Woojin Ahn scite author profile

Autophagy is a pivotal intracellular process by which cellular macromolecules are degraded upon various stimuli. A failure in the degradation of autophagic substrates such as impaired organelles and protein aggregates leads to their accumulations, which are characteristics of many neurodegenerative diseases. Pharmacological activation of autophagy has thus been considered a prospective therapeutic approach for treating neurodegenerative diseases. Among a number of autophagy-inducing agents, trehalose has received attention for its beneficial effects in different disease models of neurodegeneration. However, how trehalose promotes autophagy has not been fully revealed. We investigated the influence of trehalose and other disaccharides upon autophagic flux and aggregation of α-synuclein, a protein linked to Parkinson's disease. In differentiated human neuroblastoma and primary rat cortical neuron culture models, treatment with trehalose and other disaccharides resulted in accumulation of lipidated LC3 (LC3-II), p62, and autophagosomes, whereas it decreased autolysosomes. On the other hand, addition of Bafilomycin A1 to trehalose treatments had relatively marginal effect, an indicative of autophagic flux blockage. In concordance with these results, the cells treated with trehalose exhibited an incremental tendency in α-synuclein aggregation. Secretion of α-synuclein was also elevated in the culture medium upon trehalose treatment, thereby significantly increasing intercellular transmission of this protein. Despite the substantial increase in α-synuclein aggregation, which normally leads to cell death, cell viability was not affected upon treatment with trehalose, suggesting an autophagy-independent protective function of trehalose against protein aggregates. This study demonstrates that, although trehalose has been widely considered an autophagic inducer, it may be actually a potent blocker of the autophagic flux.

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Senescence and impaired DNA damage responses in alpha-synucleinopathy models

Yoon

You

Kim

et al. 2022

Exp Mol Med

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Abstractα-Synuclein is a crucial element in the pathogenesis of Parkinson’s disease (PD) and related neurological diseases. Although numerous studies have presented potential mechanisms underlying its pathogenesis, the understanding of α-synuclein-mediated neurodegeneration remains far from complete. Here, we show that overexpression of α-synuclein leads to impaired DNA repair and cellular senescence. Transcriptome analysis showed that α-synuclein overexpression led to cellular senescence with activation of the p53 pathway and DNA damage responses (DDRs). Chromatin immunoprecipitation analyses using p53 and γH2AX, chromosomal markers of DNA damage, revealed that these proteins bind to promoters and regulate the expression of DDR and cellular senescence genes. Cellular marker analyses confirmed cellular senescence and the accumulation of DNA double-strand breaks. The non-homologous end joining (NHEJ) DNA repair pathway was activated in α-synuclein-overexpressing cells. However, the expression of MRE11, a key component of the DSB repair system, was reduced, suggesting that the repair pathway induction was incomplete. Neuropathological examination of α-synuclein transgenic mice showed increased levels of phospho-α-synuclein and DNA double-strand breaks, as well as markers of cellular senescence, at an early, presymptomatic stage. These results suggest that the accumulation of DNA double-strand breaks (DSBs) and cellular senescence are intermediaries of α-synuclein-induced pathogenesis in PD.

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Cell-to-cell Transmission of Polyglutamine Aggregates inC. elegans

et al. 2017

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Huntington disease (HD) is an inherited neurodegenerative disorder characterized by motor and cognitive dysfunction caused by expansion of polyglutamine (polyQ) repeat in exon 1 of huntingtin (HTT). In patients, the number of glutamine residues in polyQ tracts are over 35, and it is correlated with age of onset, severity, and disease progression. Expansion of polyQ increases the propensity for HTT protein aggregation, process known to be implicated in neurodegeneration. These pathological aggregates can be transmitted from neuron to another neuron, and this process may explain the pathological spreading of polyQ aggregates. Here, we developed an in vivo model for studying transmission of polyQ aggregates in a highly quantitative manner in real time. HTT exon 1 with expanded polyQ was fused with either N-terminal or C-terminal fragments of Venus fluorescence protein and expressed in pharyngeal muscles and associated neurons, respectively, of C. elegans. Transmission of polyQ proteins was detected using bimolecular fluorescence complementation (BiFC). Mutant polyQ (Q97) was transmitted much more efficiently than wild type polyQ (Q25) and forms numerous inclusion bodies as well. The transmission of Q97 was gradually increased with aging of animal. The animals with polyQ transmission exhibited degenerative phenotypes, such as nerve degeneration, impaired pharyngeal pumping behavior, and reduced life span. The C. elegans model presented here would be a useful in vivo model system for the study of polyQ aggregate propagation and might be applied to the screening of genetic and chemical modifiers of the propagation.

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A Predictive Model for IC Self-Heating Based on Effective Medium and Image Charge Theories and Its Implications for Interconnect and Transistor Reliability

Ahn

Zhang

Shen

et al. 2017

IEEE Trans. Electron Devices

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High on/off current ratio AlGaN/GaN MOS-HEMTs employing RF-sputtered HfO₂ gate insulators

Seok¹,

Ahn²,

Han³

et al. 2012

Semicond. Sci. Technol.

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We fabricated AlGaN/GaN metal-oxide-semiconductor high-electron-mobility transistors (MOS-HEMTs) on Si substrates with RF-sputtered HfO 2 as a gate insulator. We obtained a high breakdown voltage of 1524 V and a high on/off current ratio of 2.37 × 10 10 in the MOS-HEMT with a 15 nm-thick RF-sputtered HfO 2 while a conventional HEMT had 470 V and 7.61 × 10 3 . The MOS-HEMT with the HfO 2 showed a gate leakage current of −67 pA mm −1 at V GS = −10 V and V DS = 100 V and the drain leakage current was not considerably altered for 100 s. However, the conventional HEMT without a gate insulator had a large gate leakage current of −44.7 μA mm −1 and the drain leakage current was increased from 57.5 to 496 μA mm −1 for 100 s. We have also evaluated the blocking characteristics and passivation effects of HfO 2 by measuring various electrical properties such as pulsed I-V and the surface leakage current at a mesa-isolated two-ohmic pad before and after HfO 2 sputtering.

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Woojin Ahn

Is trehalose an autophagic inducer? Unraveling the roles of non-reducing disaccharides on autophagic flux and alpha-synuclein aggregation

Senescence and impaired DNA damage responses in alpha-synucleinopathy models

Cell-to-cell Transmission of Polyglutamine Aggregates inC. elegans

A Predictive Model for IC Self-Heating Based on Effective Medium and Image Charge Theories and Its Implications for Interconnect and Transistor Reliability

High on/off current ratio AlGaN/GaN MOS-HEMTs employing RF-sputtered HfO₂ gate insulators

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Woojin Ahn

Is trehalose an autophagic inducer? Unraveling the roles of non-reducing disaccharides on autophagic flux and alpha-synuclein aggregation

Senescence and impaired DNA damage responses in alpha-synucleinopathy models

Cell-to-cell Transmission of Polyglutamine Aggregates inC. elegans

A Predictive Model for IC Self-Heating Based on Effective Medium and Image Charge Theories and Its Implications for Interconnect and Transistor Reliability

High on/off current ratio AlGaN/GaN MOS-HEMTs employing RF-sputtered HfO2 gate insulators

Contact Info

Product

Resources

About

High on/off current ratio AlGaN/GaN MOS-HEMTs employing RF-sputtered HfO₂ gate insulators