Epigenetic disturbances in in vitro cultured gametes and embryos: implications for human assisted reproduction

Although assisted reproductive technology (ART) has become a routine practice for human infertility treatment, the etiology of the increased risks for perinatal problems in ART-conceived children is still poorly understood. Data from mouse experiments and the in vitro production of livestock provide...

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Veröffentlicht in:	Fertility and sterility 2013-03, Vol.99 (3), p.632-641
Hauptverfasser:	el Hajj, Nady, Ph.D, Haaf, Thomas, M.D
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Sprache:	eng
Schlagworte:	Assisted reproduction technology (ART) Blastocyst - physiology children conception developmental origins hypothesis DNA methylation early development early embryo embryo culture Embryo Culture Techniques embryogenesis Epigenesis, Genetic - genetics epigenetic effects epigenetics etiology Female fetal development Genetic Diseases, Inborn - genetics genome genome reprogramming Germ Cells - physiology human fertility Humans imprinting in vitro studies Internal Medicine in vitro culture livestock production mice mutation Obstetrics and Gynecology oocyte oocytes Pregnancy Reproductive Techniques, Assisted risk superovulation
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creator	el Hajj, Nady, Ph.D Haaf, Thomas, M.D
description	Although assisted reproductive technology (ART) has become a routine practice for human infertility treatment, the etiology of the increased risks for perinatal problems in ART-conceived children is still poorly understood. Data from mouse experiments and the in vitro production of livestock provide strong evidence that imprint establishment in late oocyte stages and reprogramming of the two germline genomes for somatic development after fertilization are vulnerable to environmental cues. In vitro culture and maturation of oocytes, superovulation, and embryo culture all represent artificial intrusions upon the natural development, which can be expected to influence the epigenome of the resultant offspring. However, in this context it is difficult to define the normal range of epigenetic variation in humans from conception throughout life. With the notable exception of a few highly penetrant imprinting mutations, the phenotypic consequences of any observed epigenetic differences between ART and non-ART groups remain largely unclear. The periconceptional period is not only critical for embryonal, placental, and fetal development, as well as the outcome at birth, but suboptimal in vitro culture conditions may also lead to persistent changes in the epigenome influencing disease susceptibilities later in life. The epigenome appears to be most plastic in the late stages of oocyte and the early stages of embryo development; this plasticity steadily decreases during prenatal and postnatal life. Therefore, when considering the safety of human ART from an epigenetic point of view, our main concern should not be whether or not a few rare imprinting disorders are increased, but rather we must be aware of a functional link between interference with epigenetic reprogramming in very early development and adult disease.
doi_str_mv	10.1016/j.fertnstert.2012.12.044
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Data from mouse experiments and the in vitro production of livestock provide strong evidence that imprint establishment in late oocyte stages and reprogramming of the two germline genomes for somatic development after fertilization are vulnerable to environmental cues. In vitro culture and maturation of oocytes, superovulation, and embryo culture all represent artificial intrusions upon the natural development, which can be expected to influence the epigenome of the resultant offspring. However, in this context it is difficult to define the normal range of epigenetic variation in humans from conception throughout life. With the notable exception of a few highly penetrant imprinting mutations, the phenotypic consequences of any observed epigenetic differences between ART and non-ART groups remain largely unclear. The periconceptional period is not only critical for embryonal, placental, and fetal development, as well as the outcome at birth, but suboptimal in vitro culture conditions may also lead to persistent changes in the epigenome influencing disease susceptibilities later in life. The epigenome appears to be most plastic in the late stages of oocyte and the early stages of embryo development; this plasticity steadily decreases during prenatal and postnatal life. 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Data from mouse experiments and the in vitro production of livestock provide strong evidence that imprint establishment in late oocyte stages and reprogramming of the two germline genomes for somatic development after fertilization are vulnerable to environmental cues. In vitro culture and maturation of oocytes, superovulation, and embryo culture all represent artificial intrusions upon the natural development, which can be expected to influence the epigenome of the resultant offspring. However, in this context it is difficult to define the normal range of epigenetic variation in humans from conception throughout life. With the notable exception of a few highly penetrant imprinting mutations, the phenotypic consequences of any observed epigenetic differences between ART and non-ART groups remain largely unclear. The periconceptional period is not only critical for embryonal, placental, and fetal development, as well as the outcome at birth, but suboptimal in vitro culture conditions may also lead to persistent changes in the epigenome influencing disease susceptibilities later in life. The epigenome appears to be most plastic in the late stages of oocyte and the early stages of embryo development; this plasticity steadily decreases during prenatal and postnatal life. Therefore, when considering the safety of human ART from an epigenetic point of view, our main concern should not be whether or not a few rare imprinting disorders are increased, but rather we must be aware of a functional link between interference with epigenetic reprogramming in very early development and adult disease.</description><subject>Assisted reproduction technology (ART)</subject><subject>Blastocyst - physiology</subject><subject>children</subject><subject>conception</subject><subject>developmental origins hypothesis</subject><subject>DNA methylation</subject><subject>early development</subject><subject>early embryo</subject><subject>embryo culture</subject><subject>Embryo Culture Techniques</subject><subject>embryogenesis</subject><subject>Epigenesis, Genetic - genetics</subject><subject>epigenetic effects</subject><subject>epigenetics</subject><subject>etiology</subject><subject>Female</subject><subject>fetal development</subject><subject>Genetic Diseases, Inborn - genetics</subject><subject>genome</subject><subject>genome reprogramming</subject><subject>Germ Cells - physiology</subject><subject>human fertility</subject><subject>Humans</subject><subject>imprinting</subject><subject>in vitro studies</subject><subject>Internal Medicine</subject><subject>in vitro culture</subject><subject>livestock production</subject><subject>mice</subject><subject>mutation</subject><subject>Obstetrics and Gynecology</subject><subject>oocyte</subject><subject>oocytes</subject><subject>Pregnancy</subject><subject>Reproductive Techniques, Assisted</subject><subject>risk</subject><subject>superovulation</subject><issn>0015-0282</issn><issn>1556-5653</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNUsuKFDEULURx2tFf0CzdVJtHpR4uBGcYHzDgYhxwF1LJTZu2KmmT1ED_jd_il3mLHhVcCZdkcc8jOfdWFWF0yyhrX-23DlIJueC55ZTxLRZtmgfVhknZ1rKV4mG1oZTJmvKen1VPct5TSlvW8cfVGRdCdo0UmypeHfwOAhRviPW5LGnUwUAmPmD9_HHnS4rELBN2wJKdnqFgVwdLYB7TMebXxM-HyRtdfAyZuJjI12XWgeicURBJCQ4p2sWsgKfVI6enDM_u7_Pq9t3V58sP9fWn9x8v317XRrZDqbXQljZOyLEXrrfUghYOxkF2gxOdGGzb4j91xwfJu57boe_Y0ApHTeMaxqg4r16edNH6-wK5qNlnA9OkA8QlKybQR7ZCrND-BDUp5pzAqUPys05Hxaha41Z79TdutcatsDBupD6_d1nGGewf4u98EfDiBHA6Kr1LPqvbG1SQOBre90Ii4uKEAEzjzkNS2XjAEVifwBRlo_-fd7z5R8RMPuBMpm9whLyPSwqYtmIqI0HdrIux7gUTdF2KL-IXYM63UQ</recordid><startdate>20130301</startdate><enddate>20130301</enddate><creator>el Hajj, Nady, Ph.D</creator><creator>Haaf, Thomas, M.D</creator><general>Elsevier Inc</general><scope>FBQ</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>20130301</creationdate><title>Epigenetic disturbances in in vitro cultured gametes and embryos: implications for human assisted reproduction</title><author>el Hajj, Nady, Ph.D ; 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subjects	Assisted reproduction technology (ART) Blastocyst - physiology children conception developmental origins hypothesis DNA methylation early development early embryo embryo culture Embryo Culture Techniques embryogenesis Epigenesis, Genetic - genetics epigenetic effects epigenetics etiology Female fetal development Genetic Diseases, Inborn - genetics genome genome reprogramming Germ Cells - physiology human fertility Humans imprinting in vitro studies Internal Medicine in vitro culture livestock production mice mutation Obstetrics and Gynecology oocyte oocytes Pregnancy Reproductive Techniques, Assisted risk superovulation
title	Epigenetic disturbances in in vitro cultured gametes and embryos: implications for human assisted reproduction
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