Sestrin2 alleviates palmitate‐induced endoplasmic reticulum stress, apoptosis, and defective invasion of human trophoblast cells

Lee, Solji; Shin, Jiha; Hong, Yeji; Shin, Seong Min; Shin, Hye Won; Shin, Jongdae; Lee, Sung Ki; Park, Hwan‐Woo

doi:10.1111/aji.13222

Cited by 17 publications

(17 citation statements)

References 49 publications

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“…Metabolic dysregulation induces Sestrins as a defense mechanism against obesity and metabolic diseases (Lee et al, 2012;Parmigiani and Budanov, 2016;Dalina et al, 2018). Important key features of cellular function are the regulation of insulin sensitivity, lipid/fatty acid (FA) metabolism, ER stress, and autophagy (Lee et al, 2012(Lee et al, , 2020Park et al, 2014). Glucose starvation, ER stress, amino acid deprivation and mitochondrial dysfunction induces Sestrins as a protective mechanism (Park et al, 2014;Ro et al, 2015;Ye et al, 2015;Ding et al, 2016;Garaeva et al, 2016;Saveljeva et al, 2016).…”

Section: Introduction Of Sestrinsmentioning

confidence: 99%

SESTRINs: Emerging Dynamic Stress-Sensors in Metabolic and Environmental Health

Fay

Cyuzuzo

et al. 2020

Front. Cell Dev. Biol.

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Proper timely management of various external and internal stresses is critical for metabolic and redox homeostasis in mammals. In particular, dysregulation of mechanistic target of rapamycin complex (mTORC) triggered from metabolic stress and accumulation of reactive oxygen species (ROS) generated from environmental and genotoxic stress are well-known culprits leading to chronic metabolic disease conditions in humans. Sestrins are one of the metabolic and environmental stress-responsive groups of proteins, which solely have the ability to regulate both mTORC activity and ROS levels in cells, tissues and organs. While Sestrins are originally reported as one of several p53 target genes, recent studies have further delineated the roles of this group of stress-sensing proteins in the regulation of insulin sensitivity, glucose and fat metabolism, and redox-function in metabolic disease and aging. In this review, we discuss recent studies that investigated and manipulated Sestrins-mediated stress signaling pathways in metabolic and environmental health. Sestrins as an emerging dynamic group of stress-sensor proteins are drawing a spotlight as a preventive or therapeutic mechanism in both metabolic stress-associated pathologies and aging processes at the same time.

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Section: Introduction Of Sestrinsmentioning

confidence: 99%

SESTRINs: Emerging Dynamic Stress-Sensors in Metabolic and Environmental Health

Fay

Cyuzuzo

et al. 2020

Front. Cell Dev. Biol.

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“…Conversely, overexpressing SESN2 in dendritic cells (DCs) decreased their apoptosis rate and inhibited ER stress‐related protein translation. Consistent with these findings, Lee et al 38 disclosed that SESN2 suppressed impaired trophoblast invasion caused by palmitate and attenuated palmitate‐induced ER stress; conversely, knockdown of SESN2 increased palmitate‐mediated ER stress, inflammatory signalling and apoptosis. Moreover, a recent study proved that glucose starvation caused both energy deficiency and activation of ER stress, in which SESN2 protected cells from glucose starvation‐induced cell death 40 .…”

Section: Sesn2 and Signalling Pathwaysmentioning

confidence: 65%

“…Bruening et al 37 found that the upregulation of SESN2 was associated with the expression of ER stress markers ATF4, ATF3 and C/EBP‐homologous protein (CHOP) in cancer cells. Another study reported that SESN2 inhibited ER stress and inflammation through the AMPK/mTORC1 pathways 38 …”

Section: Sesn2 and Signalling Pathwaysmentioning

confidence: 99%

Sestrin2 as a gatekeeper of cellular homeostasis: Physiological effects for the regulation of hypoxia‐related diseases

Pan

Chen²,

Li³

et al. 2021

J Cellular Molecular Medi

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Sestrin2 (SESN2) is a conserved stress‐inducible protein (also known as hypoxia‐inducible gene 95 (HI95)) that is induced under hypoxic conditions. SESN2 represses the production of reactive oxygen species (ROS) and provides cytoprotection against various noxious stimuli, including hypoxia, oxidative stress, endoplasmic reticulum (ER) stress and DNA damage. In recent years, the determination of the regulation and signalling mechanisms of SESN2 has increased our understanding of its role in the hypoxic response. SESN2 has well‐documented roles in hypoxia‐related diseases, making it a potential target for diagnosis and treatment. This review discusses the regulatory mechanisms of SESN2 and highlights the significance of SESN2 as a biomarker and therapeutic target in hypoxia‐related diseases, such as cancer, respiratory‐related diseases, cardiovascular diseases and cerebrovascular diseases.

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“…Protein levels of SESN2 are induced upon chronic activation of mTORC1, which subsequently inhibit mTORC1 activation [ 12 , 20 , 24 ]. To evaluate the regulatory effect of SESN2 on the mTORC1 pathway, lentiviral vectors expressing short hairpin RNAs (shRNAs) against human SESN2 or control were transduced into HEC-1A and Ishikawa cells.…”

Section: Resultsmentioning

confidence: 99%

“…Sestrins (SESNs) are a highly conserved protein family comprising SESN1, SESN2, and SESN3 in mammals, and can be induced by various cellular stresses including DNA damage, increased ROS, hypoxia, and ER stress [ 12 , 16 , 17 , 18 ]. SESN2 maintains metabolic homeostasis and prevents age- and obesity-related pathologies by inhibiting ROS accumulation and the mTORC1 pathway [ 12 , 18 , 19 , 20 ]. SESN2 , which is homologous to the SESN1 , is induced by genotoxic and oxidative stresses in a p53-dependent manner [ 19 , 21 ], while SESN2 induction in response to hypoxia and ER stress is p53-independent [ 12 , 22 ].…”

Section: Introductionmentioning

confidence: 99%

mTOR-Dependent Role of Sestrin2 in Regulating Tumor Progression of Human Endometrial Cancer

Shin

Bae

Park

et al. 2020

Cancers

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Oncogenic activation of the mammalian target of rapamycin complex 1 (mTORC1) leads to endometrial cancer cell growth and proliferation. Sestrin2 (SESN2), a highly conserved stress-inducible protein, is involved in homeostatic regulation via inhibition of reactive oxygen species (ROS) and mTORC1. However, the role of SESN2 in human endometrial cancer remains to be investigated. Here, we investigated expression, clinical significance, and underlying mechanisms of SESN2 in endometrial cancer. SESN2 was upregulated more in endometrial cancer tissues than in normal endometrial tissues. Furthermore, upregulation of SESN2 statistically correlated with shorter overall survival and disease-free survival in patients with endometrial cancer. SESN2 expression strongly correlated with mTORC1 activity, suggesting its impact on prognosis in endometrial cancer. Additionally, knockdown of SESN2 promoted cell proliferation, migration, and ROS production in endometrial cancer cell lines HEC-1A and Ishikawa. Treatment of these cells with mTOR inhibitors reversed endometrial cancer cell proliferation, migration, and epithelial–mesenchymal transition (EMT) marker expression. Moreover, in a xenograft nude mice model, endometrial cancer growth increased by SESN2 knockdown. Thus, our study provides evidence for the prognostic significance of SESN2, and a relationship between SESN2, the mTORC1 pathway, and endometrial cancer growth, suggesting SESN2 as a potential therapeutic target in endometrial cancer.

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Sestrin2 alleviates palmitate‐induced endoplasmic reticulum stress, apoptosis, and defective invasion of human trophoblast cells

Cited by 17 publications

References 49 publications

SESTRINs: Emerging Dynamic Stress-Sensors in Metabolic and Environmental Health

SESTRINs: Emerging Dynamic Stress-Sensors in Metabolic and Environmental Health

Sestrin2 as a gatekeeper of cellular homeostasis: Physiological effects for the regulation of hypoxia‐related diseases

mTOR-Dependent Role of Sestrin2 in Regulating Tumor Progression of Human Endometrial Cancer

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