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An aggregated mitochondrial distribution in preimplantation embryos disrupts nuclear morphology, function, and developmental potential

In‐Won Lee, Abbas Pirpour Tazehkand, Zi-Yi Sha, Deepak Adhikari, John Carroll

2024Proceedings of the National Academy of Sciences13 citationsDOIOpen Access PDF

Abstract

in mouse oocytes and embryos to disrupt the dispersed distribution of mitochondria by driving them into a large cytoplasmic aggregate. Our findings reveal that aggregated mitochondria have minimal impact on asymmetric meiotic cell divisions of the oocyte. In contrast, aggregated mitochondria during the first mitotic division result in daughter cells with unequal sizes and increased micronuclei. Further, in two-cell embryos, microtubule-mediated centering properties of the mitochondrial aggregate prevent nuclear centration, distort nuclear shape, and inhibit DNA synthesis and the onset of embryonic transcription. These findings demonstrate the motor protein-mediated distribution of mitochondria throughout the cytoplasm is highly regulated and is an essential feature of cytoplasmic organization to ensure optimal cell function.

Topics & Concepts

Cell biologyCytoplasmMitochondrionOocyteBiologyMitosisCell divisionMeiosisCell nucleusEmbryoCellMitochondrial DNAMicrotubuleGeneticsGeneMitochondrial Function and PathologyMetabolism and Genetic DisordersEpigenetics and DNA Methylation
An aggregated mitochondrial distribution in preimplantation embryos disrupts nuclear morphology, function, and developmental potential | Litcius