Hoda Samir Aglan scite author profile

Elevated summer temperature is reported to be the leading cause of stress in dairy and beef cows, which negatively affects various reproductive functions. Follicular cells respond to heat stress (HS) by activating the expression of heat shock family proteins (HSPs) and other antioxidants. HS is reported to negatively affect the bi-directional communication between the follicular cells and the oocyte, which is partly mediated by follicular fluid extracellular vesicles (EVs) released from surrounding cells. As carriers of bioactive molecules (DNA, RNA, protein, and lipids), the involvement of EVs in mediating the stress response in follicular cells is not fully understood. Here we used an in vitro model to decipher the cellular and EV-coupled miRNAs of bovine granulosa cells in response to HS. Moreover, the protective role of stress-related EVs against subsequent HS was assessed. For this, bovine granulosa cells from smaller follicles were cultured in vitro and after sub-confluency, cells were either kept at 37 °C or subjected to HS (42 °C). Results showed that granulosa cells exposed to HS increased the accumulation of ROS, total oxidized protein, apoptosis, and the expression of HSPs and antioxidants, while the viability of cells was reduced. Moreover, 14 and 6 miRNAs were differentially expressed in heat-stressed granulosa cells and the corresponding EVs, respectively. Supplementation of stress-related EVs in cultured granulosa cells has induced adaptive response to subsequent HS. However, this potential was not pronounced when the cells were kept under 37 °C. Taking together, EVs generated from granulosa cells exposed to HS has the potential to shuttle bioactive molecules to recipient cells and make them robust to subsequent HS.

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Regulation of Nrf2 and NF-κB during lead toxicity in bovine granulosa cells

Aglan

Gebremedhn

Salilew‐Wondim

et al. 2020

Cell Tissue Res

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Developmental toxicity of lead in rats after gestational exposure and the protective role of taurine

Aglan

Safar

Ain-Shoka

et al. 2021

J Biochem & Molecular Tox

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The present study was conducted to investigate the potential adverse effect of Pb on pregnant Sprague–Dawley rats and their fetuses after maternal exposure, on gestational days (GD) 7–16. The possible protective role of taurine (TA), administered throughout the gestation period (GD 1–20) against Pb toxicity, was also evaluated. Pregnant rats were divided into four groups: Group 1 (control) was given distilled water; Group 2 was exposed to Pb (250 ppm) in drinking water (GD 7–16), whereas Group 3 received TA (50 mg/kg/day) by oral gavage (GD 1–20); Group 4 was exposed to Pb (GD 7–16), whereas pretreated with TA from GD 1 till the end of the gestation period. After termination on GD 20, maternal and embryo‐fetal outcomes were evaluated. Blood samples were collected for hematological and biochemical parameters assessment. The results showed that, Pb induced a significant reduction in the maternal body weight, weight gain, uterine and placental weight, in addition to a high incidence of abortion and fetal resorption. Meanwhile, fetuses demonstrated decreased body weight and length, with a high rate of mortality as well as external and skeletal abnormalities. Additionally, Pb induced severe hematological and biochemical alterations in both dams and fetuses. The toxicity of Pb was further emphasized by placental histopathological examination and hepatic DNA fragmentation. Pretreatment with TA greatly attenuated the impact of Pb on both maternal and fetal parameters. Moreover, TA alleviated the incidence of placental damage and hepatic DNA fragmentation. The results highlight the potential prophylaxis role of TA against maternal and developmental Pb toxicity.

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Hoda Samir Aglan

Extracellular vesicles shuttle protective messages against heat stress in bovine granulosa cells

Regulation of Nrf2 and NF-κB during lead toxicity in bovine granulosa cells

Developmental toxicity of lead in rats after gestational exposure and the protective role of taurine

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