AI Article Synopsis
- * The research focused on the development of cloned lycaon-dog embryos by transferring male and female lycaon fibroblasts into surrogate dogs, resulting in two pregnancies but complications leading to fetal death.
- * Analysis revealed that while the cloned fetus was genetically identical to the lycaon, the mitochondrial DNA was from the dog, suggesting that mismatched nuclear and mitochondrial DNA could hinder cellular metabolism and contribute to fetal death.
Article Abstract
Many studies have reported that interspecies somatic cell nuclear transfer (iSCNT) is considered the prominent method in preserving endangered animals. However, the development rate of iSCNT embryos is low, and there are limited studies on the molecular mechanism of the iSCNT process. This study evaluated the developmental potential of interspecies lycaon (Lycaon pictus)-dog embryos and assessed the mitochondrial content and metabolism of the produced cloned lycaon-dog fetus. Of 678 collected oocytes, 516 were subjected to nuclear transfer, and 419 reconstructed embryos with male lycaon fibroblasts were transferred into 27 surrogates. Of 720 oocytes, 568 were subjected to nuclear transfer and 469 reconstructed embryos with female lycaon fibroblasts were transferred into 31 surrogates. Two recipients who received female reconstructed embryos were identified as pregnant at 30 days. However, fetal retardation with no cardiac activity was observed at 46 days. Microsatellite analysis confirmed that the cloned lycaon-dog fetus was genetically identical to the lycaon donor cell, whereas mitochondrial sequencing analysis revealed that oocyte donor dogs transmitted their mtDNA. We assessed the oxygen consumption rate and mitochondrial content of the aborted lycaon-dog fetus to shed some light on the aborted fetus's cellular metabolism. The oxygen consumption rates in the lycaon-dog fetal fibroblasts were lower than those in adult dog, lycaon and cloned dog fetal fibroblasts. Furthermore, lycaon-dog fetal fibroblasts showed decreased proportions of live and active mitochondria compared with other groups. Overall, we hypothesized that nuclear-mitochondrial incompatibility affects pyruvate metabolism and that these processes cause intrauterine fetal death.
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| http://dx.doi.org/10.1016/j.theriogenology.2021.01.010 | DOI Listing |
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