Takao Seki scite author profile

The environment experienced during spaceflight may impact the immune system and the thymus appears to undergo atrophy during spaceflight. However, molecular aspects of this thymic atrophy remain to be elucidated. In this study, we analysed the thymi of mice on board the international space station (ISS) for approximately 1 month. Thymic size was significantly reduced after spaceflight. Notably, exposure of mice to 1 × g using centrifugation cages in the ISS significantly mitigated the reduction in thymic size. Although spaceflight caused thymic atrophy, the global thymic structure was not largely changed. However, RNA sequencing analysis of the thymus showed significantly reduced expression of cell cycle-regulating genes in two independent spaceflight samples. These reductions were partially countered by 1 × g exposure during the space flights. Thus, our data suggest that spaceflight leads to reduced proliferation of thymic cells, thereby reducing the size of the thymus, and exposure to 1 × g might alleviate the impairment of thymus homeostasis induced by spaceflight.

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Down-regulation of GATA1-dependent erythrocyte-related genes in the spleens of mice exposed to a space travel

Horie¹,

Sasanuma²,

Kudo³

et al. 2019

Sci Rep

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Secondary lymphoid organs are critical for regulating acquired immune responses. The aim of this study was to characterize the impact of spaceflight on secondary lymphoid organs at the molecular level. We analysed the spleens and lymph nodes from mice flown aboard the International Space Station (ISS) in orbit for 35 days, as part of a Japan Aerospace Exploration Agency mission. During flight, half of the mice were exposed to 1 g by centrifuging in the ISS, to provide information regarding the effect of microgravity and 1 g exposure during spaceflight. Whole-transcript cDNA sequencing (RNA-Seq) analysis of the spleen suggested that erythrocyte-related genes regulated by the transcription factor GATA1 were significantly down-regulated in ISS-flown vs. ground control mice. GATA1 and Tal1 (regulators of erythropoiesis) mRNA expression was consistently reduced by approximately half. These reductions were not completely alleviated by 1 g exposure in the ISS, suggesting that the combined effect of space environments aside from microgravity could down-regulate gene expression in the spleen. Additionally, plasma immunoglobulin concentrations were slightly altered in ISS-flown mice. Overall, our data suggest that spaceflight might disturb the homeostatic gene expression of the spleen through a combination of microgravity and other environmental changes.

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Mutations in Zinc‐binding Domains of p53 as a Prognostic Marker of Esophageal‐cancer Patients

Kihara

Seki

Furukawa

et al. 2000

Japanese Journal of Cancer Research

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Some investigators have suggested that mutations of the p53 gene may be molecular markers for poor prognosis of cancer patients, although others have reported conflicting results. We examined esophageal cancers from 138 patients to investigate whether mutational status of p53 could be correlated either with prognosis or with response to chemotherapy or radiation. We detected p53 mutations in the tumors of 78 (56.5%) patients. Kaplan-Meier analysis showed that these 78 patients tended to have shorter survival times and greater resistance to either form of therapy than patients whose tumors carried two wild-type p53 alleles. The difference became more evident when we focused on mutations in zinc-binding domains of p53 (L2 and L3); the prognosis was significantly poorer among the 29 patients with tumors in this category than among patients whose tumors had no p53 mutations, or p53 mutations outside L2 or L3 (P = = = =0.0060). Moreover, those tumors as a group were more resistant to chemotherapy or radiation than the others (P = = = =0.0105).Our results underscore the importance of the zinc-binding domains of p53 with respect to clinical prognosis for patients with esophageal carcinomas.

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Integrative analysis of scRNA-seq and scATAC-seq revealed transit-amplifying thymic epithelial cells expressing autoimmune regulator

Miyao

Miyauchi

Kelly

et al. 2022

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Medullary thymic epithelial cells (mTECs) are critical for self-tolerance induction in T cells via promiscuous expression of tissue-specific antigens (TSAs), which are controlled by the transcriptional regulator, AIRE. Whereas AIRE-expressing (Aire+) mTECs undergo constant turnover in the adult thymus, mechanisms underlying differentiation of postnatal mTECs remain to be discovered. Integrative analysis of single-cell assays for transposase-accessible chromatin (scATAC-seq) and single-cell RNA sequencing (scRNA-seq) suggested the presence of proliferating mTECs with a specific chromatin structure, which express high levels of Aire and co-stimulatory molecules, CD80 (Aire+CD80hi). Proliferating Aire+CD80hi mTECs detected using Fucci technology express a minimal number of Aire-dependent TSAs and are converted into quiescent Aire+CD80hi mTECs expressing high levels of TSAs after a transit amplification. These data provide evidence for the existence of transit-amplifying Aire+mTEC precursors during the Aire+mTEC differentiation process of the postnatal thymus.

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Study on discrimination between primary and secondary molten marks using carbonized residue

Lee

Ohtani

Matsubara

et al. 2002

Fire Safety Journal

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Takao Seki

Impact of spaceflight on the murine thymus and mitigation by exposure to artificial gravity during spaceflight

Down-regulation of GATA1-dependent erythrocyte-related genes in the spleens of mice exposed to a space travel

Mutations in Zinc‐binding Domains of p53 as a Prognostic Marker of Esophageal‐cancer Patients

Integrative analysis of scRNA-seq and scATAC-seq revealed transit-amplifying thymic epithelial cells expressing autoimmune regulator

Study on discrimination between primary and secondary molten marks using carbonized residue

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