Interaction of triethyl lead chloride with microtubules in vitro and in mammalian cells

The effects of triethyl lead chloride (TriEL) on the in vitro assembly and disassembly of microtubules (MTs) from porcine brain were studied by turbidometry at 350 nm and by electron microscopy. TriEL inhibited MT assembly at 50 microM concentration and caused an almost complete disassembly of preformed MTs. The drug depolymerized MTs more effectively than colchicine. Concentrations higher than 50 microM TriEL caused an aberrant assembly process. Fibers about 10 nm width were formed in addition to aggregates of amorphous material. In vivo TriEL also caused MT depolymerization in interphase and mitotic PtK-1 and Ehrlich ascites tumor (EAT) cells as monitored by indirect immuno-fluorescent staining of tubulin and electron microscopy. The extent of MT depolymerization was concentration- and time-dependent. Recovery occurred as early as 5 min after removal of the drug. The fluorescent actin pattern in PtK-1 cells typical of stress fibers and subcortical filaments seemed not to be altered by the presence of TriEL. The vimentin intermediate filament system was, however, rearranged as a juxtanuclear complex after TriEL treatment. Furthermore, TriEL effected the inhibition of cellular growth (100% inhibition at about 10(-5) M). Cytokinesis is prevented to a great extent, resulting in the formation of binucleate cells which can additionally possess some micronuclei.     

Increase in stretch-induced rhythmic motor activity in the diabetic rat colon is associated with loss of ICC of the submuscular plexus

Diabetes affects many aspects of gastrointestinal motility, in part due to changes in interstitial cells of Cajal (ICC). The effect of diabetes on the colon, however, is not well characterized, and the aim of the present study was to investigate possible relationships between altered colonic motility as a consequence of streptozotocin-induced diabetes and injury to ICC. Physiological, immunohistochemical, and ultrastructural techniques were employed. The motor pattern of the rat colon was dominated by rhythmic high-amplitude, low-frequency contractions that were primarily myogenic in origin. These rhythmic contractions were induced by stretch associated with increased tension; the amplitude of the superimposed rhythmic contractions increased with increasing applied tension. In diabetic rats, the stretch-induced rhythmic contractile activity remained robust and of similar frequency but was significantly higher in amplitude compared with that in control rats. At 700 mg of applied tension, the force of contraction in circular colonic muscle strips of the diabetic rats was 370% of control values. This robust presence of low-frequency contractions is consistent with the unaffected pacemaker, the ICC associated with Auerbach's plexus, and the increased amplitude correlates with loss of and injury to ICC of the submuscular plexus and intramuscular ICC. Loss of inhibitory nitrergic nerves does not appear to be a factor based on unaltered nNOS immunoreactivity.     

Changes in the organization of non-epithelial intermediate filaments induced by triethyl lead chloride

The in vivo effect of triethyl lead chloride (TriEL) (10(-6)-10(-8) M) on the organization of non-epithelial intermediate filaments (vimentin and desmin filaments) was studied by indirect immunofluorescence microscopy employing different mammalian cell lines. The in vitro effect of TriEL on filament formation as well as on the structure of preformed filaments was investigated by electron microscopy. TriEL induces perinuclear coil formation of intermediate filaments in SV40-transformed human fibroblasts and baby hamster kidney (BHK21) cells. The rearrangements observed are not correlated with significant changes in the microtubular system as tested by double labelling of both filament systems. The effect of TriEL is reversible. Assembly of intermediate filaments in vitro is disturbed in the presence of TriEL such that only short filaments and various kinds of fragments are formed. When preformed filaments are incubated in the presence of TriEL, unravelling of fibres into protofilamentous strands is observed. Possible mechanisms of TriEL-filament interaction are discussed.     

Stress-induced inhibition of the ileal, caecal, and colonic contractile activity in rabbits]

In alert rabbits, immobilisation stress decreased the spike burst rate and amplitude in ileum, caecum, and colon for 20 min. Following beta-adrenoceptor blockade, the contractile activity suppression was aggravated. The stress seems to lead to suppression of the ileal, caecal, and colonic contractile activity for up to 40 min which is unrelated to adrenergic inhibition of the smooth muscle activity mediated by beta-adrenoceptors.     

Effects of calcium channel blocker, mibefradil, and potassium channel opener, pinacidil, on the contractile response of mid-pregnant goat myometrium

The present study was undertaken to investigate the in vitro influence of mibefradil, a calcium channel blocker, and pinacidil, a potassium channel opener, on pregnant goat myometrial spontaneous rhythmic contractility and contractions induced with the agonist, oxytocin. Longitudinal strips from the distal region of uterus, collected from goats at midgestation, were mounted in an organ bath for recording isometric contractions. Mibefradil (10(-8)-10(-4) M) or pinacidil (10(-10)-10(-4) M), added cumulatively to the bath at an increment of 1 log unit, caused concentration-dependent inhibition of the spontaneous rhythmic contractions of isolated uterine strips. The rhythmic contraction was, respectively, abolished at 100 and 10 microM concentrations of mibefradil and pinacidil. In a concentration-dependent manner, mibefradil (1 and 10 microM) antagonized the contractions elicited with oxytocin (10(-5)-10(-2) IU). Pretreatment of uterine strips with glibenclamide (10 microM), a selective KATP channel blocker, caused a rightward shift of the concentration-response curve of pinacidil with a concomitant decrease in its pD2 value. Pinacidil (0.3, 1 and 3 microM), in a concentration-related manner, antagonized the oxytocin (10(-5)-10(-2) IU)-induced contractile response. The inhibition of spontaneous rhythmic contractions and antagonism of oxytocin-induced contraction by mibefradil in the pregnant goat myometrium may be related to the antagonism of voltage-dependent Ca2+ channels, while by pinacidil suggests that KATP channel could be a therapeutic target for tocolysis.     

Effect of lignocaine on intestinal smooth muscle of rat ileum

The effect of lignocaine on tone and contractility of intestinal smooth muscle, and on contractures produced by ACh or TEA, was studied in isolated ileum of the rat. Lignocaine (0.1-100 microM) produced concentration-dependent contractures in the rat ileum. In low concentrations, lignocaine increased the amplitude of spontaneous contractions and contractions produced by transmural stimulation. High concentrations of lignocaine abolished all contractile responses and produced a marked contracture in rat ileum. Lignocaine (10 microM) also reduced the contractures produced by ACh (0.01-10 microM). In contrast, the contractures produced by TEA (0.1-10 mM) were markedly increased by lignocaine. Furthermore, the contracture produced by lignocaine was reduced by lowering the external calcium from 2.5 mM to 1.5 mM. It was concluded that lignocaine in moderate and high concentrations produces a contracture in rat intestinal smooth muscle. Whereas lignocaine reduces the ACh-induced contracture, it increases that produced by TEA in the same preparation. The results further suggest that lignocaine modifies cholinergic responses and affects excitation-contraction coupling in rat intestinal smooth muscle.     

Role of insulin preincubation in the contractile reactivity of rat aortic rings.

Preincubation with physiological concentrations of insulin affects contractile reactivity of isolated smooth muscle cells. We studied the effects of insulin on intact aortic rings of Wistar rats preincubated 1-2 h with 240 pM (I1) and 960 pM (I2) insulin with and without NO synthesis inhibition by N(omega)-nitro-L-arginine methyl ester (L-NAME). Resting force was tripled by 0.1 mM L-NAME in control (C) and I1 groups, but not in I2 groups. I1 treatment decreased the tachyphylaxis to two successive 1 microM arginine vasopressin (AVP) stimulations. Single contractions elicited by 1 microM AVP, 1 microM angiotensin II (AngII), or 0.01 microM endothelin (ET1) were not affected by insulin preincubation in either maximal force (Fmax) or relaxation times. L-NAME enhanced Fmax of AngII contractions by about 75% in C, 120% in I1, and 74% in I2 groups; accordingly, it augmented the final steady-state force in C and I1 but not in I2. Similarly, L-NAME increased Fmax (30-40%) of AVP and ET1 contractions in C and I1 groups but failed to do so in contractions of I2 group. Results obtained with 10 microM indomethacin suggest that this is due to insulin stimulation of prostacyclin effects.     

The effect of triethyllead on the motile activity of walker 256 carcinosarcoma cells

The effect of triethyllead (TriEL) on the morphology and motile activity of Walker 256 carcinosarcoma cells was investigated. It was found that both 2 and 5 microM TriEL affected the cellular motility in a dose- and time-dependent manner. Initially, 2 microM TriEL caused the formation of blebs instead of lamellipodia at the front of some cells and stimulated the migration of Walker cells, but after 2 hours of 2 microM TriEL treatment, a reduction of cellular motility was observed. In the presence of 5 microM TriEL, Walker 256 carcinosarcoma cells rounded up, and their rate of movement was reduced. Moreover, the treatment of Walker carcinosarcoma cells with TriEL caused the disruption of microtubules and affected the F-actin distribution at both concentrations. At a concentration of 2 microM TriEL, the actin staining intensity was greatest in the tail of front-tail polarised blebbing cells and the actin layer was very thin at the leading edge. The control cells showed linear cortical F-actin distribution and somewhat less intense cytoplasmic staining at the same TriEL concentration. Cells treated with 5 microM TriEL showed an under-membrane pattern of actin distribution.     

Histaminergic effect of crude papaya latex on isolated guinea pig ileal strips.

In the present study, we investigated the effect of the crude latex of Carica papaya L. (CPX) on isolated guinea pig ileal strips. CPX (0.5-512 microg/ml) caused concentration-dependent contraction of ileal strips suspended in Tyrode solution. The concentration of atropine (0.69 microM) that significantly blocked the contractile effect of acetylcholine on the isolated guinea pig ileum showed no significant effect on CPX- and histamine-induced contractions of the ileal strips. Mepyramine (87.6 nM) significantly blocked the contractile effect of histamine and CPX on the ileum. The same concentration of mepyramine, however, had no significant effect on acetylcholine-induced contraction of the isolated ileal strips. Removal of Ca2+ from the bathing medium abolished ileal contractions induced by acetylcholine, histamine and CPX. All the test substances were able to provoke ileal contractions after replacement of the Ca(2+)-free solution with Tyrode solution. Furthermore, 10(-5) M of nifedipine, a Ca(2+)-entry antagonist, reversibly inhibited the contractile effect of all the test substances on the ileal strips. Results of this study together appear to show that CPX-induced contraction of the isolated guinea pig ileum is mediated via H1-receptors and dependent on extracellular Ca2+ influx.     

Seasonal changes in the effects of arginine vasotocin and stretch on Anolis uterine contractions in vitro

We determined the effects of acute stretch on spontaneous and arginine vasotocin (AVT)-driven contractions of the Anolis carolinensis uterus in vitro. Whole uteri from reproductively inactive females (October) were placed in a bath of oxygenated 32 degrees C Anolis "Ringer's." Two initial tensions were utilized, 1.5 g or 15 g, the latter being an estimate of the tension on the wall of a uterine compartment. Uteri were then exposed to either saline or AVT (50 ng/ml), and spontaneous or AVT-driven contractions were recorded for 20 min with the use of a strain gauge and physiograph. A similar experiment was performed on uteri from reproductively active females in the summer (June). Our results indicate that the effects of acute stretch and AVT on uterine contractility were qualitatively similar in summer and fall. That is, AVT induced a tonic contraction; stretch decreased the duration of the tonic contraction; the saline-treated uteri exhibited spontaneous rhythmic contractions; AVT increased the amplitude of the rhythmic contractions, but only at the lower tension; there were no effects of AVT on the timing (contraction interval, duration, rest interval) of the rhythmic contractions; and stretch increased the frequency of the rhythmic contractions. Season greatly influenced the magnitude of these contractile phenomena. Uteri tested during the breeding season exhibited greater distensibility, an increase in the amplitude and duration of the AVT-driven tonic contraction, and an increase in the frequency of both spontaneous and AVT-driven rhythmic contractions because of a decrease in both contraction duration and rest interval.(ABSTRACT TRUNCATED AT 250 WORDS)     

Relationship between mechanomyogram signals and changes in force of human forefinger flexor muscles during voluntary contraction

In previous studies on mechanomyogram (MMG) signals no analysis of these signals accompanying force generation has been performed. Therefore, we have recorded MMG signals (previously referred to as muscle sound or acoustomyographic signals) during voluntary contractions of forefinger flexor muscles in 31 young subjects. These subjects made contractions to produce force records of triangular or trapeziform shape. The peak target force amounted to 10, 20 or 40 N which represented less than 40% of maximal voluntary contraction. The MMG signals during the transient phases of force generation at three different rates were analysed. The MMG intensity level calculated for MMG records and the peak-to-peak amplitude of MMG signals correlated with both the velocity of force increase and the contraction force. The occurrence of the strongest MMG signals corresponded to changes in contractile force. Therefore, it is suggested that measurements of these parameters could be a useful tool in studies of changes in contractile force. Accepted: 11 March 1998     

The ligamentum infundibulo-cornuale in the pig: morphological and physiological studies of the smooth muscle component

The ligamentum infundibulo-cornuale (LIC) in the pig runs along the anterolateral side of the tubal isthmus, connecting the uterotubal junction and the edge of the infundibulum and has a comparatively well-developed muscular component running under the mesothelium. The well-vascularized smooth muscle cells held close cell-to-cell contacts and received innervation by adrenergic and cholinergic-like nerve terminals. Isolated LIC preparations, collected during oestrus showed a rhythmic spontaneous motility in vitro, the frequency and the relative amplitude of the contractions being highest during the preovulatory period. In vitro, noradrenaline and adrenaline elicited contractile (alpha) and relaxatory (beta) responses, while isoprenaline induced only beta-responses, as demonstrated by pretreatment with selective blockers. Oxytocin, PGF2 alpha and PGE2 always increased the muscular activity of the LIC. Indomethacin inhibited, in a concentration-dependent and reversible manner, the spontaneous motility of the porcine LIC, which could be fully restored by PGF2 alpha, indicating an endogenous local synthesis of prostaglandins in the tissue. The present results suggest that, in the pig, the LIC consists of a well-arranged, richly innervated bulk of smooth muscle which shows rhythmic spontaneous activity at the time of ovulation that could assist ova pick-up.     

Involvement of cyclooxygenase-dependent pathway in contraction of isolated ileum by urotensin II

We previously reported that urotensin II induced biphasic (brief- and long-lasting) contractions and the brief contraction was mediated by acetylcholine release from ganglionic cholinergic neurons in a segment of guinea-pig ileum. In the present work, we studied the mechanism contributing to long-lasting contractions induced by urotensin II. Treatment with 0.1 microM tetrodotoxin, 300 nM omega-conotoxin GVIA (an inhibitor of N-type Ca2+ channels) and 10 microM indomethacin (an inhibitor of cyclooxygenases) markedly inhibited 100 nM urotensin II-induced long-lasting contractions. The addition of 1 microM prostaglandin F2alpha (PGF2alpha) caused a limited brief contraction following long-lasting contraction, while 1 microM PGE2 induced marked biphasic contractions. Treatment with neurotoxins inhibited the long-lasting contractions induced by PGF2alpha and PGE2 without changing the PGE2-induced brief contractions. Treatment with 1 microM atropine markedly inhibited the urotensin II- and PGF2alpha-induced long-lasting contractions, but was less effective on the PGE2 responses. Treatment with a phospholipase A2 inhibitor decreased the urotensin II-induced contractions. These findings suggest that urotensin II induces, at least partially, long-lasting contractions via PG-sensitive cholinergic neurons and muscarinic acetylcholine receptors in the ileum.     

Contractile parameters and occurrence of alternans in isolated rat myocardium at supra-physiological stimulation frequency

The cardiac refractory period prevents the heart from tetanic activation that is typically used in noncardiac striated muscle tissue. To what extent the refractory period prevents successive action potentials to activate the excitation-contraction coupling process and contractile machinery at supra-physiological rates, such as those present during ventricular fibrillation, is unknown. Using multicellular trabeculae isolated from rat hearts, we studied amplitude and kinetics of contraction at rates well above the normal in vivo rat heart range. We show that even at twice the maximal heart rate of the rat, little or no mechanical instability is observed; twitch contractions are at steady state, albeit with an elevated active diastolic force. Although the amplitude of contraction increased within in vivo heart rates (positive force-frequency response), at frequencies beyond the maximal heart rate (10-30 Hz) a steady decline of contractile amplitude is observed. Not until 30 Hz do the majority of the isolated muscle preparations show mechanical alternans, where strong and weak beats alternate. Interestingly, unlike striated limb skeletal muscle, fusing of twitch contractions did not cause a continuous increase in peak force: at frequencies of 10 Hz and above, systolic force declines with relatively little elevation in diastolic force. Contractile kinetics continued to accelerate, from 1 Hz up to 30 Hz, whereas the relative speed of contraction and relaxation remained closely coupled, reflected by a singular linear relationship between the maximal and minimal derivative of force (dF/dt). We conclude that cardiac muscle can produce mechanically stable steady-state contractions at supra-physiological pacing rates, while these contractions continue to decline in amplitude and increase in diastolic force past maximal heart rate.     

Mechanism of action of neurotensin at the ileocecal sphincter region

Neurotensin, a neuropeptide identified in the distal small intestine, plays an unclear role in ileocecal sphincter regional function. The purpose of this study was to determine the effect and mechanism of action of neurotensin on the feline ileocecal sphincter (ICS), proximal colon, and distal ileum. Intraluminal pressures were recorded at these sites in anesthetized cats after superior mesenteric artery injection of neurotensin. Dose dependent tonic and phasic contractions were seen at all sites. Peak pressure responses were seen at the maximal dose used and were greater for the ICS than the distal ileum and the proximal colon. The threshold dose for peak pressures for neurotensin was 0.05 microgram/kg for all sites with the maximal peak pressures occurring at the maximal dose used (100 micrograms/kg). The motility index (MI [number of contractions x mean amplitude of contractions]) was determined for three minutes before and after neurotensin injection. The change in the motility index after neurotensin increased at doses above 0.05 micrograms/kg for the ileum and the ICS and 0.25 microgram/kg for the colon. Maximal responses for the motility index were seen at 1 microgram/kg for the distal ileum, and 10 micrograms/kg for the ICS and the proximal colon, with the greatest response seen at the ICS. Neurotensin-induced ICS relaxation was seen at 1 microgram/kg (50 +/- 10%, p less than 0.01) in 33% of cats. The contractile responses of the distal ileum and the proximal colon were not inhibited by naloxone, trimethaphan, tetrodotoxin, or atropine. The ICS contractile response was decreased by tetrodotoxin by 53%, p less than 0.05. The alpha 2 antagonist, yohimbine reduced the neurotensin induced ICS contraction from 31.6 +/- 3.4 to 21.9 +/- 3.3 mm Hg, p less than 0.05. Prazosin had no effect on neurotensin-induced contractions. In the presence of cimetidine and diphenhydramine, trimethaphan did not affect the neurotensin-induced contractile response at all three sites. However, neurotensin inhibited contractions induced by trimethaphan alone at all three sites. Conclusions: 1. Neurotensin causes a dose-dependent contractile response at the distal ileum, ICS, and proximal colon. 2. Neurotensin has an inhibitory effect at all three sites. 3. The contractile response at the distal ileum and the proximal colon is mediated via smooth muscle receptors. 4. The contractile response of neurotensin at the ICS is mediated partly via alpha 2 receptors and partly via smooth muscle receptors.     

Regulation of urinary bladder smooth muscle contractions by ryanodine receptors and BK and SK channels

This study examines the roles of voltage-dependent Ca(2+) channels (VDCC), ryanodine receptors (RyRs), large-conductance Ca(2+)-activated K(+) (BK) channels, and small-conductance Ca(2+)-activated K(+) (SK) channels in the regulation of phasic contractions of guinea pig urinary bladder smooth muscle (UBSM). Nisoldipine (100 nM), a dihydropyridine inhibitor of VDCC, abolished spontaneous UBSM contractions. Ryanodine (10 microM) increased contraction frequency and thereby integrated force and, in the presence of the SK blocker apamin, had a greater effect on integrated force than ryanodine alone. Blocking BK (iberiotoxin, 100 nM) or SK (apamin, 100 nM) channels increased contraction amplitude and duration but decreased frequency. The contractile response to iberiotoxin was more pronounced than to apamin. The increases in contraction amplitude and duration to apamin were substantially augmented with ryanodine pretreatment. These results indicate that BK and SK channels have prominent roles as negative feedback elements to limit UBSM contraction amplitude and duration. RyRs also appear to play a significant role as a negative feedback regulator of contraction frequency and duration, and this role is influenced by the activity of SK channels.     

Ranitidine potentiates ileum contractions caused by GABA and electrical stimulation

GABA-evoked contractions of the guinea pig ileum were significantly potentiated by the histamine H2-receptor antagonist ranitidine in concentrations above 10 microM. To help define the mechanism of this interaction, the present study compared the effects of ranitidine on contractile responses of the guinea pig ileum to GABA, acetylcholine (A Ch) and electrical stimulation of intrinsic cholinergic neurons. Ranitidine, at concentrations that potentiated responses to GABA, also potentiated contractions induced by transmural electrical stimulation. The ability of ranitidine to amplify these latter responses was antagonized by atropine. Contractile responses to exogenous A Ch, however, were unaffected by ranitidine at any concentration. These results suggest that prejunctional, rather than postjunctional mechanisms, are of primary importance in the interaction between ranitidine and GABA.     

Functional and molecular characterization of voltage-gated sodium channels in uteri from nonpregnant rats

We investigated the function and expression of voltage-gated Na(+) channels (VGSC) in the uteri of nonpregnant rats using organ bath techniques, intracellular [Ca(2+)] fluorescence measurements, and RT-PCR. In longitudinally arranged whole-tissue uterine strips, veratridine, a VGSC activator, caused the rapid appearance of phasic contractions of irregular frequency and amplitude. After 50-60 min in the continuous presence of veratridine, rhythmic contractions of very regular frequency and slightly increasing amplitude occurred and were sustained for up to 12 h. Both the early and late components of the contractile response to veratridine were inhibited in a concentration-dependent manner by tetrodotoxin (TTX). In small strips dissected from the uterine longitudinal smooth muscle layer and loaded with Fura-2, veratridine also caused rhythmic contractions, accompanied by transient increases in [Ca(2+)](i), which were abolished by treatment with 0.1 microM TTX. Using end-point and real-time quantitative RT-PCR, we detected the presence of the VGSC alpha subunits Scn2a1, Scn3a, Scn5a, and Scn8a in the cDNA from longitudinal muscle. The mRNAs of the auxiliary beta subunits Scbn1b, Scbn2b, Scbn4b, and traces of Scn3b were also present. These data show for the first time that Scn2a1, Scn3a, Scn5a, and Scn8a, as well as all VGSC beta subunits are expressed in the longitudinal smooth muscle layer of the rat myometrium. In addition, our data show that TTX-sensitive VGSC are able to mediate phasic contractions maintained over long periods of time in the uteri of nonpregnant rats.     

Calcitonin gene-related peptide and capsaicin inhibit the circular muscle of the guinea-pig ileum

Calcitonin gene-related peptide (CGRP) is known to excite, through the release of acetylcholine, the circular muscle (CM) of the guinea-pig ileum in vitro. In the present experiments, the effect of rat CGRP was investigated on the CM of tetrodotoxin-treated, spontaneously active ileum preparations. CGRP (1-10 nM) caused concentration-dependent inhibition of both the amplitude and frequency of spontaneous CM contractions. Capsaicin (a sensory stimulant known to release CGRP from primary afferents) also inhibited CM activity. The effect of 1 microM capsaicin underwent rapid desensitization, indicating specific action on afferent structures, whereas a high concentration of the drug (33 microM) inhibited CM activity most probably on the smooth muscle itself.