Controlled Cytoplast Arrest and Morula Aggregation Enhance Development, Cryoresilience, and In Vivo Survival of Cloned Sheep Embryos
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Date
2021-02-02
Open Access Location
Journal Title
Journal ISSN
Volume Title
Publisher
Mary Ann Liebert, Inc
Rights
(c) The author/s
CC BY-NC
CC BY-NC
Abstract
Zona-free somatic cell transfer (SCT) and embryo aggregation increase throughput and efficiency of cloned embryo and offspring production, respectively, but both approaches have not been widely adopted. Cloning efficiency is further improved by cell cycle coordination between the interphase donor cell and metaphase-arrested recipient cytoplast. This commonly involves inclusion of caffeine and omission of calcium to maintain high mitotic cyclin-dependent kinase activity and low calcium levels, respectively, in the nonactivated cytoplast. The aim of our study was to integrate these various methodological improvements into a single work stream that increases sheep cloning success. We show that omitting calcium during zona-free SCT improved blastocyst development from 6% to 13%, while caffeine treatment reduced spontaneous oocyte activation from 17% to 8%. In a retrospective analysis, morula aggregation produced high morphological quality blastocysts with better in vivo survival to term than nonaggregated controls (15% vs. 9%), particularly after vitrification (14% vs. 0%). By combining cytoplast cell cycle control with zona-free embryo reconstruction and aggregation, this novel SCT protocol maximizes the benefits of vitrification by producing more cryoresilient blastocysts. The presented cloning methodology is relatively easy to operate and further increases throughput and efficiency of cloned embryo and offspring production. Integration of additional reprogramming steps or alternate donor cells is straightforward, providing a flexible workflow that can be adapted to changing experimental requirements.
Description
Keywords
activation, aggregation, cloning, cryopreservation, sheep, somatic cell transfer, Animals, Blastocyst, Cloning, Organism, Embryo, Mammalian, Embryonic Development, Morula, Nuclear Transfer Techniques, Oocytes, Sheep, Vitrification
Citation
McLean ZL, Appleby SJ, Fermin LM, Henderson HV, Wei J, Wells DN, Oback B. (2021). Controlled Cytoplast Arrest and Morula Aggregation Enhance Development, Cryoresilience, and In Vivo Survival of Cloned Sheep Embryos.. Cell Reprogram. 23. 1. (pp. 14-25).