TY - JOUR
T1 - In vitro fertilization does not increase the incidence of de novo copy number alterations in fetal and placental lineages
AU - Esteki, Masoud Zamani
AU - Viltrop, Triin
AU - Tsuiko, Olga
AU - Tiirats, Airi
AU - Koel, Mariann
AU - Noukas, Margit
AU - Zilina, Olga
AU - Teearu, Katre
AU - Marjonen, Heidi
AU - Kahila, Hanna
AU - Meekels, Jeroen
AU - Söderström-Anttila, Viveca
AU - Suikkari, Anne-Maria
AU - Tiitinen, Aila
AU - Mägi, Reedik
AU - Köks, Sulev
AU - Kaminen-Ahola, Nina
AU - Kurg, Ants
AU - Voet, Thierry
AU - Vermeesch, Joris Robert
AU - Salumets, Andres
PY - 2019/11/4
Y1 - 2019/11/4
N2 - Although chromosomal instability (CIN) is a common phenomenon in cleavage-stage embryogenesis following in vitro fertilization (IVF)(1-3), its rate in naturally conceived human embryos is unknown. CIN leads to mosaic embryos that contain a combination of genetically normal and abnormal cells, and is significantly higher in in vitro-produced preimplantation embryos as compared to in vivo-conceived preimplantation embryos(4). Even though embryos with CIN-derived complex aneuploidies may arrest between the cleavage and blastocyst stages of embryogenesis(5,6), a high number of embryos containing abnormal cells can pass this strong selection barrier(7,8). However, neither the prevalence nor extent of CIN during prenatal development and at birth, following IVF treatment, is well understood. Here we profiled the genomic landscape of fetal and placental tissues postpartum from both IVF and naturally conceived children, to investigate the prevalence and persistence of large genetic aberrations that probably arose from IVF-related CIN. We demonstrate that CIN is not preserved at later stages of prenatal development, and that de novo numerical aberrations or large structural DNA imbalances occur at similar rates in IVF and naturally conceived live-born neonates. Our findings affirm that human IVF treatment has no detrimental effect on the chromosomal constitution of fetal and placental lineages.
AB - Although chromosomal instability (CIN) is a common phenomenon in cleavage-stage embryogenesis following in vitro fertilization (IVF)(1-3), its rate in naturally conceived human embryos is unknown. CIN leads to mosaic embryos that contain a combination of genetically normal and abnormal cells, and is significantly higher in in vitro-produced preimplantation embryos as compared to in vivo-conceived preimplantation embryos(4). Even though embryos with CIN-derived complex aneuploidies may arrest between the cleavage and blastocyst stages of embryogenesis(5,6), a high number of embryos containing abnormal cells can pass this strong selection barrier(7,8). However, neither the prevalence nor extent of CIN during prenatal development and at birth, following IVF treatment, is well understood. Here we profiled the genomic landscape of fetal and placental tissues postpartum from both IVF and naturally conceived children, to investigate the prevalence and persistence of large genetic aberrations that probably arose from IVF-related CIN. We demonstrate that CIN is not preserved at later stages of prenatal development, and that de novo numerical aberrations or large structural DNA imbalances occur at similar rates in IVF and naturally conceived live-born neonates. Our findings affirm that human IVF treatment has no detrimental effect on the chromosomal constitution of fetal and placental lineages.
KW - 3111 Biomedicine
KW - 3123 Gynaecology and paediatrics
KW - HIDDEN-MARKOV MODEL
KW - HUMAN-EMBRYOS
KW - CHROMOSOME INSTABILITY
KW - MOSAICISM
KW - GENOME
KW - ANEUPLOIDY
KW - COMMON
KW - ABNORMALITIES
KW - CONSTITUTION
KW - BLASTOCYSTS
UR - https://www.nature.com/articles/s41591-019-0620-2
U2 - 10.1038/s41591-019-0620-2
DO - 10.1038/s41591-019-0620-2
M3 - Article
SN - 1078-8956
VL - 25
SP - 1699
EP - 1705
JO - Nature Medicine
JF - Nature Medicine
IS - 11
ER -