Sung Bin Seo scite author profile

Cellular senescence, which leads to a cell cycle arrest of damaged or dysfunctional cells, is an important mechanism to restrain the malignant progression of cancer cells. Because metabolic changes underlie many cell-fate decisions, it has been suggested that cell metabolism might play key roles in senescence pathways. Here, we show that mitochondrial glutamine metabolism regulates senescence in human pancreatic ductal adenocarcinoma (PDAC) cells. Glutamine deprivation or inhibition of mitochondrial aspartate transaminase (GOT2) results in a profound induction of senescence and a suppression of PDAC growth. Glutamine carbon flow through GOT2 is required to create NADPH and to maintain the cellular redox state. We found that elevated reactive oxygen species levels by GOT2 knockdown lead to the cyclin-dependent kinase inhibitor p27-mediated senescence. Importantly, PDAC cells exhibit distinct dependence on this pathway, whereas knockdown of GOT2 did not induce senescence in non-transformed cells. The essentiality of GOT2 in senescence regulation of PDAC, which is dispensable in their normal counterparts, may have profound implications for the development of strategies to treat these refractory cancers.

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14-3-3β Depletion Drives a Senescence Program in Glioblastoma Cells Through the ERK/SKP2/p27 Pathway

Seo

Lee

Yun

et al. 2017

Mol Neurobiol

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The induction of senescence in cancer cells has recently been implicated as a mechanism of tumor regression in response to various modes of stress. 14-3-3 proteins are conserved scaffolding molecules that are involved in various cellular functions. Among the seven isoforms, 14-3-3β is specifically expressed in astrocytoma in correlation with the malignancy grade. We investigated the possible role of 14-3-3β in the regulation of senescence induction in A172 glioblastoma cells. The knockdown of 14-3-3β by specific small interfering RNA resulted in a significant change in cellular phenotypes and an increase in cells staining positive for senescence-associated β-galactosidase. Western blotting of the 14-3-3β-depleted A172 cells revealed increased p27 expression and decreased SKP2 expression, while the expression of p53 and p21 was not altered. Subsequently, we demonstrated that ERK is a key modulator of SKP2/p27 axis activity in 14-3-3β-mediated senescence based on the following: (1) 14-3-3β knockdown decreased p-ERK levels; (2) treatment with U0126, an MEK inhibitor, completely reproduced the senescence morphology as well as the expression profiles of p27 and SKP2; and (3) the senescence phenotypes induced by 14-3-3β depletion were considerably recovered by constitutively active ERK expression. Our results indicate that 14-3-3β negatively regulates senescence in glioblastoma cells via the ERK/SKP2/p27 pathway. Furthermore, 14-3-3β depletion also resulted in senescence phenotypes in U87 glioblastoma cells, suggesting that 14-3-3β could be targeted to induce premature senescence as a therapeutic strategy against glioblastoma progression.

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14‐3‐3ζ targeting induced senescence in Hep‐2 laryngeal cancer cell through deneddylation of Cullin1 in the Skp1‐Cullin‐F‐box protein complex

et al. 2019

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Objectives: Despite of the aberrant expression of 14-3-3ζ in head and neck squamous cell carcinoma (HNSCC), little is known about the role of 14-3-3ζ in the regulation of senescence in HNSCC. This study was performed to investigate whether 14-3-3ζ is implicated in senescence evasion of Hep-2 laryngeal cancer cells. Methods:The expression of 14-3-3ζ was suppressed using RNA interference strategy. Senescence induction was determined by senescence-associated β-galactosidase staining and the numbers of promyelocytic leukaemia nuclear body. Real-time PCR, western blotting and immunohistochemistry were applied for the expression of corresponding proteins. Xenograft experiment was performed to show in vivo effect of 14-3-3ζ silencing on tumour growth.Results: 14-3-3ζ silencing significantly induced senescence phenotypes via 27 accumulations. Subsequently, we demonstrated that p27 accumulation is linked to inactivation of SCF Skp2 complex activity, probably due to the deneddylation of cullin-1 (Cul-1) as follows. (a) Neddylated Cul-1 is decreased by 14-3-3ζ silencing. (b) Blocking neddylation using MLN4924 reproduces senescence phenotypes. (c) Knockdown of CSN5, which functions as a deneddylase, was shown to restore the senescence phenotypes induced by 14-3-3ζ depletion. Finally, we demonstrated that 14-3-3ζ depletion effectively hindered the proliferation of Hep-2 cells implanted into nude mice.Conclusion: 14-3-3ζ negatively regulates senescence in Hep-2 cells, suggesting that 14-3-3ζ targeting may serve to suppress the expansion of laryngeal cancer via induction of senescence through the Cul-1/SCF Skp2 /p27 axis.

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Hepatocyte-specific deletion of Bis causes senescence in the liver without deteriorating hepatic function

Jung

Yun

Lim

et al. 2022

Biochemical and Biophysical Research Communications

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Induction of BIS Protein During Astroglial and Fibrotic Scar Formation After Mitochondrial Toxin-Mediated Neuronal Injury in Rats

et al. 2020

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Sung Bin Seo

Mitochondrial glutamine metabolism via GOT2 supports pancreatic cancer growth through senescence inhibition

14-3-3β Depletion Drives a Senescence Program in Glioblastoma Cells Through the ERK/SKP2/p27 Pathway

14‐3‐3ζ targeting induced senescence in Hep‐2 laryngeal cancer cell through deneddylation of Cullin1 in the Skp1‐Cullin‐F‐box protein complex

Hepatocyte-specific deletion of Bis causes senescence in the liver without deteriorating hepatic function

Induction of BIS Protein During Astroglial and Fibrotic Scar Formation After Mitochondrial Toxin-Mediated Neuronal Injury in Rats

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