Trophoblasts Reduce the Vascular Smooth Muscle Cell Proatherogenic Response

Maternal spiral artery remodeling is the consequence of controlled trophoblast invasive interaction with the maternal cellular environment and is fundamentally important for successful placentation. In preeclampsia, trophoblast invasion is shallow, remodeling is incomplete, and vessels develop an in...

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Veröffentlicht in:	Hypertension (Dallas, Tex. 1979) Tex. 1979), 2008-02, Vol.51 (2, Part 2), p.554-559
Hauptverfasser:	Hering, Lydia, Herse, Florian, Verlohren, Stefan, Park, Joon-Keun, Wellner, Maren, Qadri, Fatimunnisa, Pijnenborg, Robert, Staff, Anne C, Huppertz, Berthold, Muller, Dominik N, Luft, Friedrich C, Dechend, Ralf
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Schlagworte:	Acute Disease Angiotensinogen - genetics Angiotensinogen - metabolism Animals Animals, Genetically Modified Arterial hypertension. Arterial hypotension Atherosclerosis - etiology Atherosclerosis - prevention & control Biological and medical sciences Blood and lymphatic vessels Blood vessels and receptors Cardiology. Vascular system Cell Communication - physiology Cells, Cultured Chorionic Villi Coculture Techniques Complement C3 - metabolism Decidua - blood supply Female Fundamental and applied biological sciences. Psychology Humans Male Medical sciences Muscle, Smooth, Vascular - physiology Myocytes, Smooth Muscle - physiology Pre-Eclampsia - metabolism Pre-Eclampsia - physiopathology Pregnancy Rats Rats, Sprague-Dawley Renin - genetics Renin - metabolism Thrombosis - etiology Trophoblasts - physiology Vertebrates: cardiovascular system
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creator	Hering, Lydia Herse, Florian Verlohren, Stefan Park, Joon-Keun Wellner, Maren Qadri, Fatimunnisa Pijnenborg, Robert Staff, Anne C Huppertz, Berthold Muller, Dominik N Luft, Friedrich C Dechend, Ralf
description	Maternal spiral artery remodeling is the consequence of controlled trophoblast invasive interaction with the maternal cellular environment and is fundamentally important for successful placentation. In preeclampsia, trophoblast invasion is shallow, remodeling is incomplete, and vessels develop an inflammatory appearance, termed “acute atherosis.” We noted that, in our preeclampsia, human renin-human angiotensinogen transgenic rat model, complement component 3 (C3), and tumor necrosis factor-α were upregulated and heavily expressed in atherotic uteroplacental vessels. We next used coculture involving human trophoblasts, rat vascular smooth muscle cells (VSMCs), and human VSMCs to observe VSMC-trophoblast regulatory interactions. Tumor necrosis factor-α induced complement C3 and interleukin-6 expression in VSMCs. We found that trophoblasts were able to reduce VSMC C3 and interleukin-6 expression after the VSMCs were stimulated with tumor necrosis factor-α. However, a direct VSMC-trophoblast cell-cell contact was necessary for this anti-inflammatory response. We also studied double-transgenic VSMCs that express inflammatory components and exhibit accelerated proliferation (“synthetic” phenotype). Trophoblasts could not downregulate C3 in these cells. We then examined uteroplacental tissues from preeclamptic and control patients. In control deciduas, only traces of C3 staining were observed, and vessels were thin walled without thrombus formation. In preeclampsia, the decidual vessels showed atherosis, thrombus formation, and C3 expression. Our data suggest that fetally derived trophoblasts require direct cell-cell contact with maternally derived VSMCs to downregulate VSMC C3 and interleukin-6 expression and to avoid atherosis. The findings also implicate C3 in the placental vasculopathy observed in preeclampsia.
doi_str_mv	10.1161/HYPERTENSIONAHA.107.102905
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We also studied double-transgenic VSMCs that express inflammatory components and exhibit accelerated proliferation (“synthetic” phenotype). Trophoblasts could not downregulate C3 in these cells. We then examined uteroplacental tissues from preeclamptic and control patients. In control deciduas, only traces of C3 staining were observed, and vessels were thin walled without thrombus formation. In preeclampsia, the decidual vessels showed atherosis, thrombus formation, and C3 expression. Our data suggest that fetally derived trophoblasts require direct cell-cell contact with maternally derived VSMCs to downregulate VSMC C3 and interleukin-6 expression and to avoid atherosis. 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In preeclampsia, trophoblast invasion is shallow, remodeling is incomplete, and vessels develop an inflammatory appearance, termed “acute atherosis.” We noted that, in our preeclampsia, human renin-human angiotensinogen transgenic rat model, complement component 3 (C3), and tumor necrosis factor-α were upregulated and heavily expressed in atherotic uteroplacental vessels. We next used coculture involving human trophoblasts, rat vascular smooth muscle cells (VSMCs), and human VSMCs to observe VSMC-trophoblast regulatory interactions. Tumor necrosis factor-α induced complement C3 and interleukin-6 expression in VSMCs. We found that trophoblasts were able to reduce VSMC C3 and interleukin-6 expression after the VSMCs were stimulated with tumor necrosis factor-α. However, a direct VSMC-trophoblast cell-cell contact was necessary for this anti-inflammatory response. We also studied double-transgenic VSMCs that express inflammatory components and exhibit accelerated proliferation (“synthetic” phenotype). Trophoblasts could not downregulate C3 in these cells. We then examined uteroplacental tissues from preeclamptic and control patients. In control deciduas, only traces of C3 staining were observed, and vessels were thin walled without thrombus formation. In preeclampsia, the decidual vessels showed atherosis, thrombus formation, and C3 expression. Our data suggest that fetally derived trophoblasts require direct cell-cell contact with maternally derived VSMCs to downregulate VSMC C3 and interleukin-6 expression and to avoid atherosis. The findings also implicate C3 in the placental vasculopathy observed in preeclampsia.</description><subject>Acute Disease</subject><subject>Angiotensinogen - genetics</subject><subject>Angiotensinogen - metabolism</subject><subject>Animals</subject><subject>Animals, Genetically Modified</subject><subject>Arterial hypertension. Arterial hypotension</subject><subject>Atherosclerosis - etiology</subject><subject>Atherosclerosis - prevention & control</subject><subject>Biological and medical sciences</subject><subject>Blood and lymphatic vessels</subject><subject>Blood vessels and receptors</subject><subject>Cardiology. Vascular system</subject><subject>Cell Communication - physiology</subject><subject>Cells, Cultured</subject><subject>Chorionic Villi</subject><subject>Coculture Techniques</subject><subject>Complement C3 - metabolism</subject><subject>Decidua - blood supply</subject><subject>Female</subject><subject>Fundamental and applied biological sciences. Psychology</subject><subject>Humans</subject><subject>Male</subject><subject>Medical sciences</subject><subject>Muscle, Smooth, Vascular - physiology</subject><subject>Myocytes, Smooth Muscle - physiology</subject><subject>Pre-Eclampsia - metabolism</subject><subject>Pre-Eclampsia - physiopathology</subject><subject>Pregnancy</subject><subject>Rats</subject><subject>Rats, Sprague-Dawley</subject><subject>Renin - genetics</subject><subject>Renin - metabolism</subject><subject>Thrombosis - etiology</subject><subject>Trophoblasts - physiology</subject><subject>Vertebrates: cardiovascular system</subject><issn>0194-911X</issn><issn>1524-4563</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2008</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpdkG9rFDEQh4Mo9qx-BVkEfbftTP5sNr47jmuvWNvSHqKvQjY3557mLmeyS_HbG7mjggOZwPD8JuFh7B3CGWKD54tvd_P75fzm4er2ZrqYniHocrgB9YxNUHFZS9WI52wCaGRtEL-esFc5_wBAKaV-yU6wRaOwERP2aZnivo9dcHnI1T2tRk_V0FP1xWU_Bpeqh22MQ199HrMPVM0ohOouRVeYFL_TbuNLKu_jLtNr9mLtQqY3x_uULS_my9mivr69vJpNr2svheA1x84r1SgnNShtuFkRaAFOrtXKdNJg2zVccFSOtyCh5cZ5dKSFMg1vhThlHw5r9yn-GikPdrvJvvzL7SiO2WrgQiK0Bfx4AH2KOSda233abF36bRHsX5P2P5Nlru3BZAm_Pb4ydlta_Yse1RXg_REoplxYJ7fzm_zEceBc6EYWTh64xxgGSvlnGB8p2Z5cGHoLpSRv2poDtFAa1mVSon8ANxmMGA</recordid><startdate>200802</startdate><enddate>200802</enddate><creator>Hering, Lydia</creator><creator>Herse, Florian</creator><creator>Verlohren, Stefan</creator><creator>Park, Joon-Keun</creator><creator>Wellner, Maren</creator><creator>Qadri, Fatimunnisa</creator><creator>Pijnenborg, Robert</creator><creator>Staff, Anne C</creator><creator>Huppertz, Berthold</creator><creator>Muller, Dominik N</creator><creator>Luft, Friedrich C</creator><creator>Dechend, Ralf</creator><general>American Heart Association, Inc</general><general>Lippincott</general><scope>IQODW</scope><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>200802</creationdate><title>Trophoblasts Reduce the Vascular Smooth Muscle Cell Proatherogenic Response</title><author>Hering, Lydia ; Herse, Florian ; Verlohren, Stefan ; Park, Joon-Keun ; Wellner, Maren ; Qadri, Fatimunnisa ; Pijnenborg, Robert ; Staff, Anne C ; Huppertz, Berthold ; Muller, Dominik N ; Luft, Friedrich C ; Dechend, Ralf</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4332-21bc5565a47057929de0730a4f5d9b4918b623215a28040829ac1ae735962833</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2008</creationdate><topic>Acute Disease</topic><topic>Angiotensinogen - genetics</topic><topic>Angiotensinogen - metabolism</topic><topic>Animals</topic><topic>Animals, Genetically Modified</topic><topic>Arterial hypertension. Arterial hypotension</topic><topic>Atherosclerosis - etiology</topic><topic>Atherosclerosis - prevention & control</topic><topic>Biological and medical sciences</topic><topic>Blood and lymphatic vessels</topic><topic>Blood vessels and receptors</topic><topic>Cardiology. Vascular system</topic><topic>Cell Communication - physiology</topic><topic>Cells, Cultured</topic><topic>Chorionic Villi</topic><topic>Coculture Techniques</topic><topic>Complement C3 - metabolism</topic><topic>Decidua - blood supply</topic><topic>Female</topic><topic>Fundamental and applied biological sciences. Psychology</topic><topic>Humans</topic><topic>Male</topic><topic>Medical sciences</topic><topic>Muscle, Smooth, Vascular - physiology</topic><topic>Myocytes, Smooth Muscle - physiology</topic><topic>Pre-Eclampsia - metabolism</topic><topic>Pre-Eclampsia - physiopathology</topic><topic>Pregnancy</topic><topic>Rats</topic><topic>Rats, Sprague-Dawley</topic><topic>Renin - genetics</topic><topic>Renin - metabolism</topic><topic>Thrombosis - etiology</topic><topic>Trophoblasts - physiology</topic><topic>Vertebrates: cardiovascular system</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hering, Lydia</creatorcontrib><creatorcontrib>Herse, Florian</creatorcontrib><creatorcontrib>Verlohren, Stefan</creatorcontrib><creatorcontrib>Park, Joon-Keun</creatorcontrib><creatorcontrib>Wellner, Maren</creatorcontrib><creatorcontrib>Qadri, Fatimunnisa</creatorcontrib><creatorcontrib>Pijnenborg, Robert</creatorcontrib><creatorcontrib>Staff, Anne C</creatorcontrib><creatorcontrib>Huppertz, Berthold</creatorcontrib><creatorcontrib>Muller, Dominik N</creatorcontrib><creatorcontrib>Luft, Friedrich C</creatorcontrib><creatorcontrib>Dechend, Ralf</creatorcontrib><collection>Pascal-Francis</collection><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>Hypertension (Dallas, Tex. 1979)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Hering, Lydia</au><au>Herse, Florian</au><au>Verlohren, Stefan</au><au>Park, Joon-Keun</au><au>Wellner, Maren</au><au>Qadri, Fatimunnisa</au><au>Pijnenborg, Robert</au><au>Staff, Anne C</au><au>Huppertz, Berthold</au><au>Muller, Dominik N</au><au>Luft, Friedrich C</au><au>Dechend, Ralf</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Trophoblasts Reduce the Vascular Smooth Muscle Cell Proatherogenic Response</atitle><jtitle>Hypertension (Dallas, Tex. 1979)</jtitle><addtitle>Hypertension</addtitle><date>2008-02</date><risdate>2008</risdate><volume>51</volume><issue>2, Part 2</issue><spage>554</spage><epage>559</epage><pages>554-559</pages><issn>0194-911X</issn><eissn>1524-4563</eissn><coden>HPRTDN</coden><abstract>Maternal spiral artery remodeling is the consequence of controlled trophoblast invasive interaction with the maternal cellular environment and is fundamentally important for successful placentation. In preeclampsia, trophoblast invasion is shallow, remodeling is incomplete, and vessels develop an inflammatory appearance, termed “acute atherosis.” We noted that, in our preeclampsia, human renin-human angiotensinogen transgenic rat model, complement component 3 (C3), and tumor necrosis factor-α were upregulated and heavily expressed in atherotic uteroplacental vessels. We next used coculture involving human trophoblasts, rat vascular smooth muscle cells (VSMCs), and human VSMCs to observe VSMC-trophoblast regulatory interactions. Tumor necrosis factor-α induced complement C3 and interleukin-6 expression in VSMCs. We found that trophoblasts were able to reduce VSMC C3 and interleukin-6 expression after the VSMCs were stimulated with tumor necrosis factor-α. However, a direct VSMC-trophoblast cell-cell contact was necessary for this anti-inflammatory response. We also studied double-transgenic VSMCs that express inflammatory components and exhibit accelerated proliferation (“synthetic” phenotype). Trophoblasts could not downregulate C3 in these cells. We then examined uteroplacental tissues from preeclamptic and control patients. In control deciduas, only traces of C3 staining were observed, and vessels were thin walled without thrombus formation. In preeclampsia, the decidual vessels showed atherosis, thrombus formation, and C3 expression. Our data suggest that fetally derived trophoblasts require direct cell-cell contact with maternally derived VSMCs to downregulate VSMC C3 and interleukin-6 expression and to avoid atherosis. The findings also implicate C3 in the placental vasculopathy observed in preeclampsia.</abstract><cop>Philadelphia, PA</cop><cop>Hagerstown, MD</cop><pub>American Heart Association, Inc</pub><pmid>18195163</pmid><doi>10.1161/HYPERTENSIONAHA.107.102905</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Acute Disease Angiotensinogen - genetics Angiotensinogen - metabolism Animals Animals, Genetically Modified Arterial hypertension. Arterial hypotension Atherosclerosis - etiology Atherosclerosis - prevention & control Biological and medical sciences Blood and lymphatic vessels Blood vessels and receptors Cardiology. Vascular system Cell Communication - physiology Cells, Cultured Chorionic Villi Coculture Techniques Complement C3 - metabolism Decidua - blood supply Female Fundamental and applied biological sciences. Psychology Humans Male Medical sciences Muscle, Smooth, Vascular - physiology Myocytes, Smooth Muscle - physiology Pre-Eclampsia - metabolism Pre-Eclampsia - physiopathology Pregnancy Rats Rats, Sprague-Dawley Renin - genetics Renin - metabolism Thrombosis - etiology Trophoblasts - physiology Vertebrates: cardiovascular system
title	Trophoblasts Reduce the Vascular Smooth Muscle Cell Proatherogenic Response
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