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Evidence of oxidative stress-induced senescence in mature, post-mature and pathological human placentas

Premature ageing has been implicated in placental dysfunction. Senescence can be activated by oxidative stress, a key intermediary in the pathophysiology of pre-eclampsia. We examined senescence markers across normal gestation, and in pathological and post-mature pregnancies. Inducers of oxidative s...

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Published in:	Placenta (Eastbourne) 2018-08, Vol.68, p.15-22
Main Authors:	Cindrova-Davies, Tereza, Fogarty, Norah M.E., Jones, Carolyn J.P., Kingdom, John, Burton, Graham J.
Format:	Article
Language:	English
Subjects:	Cellular Senescence - physiology Cyclin-Dependent Kinase Inhibitor p21 - metabolism Female Gestational Age Humans Hydrogen Peroxide - pharmacology Hypoxia - metabolism Hypoxia - pathology Oxidative stress Oxidative Stress - physiology Phosphorylation Placenta - metabolism Placenta - pathology Pregnancy Pregnancy Trimester, First - metabolism Pregnancy Trimester, Second - metabolism Reactive Oxygen Species - metabolism Senescence Syncytiotrophoblast Term Birth Trophoblasts - metabolism Trophoblasts - pathology
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creator	Cindrova-Davies, Tereza Fogarty, Norah M.E. Jones, Carolyn J.P. Kingdom, John Burton, Graham J.
description	Premature ageing has been implicated in placental dysfunction. Senescence can be activated by oxidative stress, a key intermediary in the pathophysiology of pre-eclampsia. We examined senescence markers across normal gestation, and in pathological and post-mature pregnancies. Inducers of oxidative stress were used to mimic senescence changes in term explants. Placental samples were collected with ethical approval and informed consent: first and second trimester samples from surgical terminations; term and pre-term controls, and early-onset pre-eclampsia samples from caesarean deliveries. Paraffin and EM blocks of post-mature placentas were from an archival collection. Term explants were subjected to hypoxia-reoxygenation (HR) or hydrogen peroxide (H2O2). p21 was increased significantly in term homogenates compared to first and second trimester samples, and was significantly higher in PE compared to term controls. Immunostaining revealed nuclear localisation of p21 and phosphorylated histone γH2AX in syncytiotrophoblast, with abundant foci in pathological and post-mature placentas. Abnormal nuclear appearances were observed in post-mature placentas. Sudan-Black-B staining demonstrated abundant lipofuscin, an aggregate of oxidised proteins, lipids and metals, in post-mature and pathological placentas. The percentage of nuclei positive for 8-hydroxy-2′-deoxy-guanosine, a marker of oxidised DNA/RNA, was increased in pathological placentas compared to age-matched controls. These changes could be mimicked by challenge with HR or H2O2. Senescence markers increase in normal placentas with gestational age, and are exaggerated in post-mature and pathological cases. Oxidative stress triggers equivalent changes in explants, and may precipitate senescence in vivo. The consequent pro-inflammatory senescence-associated secretory phenotype may contribute to the pathophysiology of pre-eclampsia. •Markers of senescence increase in healthy placentas with advancing gestational age.•Senescence changes are most extensive post-term, and in early-onset pre-eclampsia.•Oxidative stress can induce placental senescence in vitro.•Senescence changes are primarily restricted to the syncytiotrophoblast.
doi_str_mv	10.1016/j.placenta.2018.06.307
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Senescence can be activated by oxidative stress, a key intermediary in the pathophysiology of pre-eclampsia. We examined senescence markers across normal gestation, and in pathological and post-mature pregnancies. Inducers of oxidative stress were used to mimic senescence changes in term explants. Placental samples were collected with ethical approval and informed consent: first and second trimester samples from surgical terminations; term and pre-term controls, and early-onset pre-eclampsia samples from caesarean deliveries. Paraffin and EM blocks of post-mature placentas were from an archival collection. Term explants were subjected to hypoxia-reoxygenation (HR) or hydrogen peroxide (H2O2). p21 was increased significantly in term homogenates compared to first and second trimester samples, and was significantly higher in PE compared to term controls. Immunostaining revealed nuclear localisation of p21 and phosphorylated histone γH2AX in syncytiotrophoblast, with abundant foci in pathological and post-mature placentas. Abnormal nuclear appearances were observed in post-mature placentas. Sudan-Black-B staining demonstrated abundant lipofuscin, an aggregate of oxidised proteins, lipids and metals, in post-mature and pathological placentas. The percentage of nuclei positive for 8-hydroxy-2′-deoxy-guanosine, a marker of oxidised DNA/RNA, was increased in pathological placentas compared to age-matched controls. These changes could be mimicked by challenge with HR or H2O2. Senescence markers increase in normal placentas with gestational age, and are exaggerated in post-mature and pathological cases. Oxidative stress triggers equivalent changes in explants, and may precipitate senescence in vivo. The consequent pro-inflammatory senescence-associated secretory phenotype may contribute to the pathophysiology of pre-eclampsia. •Markers of senescence increase in healthy placentas with advancing gestational age.•Senescence changes are most extensive post-term, and in early-onset pre-eclampsia.•Oxidative stress can induce placental senescence in vitro.•Senescence changes are primarily restricted to the syncytiotrophoblast.</description><identifier>ISSN: 0143-4004</identifier><identifier>ISSN: 1532-3102</identifier><identifier>EISSN: 1532-3102</identifier><identifier>DOI: 10.1016/j.placenta.2018.06.307</identifier><identifier>PMID: 30055665</identifier><language>eng</language><publisher>Netherlands: Elsevier Ltd</publisher><subject>Cellular Senescence - physiology ; Cyclin-Dependent Kinase Inhibitor p21 - metabolism ; Female ; Gestational Age ; Humans ; Hydrogen Peroxide - pharmacology ; Hypoxia - metabolism ; Hypoxia - pathology ; Oxidative stress ; Oxidative Stress - physiology ; Phosphorylation ; Placenta - metabolism ; Placenta - pathology ; Pregnancy ; Pregnancy Trimester, First - metabolism ; Pregnancy Trimester, Second - metabolism ; Reactive Oxygen Species - metabolism ; Senescence ; Syncytiotrophoblast ; Term Birth ; Trophoblasts - metabolism ; Trophoblasts - pathology</subject><ispartof>Placenta (Eastbourne), 2018-08, Vol.68, p.15-22</ispartof><rights>2018</rights><rights>Copyright © 2018. 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Senescence can be activated by oxidative stress, a key intermediary in the pathophysiology of pre-eclampsia. We examined senescence markers across normal gestation, and in pathological and post-mature pregnancies. Inducers of oxidative stress were used to mimic senescence changes in term explants. Placental samples were collected with ethical approval and informed consent: first and second trimester samples from surgical terminations; term and pre-term controls, and early-onset pre-eclampsia samples from caesarean deliveries. Paraffin and EM blocks of post-mature placentas were from an archival collection. Term explants were subjected to hypoxia-reoxygenation (HR) or hydrogen peroxide (H2O2). p21 was increased significantly in term homogenates compared to first and second trimester samples, and was significantly higher in PE compared to term controls. Immunostaining revealed nuclear localisation of p21 and phosphorylated histone γH2AX in syncytiotrophoblast, with abundant foci in pathological and post-mature placentas. Abnormal nuclear appearances were observed in post-mature placentas. Sudan-Black-B staining demonstrated abundant lipofuscin, an aggregate of oxidised proteins, lipids and metals, in post-mature and pathological placentas. The percentage of nuclei positive for 8-hydroxy-2′-deoxy-guanosine, a marker of oxidised DNA/RNA, was increased in pathological placentas compared to age-matched controls. These changes could be mimicked by challenge with HR or H2O2. Senescence markers increase in normal placentas with gestational age, and are exaggerated in post-mature and pathological cases. Oxidative stress triggers equivalent changes in explants, and may precipitate senescence in vivo. The consequent pro-inflammatory senescence-associated secretory phenotype may contribute to the pathophysiology of pre-eclampsia. •Markers of senescence increase in healthy placentas with advancing gestational age.•Senescence changes are most extensive post-term, and in early-onset pre-eclampsia.•Oxidative stress can induce placental senescence in vitro.•Senescence changes are primarily restricted to the syncytiotrophoblast.</description><subject>Cellular Senescence - physiology</subject><subject>Cyclin-Dependent Kinase Inhibitor p21 - metabolism</subject><subject>Female</subject><subject>Gestational Age</subject><subject>Humans</subject><subject>Hydrogen Peroxide - pharmacology</subject><subject>Hypoxia - metabolism</subject><subject>Hypoxia - pathology</subject><subject>Oxidative stress</subject><subject>Oxidative Stress - physiology</subject><subject>Phosphorylation</subject><subject>Placenta - metabolism</subject><subject>Placenta - pathology</subject><subject>Pregnancy</subject><subject>Pregnancy Trimester, First - metabolism</subject><subject>Pregnancy Trimester, Second - metabolism</subject><subject>Reactive Oxygen Species - metabolism</subject><subject>Senescence</subject><subject>Syncytiotrophoblast</subject><subject>Term Birth</subject><subject>Trophoblasts - metabolism</subject><subject>Trophoblasts - pathology</subject><issn>0143-4004</issn><issn>1532-3102</issn><issn>1532-3102</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNqFUU1v1DAUtBCILoW_UPnIgYRnx3aSCwJV5UOqxAXOlmO_7HqV2MFOVvDvSdhuBSdOlv3mzYxnCLlhUDJg6u2xnAZjMcym5MCaElRZQf2E7JiseFEx4E_JDpioCgEgrsiLnI8A0ArGn5OrCkBKpeSO7O9O3mGwSGNP40_vzOxPSPOcMOfCB7dYdDRjwGz_wHygo5mXhG_oFPNcnC_UBEcnMx_iEPfemoEeltEEejGZX5JnvRkyvno4r8n3j3ffbj8X918_fbn9cF9YUbO54FB3ojKgrHCCMZANdGhYo5Qy60Pf185YYG0rmr7lktdN2zaSG95L23VCVtfk3Zl3WroR3SaezKCn5EeTfulovP53EvxB7-NJK2gqAWIleP1AkOKPBfOsR79-fRhMwLhkvTpsWymZ2qDqDLUp5pywf5RhoLeW9FFfAtBbSxqUXltaF2_-Nvm4dqllBbw_A3CN6uQx6Wz9Fr_zCe2sXfT_0_gNiVGpKw</recordid><startdate>201808</startdate><enddate>201808</enddate><creator>Cindrova-Davies, Tereza</creator><creator>Fogarty, Norah M.E.</creator><creator>Jones, Carolyn J.P.</creator><creator>Kingdom, John</creator><creator>Burton, Graham J.</creator><general>Elsevier Ltd</general><general>Elsevier</general><scope>6I.</scope><scope>AAFTH</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><scope>5PM</scope><orcidid>https://orcid.org/0000-0001-8677-4143</orcidid></search><sort><creationdate>201808</creationdate><title>Evidence of oxidative stress-induced senescence in mature, post-mature and pathological human placentas</title><author>Cindrova-Davies, Tereza ; 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Senescence can be activated by oxidative stress, a key intermediary in the pathophysiology of pre-eclampsia. We examined senescence markers across normal gestation, and in pathological and post-mature pregnancies. Inducers of oxidative stress were used to mimic senescence changes in term explants. Placental samples were collected with ethical approval and informed consent: first and second trimester samples from surgical terminations; term and pre-term controls, and early-onset pre-eclampsia samples from caesarean deliveries. Paraffin and EM blocks of post-mature placentas were from an archival collection. Term explants were subjected to hypoxia-reoxygenation (HR) or hydrogen peroxide (H2O2). p21 was increased significantly in term homogenates compared to first and second trimester samples, and was significantly higher in PE compared to term controls. Immunostaining revealed nuclear localisation of p21 and phosphorylated histone γH2AX in syncytiotrophoblast, with abundant foci in pathological and post-mature placentas. Abnormal nuclear appearances were observed in post-mature placentas. Sudan-Black-B staining demonstrated abundant lipofuscin, an aggregate of oxidised proteins, lipids and metals, in post-mature and pathological placentas. The percentage of nuclei positive for 8-hydroxy-2′-deoxy-guanosine, a marker of oxidised DNA/RNA, was increased in pathological placentas compared to age-matched controls. These changes could be mimicked by challenge with HR or H2O2. Senescence markers increase in normal placentas with gestational age, and are exaggerated in post-mature and pathological cases. Oxidative stress triggers equivalent changes in explants, and may precipitate senescence in vivo. 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subjects	Cellular Senescence - physiology Cyclin-Dependent Kinase Inhibitor p21 - metabolism Female Gestational Age Humans Hydrogen Peroxide - pharmacology Hypoxia - metabolism Hypoxia - pathology Oxidative stress Oxidative Stress - physiology Phosphorylation Placenta - metabolism Placenta - pathology Pregnancy Pregnancy Trimester, First - metabolism Pregnancy Trimester, Second - metabolism Reactive Oxygen Species - metabolism Senescence Syncytiotrophoblast Term Birth Trophoblasts - metabolism Trophoblasts - pathology
title	Evidence of oxidative stress-induced senescence in mature, post-mature and pathological human placentas
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