A Polarized Human Endometrial Cell Line That Binds and Transports Polymeric IgA
We have demonstrated that a human endometrial cell line, HEC-1, maintains a high transepithelial electrical resistance, directionally transports fluids across the cell monolayer, and releases enveloped viruses at distinct plasma membrane domains: influenza virus is released at the apical surfaces an...
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| Veröffentlicht in: | In vitro cellular & developmental biology. Animal 1995-03, Vol.31 (3), p.196-206 |
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| container_title | In vitro cellular & developmental biology. Animal |
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| creator | Ball, Judith M. Moldoveanu, Zina Lawrence R. Melsen Pamela A. Kozlowski Jackson, Susan Mulligan, Mark J. Jiri F. Mestecky Compans, Richard W. |
| description | We have demonstrated that a human endometrial cell line, HEC-1, maintains a high transepithelial electrical resistance, directionally transports fluids across the cell monolayer, and releases enveloped viruses at distinct plasma membrane domains: influenza virus is released at the apical surfaces and vesicular stomatitis virus (VSV) at the basolateral surfaces. In addition, we have examined the expression of domain-specific endogenous proteins, including the polyimmunoglobulin receptor. Multiple endogenous polypeptides were found to be secreted into the culture medium at basolateral surfaces, whereas no secretion of specific polypeptides was observed from apical cell surfaces. Distinct patterns of endogenous proteins were also observed on apical and basolateral cell surfaces, with a much more complex polypeptide pattern on the basolateral membranes. Using surface biotinylation and immunofluorescence, the polyimmunoglobulin receptor was found to be expressed on the basolateral surfaces of HEC-1 monolayers. The specific binding of poly-immunoglobulin A (pIgA) was found to occur on the basolateral surface, and was followed by transcytosis to the apical surface and release into the apical medium. The observed characteristics indicate that the endometrium-derived HEC-1 epithelial cell line can be employed as a model for studies of protein transport in polarized epithelial cells of human endometrial tissues, as well as for studies of the interaction of microorganisms with epithelial cells in the genital tract. |
| doi_str_mv | 10.1007/BF02639434 |
| format | Article |
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Melsen ; Pamela A. Kozlowski ; Jackson, Susan ; Mulligan, Mark J. ; Jiri F. Mestecky ; Compans, Richard W.</creator><creatorcontrib>Ball, Judith M. ; Moldoveanu, Zina ; Lawrence R. Melsen ; Pamela A. Kozlowski ; Jackson, Susan ; Mulligan, Mark J. ; Jiri F. Mestecky ; Compans, Richard W.</creatorcontrib><description>We have demonstrated that a human endometrial cell line, HEC-1, maintains a high transepithelial electrical resistance, directionally transports fluids across the cell monolayer, and releases enveloped viruses at distinct plasma membrane domains: influenza virus is released at the apical surfaces and vesicular stomatitis virus (VSV) at the basolateral surfaces. In addition, we have examined the expression of domain-specific endogenous proteins, including the polyimmunoglobulin receptor. Multiple endogenous polypeptides were found to be secreted into the culture medium at basolateral surfaces, whereas no secretion of specific polypeptides was observed from apical cell surfaces. Distinct patterns of endogenous proteins were also observed on apical and basolateral cell surfaces, with a much more complex polypeptide pattern on the basolateral membranes. Using surface biotinylation and immunofluorescence, the polyimmunoglobulin receptor was found to be expressed on the basolateral surfaces of HEC-1 monolayers. The specific binding of poly-immunoglobulin A (pIgA) was found to occur on the basolateral surface, and was followed by transcytosis to the apical surface and release into the apical medium. The observed characteristics indicate that the endometrium-derived HEC-1 epithelial cell line can be employed as a model for studies of protein transport in polarized epithelial cells of human endometrial tissues, as well as for studies of the interaction of microorganisms with epithelial cells in the genital tract.</description><identifier>ISSN: 1071-2690</identifier><identifier>EISSN: 1543-706X</identifier><identifier>DOI: 10.1007/BF02639434</identifier><identifier>PMID: 7757302</identifier><language>eng</language><publisher>Germany: Society for In Vitro Biology</publisher><subject>Biological Transport ; Cell Line ; Cell lines ; Cell Membrane - physiology ; Cell Membrane - virology ; Cell membranes ; Cell Polarity ; Cellular Models ; Electric Conductivity ; Endometrium - immunology ; Endometrium - virology ; Epithelial Cells ; Epithelium - immunology ; Exocytosis ; Female ; Hepatocytes ; Humans ; Immunoglobulin A - metabolism ; Kinetics ; Membrane proteins ; Neurons ; Orthomyxoviridae ; Orthomyxoviridae - metabolism ; Receptors ; Secretion ; Secretory Component - metabolism ; Vesicular stomatitis Indiana virus - metabolism ; Viruses</subject><ispartof>In vitro cellular & developmental biology. 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Multiple endogenous polypeptides were found to be secreted into the culture medium at basolateral surfaces, whereas no secretion of specific polypeptides was observed from apical cell surfaces. Distinct patterns of endogenous proteins were also observed on apical and basolateral cell surfaces, with a much more complex polypeptide pattern on the basolateral membranes. Using surface biotinylation and immunofluorescence, the polyimmunoglobulin receptor was found to be expressed on the basolateral surfaces of HEC-1 monolayers. The specific binding of poly-immunoglobulin A (pIgA) was found to occur on the basolateral surface, and was followed by transcytosis to the apical surface and release into the apical medium. The observed characteristics indicate that the endometrium-derived HEC-1 epithelial cell line can be employed as a model for studies of protein transport in polarized epithelial cells of human endometrial tissues, as well as for studies of the interaction of microorganisms with epithelial cells in the genital tract.</description><subject>Biological Transport</subject><subject>Cell Line</subject><subject>Cell lines</subject><subject>Cell Membrane - physiology</subject><subject>Cell Membrane - virology</subject><subject>Cell membranes</subject><subject>Cell Polarity</subject><subject>Cellular Models</subject><subject>Electric Conductivity</subject><subject>Endometrium - immunology</subject><subject>Endometrium - virology</subject><subject>Epithelial Cells</subject><subject>Epithelium - immunology</subject><subject>Exocytosis</subject><subject>Female</subject><subject>Hepatocytes</subject><subject>Humans</subject><subject>Immunoglobulin A - metabolism</subject><subject>Kinetics</subject><subject>Membrane proteins</subject><subject>Neurons</subject><subject>Orthomyxoviridae</subject><subject>Orthomyxoviridae - metabolism</subject><subject>Receptors</subject><subject>Secretion</subject><subject>Secretory Component - metabolism</subject><subject>Vesicular stomatitis Indiana virus - metabolism</subject><subject>Viruses</subject><issn>1071-2690</issn><issn>1543-706X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1995</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpFkM1Lw0AQxRdRaq1ePCvsyYMQ3a_sJse2tLZQqIcK3sJmd6IpyabuJof615vSUucyA-_3HsND6J6SF0qIep3MCZM8FVxcoCGNBY8UkZ-X_U0UjZhMyTW6CWFL-kmpHKCBUrHihA3Reozfm0r78hcsXnS1dnjmbFND60td4SlUFV6VDvDmW7d4UjobsHYWb7x2Ydf4Nhz8-xp8afDya3yLrgpdBbg77RH6mM8200W0Wr8tp-NVZDhP2ygXygKn1OqYC2OJEVJrAAZAuE1TrhILUivQRZyYHJgoCklzSwpuODCq-Qg9HXN3vvnpILRZXQbTf6sdNF3IlGJJoiTvwecjaHwTgoci2_my1n6fUZId2sv-2-vhx1Nql9dgz-iprl5_OOrb0Db-LAvWu5OE_wEfyXMx</recordid><startdate>19950301</startdate><enddate>19950301</enddate><creator>Ball, Judith M.</creator><creator>Moldoveanu, Zina</creator><creator>Lawrence R. 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Melsen</creatorcontrib><creatorcontrib>Pamela A. Kozlowski</creatorcontrib><creatorcontrib>Jackson, Susan</creatorcontrib><creatorcontrib>Mulligan, Mark J.</creatorcontrib><creatorcontrib>Jiri F. Mestecky</creatorcontrib><creatorcontrib>Compans, Richard W.</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><jtitle>In vitro cellular & developmental biology. Animal</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ball, Judith M.</au><au>Moldoveanu, Zina</au><au>Lawrence R. Melsen</au><au>Pamela A. Kozlowski</au><au>Jackson, Susan</au><au>Mulligan, Mark J.</au><au>Jiri F. 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In addition, we have examined the expression of domain-specific endogenous proteins, including the polyimmunoglobulin receptor. Multiple endogenous polypeptides were found to be secreted into the culture medium at basolateral surfaces, whereas no secretion of specific polypeptides was observed from apical cell surfaces. Distinct patterns of endogenous proteins were also observed on apical and basolateral cell surfaces, with a much more complex polypeptide pattern on the basolateral membranes. Using surface biotinylation and immunofluorescence, the polyimmunoglobulin receptor was found to be expressed on the basolateral surfaces of HEC-1 monolayers. The specific binding of poly-immunoglobulin A (pIgA) was found to occur on the basolateral surface, and was followed by transcytosis to the apical surface and release into the apical medium. 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| subjects | Biological Transport Cell Line Cell lines Cell Membrane - physiology Cell Membrane - virology Cell membranes Cell Polarity Cellular Models Electric Conductivity Endometrium - immunology Endometrium - virology Epithelial Cells Epithelium - immunology Exocytosis Female Hepatocytes Humans Immunoglobulin A - metabolism Kinetics Membrane proteins Neurons Orthomyxoviridae Orthomyxoviridae - metabolism Receptors Secretion Secretory Component - metabolism Vesicular stomatitis Indiana virus - metabolism Viruses |
| title | A Polarized Human Endometrial Cell Line That Binds and Transports Polymeric IgA |
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