Mana Miyakoda scite author profile

Suzuki, K., Mori, I., Nakayama, Y., Miyakoda, M., Kodama, S. and Watanabe, M. Radiation-Induced Senescence-like Growth Arrest Requires TP53 Function but not Telomere Shortening. Normal human diploid cells irradiated with X rays showed permanent cell cycle arrest and exhibited senescence-like phenotypes including the expression of senescence-associated beta-galactosidase (SA-beta-gal). X irradiation caused persistent phosphorylation of TP53 at Ser 15 and accumulation of the TP53 protein, followed by the induction of CDKN1A (also known as p21(Waf1/Cip1)) and CDKN2A (also known as p16), preceded the expression of SA-beta-gal. NCI-H1299 human lung carcinoma cells, in which no TP53 protein was expressed, were irradiated with X rays with or without the exogenous expression of TP53 gene. Although induction of TP53 protein alone could induce SA-beta-gal expression, the frequency of SA-beta-gal-positive cells was significantly increased when TP53-induced H1299 cells were exposed to X rays. The mean terminal restriction fragment length in normal human cells was approximately 12 kb and did not change in SA-beta-gal-positive cells. These results indicate that ionizing radiation induces senescence-like growth arrest that is dependent on TP53 function but independent of telomere shortening. Our findings suggest that cells harboring irreparable DNA damage are programmed to undergo premature senescence to maintain the integrity of the genome.

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Malaria-Specific and Nonspecific Activation of CD8+ T Cells during Blood Stage of Plasmodium berghei Infection

Miyakoda

Kimura

Yuda

et al. 2008

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Cerebral malaria is one of the severe complications of Plasmodium falciparum infection. Studies using a rodent model of Plasmodium berghei ANKA infection established that CD8+ T cells are involved in the pathogenesis of cerebral malaria. However, it is unclear whether and how Plasmodium-specific CD8+ T cells can be activated during the erythrocyte stage of malaria infection. We generated recombinant Plasmodium berghei ANKA expressing OVA (OVA-PbA) to investigate the parasite-specific T cell responses during malaria infection. Using this model system, we demonstrate two types of CD8+ T cell activations during the infection with malaria parasite. Ag (OVA)-specific CD8+ T cells were activated by TAP-dependent cross-presentation during infection with OVA-PbA leading to their expression of an activation phenotype and granzyme B and the development to functional CTL. These highly activated CD8+ T cells were preferentially sequestered in the brain, although it was unclear whether these cells were involved in the pathogenesis of cerebral malaria. Activation of OVA-specific CD8+ T cells in RAG2 knockout TCR-transgenic mice during infection with OVA-PbA did not have a protective role but rather was pathogenic to the host as shown by their higher parasitemia and earlier death when compared with RAG2 knockout mice. The OVA-specific CD8+ T cells, however, were also activated during infection with wild-type parasites in an Ag-nonspecific manner, although the levels of activation were much lower. This nonspecific activation occurred in a TAP-independent manner, appeared to require NK cells, and was not by itself pathogenic to the host.

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Interleukin-27-Producing CD4+ T Cells Regulate Protective Immunity during Malaria Parasite Infection

et al. 2016

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Interleukin-27 (IL-27) is a heterodimeric regulatory cytokine of the IL-12 family, which is produced by macrophages, dendritic cells, and B cells upon stimulation through innate immune receptors. Here, we described regulatory CD4(+) T cells that produce IL-27 in response to T cell receptor stimulation during malaria infection, inhibiting IL-2 production and clonal expansion of other T cells in an IL-27-dependent manner. IL-27-producing CD4(+) T cells were Foxp3(-)CD11a(+)CD49d(+) malaria antigen-specific CD4(+) T cells and were distinct from interferon-γ (IFN-γ) producing Th1 or IL-10 producing Tr1 cells. In mice lacking IL-27 in T cells, IL-2 production was restored and clonal expansion and IFN-γ production by specific CD4(+) T cells were improved, culminating in reduced parasite burden. This study highlights a unique population of IL-27 producing regulatory CD4(+) T cells and their critical role in the regulation of the protective immune response against malaria parasites.

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CD8⁺T Cells Specific for a Malaria Cytoplasmic Antigen Form Clusters around Infected Hepatocytes and Are Protective at the Liver Stage of Infection

Kimura

Matsushima

et al. 2013

Infect Immun

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cFollowing Anopheles mosquito-mediated introduction into a human host, Plasmodium parasites infect hepatocytes and undergo intensive replication. Accumulating evidence indicates that CD8 ؉ T cells induced by immunization with attenuated Plasmodium sporozoites can confer sterile immunity at the liver stage of infection; however, the mechanisms underlying this protection are not clearly understood. To address this, we generated recombinant Plasmodium berghei ANKA expressing a fusion protein of an ovalbumin epitope and green fluorescent protein in the cytoplasm of the parasite. We have shown that the ovalbumin epitope is presented by infected liver cells in a manner dependent on a transporter associated with antigen processing and becomes a target of specific CD8؉ T cells from the T cell receptor transgenic mouse line OT-I, leading to protection at the liver stage of Plasmodium infection. We visualized the interaction between OT-I cells and infected hepatocytes by intravital imaging using two-photon microscopy. OT-I cells formed clusters around infected hepatocytes, leading to the elimination of the intrahepatic parasites and subsequent formation of large clusters of OT-I cells in the liver. Gamma interferon expressed in CD8 ؉ T cells was dispensable for this protective response. Additionally, we found that polyclonal ovalbumin-specific memory CD8 ؉ T cells induced by de novo immunization were able to confer sterile protection, although the threshold frequency of the protection was relatively high. These studies revealed a novel mechanism of specific CD8 ؉ T cell-mediated protective immunity and demonstrated that proteins expressed in the cytoplasm of Plasmodium parasites can become targets of specific CD8 ؉ T cells during liver-stage infection.

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Heat shock induces centrosomal dysfunction, and causes non-apoptotic mitotic catastrophe in human tumour cells

Nakahata

Miyakoda

Suzuki

et al. 2002

International Journal of Hyperthermia

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Normal human diploid cells and various human tumour cells were heat shocked at 43 degrees C for 2h and allowed to recover at 37 degrees C. It was found that heat shock treatment transiently disrupted the immunostaining of centrosomes, and no centrosome staining was detected in either normal or tumour cells 24h after heat shock. Staining recovered thereafter in normal cells, but in tumour cells abnormal centrosomes, multiple and minute centrosomes were induced. While normal cells were arrested in G1 and G2 after heat shock, significant numbers of mitotic cells with multiple poles appeared in tumour cells. Subsequently, cells with multiple micronuclei increased in tumour cells with time after heat shock. Although the nuclear morphology of these cells was similar to that of the apoptotic cells, no DNA ladder formation was observed up to 4 days after heat shock. Furthermore, an in situ assay failed to detect signals representative of apoptosis, indicating that apoptosis did not appear to be involved in heat shock-induced cell death of human tumour cells. Instead, cell lethality was associated with mitotic catastrophe.

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Mana Miyakoda

Radiation-Induced Senescence-like Growth Arrest Requires TP53 Function but not Telomere Shortening

Malaria-Specific and Nonspecific Activation of CD8+ T Cells during Blood Stage of Plasmodium berghei Infection

Interleukin-27-Producing CD4+ T Cells Regulate Protective Immunity during Malaria Parasite Infection

CD8⁺T Cells Specific for a Malaria Cytoplasmic Antigen Form Clusters around Infected Hepatocytes and Are Protective at the Liver Stage of Infection

Heat shock induces centrosomal dysfunction, and causes non-apoptotic mitotic catastrophe in human tumour cells

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Mana Miyakoda

Radiation-Induced Senescence-like Growth Arrest Requires TP53 Function but not Telomere Shortening

Malaria-Specific and Nonspecific Activation of CD8+ T Cells during Blood Stage of Plasmodium berghei Infection

Interleukin-27-Producing CD4+ T Cells Regulate Protective Immunity during Malaria Parasite Infection

CD8+T Cells Specific for a Malaria Cytoplasmic Antigen Form Clusters around Infected Hepatocytes and Are Protective at the Liver Stage of Infection

Heat shock induces centrosomal dysfunction, and causes non-apoptotic mitotic catastrophe in human tumour cells

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Product

Resources

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CD8⁺T Cells Specific for a Malaria Cytoplasmic Antigen Form Clusters around Infected Hepatocytes and Are Protective at the Liver Stage of Infection