Research Papers:
RNAi-mediated knockdown of Parp1 does not improve the development of female cloned mouse embryos
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Abstract
Guang-Yu Bai1, Si-Hang Song1, Rui-Zhen Sun1, Zi-Hui Zhang1, Jingyu Li2, Zhen-Dong Wang1, Zhong-Hua Liu2 and Lei Lei1
1Department of Histology and Embryology, Harbin Medical University, Harbin, 150081, China
2Laboratory of Embryo Biotechnology, College of Life Science, Northeast Agricultural University, Harbin, 150030, China
Correspondence to:
Lei Lei, email: [email protected]
Keywords: PARP1, X chromosome, rDNA, nuclear transfer
Received: April 19, 2017 Accepted: June 20, 2017 Published: July 18, 2017
ABSTRACT
Somatic cell nuclear transfer is an important technique for life science research, but its efficiency is still extremely low, and most genes that are important during early development, such as X chromosome-linked genes, are not appropriately expressed during this process. Poly (ADP-ribose) polymerase (PARP) is an enzyme that transfers ADP ribose clusters to target proteins. PARP family members such as PARP1 participate in cellular signalling pathways through poly (ADP-ribosylation) (PARylation), which ultimately promotes changes in chromatin structure, gene expression, and the localization and activity of proteins that mediate signalling responses. PARP1 is associated with X chromosome inactivation (Xi). Here, we showed that abnormal Xi occurs in somatic cell nuclear transfer (NT) blastocysts, whereas in female blastocysts derived from cumulus cell nuclear transfer, both X chromosomes were inactive. Parp1 expression was higher in female NT blastocysts than that in intracytoplasmic sperm injection (ICSI) embryos but not in male NT blastocysts. After knocking down Parp1 expression, both the pre-rRNA 47S and X-inactivation-specific transcript (Xist) levels increased. Moreover, the expression of genes on the inactivated X chromosome, such as Magea6 and Msn, were also increased in the NT embryos. However, the development of Parp1si NT embryos was impaired, although total RNA sequencing showed that overall gene expression between the Parp1si NT blastocysts and the control was similar. Our findings demonstrate that increases in the expression of several genes on the X chromosome and of rRNA primary products in NT blastocysts with disrupted Parp1 expression are insufficient to rescue the impaired development of female cloned mouse embryos and could even exacerbate the associated developmental deficiencies.
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