Your search keyword '"Mika Nishio"' showing total 6 results

1. The differential effect of optogenetic serotonergic manipulation on sustained motor actions and waiting for future rewards in mice

Author

Masakazu Taira, Kayoko W. Miyazaki, Katsuhiko Miyazaki, Jianning Chen, Shiho Okitsu-Sakurayama, Anupama Chaudhary, Mika Nishio, Tsukasa Miyake, Akihiro Yamanaka, Kenji F. Tanaka, and Kenji Doya

Subjects

dorsal raphe nucleus, serotonin, decision making, reward, mice, lever-press, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Serotonin is an essential neuromodulator that affects behavioral and cognitive functions. Previous studies have shown that activation of serotonergic neurons in the dorsal raphe nucleus (DRN) promotes patience to wait for future rewards. However, it is still unclear whether serotonergic neurons also regulate persistence to act for future rewards. Here we used optogenetic activation and inhibition of DRN serotonergic neurons to examine their effects on sustained motor actions for future rewards. We trained mice to perform waiting and repeated lever-pressing tasks with variable reward delays and tested effects of optogenetic activation and inhibition of DRN serotonergic neurons on task performance. Interestingly, in the lever-pressing task, mice tolerated longer delays as they repeatedly pressed a lever than in the waiting task, suggesting that lever-pressing actions may not simply be costly, but may also be subjectively rewarding. Optogenetic activation of DRN serotonergic neurons prolonged waiting duration in the waiting task, consistent with previous studies. However, its effect on lever presses was nuanced, and was detected only by focusing on the period before premature reward check and by subtracting the trends within and across sessions using generalized linear model. While optogenetic inhibition decreased waiting, it did not affect lever pressing time or numbers. These results revealed that the necessity of motor actions may increase motivation for delayed rewards and that DRN serotonergic neurons more significantly promote waiting rather than persistent motor actions for future rewards.

Published

2024

2. Hepatocyte growth factor derived from senescent cells attenuates cell competition-induced apical elimination of oncogenic cells

Author

Nanase Igarashi, Kenichi Miyata, Tze Mun Loo, Masatomo Chiba, Aki Hanyu, Mika Nishio, Hiroko Kawasaki, Hao Zheng, Shinya Toyokuni, Shunsuke Kon, Keiji Moriyama, Yasuyuki Fujita, and Akiko Takahashi

Subjects

Science

Abstract

Ras mutations induce cell competition and cellular senescence to inhibit the proliferation of oncogenic mutated cells. Here the authors demonstrate that cellular senescence inhibits cell competition-induced elimination of oncogenic cells through HGF signalling.

Published

2022

3. Pericentromeric noncoding RNA changes DNA binding of CTCF and inflammatory gene expression in senescence and cancer

Author

Miyata, Kenichi, Imai, Yoshinori, Satoshi Hori, Mika Nishio, Loo, Tze Mun, Okada, Ryo, Yang, Liying, Nakadai, Tomoyoshi, Maruyama, Reo, Fujii, Risa, Ueda, Koji, Jiang, Li, Zheng, Hao, Toyokuni, Shinya, Sakata, Toyonori, Shirahige, Katsuhiko, Kojima, Ryosuke, Nakayama, Mizuho, Oshima, Masanobu, Nagayama, Satoshi, Seimiya, Hiroyuki, Hirota, Toru, Saya, Hideyuki, Hara, Eiji, and Takahashi, Akiko

Published

2021

4. Chromatin conformational changes at human satellite II contribute to the senescence phenotype in the tumor microenvironment.

Author

Kenichi Miyata, Xiangyu Zhou, Mika Nishio, Aki Hanyu, Masatomo Chiba, Hiroko Kawasaki, Tomo Osako, Kengo Takeuchi, Shinji Ohno, Takayuki Ueno, Reo Maruyama, and Akiko Takahashi

Subjects

TUMOR microenvironment, GENE expression, CELLULAR aging, AGING, CHROMATIN, SPIDER silk

Abstract

Cellular senescence and senescence-associated secretory phenotype (SASP) in stromal cells within the tumor microenvironment promote cancer progression. Although cellular senescence has been shown to induce changes in the higher-order chromatin structure and abnormal transcription of repetitive elements in the genome, the functional significance of these changes is unclear. In this study, we examined the human satellite II (hSATII) loci in the pericentromere to understand these changes and their functional significance. Our results indicated that the hSATII loci decompact during senescence induction, resulting in new DNA-DNA interactions in distinct genomic regions, which we refer to as DRISR (Distinctive Regions Interacted with Satellite II in Replicative senescent Fibroblasts). Interestingly, decompaction occurs before the expression of hSATII RNA. The DRISR with altered chromatin accessibility was enriched for motifs associated with cellular senescence and inflammatory SASP genes. Moreover, DNA-fluorescence in situ hybridization analysis of the breast cancer tissues revealed hSATII decompaction in cancer and stromal cells. Furthermore, we reanalyzed the single-cell assay for transposase-accessible chromatin with sequencing data and found increased SASP-related gene expression in fibroblasts exhibiting hSATII decompaction in breast cancer tissues. These findings suggest that changes in the higher-order chromatin structure of the pericentromeric repetitive sequences during cellular senescence might directly contribute to the cellular senescence phenotype and cancer progression via inflammatory gene expression. [ABSTRACT FROM AUTHOR]

Published

2023

5. Pericentromeric noncoding RNA changes DNA binding of CTCF and inflammatory gene expression in senescence and cancer

Author

Akiko Takahashi, Koji Ueda, Risa Fujii, Yoshinori Imai, Eiji Hara, Toru Hirota, Katsuhiko Shirahige, Hideyuki Saya, Hao Zheng, Toyonori Sakata, Li Jiang, Mizuho Nakayama, Satoshi Nagayama, Ryosuke Kojima, Hiroyuki Seimiya, Masanobu Oshima, Tomoyoshi Nakadai, Liying Yang, Satoshi Hori, Ryo Okada, Tze Mun Loo, Shinya Toyokuni, Reo Maruyama, Mika Nishio, and Kenichi Miyata

Subjects

Senescence, Aging, RNA, Untranslated, senescence, Centromere, pericentromeric RNA, small extracellular vesicles, Biology, medicine.disease_cause, Mice, Transcription (biology), Neoplasms, Gene expression, medicine, Animals, Humans, Cellular Senescence, Inflammation, Mice, Inbred BALB C, Multidisciplinary, fungi, DNA, DNA, Neoplasm, Cell Biology, Biological Sciences, CTCF, Non-coding RNA, Phenotype, Cell biology, Chromatin, DNA-Binding Proteins, HEK293 Cells, Gene Expression Regulation, senescence-associated secretory phenotype, Female, Carcinogenesis, Protein Binding

Abstract

Significance During the aging process, senescent cells secrete inflammatory factors, causing various age-related pathologies. Thus, controlling the senescence-associated secretory phenotype (SASP) can tremendously benefit human health. Although SASP seems to be induced by the alteration of chromosomal organization, its underlying mechanism remains unclear. Here, it has been revealed that noncoding RNA (ncRNA) transcribed from pericentromeric repetitive elements impairs the DNA binding of CCCTC-binding factor, resulting in the alteration of chromosomal accessibility and the activation of SASP-like inflammatory genes. Notably, the ncRNA was transferred into surrounding cells via small extracellular vesicles, acting as a tumorigenic SASP factor. Our study highlights a novel mechanism regulating chromatin interaction and inflammatory gene expression in senescence and cancer., Cellular senescence causes a dramatic alteration of chromatin organization and changes the gene expression profile of proinflammatory factors, thereby contributing to various age-related pathologies through the senescence-associated secretory phenotype (SASP). Chromatin organization and global gene expression are maintained by the CCCTC-binding factor (CTCF); however, the molecular mechanism underlying CTCF regulation and its association with SASP gene expression remains unclear. We discovered that noncoding RNA (ncRNA) derived from normally silenced pericentromeric repetitive sequences directly impairs the DNA binding of CTCF. This CTCF disturbance increases the accessibility of chromatin and activates the transcription of SASP-like inflammatory genes, promoting malignant transformation. Notably, pericentromeric ncRNA was transferred into surrounding cells via small extracellular vesicles acting as a tumorigenic SASP factor. Because CTCF blocks the expression of pericentromeric ncRNA in young cells, the down-regulation of CTCF during cellular senescence triggers the up-regulation of this ncRNA and SASP-related inflammatory gene expression. In this study, we show that pericentromeric ncRNA provokes chromosomal alteration by inhibiting CTCF, leading to a SASP-like inflammatory response in a cell-autonomous and non–cell-autonomous manner and thus may contribute to the risk of tumorigenesis during aging.

Published

2021

6. Development of nondestructive diagnostic method for micro-leak defects in heat seal of flexible packages using ultrasonic waves

Author

Takumi Inoue, Ren Kadowaki, Kenta Mori, Mika Nishio, and Kazuhisa Omura

Subjects

Leak, Diagnostic methods, Materials science, business.industry, Mechanical engineering, Ultrasonic sensor, Structural engineering, business, Seal (mechanical)

Published

2017