Parietal cell regeneration in rat gastric mucosal wounds : a quantitative light and electron microscopical study

Blom, Håkan

January 1982

The aims of the study were to obtain a method with which it would be possible to produce standardized wounds in the gastric mucosa, and to follow the regeneration of the acid producing parietal cells in those lesions during different experimental conditions. Quantitative methods applied to light and electron microscopy were used. Wounds were cauterized in the corpus mucosa in Sprague-Dawley rats and in addition, pyloroplasty, truncal vagotomy with pyloroplasty or ant- rectoiriy were performed. Other groups of rats with wounds were given long-term treatment with pentagastrin or cimetidine. Stimulation tests were carried out in two groups of wound operated rats. After different periods of time the animals were perfusion fixed and specimens from the wounds and normal mucosa beside the wounds were pre­pared for light and electron microscopy. By means of stereological techniques, different mucosal and cellular structures were then measur­ed. Parietal cells were found in 90 days old wounds. At this stage they were immature with large nuclei and few specialized cell organelles. In spite of this appearance they were able to respond morphologically to stimulation and to secrete acid. With further healing the morphology of the parietal cells became normal, but their volume fraction in the mucosa remained subnormal. The fraction of mucosa occupied by epithel­ial cells also stayed lower than normal. Pyloroplasty resulted in decreased cell and nuclear size of both normal and regenerating parietal cells. In the latter, there was also a de­crease in the mitochondrial volume density. If a truncal vagotomy was added to the pyloroplasty these changes disappeared and, in addition, an increase in parietal cell volume density was noticed in the normal mucosa. Antrectorny produced smaller parietal cells, and their maturation was delayed. Furthermore, mucosal thickness decreased. If pentagastrin was given to rats with wounds an increase in the number of parietal cells was noted, but maturation and morphology remained unaffected. Cimetidine treatment did not affect the parietal cell volume density in wounds or normal mucosa. However, a large increase in the secretory surface density was noticed when the effect of the last dose had ceas­ed. / <p>S. 1-45: sammanfattning, s. 47-121 utgörs av 5 uppsatser</p> / digitalisering@umu

Rat

gastric mucosa

gastric wounds

parietal cells

re­generation

pyloroplasty

truncal vagotomy

antrectomy

pen­tagastrin

cimetidine

carbacholine

stereology

light microscopy

electron microscopy

pH-studies

Zur Bedeutung von Zytoskelett-Membran-Verbindungen für die gerichtete HCI-Sekretion von Parietalzellen

Jöns, Thomas

16 May 2001

Die in der vorliegenden Habilitationsschrift zusammengefaßten Publikationen stellen Untersuchungen zu zwei Themenschwerpunkten dar: 1. Verankerungsmechanismen von Membranproteinen der basolateralen und der apikalen Plasmamembrandomäne der Parietalzellen mit dem Membranzytoskelett und 2. die regulierte Fusion von zytoplasmatischen Vesikeln mit der apikalen Plasmamembran dieser Zellen. Die strukturell und molekular sehr unterschiedlich gestaltete apikale und basolaterale Membrandomäne der Parietalzellen sollte funktionell charakterisiert und die Mechanismen der Membranumbauvorgänge aufgeklärt werden, die nach Aktivierung der Zellen im apikalen Membrankompartiment ablaufen. Für die strukturelle Stabilität der basolateralen Domäne spielt wahrscheinlich die Verankerung von AE2 über das Verknüpfungsprotein Ankyrin mit dem Membranzytoskelett eine wichtige Rolle. Die apikale Membrandomäne der Parietalzellen kann in drei Kompartimente unterteilt werden. Die freie apikale Membran, die canalikuläre Membran und die Membranen der tubulären Vesikel. Entlang der freien apikalen und der canaliculären Plasmamembran kommen wie auf der basolateralen Seite die Zytoskelett-Proteine Actin und Spectrin vor. Nach unseren Untersuchungen könnte es während der Sekretionsphase zu einer temporären Verbindung von H+,K+-ATPase Molekülen mit dem Membranzytoskelett kommen. Diese Verbindung wird wahrscheinlich durch das Verknüpfungsprotein Ezrin vermittelt. Der Mechanismus des Fusionsvorgangs der tubulären Vesikel mit der canaliculären Membran war bisher nicht bekannt. In Parietalzellen konnten die neuronalen SNARE-Proteine Synaptobrevin 2, Syntaxin 1 und SNAP25 sowie das zur Familie der kleinen G-Proteine gehörende Protein Rab3A und die Regulatorproteine NSF und alpha/beta SNAP nachgewiesen werden. Das in Parietalzellen gefundene Verteilungsmuster der SNARE-Proteine entspricht nicht der klassischen Vorstellung einer heterotypischen Membranfusion, vielmehr entspricht diese Verteilung einer homotypischen Fusion, wie sie für Vakuolen in Hefezellen beschrieben wurde. Die Bedeutung der SNARE-Proteine für die Fusion der tubulären Vesikel mit der canaliculären Membran und damit für die Steigerung der HCl-Sekretion konnte durch Inkubation der Zellen mit Tetanus Neurotoxin (TeNt) gezeigt werden. Die Behandlung der Parietalzellen mit TeNt führte zum vollständigen Ausbleiben der, nach Stimulation mit cAMP bei Kontrollzellen beobachteten Erhöhung, der Säuresekretion / The publications summarized here cover two topics: 1. the anchorage mechanism of membrane proteins of the basolateral and the apical plasma membrane with the membrane cytoskeleton of parietal cells and 2. the regulated fusion of cytoplasmic vesicles with the apical plasma membrane of these cells. It was the aim of these studies to characterize the structural and molecular differences between the apical and basolateral membrane domains in parietal cells. Moreover the mechanisms involved in membrane traffic within the apical membrane compartment following stimulation were investigated. We found that anchorage of AE2 with the membrane cytoskeleton through the linkage protein ankyrin seems to be important for the stability of the basolateral membrane. The apical membrane domain of parietal cells can be subdivided into three compartments. The free apical membrane, the canalicular membrane and the tubulovesicular membrane. The cytoskeletal proteins spectrin and actin can be found at the basolateral, the free apical and the canalicular membrane. We have shown that the H+K+-ATPase molecules appear to be temporary linked to the membrane cytoskeleton during acid-secretion. This contact is most likely mediated by the linker-protein ezrin. Until now the mechanism of fusion of the tubulovesicles with the canalicular membrane was unknown. In parietal cells the neuronal SNARE-proteins synaptobrevin 2, Syntaxin 1, SNAP25, the small G-protein rab3A, and the regulatory proteins NSF and alpha/beta-SNAP were detected. The subcellular distribution of these proteins does not support the notion of a neuron-like heterotypic fusion. Instead it shows similarity with the homotypic fusion process of vacuoles in yeast. The importance of SNARE-proteins for the fusion of tubulovesicles with the canalicular membrane and, by consequence also for the increase of acid-secretion was shown by incubation of the cells with tetanus neurotoxin (TeNt). The measurable increase of acid secretion by parietal cells after stimulation with c-AMP was inhibited completely through an incubation with TeNt.

Parietalzellen

Polarität

Membranzytoskelett

SNARE-Proteine

AE2

Ankyrin

Ezrin

Parietal cells

polarity

membrane cytoskeleton

SNARE-proteins

AE2

ankyrin

ezrin

610 Medizin

33 Medizin

WE 2600

ddc:610