Reconstruction of Endometrium from Human Endometrial Side Population Cell Lines

6533b854fe1ef96bd12ae9ae

RESEARCH PRODUCT

Reconstruction of Endometrium from Human Endometrial Side Population Cell Lines

Carlos Simón Amparo Faus Philippa T. K. Saunders Laura Peris Claudia Gil-sanchis Irene Cervelló Aymara Mas Hilary O. D. Critchley

subject

Pathology Anatomy and Physiology Cellular differentiation lcsh:Medicine Vimentin Cell Separation Mice SCID Endometrium Endometrium Mice 0302 clinical medicine Mice Inbred NOD Reproductive Physiology Molecular Cell Biology lcsh:Science Side-Population Cells Medicine(all)0303 health sciences education.field_of_study 030219 obstetrics & reproductive medicine Multidisciplinary Agricultural and Biological Sciences(all)biology Stem Cells Obstetrics and Gynecology Cell Differentiation Adult Stem Cells medicine.anatomical_structure Phenotype Somatic Cells Medicine Female Cellular Types /dk/atira/pure/subjectarea/asjc/2700 Receptors Progesterone Adult stem cell Research Article medicine.medical_specialty Stromal cell Population Cell Line /dk/atira/pure/subjectarea/asjc/1300 03 medical and health sciences Side population /dk/atira/pure/subjectarea/asjc/1100 medicine Animals Humans Regeneration education Biology 030304 developmental biology Biochemistry Genetics and Molecular Biology(all)lcsh:R Mesenchymal stem cell Estrogen Receptor alpha Reproductive System Epithelial Cells Mesenchymal Stem Cells Molecular biology Karyotyping biology.protein lcsh:Q Stromal Cells Stem Cell Lines Biomarkers Cytometry

description

Endometrial regeneration is mediated, at least in part, by the existence of a specialized somatic stem cell (SSC) population recently identified by several groups using the side population (SP) technique. We previously demonstrated that endometrial SP displays genotypic, phenotypic and the functional capability to develop human endometrium after subcutaneous injection in NOD-SCID mice. We have now established seven human endometrial SP (hESP) cell lines (ICE 1-7): four from the epithelial and three from the stromal fraction, respectively. SP cell lines were generated under hypoxic conditions based on their cloning efficiency ability, cultured for 12-15 passages (20 weeks) and cryopreserved. Cell lines displayed normal 46XX karyotype, intermediate telomerase activity pattern and expressed mRNAs encoding proteins that are considered characteristic of undifferentiated cells (Oct-4, GDF3, DNMT3B, Nanog, GABR3) and those of mesodermal origin (WT1, Cardiac Actin, Enolase, Globin, REN). Phenotype analysis corroborated their epithelial (CD9+) or stromal (vimentin+) cell origin and mesenchymal (CD90+, CD73+ and CD45-) attributes. Markers considered characteristic of ectoderm or endoderm were not detected. Cells did not express either estrogen receptor alpha (ER alpha) or progesterone receptor (PR). The hESP cell lines were able to differentiate in vitro into adipocytes and osteocytes, which confirmed their mesenchymal origin. Finally, we demonstrated their ability to generate human endometrium when transplanted beneath the renal capsule of NOD-SCID mice. These findings confirm that SP cells exhibit key features of human endometrial SSC and open up new possibilities for the understanding of gynecological disorders such as endometriosis or Asherman syndrome. Our cell lines can be a valuable model to investigate new targets for endometrium proliferation in endometriosis.

year	journal	country	edition	language
2011-01-01

https://fundanet.cipf.es/Publicaciones/ProdCientif/PublicacionFrw.aspx?id=2530