Calcium dependency of pregnant rat myometrium: comparison of circular and longitudinal muscle

The purpose of this study was to determine if the changes in spontaneous contractions of circular uterine muscle during pregnancy were related to alterations in calcium (Ca) sensitivity or dependence. Circular muscle (CM) and longitudinal muscle (LM) segments from rats on Days 16-17 of gestation and at term were compared with respect to: sensitivity of potassium (K)-induced contractions to changes in extracellular Ca, and rate and magnitude of decrease of K- and acetylcholine (ACh)-induced contractions in Ca-free medium and in methoxyverapamil (D-600). The effects of low Ca and D-600 on spontaneous electrical activity of CM were also studied. Ca sensitivity was no different in CM and LM and did not change between Day 16 and term. There was no difference in the Ca-dependence of K- or ACh-induced contractions during this time. Potassium contractions declined more rapidly than ACh contractions in Ca-free media, especially in CM. Spontaneous action potentials in CM were Ca-dependent and disappeared in low Ca or D-600 on Days 16-17 and at term. Therefore the changes in contractions of CM during pregnancy are not related directly to Ca sensitivity or dependence, but indirectly via Ca modulation of the action potentials.     

Intercellular junctions between circular and longitudinal intestinal muscle layers

Summary Different intercellular relationships between smooth muscle cells are observed in the tunica muscularis externa of the ileum of guinea-pig. a) simple adjoining of the two muscle cells; b) nexus; c) desmosome-like attachment with dense aggregations on both membranes; d) projection from one muscle cell protruding into another muscle cell. All four types are found in the circular muscle layer. On the contrary, in the longitudinal layer clear-cut nexuses are not observed. Simple adjoining of muscle cells, nexuses, and desmosome-like attachments are observed between muscle cells of the circular layer and the longitudinallayer.Dedicated to Professor Angelo Bairati, on the occasion of his sixtieth birthday.I thank Professor E. G. Gray for discussion, Professor J. Z. Young for use of facilities, and the Wellcome Trust for a fellowship.     

Synchrony between circular and longitudinal muscle contractions during peristalsis in normal subjects

The current understanding is that longitudinal muscle contraction begins before and outlasts circular muscle contraction during esophageal peristalsis in normal subjects. The goal of our study was to reassess the relationship between the contractility of two muscle layers using novel ways to look at the muscle contraction. We studied normal subjects using synchronized high-frequency ultrasound imaging and manometry. Swallow-induced peristalsis was recorded at 5 and 10 cm above the lower esophageal sphincter (LES). Ultrasound (US) images were analyzed for muscle cross-sectional area (CSA) and circularity index of the esophagus during various phases of esophageal contraction. A plot of the M mode US image, muscle CSA, and esophageal circularity index was developed to assess the temporal correlation between various parameters. The muscle CSA wave began before and lasted longer than the contraction pressure wave at both 5 and 10 cm above the LES. M mode US images revealed that the onset of muscle CSA wave was temporally aligned with the onset of lumen collapse. The peak muscle CSA occurred in close proximity with the peak pressure wave. The esophagus started to become more circular (decrease in circularity index) with the onset of the muscle CSA wave. The circularity index and muscle CSA returned to the baseline at approximately the same time. In conclusion, the onset of lumen collapse and return of circularity index of the esophagus are likely to be the true markers of the onset and end of circular muscle contraction. Circular and longitudinal muscle layers of the esophagus contract in a precise synchronous fashion during peristalsis in normal subjects.     

Interstitial cells of Cajal: mediators of communication between circular and longitudinal muscle layers of canine colon

The network of interstitial cells of Cajal associated with Auerbach’s (myenteric) plexus in the canine colon was investigated to determine its role in facilitating communication between circular and longitudinal muscle layers. Electrical coupling between the muscle layers was demonstrated by propagating extracellularly evoked electrotonic pulses from circular muscle cells to nearby longitudinal muscle cells. The likelihood of cytoplasmic continuity across Auerbach’s plexus was further demonstrated by the ability of neurobiotin to spread between the interstitial cells and the circular and longitudinal muscle cells. Importantly, direct neurobiotin spread between circular and longitudinal muscle cells was not observed even when they were in close proximity as determined by confocal microscopy. When neurobiotin did spread across the two muscle layers, the intervening interstitial cells were always neurobiotin-positive. In regions where circular and longitudinal muscle cells approach each other closely, electron microscopy revealed the presence of close appositions between interstitial cells and smooth muscle cells. Gap junctions between interstitial cells and smooth muscle cells of both layers, as judged by electron microscopy, were extremely rare. Neither gap junctions nor close appositions were observed between longitudinal and circular muscle cells. The special arrangement for electrotonic coupling across Auerbach’s plexus through interstitial cells of Cajal suggests controlled coupling between the two muscle layers, explaining the preservation of their distinct electrical activities. Received: 21 July 1995 / Accepted: 22 April 1998     

Cholinergic stimulation induces asynchrony between the circular and longitudinal muscle contraction during esophageal peristalsis

In healthy subjects, a close temporal correlation exists between contractions of the circular muscle (CM) and longitudinal muscle (LM) layers of the esophagus. Patients with nutcracker esophagus show disassociation between the peak of contractions of the CM and LM layers and the peak of contraction 1-3 s apart (Jung HY, Puckett JL, Bhalla V, Rojas-Feria M, Bhargava V, Liu J, Mittal RK. Gastroenterology 128: 1179-1186, 2005). The purpose of the present study was to evaluate the effect of acetylcholinesterase inhibitor (edrophonium) and acetylcholine receptor antagonist (atropine) on human esophageal peristalsis in normal subjects. High-frequency intraluminal ultrasound imaging and manometry were performed simultaneously during swallow-induced peristalsis in ten normal subjects. Standardized 5-ml water swallows were recorded 2 cm above the lower esophageal sphincter under three study conditions: control, edrophonium (80 microg/kg iv), and atropine (10 microg/kg iv). A close temporal correlation exists between the peak pressure and peak wall thickness during the control period. The mean time lag between the peak LM and peak CM contraction was 0.03 s. After edrophonium administration, the mean contraction amplitude increased from 101 +/- 9 mmHg to 150 +/- 20 mmHg (P < 0.05) and mean peak muscle thickness increased from 3.0 +/- 0.2 mm to 3.6 +/- 0.3 mm (P < 0.01), and duration of both CM and LM contractions were also increased. Furthermore, the mean time difference between the peak LM and CM was increased to 1.1 s, (ranging 0.2 to 3.4 s) (P < 0.0001). We conclude that cholinomimetic agent induces discoordination between the two muscle layers of the esophagus.     

大鼠胃纵行和环行平滑肌对细胞外核苷引起的差异收缩反应

目的：观察几种细胞外核苷如ATP、urIP和四磷酸脲腺苷（Up4A）在胃纵行平滑肌（Ⅲ）和胃环行平滑肌（CM）中引起不同的反应,P2X和P2Y受体拮抗剂以及环氧合酶抑制剂五磷酸二肌苷（11＇5I）、苏拉明（suramin）和吲哚美辛对№A在删和CM中引起的收缩的影响。方法：取大鼠全胃,分离LM和CM,使用organbath系统测量平滑肌收缩。结果：Up4A可以在I_aM和CM中引起与ATP和U1P类似的收缩;IP5I对LM和CM中由Up4A引起的收缩并无影响;但suramin和吲哚美辛则能在CaM中显著抑制由Up4A引起的收缩,而LM中无此现象。结论：两种胃平滑肌对核苷类药物及其抑制剂的反应有差异。     

Calcium channels in isolated cells and strips of longitudinal muscle of rat myometrium

The properties of Ca2+ channels in strips and single muscle cells of longitudinal muscle of estrogen-dominated rat myometrium were studied under the effects of elevation of K+ concentration, the partial channel agonist Bay K 8644, and nitrendipine. In isolated strips in 0.5 mM Ca2+, Bay K 8644 (pD2 = 7.8-8.0) lowered the threshold for and enhanced the contractions in response to an elevation of K+ concentration, including the maximum response to K+ elevation alone. Bay K 8644 alone in concentrations up through 10(-6) M did not initiate contractions in 0.5 mM Ca2+ solutions. At higher concentrations (10(-5) M), Bay K 8644 behaved as an antagonist to contractions induced by elevation of K+. In isolated cells 10(-7) M Bay K 8644 enhanced the shortenings to elevated K+ and lowered the threshold K+ concentration required. Also no significant contraction occurred with 10(-7) M Bay K 8644 at normal K+ concentration. In contrast with its effect in isolated strips, no significant increase in maximum shortening (to 60 mM K+) was observed, possibly because cells without a mechanical load were maximally shortened by K+ alone. From these studies, we conclude that Ca2+ channels of isolated strips and cells of rat myometrium behave similarly and have similar properties to those of other smooth muscles in their interactions with elevation of K+, nitrendipine, and Bay K 8644.     

Effects of ovulation on the conduction and contraction velocities in rabbit oviduct: contrasts between longitudinal and circular muscle

The contraction and electrical conduction velocity of the longitudinal and circular muscle of the oviduct from rabbits in estrus, 24 or 72 h following administration of human chorionic gonadotropin (hCG) or 14 days following castration have been compared. Two populations of conduction and contraction velocities were identified, with the faster velocity being associated with the longitudinal muscle. There was a large overlap between longitudinal and circular contraction, suggesting complex relationships between longitudinal and circular muscle. From the results it appears that during ovum transport the circular velocities increased, with the slowest rates at estrus. The values obtained 72 h following hCG injection most closely resembled those in the castrate group of animals. In the longitudinal orientation, however, the velocities were greater 24 h following hCG injection than at estrus or 72 h following hCG injection, suggesting a complex relationship between both longitudinal and circular muscle of the oviduct following ovulation.     

Force-velocity constants in smooth muscle: afterloaded isotonic and quick-release methods

In using pharmacologic stimuli, force-velocity (FV) curves are usually obtained by the method of quick release (QR) and redevelopment of shortening at peak tetanic tension; the advantage of the method being that the active state is at maximum. However, the QR may itself reduce the intensity of the active state and result in reduced values of FV constants. We tested this by delineating FV curves in canine tracheal smooth muscle using both conventional afterloaded isotonic contractions (ALI), and redevelopment of shortening after QR methods. For both these studies a supramaximal tetanizing electrical stimulus was used. The analysis of 11 experiments revealed that the latter method resulted in statistically significant reductions of all FV constants except for Po (maximum isometric tetanic tension). The means and standard errors for the sets of constants for the ALI and QR, respectively, are as follows: Vmax (maximum velocity of shortening) = 0.275 lo (optimal muscle length)/s +/- 0.024 (SE), and 0.216 lo/s + 0.023; a (hyperbolic constant with units of force) = 294 g/cm2 +/- 35 and 236 g/cm2 +/- 32; b (hyperbolic constant with units of velocity) = 0.059 lo +/- 0.004 and 0.039 lo/s +/- 0.005; a/Po = 0.214 +/- 0.028 and 0.182 +/- 0.026; and Po = 1.362 kg/cm2 +/- 0.106 and 1.294 kg/cm2 +/- 0.097. These data clearly show that the quick-release method for measuring force-velocity relationships in canine smooth muscle results in significant underestimates of muscle shortening properties.     

Reciprocal activity of longitudinal and circular muscle during intestinal peristaltic reflex

A two-compartment, flat-sheet preparation of rat colon was devised, which enabled exclusive measurement of longitudinal muscle activity during the ascending and descending phases of the peristaltic reflex. A previous study using longitudinal muscle strips revealed the operation of an integrated neuronal circuit consisting of somatostatin, opioid, and VIP/pituitary adenylate cyclase-activating peptide (PACAP)/nitric oxide synthase (NOS) interneurons coupled to cholinergic/tachykinin motor neurons innervating longitudinal muscle strips that could lead to descending contraction and ascending relaxation of this muscle layer. Previous studies in peristaltic preparations have also shown that an increase in somatostatin release during the descending phase causes a decrease in Met-enkephalin release and suppression of the inhibitory effect of Met-enkephalin on VIP/PACAP/NOS motor neurons innervating circular muscle and a distinct set of VIP/PACAP/NOS interneurons. The present study showed that in contrast to circular muscle, longitudinal muscle contracted during the descending phase and relaxed during the ascending phase. Somatostatin antiserum inhibited descending contraction and augmented ascending relaxation of longitudinal muscle, whereas naloxone had the opposite effect. VIP and PACAP antagonists inhibited descending contraction of longitudinal muscle and augmented ascending relaxation. Atropine and tachykinin antagonists inhibited descending contraction of longitudinal muscle. As shown in earlier studies, the same antagonists and antisera produced opposite effects on circular muscle. We conclude that longitudinal muscle contracts and relaxes in reverse fashion to circular muscle during the peristaltic reflex. Longitudinal muscle activity is regulated by excitatory VIP/PACAP/NOS interneurons coupled to cholinergic/tachykinin motor neurons innervating longitudinal muscle.     

A comparison of vertebral muscle fiber characteristics between human and monkey tissue

A comparison has been made of the vertebral muscle fiber characteristics between human and rhesus monkey. The main purpose of the experiment was to assess the value of the monkey as an animal model for the study of idiopathic scoliosis involving vertebral muscle influence. Vertebral muscle samples were collected from both clearly defined superficial and deep sites on both sides of the column in the midlumbar region. The material was subjected to routine histological and histochemical techniques. The results show considerable similarities between the deep muscle samples of the two species, but the superficial muscles are significantly different on most of the measurements made.     

Interactions of neurogenic responses of longitudinal and circular muscle in the guinea-pig ileum

The relationship between neurogenic responses of longitudinal and circular muscle was studied by measuring contractions and EMG or nonadrenergic, non-cholinergic (NANC) relaxations and NANC inhibitory junction potentials in different preparations of the guinea-pig ileum. NANC relaxation of longitudinal muscle was observed also without any preceding or concomitant circular muscle contraction ruling out the possibility that the latter might be the cause of the NANC relaxation. Circular muscle twitches or powerful contractions were absent if there was no preceding neurogenic or myogenic excitation of longitudinal muscle; in preparations with myenteric plexus-longitudinal muscle layers removed only small residual responses were seen although still under neurogenic influences. Thus excitation of longitudinal muscle seemed a prerequisite for synchronized and powerful contractions of circular muscle to occur. Cholinergic contraction and NANC relaxation of longitudinal muscle evoked by field stimulation were partly inhibited if the submucous plexus was also present suggesting the involvement of a more complex neuronal circuitry in these responses.     

Effects of some autonomic drugs and neuropeptides on the mechanical activity of longitudinal and circular muscle strips isolated from the carp intestinal bulb (Cyprinus carpio)

1. The mechanical responses to some autonomic drugs and neuropeptides of longitudinal muscle (LM) and circular muscle (CM) strips isolated from the carp intestinal bulb were investigated in vitro. 2. Acetylcholine and carbamylcholine caused concentration-dependent transient contraction of both LM and CM strips. Tetrodotoxin had no effect, but atropine selectively decreased the contractile responses to acetylcholine and carbamylcholine. 3. Excitatory alpha-2 and inhibitory beta adrenoceptors were present in both LM and CM strips. 4. 5-Hydroxytryptamine (5-HT) caused concentration-dependent contraction of both LM and CM strips. Tetrodotoxin, atropine and methysergide decreased the contractile responses to 5-HT. 5. Some neuropeptides (angiotensin I, angiotensin II, bombesin, bradykinin, neurotensin, somatostatin and vasoactive intestinal polypeptide) did not cause any mechanical response (contraction or relaxation) in either smooth muscle strip. 6. Substance P (SP), neurokinin A (NKA) and neurokinin B (NKB) caused contraction of both LM and CM strips. However, the time course of the contraction in LM was different from that in CM. The order of potency was NKA greater than SP greater than NKB in LM strips and NKA greater than SP much greater than NKB in CM strips. In LM strips, the contractile responses to tachykinins were unaffected by spantide and methysergide, but partly decreased by tetrodotoxin and atropine. On the other hand, the contractile responses of CM strips were unaffected by tetrodotoxin, atropine, methysergide and spantide. 7. Dynorphin (1-13) (DYN), leucine-enkephalin (L-Enk) and methionine-enkephalin (M-Enk) caused concentration-dependent contraction of both LM and CM strips. The order of potency was DYN greater than M-Enk greater than L-Enk. Naloxone selectively decreased the responses to opiate peptides. 8. The present results indicate that acetylcholine, carbamylcholine, catecholamines, 5-HT, tachykinins (SP, NKA and NKB) and opiate peptides (DYN, L-Enk and M-Enk) affect the mechanical activity of LM and CM strips isolated from the carp intestinal bulb through their specific receptors.     

氢溴酸槟榔碱对豚鼠离体胃窦环行肌条收缩活动的影响

目的：观察氢溴酸槟榔碱对豚鼠离体胃窦环行肌条的收缩活动并探讨其作用机理。方法：将胃窦环行肌条置于灌流肌槽内,采用累积加氢溴酸槟榔碱和分别加阻断剂的方法,观察对肌条的收缩活动的影响。结果：10^-7mol/L、10^-6mol/L浓度的槟榔碱对胃窦环行肌条的收缩波平均振幅有增大作用;10^-6mol/L浓度槟榔碱增高环行肌条的张力,4-DAMP可阻断槟榔碱增加胃窦环行肌条的收缩活动的作用,加拉明未阻断槟榔碱兴奋胃窦环行肌条的作用。结论：氢溴酸槟榔碱可兴奋豚鼠胃窦环行肌条的收缩活动,该作用经由胆碱能M3受体,而不是胆碱能M2受体的途径。     

Comparative anticholinergic potencies of R- and S- disopyramide in longitudinal muscle strips from guinea pig ileum

The anticholinergic potencies of R- and S- disopyramide were studied in isolated myenteric plexus longitudinal muscle strip preparations from guinea-pig ileum using two experimental procedures. The first procedure tested the relative potencies of the isomers in inhibiting electrically-stimulated contractions in 6 ileum preparations. A balanced crossover design was employed. The mean concentration of S-disopyramide required to inhibit electrically stimulated contractions by 50% was 4.6 × 10^?6 M and was about one-fourth of the concentration of R-disopyramide required to produce the same effect (p < 0.05). The second procedure tested the relative potencies of the isomers as direct antagonists of contractions induced by either histamine or acetylcholine in ileum preparations. Neither isomer antagonized the histamine-induced contractions. For the contractions induced by acetylcholine, the pA₂ value, obtained directly from Schild plots, was 6.25 for S- and 5.74 for R- disopyramide. However, the slope of the Schild plot for the S-isomer differed significantly from ?1, suggesting that other mechanisms in addition to direct antagonism of acetylcholine may be involved. Thus, the results of the experiments involving both the antagonism of electrically stimulated contractions and the direct antagonism of acetylcholine-induced contractions indicate (1) that both isomers of disopyramide have anticholinergic properties and (2) that S-disopyramide is about 3–4 fold more potent as an anticholinergic agent.     

Stretch-activated neuronal pathways to longitudinal and circular muscle in guinea pig distal colon

The role of the longitudinal muscle (LM) layer during the peristaltic reflex in the small and large intestine is unclear. In this study, we have made double and quadruple simultaneous intracellular recordings from LM and circular muscle (CM) cells of guinea pig distal colon to correlate the electrical activities in the two different muscle layers during circumferential stretch. Simultaneous recordings from LM and CM cells (<200 microm apart) at the oral region of the colon showed that excitatory junction potentials (EJPs) discharged synchronously in both muscle layers for periods of up to 6 h. Similarly, at the anal region of the colon, inhibitory junction potentials (IJPs) discharged synchronously in the two muscle layers. Quadruple recordings from LM and CM orally at the same time as from the LM and CM anally revealed that IJPs occurred synchronously in the LM and CM anally at the same time as EJPs in LM and CM located 20 mm orally. Oral EJPs and anal IJPs were linearly related in amplitude between the two muscle layers. Spatiotemporal maps generated from simultaneous video imaging of the movements of the colon, combined with intracellular recordings, revealed that some LM contractions orally could be correlated in time with IJPs in CM cells anally. N(omega)-nitro-L-arginine (L-NA; 100 microM) abolished the IJP in LM, whereas a prominent L-NA-resistant "fast" IJP was always observed in CM. In summary, in stretched preparations, synchronized EJPs in both LM and CM orally are generated by synchronized firing of many ascending interneurons, which simultaneously activate excitatory motor neurons to both muscle layers. Similarly, synchronized IJPs in both LM and CM anally are generated by synchronized firing of many descending interneurons, which simultaneously activate inhibitory motor neurons to both muscle layers. This synchronized motor activity ensures that both muscles around the entire circumference are excited orally at the same time as inhibited anally, thus producing net aboral propulsion.