Flexible oocyte manipulation with delayed maturation and improved SCNT efficiency using induced pluripotent stem cells

Somatic cell nuclear transfer (SCNT) remains inefficient, limiting its practical use in cattle reproduction and research. This study investigated two complementary strategies to enhance handmade cloning (HMC): (1) holding bovine oocytes overnight and delaying maturation to enable a second round of SCNT and (2) using bovine-induced pluripotent stem cells (biPSCs) as donor nuclei to enhance developmental competence. Bovine oocytes were subjected to either conventional in vitro maturation (CONV; 20 h) or delayed maturation using a holding medium for 20 h before CONV (HOLD). Matured oocytes were used for SCNT, parthenogenetic activation (PA), or in vitro fertilization (IVF) as controls. Handmade SCNT embryos were reconstructed using fibroblasts or biPSCs as donors, activated, and cultured for 7 days. Results showed no significant differences between CONV and HOLD groups in oocyte maturation, recovery after stripping, survival after zona removal, or cleavage and blastocyst development after SCNT. Fusion rates using fibroblasts were comparable between groups (42.6±6.0% vs. 50.3±9.8%), with biPSCs showing significantly higher fusion rates in CONV group (85.7±8.2% vs. 50.5±8.8%, P<0.05). Among fused embryos, biPSCs produced higher blastocyst rates (33.3±16.7%) compared with fibroblast donors (21.9±12.6%, P<0.05). Across all reconstructed embryos, cleavage and blastocyst development were also greater with biPSCs (odds ratios 3.4 and 2.7 respectively). These findings indicate that delaying maturation offers flexible timing for SCNT without compromising competence. Moreover, biPSCs enhance embryo developmental outcomes, supporting their use as superior donor cells for advancing cloning efficiency and applications in reproductive biotechnology.