G. Thilander scite author profile

The ultrastructure of the porcine myometrium was studied at well-defined stages of the oestrous cycle by transmission electron microscopy. The fine structure of the myometrium in the pig was found to be similar to that observed in other genital organs and species and did not show obvious variations through the oestrous cycle.The cell-to-cell contacts between smooth-muscle cells most consistently found were intermediate junctions and simple appositions, whereas interdigitations of muscle cell processes were more sparse. Gap junctions were few and small. Nerve terminals possessing presynaptic vesicles typical of the adrenergic and cholinergic type were found, though sparsely, both within and close to muscle bundles.

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Are gap junctions necessary for cell-to-cell coupling of smooth muscle?: an update

Garfield¹,

Thilander²,

Blennerhassett³

et al. 1992

Can. J. Physiol. Pharmacol.

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Earlier, it was questioned whether gap junctions (GJs) were necessary for cell-cell communication in smooth muscle, and GJs were not seen in some smooth muscles. We reexamined this question in the myometrium and in intestinal smooth muscle, in light of current knowledge of the presence and function of GJs. In the uterus, numerous studies show that an increase in GJ number is associated with the onset of delivery and is required for effective parturition. In all cases, this increase in GJ number and the changes in uterine contractility were correlated with increased electrical and metabolic coupling. Evidence for the much smaller, but detectable, degree of electrical coupling in the preterm uterus is explained by the small (but again detectable) number of GJs present. In the intestine, GJs are readily detected in the circular muscle layer but have not been described in the adjacent longitudinal layer. While our immunohistochemical studies failed to detect GJs in the longitudinal layer, this may not be adequate to prove their absence. Therefore, current knowledge of GJ number and function is adequate to explain cell-cell coupling in the uterus. Although it remains uncertain whether GJs are absent from the longitudinal muscle of the intestine, there is no definitive evidence that cell-cell coupling can occur by means other than GJs.

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Ultrastructure of the Porcine Myometrium during Pregnancy

Thilander

Rodríguez‐Martínez²

1989

Cells Tissues Organs

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The fine structure of myometrium from pigs collected at well-defined stages during pregnancy was investigated by transmission electron microscopy. The morphology of the pregnant myometrium resembled that in non-pregnant pigs. Thick myofilaments were conspicuous during early pregnancy, inapparent during mid-pregnancy and visible again by days 80–84 and towards parturition. Gap junctions were extremely rare throughout pregnancy. Only occasionally were nerve axons observed.

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Distribution of Adrenergic and Cholinergic Nerves in the Porcine Myometrium During the Oestrous Cycle. A Histochemical Investigation

Thilander

Rodriguez‐Martinez

1989

Journal of Veterinary Medicine Series A

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Summary The presence and distribution of adrenergic and cholinergic (acetylcholine esterase‐containing) nerves within the porcine myometrium and cervix were investigated by histochemical methods. The pig myometrium showed a scanty intrinsic innervation. The acetylcholine esterase‐containing nerve fibres were mostly vasomotor, while the adrenergic ones were also seen among non‐vascular smooth muscle cells. The adrenergic nerves were distributed in both muscle layers, and they were more numerous adcervically. The cholinergic nerves were more numerous in the adtubal part of the cornua and the cervix than in the rest of the uterus, and they predominated in the circularly oriented muscle. The scantiness of the intrinsic innervation of the myometrium, compared to other areas of the pig genitalia, might reflect differences in the neurogenic modulation of the contractility. Zusammenfassung Verteilung der adrenergenen und cholinergenen Nerven im Schweine‐Myometrium während des Brunstzyklus. Eine histochemische Untersuchung Es wurden histochemische Untersuchungen über das Vorhandensein und die Verteilung adrenerger und cholinerger (Azetylcholinesterase‐haltiger) Nerven im Myometrium und in der Cervix des Schweines durchgeführt. Das Schweine‐Myometrium zeigte eine spärliche intrinsische Innervation. Die Azetylcholinesterase‐haltigen Nerven waren meist vasomotorische Nerven, während die adrenergenen Nerven auch zwischen den nicht‐vaskulären glatten Muskelzellen nachweisbar waren. Die adrenergen Nerven waren in beiden Muskelschichten verteilt. Sie nahmen zur Cervix hin zu. Die cholinergen Nerven waren im oviduktnahen Abschnitt der Uterushörner und in der Cervix häufiger als im übrigen Uterus. Sie überwogen in der zirkulär orientierten Muskulatur gegenüber der Längsmuskulatur. Die im Vergleich zu anderen Abschnitten des Geschlechtstrakts spärliche intrinsische Innervation des Myometriums beim Schwein dürfte Unterschiede in der neurogenen Modulation der Kontraktilität widerspiegeln.

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G. Thilander

An immunochemical and immunocytologic study of the increase in myometrial gap junctions (and connexin 43) in rats and humans during pregnancy

Fine Structure of the Porcine Myometrium during the Oestrous Cycle

Are gap junctions necessary for cell-to-cell coupling of smooth muscle?: an update

Ultrastructure of the Porcine Myometrium during Pregnancy

Distribution of Adrenergic and Cholinergic Nerves in the Porcine Myometrium During the Oestrous Cycle. A Histochemical Investigation

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