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Quantum Sensing of Free Radicals in Primary Human Granulosa Cells with Nanoscale Resolution

Nuan Lin, Koen van Zomeren, Teelkien Van Veen, Aldona Mzyk, Yue Zhang, Xiaoling Zhou, Torsten Plösch, Uwe J.F. Tietge, Astrid EP Cantineau, Annemieke Hoek, Romana Schirhagl

2023ACS Central Science18 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Cumulus granulosa cells (cGCs) and mural granulosa cells (mGCs), although derived from the same precursors, are anatomically and functionally heterogeneous. They are critical for female fertility by supporting oocyte competence and follicular development. There are various techniques used to investigate the role of free radicals in mGCs and cCGs. Yet, temporospatial resolution remains a challenge. We used a quantum sensing approach to study free radical generation at nanoscale in cGCs and mGCs isolated from women undergoing oocyte retrieval during in vitro fertilization (IVF). Cells were incubated with bare fluorescent nanodiamonds (FNDs) or mitochondria targeted FNDs to detect free radicals in the cytoplasm and mitochondria. After inducing oxidative stress with menadione, we continued to detect free radical generation for 30 min. We observed an increase in free radical generation in cGCs and mGCs from 10 min on. Although cytoplasmic and mitochondrial free radical levels are indistinguishable in the physiological state in both cGCs and mGCs, the free radical changes measured in mitochondria were significantly larger in both cell types, suggesting mitochondria are sites of free radical generation. Furthermore, we observed later occurrence and a smaller percentage of cytoplasmic free radical change in cGCs, indicating that cGCs may be more resistant to oxidative stress.

Topics & Concepts

RadicalOxidative stressMitochondrionChemistryDNA damageOocyteFree-radical theory of agingCytoplasmCell biologyBiophysicsBiologyBiochemistryDNAEmbryoFullerene Chemistry and ApplicationsDiamond and Carbon-based Materials ResearchLaser-Ablation Synthesis of Nanoparticles
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