Abstract

Various environmental insults including diseases, heat and oxidative stress could lead to abnormal growth, functions and apoptosis in granulosa cells during ovarian follicle growth and oocyte maturation. Despite the fact that cells exposed to oxidative stress are responding transcriptionally, the potential release of transcripts associated with oxidative stress response into extracellular space through exosomes is not yet determined. Therefore, here we aimed to investigate the effect of oxidative stress in bovine granulosa cells in vitro on the cellular and exosome mediated defense mechanisms. Bovine granulosa cells were aspirated from ovarian follicles and cultured in DMEM/F-12 Ham culture medium supplemented with 10% exosome-depleted fetal bovine serum. In the first experiment sub-confluent cells were treated with 5 μM H2O2 for 40 min to induce oxidative stress. Thereafter, cells were subjected to ROS and mitochondrial staining, cell proliferation and cell cycle assays. Furthermore, gene and protein expression analysis were performed in H2O2-challenged versus control group 24 hr post-treatment using qRT-PCR and immune blotting or immunocytochemistry assay, respectively. Moreover, exosomes were isolated from spent media using ultracentrifugation procedure, and subsequently used for RNA isolation and qRT-PCR. In the second experiment, exosomes released by granulosa cells under oxidative stress (StressExo) or those released by granulosa cells without oxidative stress (NormalExo) were co-incubated with bovine granulosa cells in vitro to proof the potential horizontal transfer of defense molecules from exosomes to granulosa cells and investigate any phenotype changes. Exposure of bovine granulosa cells to H2O2 induced the accumulation of ROS, reduced mitochondrial activity, increased expression of Nrf2 and its downstream antioxidant genes (both mRNA and protein), altered the cell cycle transitions and induced cellular apoptosis. Granulosa cells exposed to oxidative stress released exosomes enriched with mRNA of Nrf2 and candidate antioxidants. Subsequent co-incubation of StressExo with cultured granulosa cells could alter the relative abundance of cellular oxidative stress response molecules including Nrf2 and antioxidants CAT, PRDX1 and TXN1. The present study provide evidences that granulosa cells exposed to oxidative stress conditions react to stress by activating cascades of cellular antioxidant molecules which can also be released into extracellular environment through exosomes.

Highlights

  • Stress induced by environment or physiology of the animals is considered as one of the important causes of impaired fertility in the dairy cattle [1,2]

  • Bovine granulosa cells were aspirated from small follicles (3–8 mm) and cultured in DMEM/F-12 Ham culture medium supplemented with 10% exosome-depleted fetal bovine serum (System Biosciences, CA, USA)

  • In addition to that the reactive oxygen species (ROS) signal started to increase at 5 μM H2O2 compared to 2.5 and it does not change beyond the 5 μM concentration (S2 Fig)

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Summary

Introduction

Stress induced by environment or physiology of the animals is considered as one of the important causes of impaired fertility in the dairy cattle [1,2]. A considerable number of evidences manifested that, various environmental and physiological insults including diseases, heat and oxidative stress could lead to abnormal growth and function of granulosa cells in ovarian follicular development [3,4]. Granulosa cells apoptosis is responsible for follicular atresia [5] and subsequently oocyte and ovarian dysfunction [6,7]. −OH is the most harmful free radical, H2O2 has long half-life than the other free radicals which allowed a longer reaction with all of the cellular component including DNA. Despite lower reactivity of H2O2, its relatively longer half-life provides enough time for the molecule to move into the nucleus of the cell [11]. Despite the fact that cells exposed to oxidative stress respond transcriptionally [12,13,14], the role of extracellular vesicles including exosomes in mediating cells response to oxidative stress should be carefully ruled [15]

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