Endometriose - eine Stammzellerkrankung?

 

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Zusammenfassung

Es ist allgemein akzeptiert, dass die Endometriose eine Östrogen-abhängige und chronisch-rezidivierende Erkrankung ist. Ihre Ätiologie und Pathogenese sind letztendlich unbekannt. Es ist jedoch wahrscheinlich, dass in vielen Fällen retrograd menstruierte Endometriumszellen der Urprung der Endometrioseerkrankung sind. In dieser Arbeit diskutieren wir ein Modell, nach dem die retrograd menstruierten Zellen ein Gemisch verschiedener Entwicklungsstadien von Endometriumszellen darstellen, die zum Teil anhand von Markerproteinen wie z. B. den Cadherinen (Zelladhäsionsproteine) oder Cytokeratin (Intermediärfilamentproteinen) charakterisiert werden können. In Analogie zu bisherigen Erkenntnissen aus anderen Zellsystemen postulieren wir, dass in diesem Zellgemisch auch Zellen mit Stammzellcharakter bzw. Plastizität (d. h. Zellen, die noch Differenzierungspotenzial besitzen) vorhanden sind. Auf der einen Seite können sich diese Zellen als Zellpopulation selbst erhalten, auf der anderen Seite müssten diese Zellen mit Stammzellcharakter/Plastizität sich in differenzierte Tochterzellen entwickeln und so neue Endometrioseherde bilden können. Zellen unterschiedlicher Entwicklungsstadien befinden sich sowohl in tief infiltrierenden Endometrioseherden (z. B. Darm) aber auch in Peritonealbiopsien. Demnach könnten die Zellen mit dem postulierten Stammzellcharakter bzw. der Plastizität die rezidivierende Ausgangszellpopulation der Endometriose sein.

Abstract

Endometriosis is an estrogen-dependent and chronic disease with an unknown etiology and pathogenesis. It is however likely and well accepted that retrograd menstruation of endometrial cells into the pelvic cavity is the origin of this disease in many cases. Here we discuss a model in which retrogradly menstruated endometrial cells have different inherent developmental properties because they represent in fact a mixture of different developmental cell stages. These stages can be distinguished in part by the expression of marker proteins such as cytokeratin (intermediate filament protein of epithial cells) or E-cadherin (intercellular adhesion protein of epithelial cells and metastasis suppressor molecule). Cytokeratin-positive E-cadherin negative cells, for example, would be less differentiated epithelial cells than cytokeratin-positive E-cadherin positive cells. In analogy to findings in other cell systems we assume that the cells which are undifferentiated or not fully differentiated still have the potential to give rise to differentiated daughter cells and, on the other hand, could be maintained as a pool of rather undifferentiated cells and capable of self renewal. This feature would be similar to stem cells (SC) and cells with plasticity. Interestingly we find epithelial cells of different developmental stages in deep infiltrating (e. g. of colon) or peritoneal endometriotic lesions. Therefore we conclude that less differentiated cells in retrogradly menstruated endometrial cell populations possibly representing SC features or plasticity might be the cellular source of primary endometriotic lesions and those present in lesions may contribute to the persistence of the disease by detaching and forming secondary lesions.

Literatur

• 1 Alison M R, Poulsom R, Forbes S, Wright N A. An introduction to stem cells.  J Pathol. 2002;  197 419-423
  MissingFormLabel

  PubMedSearch in Google Scholar
• 2 Andrews N A, Jones A S, Helliwell T R, Kinsella A R. Expression of the E-cadherin-catenin cell adhesion complex in primary squamous cell carcinomas of the head and neck and their nodal metastases.  Br J Cancer. 1997;  75 1474-1480
  MissingFormLabel

  PubMedSearch in Google Scholar
• 3 Cano A, Perez-Moreno M A, Rodrigo I, Locascio A, Blanco M J, del Barrio M G, Portillo F, Nieto M A. The transcription factor snail controls epithelial-mesenchymal transitions by repressing E-cadherin expression.  Nat Cell Biol. 2000;  2 76-83
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 4 Dizerega G S, Barber D L, Hodgen G D. Endometriosis: role of ovarian steroids in initiation, maintenance, and suppression.  Fertil Steril. 1980;  33 649-653
  MissingFormLabel

  PubMedSearch in Google Scholar
• 5 Ferrari G, Cusella-De Angelis G, Coletta M, Paolucci E, Stornaiuolo A, Cossu G, Mavilio F. Muscle regeneration by bone marrow- derived myogenic progenitors.  Science. 1998;  279 1528-1530
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 6 Fuchs E, Segre J A. Stem cells: a new lease on life.  Cell. 2000;  100 143-155
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 7 Gaetje R, Kotzian S, Herrmann G, Baumann R, Starzinski-Powitz A. Invasiveness of endometriotic cells in vitro.  Lancet. 1995;  346 1463-1464
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 8 Gaetje R, Kotzian S, Herrmann G, Baumann R, Starzinski-Powitz A. Nonmalignant epithelial cells, potentially invasive in human endometriosis, lack the tumor suppressor molecule E-cadherin.  Am J Pathol. 1997;  150 461-467
  MissingFormLabel

  PubMedSearch in Google Scholar
• 9 Kitawaki J, Kado N, Ishihara H, Koshiba H, Kitaoka Y, Honjo H. Endometriosis: the pathophysiology as an estrogen-dependent disease.  J Steroid Biochem Mol Biol. 2002;  83 149-155
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 10 Kitawaki J, Noguchi T, Amatsu T, Maeda K, Tsukamoto K, Yamamoto T, Fushiki S, Osawa Y, Honjo H. Expression of aromatase cytochrome P450 protein and messenger ribonucleic acid in human endometriotic and adenomyotic tissues but not in normal endometrium.  Biol Reprod. 1997;  57 514-519
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 11 Leyendecker G, Herbertz M, Kunz G, Mall G. Endometriosis results from the dislocation of basal endometrium.  Hum Reprod. 2002;  17 2725-2736
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 12 Loeffler M, Birke A, Winton D, Potten C. Somatic mutation, monoclonality and stochastic models of stem cell organization in the intestinal crypt.  J Theor Biol. 1993;  160 471-491
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 13 Matsuura K, Ohtake H, Katabuchi H, Okamura H. Coelomic metaplasia theory of endometriosis: evidence from in vivo studies and an in vitro experimental model.  Gynecol Obstet Invest. 1999;  47 (Suppl 1) 18-20; discussion 20-22
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 14 Mezey E, Key S, Vogelsang G, Szalayova I, Lange G D, Crain B. Transplanted bone marrow generates new neurons in human brains.  Proc Natl Acad Sci USA. 2003;  100 1364-1369
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 15 Owens D W, Brunton V G, Parkinson E K, Frame M C. E-cadherin at the cell periphery is a determinant of keratinocyte differentiation in vitro.  Biochem Biophys Res Commun. 2000;  269 369-376
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 16 Puy L A, Pang C, Librach C L. Immunohistochemical Analysis of alphavbeta5 and alphavbeta6 Integrins in the Endometrium and Endometriosis.  Int J Gynecol Pathol. 2002;  21 167-177
  MissingFormLabel

  PubMedSearch in Google Scholar
• 17 Rajasekaran S A, Palmer L G, Quan K, Harper J F, Ball W J, Bander N H, Peralta Soler A, Rajasekaran A K. Na,K-ATPase beta- subunit is required for epithelial polarization, suppression of invasion, and cell motility.  Mol Biol Cell. 2001;  12 279-295
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 18 Schipper J H, Frixen U H, Behrens J, Unger A, Jahnke K, Birchmeier W. E-cadherin expression in squamous cell carcinomas of head and neck: inverse correlation with tumor dedifferentiation and lymph node metastasis.  Cancer Res. 1991;  51 6328-6337
  MissingFormLabel

  PubMedSearch in Google Scholar
• 19 Slack J M. Stem cells in epithelial tissues.  Science. 2000;  287 1431-1433
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 20 Starzinski-Powitz A, Zeitvogel A, Schreiner A, Baumann R. In search of pathogenic mechanisms in endometriosis: the challenge for molecular cell biology.  Curr Mol Med. 2001;  1 655-664
  MissingFormLabel

  PubMedSearch in Google Scholar
• 21 Ueda M, Yamashita Y, Takehara M, Terai Y, Kumagai K, Ueki K, Kanda K, Hung Y C, Ueki M. Gene expression of adhesion molecules and matrix metalloproteinases in endometriosis.  Gynecol Endocrinol. 2002;  16 391-402
  MissingFormLabel

  PubMedSearch in Google Scholar
• 22 Vinatier D, Orazi G, Cosson M, Dufour P. Theories of endometriosis.  Eur J Obstet Gynecol Reprod Biol. 2001;  96 21-34
  MissingFormLabel

  CrossrefPubMedSearch in Google Scholar
• 23 Zeitvogel A, Baumann R, Starzinski-Powitz A. Identification of an invasive, N-cadherin-expressing epithelial cell type in endometriosis using a new cell culture model.  Am J Pathol. 2001;  159 1839-1852
  MissingFormLabel

  Search in Google Scholar

Prof. Dr. Anna Starzinski-Powitz

Humangenetik in der Biologie · Johann Wolfgang Goethe Universität

Siesmayerstraße 70

60054 Frankfurt/a. M.

Phone: 0 69/79 82-47 69

Fax: 0 69/79 82-47 32

Email: starzinski-powitz@em.uni-frankfurt.de