Bo Kyoung Yeo scite author profile

2020) Autophagic death of neural stem cells mediates chronic stress-induced decline of adult hippocampal neurogenesis and cognitive deficits, Autophagy, 16:3, 512-530, ABSTRACT Macroautophagy/autophagy is generally regarded as a cytoprotective mechanism, and it remains a matter of controversy whether autophagy can cause cell death in mammals. Here, we show that chronic restraint stress suppresses adult hippocampal neurogenesis in mice by inducing autophagic cell death (ACD) of hippocampal neural stem cells (NSCs). We generated NSC-specific, inducible Atg7 conditional knockout mice and found that they had an intact number of NSCs and neurogenesis level under chronic restraint stress and were resilient to stress-or corticosterone-induced cognitive and mood deficits. Corticosterone treatment of adult hippocampal NSC cultures induced ACD via SGK3 (serum/glucocorticoid regulated kinase 3) without signs of apoptosis. Our results demonstrate that ACD is biologically important in a mammalian system in vivo and would be an attractive target for therapeutic intervention for psychological stress-induced disorders.Abbreviations: AAV: adeno-associated virus; ACD: autophagic cell death; ACTB: actin, beta; Atg: autophagy-related; ASCL1/MASH1: achaete-scute family bHLH transcription factor 1; BafA 1 : bafilomycin A 1 ; BrdU: Bromodeoxyuridine/5-bromo-2ʹ

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GSK3B induces autophagy by phosphorylating ULK1

Ryu

Kim

Jeong

et al. 2021

Exp Mol Med

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Unc-51-like autophagy activating kinase 1 (ULK1), a mammalian homolog of the yeast kinase Atg1, has an essential role in autophagy induction. In nutrient and growth factor signaling, ULK1 activity is regulated by various posttranslational modifications, including phosphorylation, acetylation, and ubiquitination. We previously identified glycogen synthase kinase 3 beta (GSK3B) as an upstream regulator of insulin withdrawal-induced autophagy in adult hippocampal neural stem cells. Here, we report that following insulin withdrawal, GSK3B directly interacted with and activated ULK1 via phosphorylation of S405 and S415 within the GABARAP-interacting region. Phosphorylation of these residues facilitated the interaction of ULK1 with MAP1LC3B and GABARAPL1, while phosphorylation-defective mutants of ULK1 failed to do so and could not induce autophagy flux. Furthermore, high phosphorylation levels of ULK1 at S405 and S415 were observed in human pancreatic cancer cell lines, all of which are known to exhibit high levels of autophagy. Our results reveal the importance of GSK3B-mediated phosphorylation for ULK1 regulation and autophagy induction and potentially for tumorigenesis.

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Valosin-containing protein is a key mediator between autophagic cell death and apoptosis in adult hippocampal neural stem cells following insulin withdrawal

et al. 2016

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BackgroundProgrammed cell death (PCD) plays essential roles in the regulation of survival and function of neural stem cells (NSCs). Abnormal regulation of this process is associated with developmental and degenerative neuronal disorders. However, the mechanisms underlying the PCD of NSCs remain largely unknown. Understanding the mechanisms of PCD in NSCs is crucial for exploring therapeutic strategies for the treatment of neurodegenerative diseases.ResultWe have previously reported that adult rat hippocampal neural stem (HCN) cells undergo autophagic cell death (ACD) following insulin withdrawal without apoptotic signs despite their normal apoptotic capabilities. It is unknown how interconnection between ACD and apoptosis is mediated in HCN cells. Valosin-containing protein (VCP) is known to be essential for autophagosome maturation in mammalian cells. VCP is abundantly expressed in HCN cells compared to hippocampal tissue and neurons. Pharmacological and genetic inhibition of VCP at basal state in the presence of insulin modestly impaired autophagic flux, consistent with its known role in autophagosome maturation. Of note, VCP inaction in insulin-deprived HCN cells significantly decreased ACD and down-regulated autophagy initiation signals with robust induction of apoptosis. Overall autophagy level was also substantially reduced, suggesting the novel roles of VCP at initial step of autophagy.ConclusionTaken together, these data demonstrate that VCP may play an essential role in the initiation of autophagy and mediation of crosstalk between ACD and apoptosis in HCN cells when autophagy level is high upon insulin withdrawal. This is the first report on the role of VCP in regulation of NSC cell death. Elucidating the mechanism by which VCP regulates the crosstalk of ACD and apoptosis will contribute to understanding the molecular mechanism of PCD in NSCs.

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Valosin-containing protein (VCP): structure, functions, and implications in neurodegenerative diseases

Yeo

2016

Animal Cells and Systems

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Valosin-containing protein (VCP) is a hexameric protein belonging to the type II AAA+ (ATPases Associated with diverse cellular Activities) protein family. VCP governs multiple cellular processes and its diverse functions are determined by its interaction with a wide variety of partners and cofactors. Recently, mutations in VCP were suggested to cause inclusion body myopathy associated with Paget disease of bone and frontotemporal dementia, amyotrophic lateral sclerosis, and Huntington's disease. However, the pathogenic mechanisms of VCP mutations in these diseases are still largely unknown. In this review, we summarize the structure and cellular functions of VCP, especially focusing on apoptosis and two major cellular degradation pathways, the ubiquitin-proteasome system and autophagy. We also list the representative VCP mutations and discuss their potential association with neurodegenerative diseases. ARTICLE HISTORY

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Fas‐apoptotic inhibitory molecule 2 localizes to the lysosome and facilitates autophagosome‐lysosome fusion through the LC3 interaction region motif–dependent interaction with LC3

et al. 2019

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Abbreviations: BafA1, bafilomycin A1; BI-1, bax inhibitor-1; CASP, caspase; ER, endoplasmic reticulum; FAIM2, Fas-apoptotic inhibitory molecule 2; GABARAP, GABA type A receptor-associated protein; IDPR, intrinsically disordered protein region; LIR, LC3-interacting region; MAP1LC3B, microtubuleassociated protein 1 light chain 3 beta; MTOR, mammalian target of rapamycin; shRNA, small hairpin RNA; STX17, syntaxin 17; TMBIM, transmembrane BAX inhibitor motif containing. AbstractFas-apoptotic inhibitory molecule 2 (FAIM2) is a member of the transmembrane BAX inhibitor motif-containing (TMBIM) family. TMBIM family is comprised of six anti-apoptotic proteins that suppress cell death by regulating endoplasmic reticulum Ca 2+ homeostasis. Recent studies have implicated two TMBIM proteins, GRINA and BAX Inhibitor-1, in mediating cytoprotection via autophagy. However, whether FAIM2 plays a role in autophagy has been unknown. Here we show that FAIM2 localizes to the lysosomes at basal state and facilitates autophagy through interaction with microtubule-associated protein 1 light chain 3 proteins in human neuroblastoma SH-SY5Y cells. FAIM2 overexpression increased autophagy flux, while autophagy flux was impaired in shRNA-mediated knockdown (shFAIM2) cells, and the impairment was more evident in the presence of rapamycin. In shFAIM2 cells, autophagosome maturation through fusion with lysosomes was impaired, leading to accumulation of autophagosomes. A functional LC3-interacting region motif within FAIM2 was essential for the interaction with LC3 and rescue of autophagy flux in shFAIM2 cells while LC3-binding property of FAIM2 was dispensable for the antiapoptotic function in response to Fas receptor-mediated apoptosis. Suppression of autophagosome maturation was also observed in a null mutant of Caenorhabditis elegans lacking xbx-6, the ortholog of FAIM2. Our study suggests that FAIM2 is a novel regulator of autophagy mediating autophagosome maturation through the interaction with LC3.

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Bo Kyoung Yeo

Autophagic death of neural stem cells mediates chronic stress-induced decline of adult hippocampal neurogenesis and cognitive deficits

GSK3B induces autophagy by phosphorylating ULK1

Valosin-containing protein is a key mediator between autophagic cell death and apoptosis in adult hippocampal neural stem cells following insulin withdrawal

Valosin-containing protein (VCP): structure, functions, and implications in neurodegenerative diseases

Fas‐apoptotic inhibitory molecule 2 localizes to the lysosome and facilitates autophagosome‐lysosome fusion through the LC3 interaction region motif–dependent interaction with LC3

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