ENERJİ STRESİNDE GRANÜLOZA HÜCRELERİNİN ACE2 İFADELENMESİNİN SIRT1 İLE İLİŞKİSİNİN DEĞERLENDİRİLMESİ
Date
2024Author
Nikshiqi, Erblina
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Nikshiqi Erblina, Evaluation of the Relationship Between ACE2 Expression and
SIRT1 in Granulosa Cells Under Energy Stress, Hacettepe University Faculty of
Medicine, Department of Histology and Embryology Residency Thesis, Ankara
2024. Cellular energy stress arises from an increased demand for energy and a
decreased energy supply, thereby affecting cellular metabolism. Adenosine
monophosphate-activated protein kinase (AMPK), a key regulator of cellular energy
homeostasis, is activated under limited energy reserves to regulate various
physiological processes. In response to increased AMPK, SIRT1 modulates cellular
processes such as energy metabolism and stress response. ACE2, expressed in human
granulosa cells, plays a significant role in steroidogenesis, folliculogenesis, follicular
atresia, granulosa-lutein cell apoptosis, oocyte maturation, and ovulation. ACE2 levels
are linked to cellular energy stress. Cells produce 88% of their energy source, ATP,
from mitochondrial oxidation in order to survive. Granulosa cells are crucially
important cells that play a role in follicular development in the ovarian cycle. The
metabolic changes these cells undergo is important for fertility. Based on what is
known, an observational descriptive study was planned to investigate the relationship
between ACE2 expression and SIRT1 in granulosa cells through AMPK activation
induced by AICAR treatment. In the HGL5 human granulosa cell line, it was found
that mitochondrial membrane potential decreased after cellular energy stress, and this
damage was further exacerbated after SIRT1 inhibition. After establishing an energy
stress model, our study results showed that SIRT1 statistically increased in the HGL5
granulosa cells, primary cultured healthy and PCOS granulosa cells group via indirect
immunofluorescent staining method. In the Diminished Ovarian Reserve (DOR)
group, our study results showed that after cellular energy stress, SIRT1 decreased
compared to the control group. After SIRT1 inhibition, ACE2 expression increased in
all groups except the DOR group. For the first time, our study demonstrated a potential
relationship between SIRT1 and ACE2 in granulosa cells via the AMPK pathway.