Ki-Hyeon Seong scite author profile

Atf1, the fission yeast homolog of activation transcription factor-2 (ATF-2), contributes to heterochromatin formation. However, the role of ATF-2 in chromatin assembly in higher organisms remains unknown. This study reveals that Drosophila ATF-2 (dATF-2) is required for heterochromatin assembly, whereas the stress-induced phosphorylation of dATF-2, via Mekk1-p38, disrupts heterochromatin. The dATF-2 protein colocalized with HP1, not only on heterochromatin but also at specific loci in euchromatin. Heat shock or osmotic stress induced phosphorylation of dATF-2 and resulted in its release from heterochromatin. This heterochromatic disruption was an epigenetic event that was transmitted to the next generation in a non-Mendelian fashion. When embryos were exposed to heat stress over multiple generations, the defective chromatin state was maintained over multiple successive generations, though it gradually returned to the normal state. The results suggest a mechanism by which the effects of stress are inherited epigenetically via the regulation of a tight chromatin structure.

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POSH, a scaffold protein for JNK signaling, binds to ALG‐2 and ALIX in Drosophila

Tsuda

Seong²,

Aigaki

2006

FEBS Letters

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Plenty of SH3s (POSH) functions as a scaffold protein for the Jun N-terminal kinase (JNK) signal transduction pathway, which leads to cell death in mammalian cultured cells and Drosophila. Here, we show that POSH forms a complex with Apoptosis-linked gene-2 (ALG-2) and ALG-2-interacting protein (ALIX/AIP1) in a calcium-dependent manner. Overexpression of ALG-2 or ALIX in developing imaginal eye discs resulted in roughened or melanized eyes, respectively. These phenotypes were enhanced by co-overexpression of POSH. We found that overexpression of either gene could induce ectopic JNK activation, suggesting that POSH/ALG-2/ALIX may function together in the regulation of the JNK pathway.

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Inhibition of the Nuclear Import of Cubitus Interruptus by Roadkill in the Presence of Strong Hedgehog Signal

Seong¹,

Akimaru²,

Dai³

et al. 2010

PLoS ONE

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Hedgehog (Hh) signalling plays an important role in various developmental processes by activating the Cubitus interruptus (Ci)/Glioblastoma (Gli) family of transcription factors. In the process of proper pattern formation, Ci activity is regulated by multiple mechanisms, including processing, trafficking, and degradation. However, it remains elusive how Ci distinctly recognizes the strong and moderate Hh signals. Roadkill (Rdx) induces Ci degradation in the anterior region of the Drosophila wing disc. Here, we report that Rdx inhibited Ci activity by two different mechanisms. In the region abutting the anterior/posterior boundary, which receives strong Hh signal, Rdx inhibited the nuclear import of Ci by releasing importin α3 from Ci. In this region, Rdx negatively regulated the expression of transcription factor Knot/Collier. In farther anterior regions receiving moderate levels of Hh signal, Rdx induced Ci degradation, as reported previously. Thus, two different mechanisms by which Rdx negatively regulates Ci may play an important role in the fine-tuning of Hh responses.

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Longevity determination genes in Drosophila melanogaster

Aigaki

Seong

Matsuo

2002

Mechanisms of Ageing and Development

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Loss of Trx‐2 enhances oxidative stress‐dependent phenotypes in Drosophila

et al. 2010

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a b s t r a c tOverexpression of thioredoxin (TRX) confers oxidative stress resistance and extends lifespan in mammals and insects. However, less is known about phenotypes associated with loss of TRX. We investigated loss-of-function phenotypes of Trx-2 in Drosophila, and found that the mutant flies are hyper-susceptible to paraquat, a free radical generator, but not to hydrogen peroxide. They contain a high amount of protein carbonyl, which dramatically increases with age. Trx-2 mutants express high levels of anti-oxidant genes, such as superoxide dismutase, catalase, and glutathione synthetase. This is the first demonstration of biochemical and physiological consequences caused by loss of Trx-2 in Drosophila.

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Inheritance and memory of stress‐induced epigenome change: roles played by the ATF‐2 family of transcription factors

2012

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Data on the inheritance-of-stress effect have been accumulating and some mechanistic insights, such as epigenetic regulation, have also been suggested. In particular, the modern view of Lamarckian inheritance appears to be affected by the finding that stress-induced epigenetic changes can be inherited. This review summarizes the current data on the inheritance of stress effect and possible mechanisms involved in this process. In particular, we focus on the stress-induced epigenetic changes mediated by the ATF-2 family of transcription factors.

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Drosophila ATF-2 Regulates Sleep and Locomotor Activity in Pacemaker Neurons

Shimizu¹,

Shimoda

Yamaguchi

et al. 2008

Molecular and Cellular Biology

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Stress-activated protein kinases such as p38 regulate the activity of transcription factor ATF-2. However, the physiological role of ATF-2, especially in the brain, is unknown. Here, we found that Drosophila melanogaster ATF-2 (dATF-2) is expressed in large ventral lateral neurons (l-LN v s) and also, to a much lesser extent, in small ventral lateral neurons, the pacemaker neurons. Only l-LN v s were stained with the antibody that specifically recognizes phosphorylated dATF-2, suggesting that dATF-2 is activated specifically in l-LN v s. The knockdown of dATF-2 in pacemaker neurons using RNA interference decreased sleep time, whereas the ectopic expression of dATF-2 increased sleep time. dATF-2 knockdown decreased the length of sleep bouts but not the number of bouts. The ATF-2 level also affected the sleep rebound after sleep deprivation and the arousal threshold. dATF-2 negatively regulated locomotor activity, although it did not affect the circadian locomotor rhythm. The degree of dATF-2 phosphorylation was greater in the morning than at night and was enhanced by forced locomotion via the dp38 pathway. Thus, dATF-2 is activated by the locomotor while it increases sleep, suggesting a role for dATF-2 as a regulator to connect sleep with locomotion.

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Seong

Ogashiwa

Matsuo

et al. 2001

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We have developed a strategy using Drosophila as a model system to identify genes that are crucial for extension of longevity. A collection of transgenic lines with a P-element based gene search (GS) vector containing UAS (Upstream Activating Sequence) was screened for longevity in combination with an hsp70 promoter-driven GAL4 transgene. Misexpression of the vector-flanking sequence was induced throughout the adult stage to assess its effects on the aging process rather than development. We showed that the longevity was greatly affected by GS inserts, and it was positively correlated with paraquat resistance. Of 646 GS inserts, we selected 23 inserts with relatively longer longevity for further molecular analysis. All of the misexpressed sequences matched either known genes or ESTs (Expressed Sequence Tags). Among 13 genes whose functions are already known or suggested, six were related to stress resistance or redox balance (DmGST2, hsp26, nla, and Drosophila homologs of mammalian TRX, GILT and POSH), suggesting the importance of stress resistance for the extension of longevity. This is the first demonstration that a systematic gain-of-function screen could efficiently detect longevity genes.

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Ki-Hyeon Seong

Inheritance of Stress-Induced, ATF-2-Dependent Epigenetic Change

POSH, a scaffold protein for JNK signaling, binds to ALG‐2 and ALIX in Drosophila

Inhibition of the Nuclear Import of Cubitus Interruptus by Roadkill in the Presence of Strong Hedgehog Signal

Longevity determination genes in Drosophila melanogaster

Loss of Trx‐2 enhances oxidative stress‐dependent phenotypes in Drosophila

Inheritance and memory of stress‐induced epigenome change: roles played by the ATF‐2 family of transcription factors

Drosophila ATF-2 Regulates Sleep and Locomotor Activity in Pacemaker Neurons

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