have suggested a beneficial effect of sodium lactate or NaHCO3 administration. The purpose of this study, therefore, was to examine the changes induced by sodium loading on the electrophysiologic properties of the canine ventricle pretreated with a class IC drug. Thirty dogs received loading and maintenance infusions of O-desmethyl encainide (ODE), an encainide metabolite that as a sodium channel blocker is approximately 10 times more potent than the parent drug. Interventions were administered during the maintenance phase when stable plasma ODE concentrations of 448 +/- 68 (SEM) ng/ml were present, and QRS was prolonged from 62 +/- 1 to 89 +/- 2 msec, and HV was prolonged from 28 +/- 1 to 50 +/- 1 msec. NaHCO3 (5 meq/kg during 1 minute) shortened QRS from 92 +/- 6 to 76 +/- 3 msec and shortened HV from 44 +/- 3 to 37 +/- 3 msec within 10 minutes (both p less than 0.01). NaHCO3 also significantly prolonged endocardial monophasic action potential duration from 231 +/- 22 to 272 +/- 33 msec and decreased serum [K+] from 3.8 +/- 0.2 to 3.0 +/- 0.2 meq/l, but it did not alter plasma ODE concentration.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Acute electrophysiologic effects of sodium administration in dogs treated with O-desmethyl encainide. 255 38

New treatments for cystic fibrosis (CF), including gene therapy, are currently being assessed. These aim to correct the basic defects of increased sodium absorption and decreased chloride secretion in airway epithelia. Assessment of these bioelectric parameters, particularly in the nasal epithelium, is likely to be used as a measure of treatment efficacy. However, the optimal in vivo protocol to discriminate cystic fibrosis from non-cystic fibrosis subjects is unclear. We have, therefore, compared three protocols for measurement of the cystic fibrosis ion transport defects in vivo in the nasal epithelium. Sodium absorption was measured using both the baseline potential difference and the response to the sodium channel blocker, amiloride. Chloride secretion was assessed in the presence of amiloride, using perfusion with isoprenaline, or terbutaline, or a low chloride solution followed by isoprenaline. Baseline potential difference (PD) and the absolute response to amiloride clearly differentiated the increased sodium absorption in the cystic fibrosis subjects. The responses both to terbutaline (delta PD: non-CF: -0.8 (SEM 0.7) mV; CF: -3.6 (0.5) mV) and isoprenaline (non-CF: 1.5 (0.6) mV; CF: -2.9 (0.6) mV) differentiated the two groups of subjects, but there was considerable overlap of values. Perfusion with a low chloride solution (non-CF: 12.6 (1.2) mV; CF: 0.6 (0.4) mV), as well as subsequent perfusion with isoprenaline (non-CF: 10.0 (1.1) mV; CF: -1.4 (0.4) mV) allowed clear separation of the two groups, with no overlap of values. Some CF subjects showed a transient hyperpolarization to these stimuli, which could clearly be differentiated from the sustained responses seen in non-cystic fibrosis subjects.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Protocols for in vivo measurement of the ion transport defects in cystic fibrosis nasal epithelium. 787 59

Detajmium (4--3'-diethylamino-2'-hydroxypropyl--ajmalin) is an Na(+)-channel-blocking drug with an extremely long recovery from use-dependent sodium channel block. The aim of the present study was to investigate the rate-dependent effects of detajmium on the intraventricular conduction of isolated, spontaneously beating, guinea pig hearts in comparison with the effects of propafenone. Detajmium (0.3 microM) and propafenone (0.3 microM) caused comparable prolongations of the intraventricular conduction time during sinus rhythm. The time to steady state of the rate-dependent QRS prolongation during rapid ventricular pacing follows an exponential function of the beat number after an abrupt change of frequency and is characterized by a drug-specific time constant. This time constant was significantly longer for detajmium (tau = 265 +/- 165 beats; mean +/- SEM; n = 6) than for propafenone (tau = 31 +/- 4 beats; n = 11; p < 0.01). In the presence of propafenone, QRS duration peaked initially before decreasing to a steady state. Detajmium, in contrast, progressively broadened the QRS complex. Both substances caused the greatest increase in the ventricular effective refractory period (V-ERP) when the number of conditioning stimuli (interstimulus interval, 120 ms) was in the range of the time constant. However, when the number of conditioning stimuli was further increased, the V-ERP for propafenone diminished progressively. In conclusion, propafenone displayed, in comparison with detajmium, only a transient rate-dependent effect on intraventricular conduction and V-ERP.
...
PMID:Rate-dependent effects of detajmium and propafenone on ventricular conduction and refractoriness in isolated guinea pig hearts. 865 46

In isolated spontaneously beating guinea pig hearts, the effects of AWD 23-111 (N-(dicyclohexylcarbamoylmethyl)-N-(3-diethylamino-propyl)-4-nit robenzamid -hydrochloride), a new synthetic class III antiarrhythmic agent with sodium antagonistic properties, were investigated on cardiac electrophysiological parameters, that is, conduction and refractoriness. Concentration-dependent prolongation of the atrioventricular, intraventricular, and His bundle conduction times and of sinus node cycle length were present. At 0.3 microM the repolarization period was prolonged significantly. No reverse use-dependent effect on the repolarization period was observed. During rapid pacing (pacing cycle length = 120 ms for the ventricle and 180 ms for the atrium) the rate-dependent intraventricular (QRS) or atrioventricular conduction time (AVCT) prolongation follows an exponential function of the beat number and is characterized by a drug-specific time constant. The time constant for the intraventricular conduction time prolongation in the presence of 0.1 microM AWD 23-111 was very long at 150 +/- 29 beats (mean +/- SEM; n = 6), indicating a slow binding kinetic to the sodium channel. At 0.1 microM AWD 23-111, a significant increase in the ventricular effective refractory period was reached when the interstimulus interval (S1-S1) was 120 ms and the number of conditioning stimuli (S1) was higher than the time constant. The time constant for the rate-dependent AVCT prolongation in the presence of 0.3 microM AWD 23-111 was 34 +/- 6 beats (n = 6). The effective refractory period of the atrioventricular conduction significantly increased with the number of conditioning stimuli (S1), until the number was comparable with the time constant. In conclusion, AWD 23-111 exerts a wide variety of actions on the cardiac conduction system. Its combined effects on the potassium and sodium channels seem to be responsible for the marked rate-dependent effect on ventricular refractoriness and for the lack of a reverse use-dependency on JT prolongation.
...
PMID:Effects of AWD 23-111, a new antiarrhythmic substance, on cardiac conduction and refractoriness. 895 67

1 2 Next >>