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5. STAP-2 interacts with and modulates BCR-ABL-mediated tumorigenesis

Author

Sekine, Y., Ikeda, O., Mizushima, A., Ueno, Y., Muromoto, R., Yoshimura, A., Kanakura, Y., Oritani, K., Matsuda, T., Sekine, Y., Ikeda, O., Mizushima, A., Ueno, Y., Muromoto, R., Yoshimura, A., Kanakura, Y., Oritani, K., and Matsuda, T.

Abstract

In chronic myeloid leukemia (CML), the BCR-ABL fusion oncoprotein activates multiple pathways involved in cell survival, growth promotion and disease progression. In this report, we show that the signal transducing adaptor protein-2 (STAP-2) is involved in BCR-ABL activity. We demonstrate that STAP-2 bound to BCR-ABL, and BCR and ABL proteins, depending on the STAP-2 Src homology 2-like domain. BCR-ABL phosphorylates STAP-2 Tyr250 and the phosphorylated STAP-2 in turn up-regulated BCR-ABL phosphorylation, leading to enhanced activation of downstream signaling molecules including ERK, STAT5, BCL-xL and BCL-2. In addition, STAP-2 interacts with BCR-ABL to alter chemokine receptor expression leading to downregulation of CXCR4 and upregulation of CCR7. The interaction between STAP-2 and BCR-ABL plays a crucial role in conferring a growth advantage and resistance to imatinib, a BCR-ABL inhibitor, as well as tumor progression. Notably, mice injected with BCR-ABL/STAP-2-expressing Ba/F3 cells developed lymph node enlargement and hepatosplenomegaly. Moreover, suppression of STAP-2 in K562 CML cells resulted in no tumor formation in mice. Our results demonstrate a critical contribution of STAP-2 in BCR-ABL activity, and suggest that STAP-2 might be an important candidate for drug development for patients with CML. Further, the expression of STAP-2 provides useful information for estimating the characteristics of individual CML clones.

Published
2012

6. STAP-2 interacts with and modulates BCR-ABL-mediated tumorigenesis

Author

1000020396295, Sekine, Y., Ikeda, O., Mizushima, A., Ueno, Y., 1000030455597, Muromoto, R., Yoshimura, A., Kanakura, Y., Oritani, K., 1000020212219, Matsuda, T., 1000020396295, Sekine, Y., Ikeda, O., Mizushima, A., Ueno, Y., 1000030455597, Muromoto, R., Yoshimura, A., Kanakura, Y., Oritani, K., 1000020212219, and Matsuda, T.

Abstract

In chronic myeloid leukemia (CML), the BCR-ABL fusion oncoprotein activates multiple pathways involved in cell survival, growth promotion and disease progression. In this report, we show that the signal transducing adaptor protein-2 (STAP-2) is involved in BCR-ABL activity. We demonstrate that STAP-2 bound to BCR-ABL, and BCR and ABL proteins, depending on the STAP-2 Src homology 2-like domain. BCR-ABL phosphorylates STAP-2 Tyr250 and the phosphorylated STAP-2 in turn up-regulated BCR-ABL phosphorylation, leading to enhanced activation of downstream signaling molecules including ERK, STAT5, BCL-xL and BCL-2. In addition, STAP-2 interacts with BCR-ABL to alter chemokine receptor expression leading to downregulation of CXCR4 and upregulation of CCR7. The interaction between STAP-2 and BCR-ABL plays a crucial role in conferring a growth advantage and resistance to imatinib, a BCR-ABL inhibitor, as well as tumor progression. Notably, mice injected with BCR-ABL/STAP-2-expressing Ba/F3 cells developed lymph node enlargement and hepatosplenomegaly. Moreover, suppression of STAP-2 in K562 CML cells resulted in no tumor formation in mice. Our results demonstrate a critical contribution of STAP-2 in BCR-ABL activity, and suggest that STAP-2 might be an important candidate for drug development for patients with CML. Further, the expression of STAP-2 provides useful information for estimating the characteristics of individual CML clones.

Published
2012

7. Physical and functional interactions between Daxx and STAT3.

Author

Muromoto, R., Nakao, K., Watanabe, T., Sato, N., Sekine, Y., Sugiyama, K., Oritani, K., Shimoda, K., Matsuda, T., Muromoto, R., Nakao, K., Watanabe, T., Sato, N., Sekine, Y., Sugiyama, K., Oritani, K., Shimoda, K., and Matsuda, T.

Abstract

Signal transducer and activator of transcription 3 (STAT3) play key roles in the intracellular signaling pathways of the interleukin (IL)-6 family of cytokines, which exhibit a diverse set of cellular responses, including cell proliferation and differentiation. Dysregulated IL-6/STAT3 signaling is involved in the pathogenesis of several diseases, for example autoimmune diseases and tumors. Type I interferon (IFN) induces the expression of proapoptotic genes and has been used in the clinical treatment of several tumors. In the present study, we found that type I IFN suppressed IL-6/STAT3-mediated transcription and gene expression. Furthermore, a type I IFN-induced protein, Daxx, also suppressed STAT3-mediated transcriptional activation, while overexpression of Daxx inhibited IL-6/STAT3-mediated gene expression. Importantly, small-interfering RNA-mediated reduction of Daxx expression enhanced IL-6/leukemia inhibitory factor (LIF)-induced STAT3-dependent transcription. Co-immunoprecipitation studies revealed a physical interaction between Daxx and STAT3 in transiently transfected 293T cells. We further found that Daxx and STAT3 were co-localized in the nucleus. These results indicate that Daxx may serve as a transcriptional regulator of type I IFN-mediated suppression of the IL-6/STAT3 signaling pathway.

Published
2006

12. Role of Signal-Transducing Adaptor Protein-1 for T Cell Activation and Pathogenesis of Autoimmune Demyelination and Airway Inflammation.

Author

Kagohashi K, Sasaki Y, Ozawa K, Tsuchiya T, Kawahara S, Saitoh K, Ichii M, Toda J, Harada Y, Kubo M, Kitai Y, Muromoto R, Oritani K, Kashiwakura JI, and Matsuda T

Subjects
Animals, Mice, Lymphocyte Activation, Receptors, Antigen, T-Cell, Signal Transduction, Adaptor Proteins, Signal Transducing genetics, Encephalomyelitis, Autoimmune, Experimental, Inflammation metabolism, Inflammation pathology
Abstract

Signal-transducing adaptor protein (STAP)-1 is an adaptor protein that is widely expressed in T cells. In this article, we show that STAP-1 upregulates TCR-mediated T cell activation and T cell-mediated airway inflammation. Using STAP-1 knockout mice and STAP-1-overexpressing Jurkat cells, we found that STAP-1 enhanced TCR signaling, resulting in increased calcium mobilization, NFAT activity, and IL-2 production. Upon TCR engagement, STAP-1 binding to ITK promoted formation of ITK-LCK and ITK-phospholipase Cγ1 complexes to induce downstream signaling. Consistent with the results, STAP-1 deficiency reduced the severity of symptoms in experimental autoimmune encephalomyelitis. Single-cell RNA-sequencing analysis revealed that STAP-1 is essential for accumulation of T cells and Ifng and Il17 expression in spinal cords after experimental autoimmune encephalomyelitis induction. Th1 and Th17 development was also attenuated in STAP-1 knockout naive T cells. Taken together, STAP-1 enhances TCR signaling and plays a role in T cell-mediated immune disorders., (Copyright © 2024 by The American Association of Immunologists, Inc.)

Published
2024
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13. STAP-2 negatively regulates BCR-mediated B cell activation by recruiting tyrosine-protein kinase CSK to LYN.

Author

Kashiwakura JI, Kawahara S, Inagaki I, Inui K, Saitoh K, Kagohashi K, Sasaki Y, Kobayashi F, Kitai Y, Muromoto R, Oritani K, and Matsuda T

Subjects
Mice, Animals, CSK Tyrosine-Protein Kinase metabolism, Receptors, Antigen, B-Cell metabolism, Phosphorylation, B-Lymphocytes metabolism, Mice, Knockout, Signal Transduction, src-Family Kinases genetics, src-Family Kinases metabolism
Abstract

Although signal-transducing adaptor protein-2 (STAP-2) acts in certain immune responses, its role in B cell receptor (BCR)-mediated signals remains unknown. In this study, we have revealed that BCR-mediated signals, cytokine production and antibody production were increased in STAP-2 knockout (KO) mice compared with wild-type (WT) mice. Phosphorylation of tyrosine-protein kinase LYN Y508 was reduced in STAP-2 KO B cells after BCR stimulation. Mechanistic analysis revealed that STAP-2 directly binds to LYN, dependently of STAP-2 Y250 phosphorylation by LYN. Furthermore, phosphorylation of STAP-2 enhanced interactions between LYN and tyrosine-protein kinase CSK, resulting in enhanced CSK-mediated LYN Y508 phosphorylation. These results suggest that STAP-2 is crucial for controlling BCR-mediated signals and antibody production by enhanced CSK-mediated feedback regulation of LYN., (© 2023 Federation of European Biochemical Societies.)

Published
2023
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14. STAP-2-Derived Peptide Suppresses TCR-Mediated Signals to Initiate Immune Responses.

Author

Sasaki Y, Saitoh K, Kagohashi K, Ose T, Kawahara S, Kitai Y, Muromoto R, Sekine Y, Ichii M, Yoshimura A, Oritani K, Kashiwakura JI, and Matsuda T

Subjects
Animals, Humans, Mice, Immunity, Receptors, Antigen, T-Cell metabolism, Peptide Fragments pharmacology, Adaptor Proteins, Signal Transducing metabolism, Signal Transduction
Abstract

Signal-transducing adaptor protein-2 (STAP-2) is an adaptor protein that contains pleckstrin and Src homology 2-like domains, as well as a proline-rich region in its C-terminal region. Our previous study demonstrated that STAP-2 positively regulates TCR signaling by associating with TCR-proximal CD3ζ ITAMs and the lymphocyte-specific protein tyrosine kinase. In this study, we identify the STAP-2 interacting regions of CD3ζ ITAMs and show that the STAP-2-derived synthetic peptide (iSP2) directly interacts with the ITAM sequence and blocks the interactions between STAP-2 and CD3ζ ITAMs. Cell-penetrating iSP2 was delivered into human and murine T cells. iSP2 suppressed cell proliferation and TCR-induced IL-2 production. Importantly, iSP2 treatment suppressed TCR-mediated activation of naive CD4+ T cells and decreased immune responses in CD4+ T cell-mediated experimental autoimmune encephalomyelitis. It is likely that iSP2 is a novel immunomodulatory tool that modulates STAP-2-mediated activation of TCR signaling and represses the progression of autoimmune diseases., (Copyright © 2023 by The American Association of Immunologists, Inc.)

Published
2023
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15. A peptide derived from adaptor protein STAP-2 inhibits tumor progression by downregulating epidermal growth factor receptor signaling.

Author

Maemoto T, Kitai Y, Takahashi R, Shoji H, Yamada S, Takei S, Ito D, Muromoto R, Kashiwakura JI, Handa H, Hashimoto A, Hashimoto S, Ose T, Oritani K, and Matsuda T

Subjects
Animals, Humans, Male, Mice, Epidermal Growth Factor metabolism, ErbB Receptors metabolism, Signal Transduction, A549 Cells, Cell Line, Tumor, Adaptor Proteins, Signal Transducing metabolism, Lung Neoplasms metabolism, Prostatic Neoplasms metabolism, Peptides pharmacology
Abstract

Signal-transducing adaptor family member-2 (STAP-2) is an adaptor protein that regulates various intracellular signals. We previously demonstrated that STAP-2 binds to epidermal growth factor receptor (EGFR) and facilitates its stability and activation of EGFR signaling in prostate cancer cells. Inhibition of this interaction may be a promising direction for cancer treatment. Here, we found that 2D5 peptide, a STAP-2-derived peptide, blocked STAP-2-EGFR interactions and suppressed EGFR-mediated proliferation in several cancer cell lines. 2D5 peptide inhibited tumor growth of human prostate cancer cell line DU145 and human lung cancer cell line A549 in murine xenograft models. Additionally, we determined that EGFR signaling and its stability were decreased by 2D5 peptide treatment during EGF stimulation. In conclusion, our study shows that 2D5 peptide is a novel anticancer peptide that inhibits STAP-2-mediated activation of EGFR signaling and suppresses prostate and lung cancer progression., Competing Interests: Conflict of interest All authors declare no conflicts of interest in regard to this article., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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16. Central Roles of STAT3-Mediated Signals in Onset and Development of Cancers: Tumorigenesis and Immunosurveillance.

Author

Hashimoto S, Hashimoto A, Muromoto R, Kitai Y, Oritani K, and Matsuda T

Subjects
Carcinogenesis pathology, Cell Transformation, Neoplastic genetics, Humans, Inflammation pathology, Monitoring, Immunologic, Tumor Microenvironment, Neoplasms metabolism, STAT3 Transcription Factor metabolism
Abstract

Since the time of Rudolf Virchow in the 19th century, it has been well-known that cancer-associated inflammation contributes to tumor initiation and progression. However, it remains unclear whether a collapse of the balance between the antitumor immune response via the immunological surveillance system and protumor immunity due to cancer-related inflammation is responsible for cancer malignancy. The majority of inflammatory signals affect tumorigenesis by activating signal transducer and activation of transcription 3 (STAT3) and nuclear factor-κB. Persistent STAT3 activation in malignant cancer cells mediates extremely widespread functions, including cell growth, survival, angiogenesis, and invasion and contributes to an increase in inflammation-associated tumorigenesis. In addition, intracellular STAT3 activation in immune cells causes suppressive effects on antitumor immunity and leads to the differentiation and mobilization of immature myeloid-derived cells and tumor-associated macrophages. In many cancer types, STAT3 does not directly rely on its activation by oncogenic mutations but has important oncogenic and malignant transformation-associated functions in both cancer and stromal cells in the tumor microenvironment (TME). We have reported a series of studies aiming towards understanding the molecular mechanisms underlying the proliferation of various types of tumors involving signal-transducing adaptor protein-2 as an adaptor molecule that modulates STAT3 activity, and we recently found that AT-rich interactive domain-containing protein 5a functions as an mRNA stabilizer that orchestrates an immunosuppressive TME in malignant mesenchymal tumors. In this review, we summarize recent advances in our understanding of the functional role of STAT3 in tumor progression and introduce novel molecular mechanisms of cancer development and malignant transformation involving STAT3 activation that we have identified to date. Finally, we discuss potential therapeutic strategies for cancer that target the signaling pathway to augment STAT3 activity.

Published
2022
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17. Regulation of NFKBIZ gene promoter activity by STAT3, C/EBPβ, and STAT1.

Author

Muromoto R, Sato A, Komori Y, Nariya K, Kitai Y, Kashiwakura JI, and Matsuda T

Subjects
Gene Expression Regulation, Promoter Regions, Genetic, RNA, Small Interfering genetics, STAT3 Transcription Factor genetics, STAT3 Transcription Factor metabolism, CCAAT-Enhancer-Binding Protein-beta genetics, CCAAT-Enhancer-Binding Protein-beta metabolism, Interleukin-17 metabolism
Abstract

Interleukin-17A (IL-17A) is a cytokine that affects the functions of non-immune cells, including keratinocytes, and thereby amplifies immune responses. An IκB family protein IκB-ζ, encoded by the NFKBIZ gene, mediates IL-17A-induced inflammatory cellular responses. Previously we reported that a transcription factor STAT3 mediates the transcriptional induction of NFKBIZ through its binding to the specific binding site existing in the NFKBIZ promoter. However, it remains unclear how other transcription factors regulate NFKBIZ transcription. Here, we investigated the NFKBIZ promoter regulation by transcription factors C/EBPβ and STAT1 and revealed opposing roles of C/EBPβ and STAT1 in NFKBIZ transcription. We found that siRNA-mediated knockdown of C/EBPβ attenuates IL-17A-induced upregulation of NFKBIZ in the HaCaT cell line. A putative C/EBP-binding site is located adjacent to the STAT-binding site in the NFKBIZ promoter, the deletion of which abolished C/EBPβ-driven promoter activation in transient NFKBIZ promoter-luciferase assay. Deleting the STAT-binding site also led to a reduction in C/EBPβ-driven promoter activation, suggesting a cooperative action between C/EBP- and STAT-binding sites. Furthermore, Co-overexpression of STAT1 suppressed both C/EBPβ- and STAT3-driven NFKBIZ promoter activation independently of its tyrosine 701 phosphorylation. siRNA-mediated STAT1 knockdown augmented IκB-ζ induction in IL-17A-treated HaCaT cells, with enhanced expression of an IκB-ζ target gene DEFB4A. Together, these results indicate that both C/EBPβ and STAT3 are transcription factors that coordinately induce NFKBIZ promoter activation, indicating that STAT1 has an inhibitory role. Thus, these could be a fine-tuning mechanism of IL-17A-IκB-ζ-mediated cellular responses., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Ryuta Muromoto reports financial support was provided by Japan Society for the Promotion of Science. Ryuta Muromoto reports financial support was provided by Suhara Memorial Foundation. Tadashi Matsuda reports financial support was provided by Japan Society for the Promotion of Science., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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18. Identification of RPL15 60S Ribosomal Protein as a Novel Topotecan Target Protein That Correlates with DAMP Secretion and Antitumor Immune Activation.

Author

Yamada S, Kitai Y, Tadokoro T, Takahashi R, Shoji H, Maemoto T, Ishiura M, Muromoto R, Kashiwakura JI, Ishii KJ, Maenaka K, Kawai T, and Matsuda T

Subjects
Animals, Mice, Ribosomal Proteins, Topoisomerase I Inhibitors pharmacology, Neoplasms drug therapy, Topotecan pharmacology, Topotecan therapeutic use
Abstract

Damage-associated molecular patterns (DAMPs) contribute to antitumor immunity during cancer chemotherapy. We previously demonstrated that topotecan (TPT), a topoisomerase I inhibitor, induces DAMP secretion from cancer cells, which activates STING-mediated antitumor immune responses. However, how TPT induces DAMP secretion in cancer cells is yet to be elucidated. Here, we identified RPL15, a 60S ribosomal protein, as a novel TPT target and showed that TPT inhibited preribosomal subunit formation via its binding to RPL15, resulting in the induction of DAMP-mediated antitumor immune activation independent of TOP1. TPT inhibits RPL15-RPL4 interactions and decreases RPL4 stability, which is recovered by CDK12 activity. RPL15 knockdown induced DAMP secretion and increased the CTL population but decreased the regulatory T cell population in a B16-F10 murine melanoma model, which sensitized B16-F10 tumors against PD-1 blockade. Our study identified a novel TPT target protein and showed that ribosomal stress is a trigger of DAMP secretion, which contributes to antitumor immunotherapy., (Copyright © 2022 by The American Association of Immunologists, Inc.)

Published
2022
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19. STAP-2 Is a Novel Positive Regulator of TCR-Proximal Signals.

Author

Saitoh K, Kashiwakura JI, Kagohashi K, Sasaki Y, Kawahara S, Sekine Y, Kitai Y, Muromoto R, Ichii M, Nakatsukasa H, Yoshimura A, Oritani K, and Matsuda T

Subjects
Animals, Lymphocyte Activation, Mice, Receptors, Antigen, T-Cell metabolism, T-Lymphocytes, Adaptor Proteins, Signal Transducing metabolism, Signal Transduction
Abstract

TCR ligation with an Ag presented on MHC molecules promotes T cell activation, leading to the selection, differentiation, and proliferation of T cells and cytokine production. These immunological events are optimally arranged to provide appropriate responses against a variety of pathogens. We here propose signal-transducing adaptor protein-2 (STAP-2) as a new positive regulator of TCR signaling. STAP-2-deficient T cells showed reduced, whereas STAP-2-overexpressing T cells showed enhanced, TCR-mediated signaling and downstream IL-2 production. For the mechanisms, STAP-2 associated with TCR-proximal CD3ζ immunoreceptor tyrosine activation motifs and phosphorylated LCK, resulting in enhancement of their binding after TCR stimulation. In parallel, STAP-2 expression is required for full activation of downstream TCR signaling. Importantly, STAP-2-deficient mice exhibited slight phenotypes of CD4 + T-cell-mediated inflammatory diseases, such as experimental autoimmune encephalomyelitis, whereas STAP-2-overexpressing transgenic mice showed severe phenotypes of these diseases. Together, STAP-2 is an adaptor protein to enhance TCR signaling; therefore, manipulating STAP-2 will have an ability to improve the treatment of patients with autoimmune diseases as well as the chimeric Ag receptor T cell therapy., (Copyright © 2022 by The American Association of Immunologists, Inc.)

Published
2022
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20. Effects of benzotriazole UV stabilizers, UV-PS and UV-P, on the differentiation of splenic regulatory T cells via aryl hydrocarbon receptor.

Author

Kubota A, Terasaki M, Sakuragi Y, Muromoto R, Ikeda-Araki A, Takada H, and Kojima H

Subjects
Animals, Mice, Mice, Inbred C57BL, Spleen, Triazoles, Receptors, Aryl Hydrocarbon agonists, T-Lymphocytes, Regulatory
Abstract

Benzotriazole UV stabilizers (BUVSs) are widely used as additives in various materials, including plastics, to prevent damage from UV-irradiation. However, despite the extensive usage of BUVSs, information on their toxicological properties is limited. In this study, we investigated the effect of BUVSs on the immune regulatory system via the aryl hydrocarbon receptor (AhR). A cell-based transactivation assay using DR-EcoScreen cells revealed that, among 13 BUVSs tested, UV-P, UV-PS, UV-9, and UV-090 activated AhR in a dose-dependent manner. In particular, the AhR agonistic activity of UV-PS was about 10-fold more potent than those of UV-P, UV-090, and UV-9, and UV-PS acted as a full agonist against AhR. In order to investigate the immune regulatory effects of these BUVSs, we orally treated C57BL/6 mice with UV-PS or UV-P (10, 30, and 100 mg/kg) and studied the differentiation of regulatory T cells (Tregs) in spleen cells. Flow-cytometry analysis revealed that the administration of UV-PS (30 and 100 mg/kg) or UV-P (100 mg/kg) significantly increased the population of CD4 + -/CD25 + -/Foxp3 + Tregs in the spleen. In addition, we found that the in vitro exposure of mouse splenocytes to UV-PS (10 and 30 μM) or UV-P (30 μM) as well as to TCDD (0.1 nM) significantly induced Tregs. Notably, the induction of Tregs was eliminated by co-treatment with an AhR antagonist, CH-223191, in each case. Taken together, these findings suggest that some BUVSs might induce Tregs through direct AhR activation and act as immunosuppressive modulators., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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21. A novel intramolecular negative regulation of mouse Jak3 activity by tyrosine 820.

Author

Sekine Y, Kikkawa K, Witthuhn BA, Kashiwakura JI, Muromoto R, Kitai Y, Fujimuro M, Oritani K, and Matsuda T

Subjects
Animals, Interleukin-2 metabolism, Interleukin-2 pharmacology, Janus Kinase 3, Mice, Milk Proteins metabolism, Phosphorylation, Signal Transduction, STAT5 Transcription Factor metabolism, Tyrosine
Abstract

Jak3, a member of the Janus kinase family, is essential for the cytokine receptor common gamma chain (γc)-mediated signaling. During activation of Jak3, tyrosine residues are phosphorylated and potentially regulate its kinase activity. We identified a novel tyrosine phosphorylation site within mouse Jak3, Y820, which is conserved in human Jak3, Y824. IL-2-induced tyrosine phosphorylation of Jak3 Y824 in human T cell line HuT78 cells was detected by using a phosphospecific, pY824, antibody. Mutation of mouse Jak3 Y820 to alanine (Y820A) showed increased autophosphorylation of Jak3 and enhanced signal transducer and activator of transcription 5 (STAT5) tyrosine phosphorylation and transcriptional activation. Stably expressed Jak3 Y820A in F7 cells, an IL-2 responsive mouse pro-B cell line Ba/F3, exhibited enhanced IL-2-dependent cell growth. Mechanistic studies demonstrated that interaction between Jak3 and STAT5 increased in Jak3 Y820A compared to wild-type Jak3. These data suggest that Jak3 Y820 plays a role in negative regulation of Jak3-mediated STAT5 signaling cascade upon IL-2-stimulation. We speculate that this occurs through an interaction promoted by the tyrosine phosphorylated Y820 or a conformational change by Y820 mutation with either the STAT directly or with the recruitment of molecules such as phosphatases via a SH2 interaction. Additional studies will focus on these interactions as Jak3 plays a crucial role in disease and health., (© The Author(s) 2022. Published by Oxford University Press on behalf of The Japanese Society for Immunology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2022
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22. Current understanding of the role of tyrosine kinase 2 signaling in immune responses.

Author

Muromoto R, Oritani K, and Matsuda T

Abstract

Immune system is a complex network that clears pathogens, toxic substrates, and cancer cells. Distinguishing self-antigens from non-self-antigens is critical for the immune cell-mediated response against foreign antigens. The innate immune system elicits an early-phase response to various stimuli, whereas the adaptive immune response is tailored to previously encountered antigens. During immune responses, B cells differentiate into antibody-secreting cells, while naïve T cells differentiate into functionally specific effector cells [T helper 1 (Th1), Th2, Th17, and regulatory T cells]. However, enhanced or prolonged immune responses can result in autoimmune disorders, which are characterized by lymphocyte-mediated immune responses against self-antigens. Signal transduction of cytokines, which regulate the inflammatory cascades, is dependent on the members of the Janus family of protein kinases. Tyrosine kinase 2 (Tyk2) is associated with receptor subunits of immune-related cytokines, such as type I interferon, interleukin (IL)-6, IL-10, IL-12, and IL-23. Clinical studies on the therapeutic effects and the underlying mechanisms of Tyk2 inhibitors in autoimmune or chronic inflammatory diseases are currently ongoing. This review summarizes the findings of studies examining the role of Tyk2 in immune and/or inflammatory responses using Tyk2 -deficient cells and mice., Competing Interests: Conflict-of-interest statement: Authors declare no conflict of interests for this article., (©The Author(s) 2022. Published by Baishideng Publishing Group Inc. All rights reserved.)

Published
2022
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23. 5-Aminosalicylic Acid, A Weak Agonist for Aryl Hydrocarbon Receptor That Induces Splenic Regulatory T Cells.

Author

Kubota A, Terasaki M, Takai R, Kobayashi M, Muromoto R, and Kojima H

Subjects
Animals, Binding Sites, Cells, Cultured, Flow Cytometry, Male, Mesalamine chemistry, Mice, Inbred C57BL, Molecular Docking Simulation, Polychlorinated Dibenzodioxins pharmacology, Receptors, Aryl Hydrocarbon chemistry, Transcriptional Activation drug effects, Mice, Mesalamine pharmacology, Receptors, Aryl Hydrocarbon agonists, Spleen drug effects, T-Lymphocytes, Regulatory drug effects
Abstract

Introduction: 5-Aminosalicylic acid (5-ASA) is widely used as a key drug in inflammatory bowel disease. It has been recently reported that 5-ASA induces CD4 + Foxp3 + regulatory T cells (Tregs) in the colon via the aryl hydrocarbon receptor (AhR), a ligand-activated transcription factor that regulates inflammation. However, the role of 5-ASA as an AhR agonist that induces Tregs in the spleen remains unknown., Methods: In the present study, we investigated these themes using an AhR-mediated transactivation assay and flow cytometry analysis. The experiments were conducted by using DR-EcoScreen cells and C57BL/6 mice., Results: The DR-EcoScreen cell-based transactivation assay revealed that 5-ASA acted as a weak AhR agonist at concentrations of ≥300 μM (1.31-1.45-fold), and that a typical AhR agonist, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), activated AhR at a concentration of 0.1 nM (22.8-fold). In addition, the treatment of mouse splenic cells with 300 μM 5-ASA in a primary culture assay significantly induced CD4+CD25 + Foxp3 + Tregs (control vs. 5-ASA: 9.0% vs. 12.65%, p < 0.05), while 0.1 nM TCDD also showed significant induction of Tregs (control vs. TCDD: 9.0% vs. 14.1%, p < 0.05). Interestingly, this induction was eliminated by co-treatment with an AhR antagonist, CH-223191., Discussion: These results suggest that 5-ASA is a weak agonist of AhR and thereby induces Tregs in spleen cells. Our findings may provide useful insights into the mechanism by which 5-ASA regulates inflammation., (© 2021 S. Karger AG, Basel.)

Published
2022
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24. Signal-transducing adaptor protein-2 has a nonredundant role for IL-33-triggered mast cell activation.

Author

Kashiwakura JI, Koizumi N, Saitoh K, Kagohashi K, Sasaki Y, Kobayashi F, Kawahara S, Yamauchi Y, Kitai Y, Muromoto R, Oritani K, and Matsuda T

Subjects
Adaptor Proteins, Signal Transducing deficiency, Animals, Cells, Cultured, Cytokines biosynthesis, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Adaptor Proteins, Signal Transducing metabolism, Interleukin-33 metabolism, Mast Cells metabolism
Abstract

Signal-transducing adaptor protein (STAP)-2 is one of the STAP family adaptor proteins and ubiquitously expressed in a variety types of cells. Although STAP-2 is required for modification of FcεRI signal transduction in mast cells, other involvement of STAP-2 in mast cell functions is unknown, yet. In the present study, we mainly investigated functional roles of STAP-2 in IL-33-induced mast cell activation. In STAP-2-deficient, but not STAP-1-deficient, mast cells, IL-33-induced IL-6 and TNF-α production was significantly decreased compared with that of wild-type mast cells. In addition, STAP-2-deficiency greatly reduced TLR4-mediated mast cell activation and cytokine production. For the mechanisms, STAP-2 directly binds to IKKα after IL-33 stimulation, leading to elevated NF-κB activity. In conclusion, STAP-2, but not STAP-1, participates in IL-33-induced mast cells activation., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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25. Propolis suppresses cytokine production in activated basophils and basophil-mediated skin and intestinal allergic inflammation in mice.

Author

Kashiwakura JI, Yoshihara M, Saitoh K, Kagohashi K, Sasaki Y, Kobayashi F, Inagaki I, Kitai Y, Muromoto R, and Matsuda T

Subjects
Anaphylaxis immunology, Animals, Basophils immunology, Cytokines immunology, Immunoglobulin E immunology, In Vitro Techniques, Interleukin-13 immunology, Interleukin-4 immunology, Interleukin-6 immunology, Intestines immunology, Mice, Receptors, IgE immunology, Skin immunology, Basophils drug effects, Cytokines drug effects, Food Hypersensitivity immunology, Immunoglobulin E drug effects, Inflammation immunology, Intestines drug effects, Propolis pharmacology, Skin drug effects
Abstract

Background: Propolis is a resinous mixture produced by honey bees that contains cinnamic acid derivatives and flavonoids. Although propolis has been reported to inhibit mast cell functions and mast cell-dependent allergic responses, the effect of propolis on basophil biology remains unknown. This study aimed to investigate the inhibitory effect of propolis on FcεRI-mediated basophil activation., Methods: To determine the inhibitory effect of propolis on basophil activation in vitro, cytokine production and FcεRI signal transduction were analyzed by ELISA and western blotting, respectively. To investigate the inhibitory effect of propolis in vivo, IgE-CAI and a food allergy mouse model were employed., Results: Propolis treatment resulted in the suppression of IgE/antigen-induced production of IL-4, IL-6 and IL-13 in basophils. Phosphorylation of FcεRI signaling molecules Lyn, Akt and ERK was inhibited in basophils treated with propolis. While propolis did not affect the basophil population in the treated mice, propolis did inhibit IgE-CAI. Finally, ovalbumin-induced intestinal anaphylaxis, which involves basophils and basophil-derived IL-4, was attenuated in mice prophylactically treated with propolis., Conclusions: Taken together, these results demonstrate the ability of propolis to suppress IgE-dependent basophil activation and basophil-dependent allergic inflammation. Therefore, prophylactic treatment with propolis may be useful for protection against food allergic reactions in sensitive individuals., (Copyright © 2020 Japanese Society of Allergology. Production and hosting by Elsevier B.V. All rights reserved.)

Published
2021
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26. Positive interactions between STAP-1 and BCR-ABL influence chronic myeloid leukemia cell proliferation and survival.

Author

Ishiura M, Kitai Y, Kashiwakura JI, Muromoto R, Toda J, Ichii M, Oritani K, and Matsuda T

Subjects
Adaptor Proteins, Signal Transducing chemistry, Adaptor Proteins, Signal Transducing genetics, Cell Line, Tumor, Cell Survival, Fusion Proteins, bcr-abl genetics, Gene Expression Regulation, Neoplastic, Humans, NFATC Transcription Factors metabolism, Protein Binding, Protein Domains, Protein Stability, RNA, Messenger genetics, RNA, Messenger metabolism, STAT5 Transcription Factor genetics, STAT5 Transcription Factor metabolism, Tumor Suppressor Proteins genetics, Tumor Suppressor Proteins metabolism, Adaptor Proteins, Signal Transducing metabolism, Cell Proliferation, Fusion Proteins, bcr-abl metabolism, Leukemia, Myelogenous, Chronic, BCR-ABL Positive metabolism, Leukemia, Myelogenous, Chronic, BCR-ABL Positive pathology
Abstract

Chronic myeloid leukemia (CML) is a clonal disease characterized by the presence of the Philadelphia chromosome and its oncogenic product, BCR-ABL, which activates multiple pathways involved in cell survival, growth promotion, and disease progression. We recently reported that signal-transducing adaptor protein 1 (STAP-1) is upregulated in CML stem cells (LSCs) and functions to reduce the apoptosis of CML LSCs by upregulating the STAT5-downstream anti-apoptotic genes. In this study, we demonstrate the detailed molecular interactions among BCR-ABL, STAP-1, and signal transducer and activator of transcription 5 (STAT5). Studies with deletion mutants have revealed that STAP-1 interacts with BCR-ABL and STAT5a through its SH2 and PH domains, respectively, suggesting the possible role of STAP-1 as a scaffold protein. Furthermore, the binding of STAP-1 to BCR-ABL stabilizes the BCR-ABL protein in CML cells. Since STAP-1 is highly expressed in CML cells, we also analyzed the STAP-1 promoter activity using a luciferase reporter construct and found that NFATc1 is involved in activating the STAP-1 promoter and inducing STAP-1 mRNA expression. Our results demonstrate that STAP-1 contributes to the BCR-ABL/STAT5 and BCR-ABL/Ca 2+ /NFAT signals to induce proliferation and STAP-1 mRNA expression in CML cells, respectively., Competing Interests: Declaration of competing interest The authors have no conflicting financial interests., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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27. CD47 promotes T-cell lymphoma metastasis by up-regulating AKAP13-mediated RhoA activation.

Author

Kitai Y, Ishiura M, Saitoh K, Matsumoto N, Owashi K, Yamada S, Muromoto R, Kashiwakura JI, Oritani K, and Matsuda T

Subjects
Cell Adhesion physiology, Cell Line, Tumor, Guanine Nucleotide Exchange Factors metabolism, Humans, Lymphoma, T-Cell pathology, Macrophages metabolism, Phagocytosis, Signal Transduction physiology, Up-Regulation physiology, A Kinase Anchor Proteins metabolism, CD47 Antigen metabolism, Lymphoma, T-Cell metabolism, Minor Histocompatibility Antigens metabolism, Neoplasm Metastasis pathology, Proto-Oncogene Proteins metabolism, rhoA GTP-Binding Protein metabolism
Abstract

CD47, a 50 kDa transmembrane protein, facilitates integrin-mediated cell adhesion and inhibits cell engulfment by phagocytes. Since CD47 blocking promotes engulfment of cancer cells by macrophages, it is important to clarify the mechanism of CD47 signaling in order to develop treatments for diseases involving CD47-overexpressing cancer cells, including breast cancer and lymphoma. Here, we show that CD47 plays an essential role in T-cell lymphoma metastasis by up-regulating basal RhoA activity independent of its anti-phagocytic function. CD47 interacts with AKAP13, a RhoA-specific guanine nucleotide exchange factor (GEF), and facilitates AKAP13-mediated RhoA activation. Our study shows that CD47 has a novel function on the AKAP13-RhoA axis and suggests that CD47-AKAP13 interaction would be a novel target for T-cell lymphoma treatment., (© The Japanese Society for Immunology. 2021. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2021
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29. Signal-transducing adaptor protein-2 delays recovery of B lineage lymphocytes during hematopoietic stress.

Author

Ichii M, Oritani K, Toda J, Saito H, Shi H, Shibayama H, Motooka D, Kitai Y, Muromoto R, Kashiwakura JI, Saitoh K, Okuzaki D, Matsuda T, and Kanakura Y

Subjects
Animals, B-Lymphocytes metabolism, Macrophages metabolism, Mice, Signal Transduction, Adaptor Proteins, Signal Transducing genetics, Adaptor Proteins, Signal Transducing metabolism, Hematopoietic Stem Cell Transplantation
Abstract

Signal-transducing adaptor protein-2 (STAP-2) was discovered as a C-FMS/M-CSFR interacting protein and subsequently found to function as an adaptor of signaling or transcription factors. These include STAT5, MyD88 and IκB kinase in macrophages, mast cells, and T cells. There is additional information about roles for STAP-2 in several types of malignant diseases including chronic myeloid leukemia, however, none have been reported concerning B lineage lymphocytes. We have now exploited gene targeted and transgenic mice to address this lack of knowledge, and demonstrated that STAP-2 is not required under normal, steady-state conditions. However, recovery of B cells following transplantation was augmented in the absence of STAP-2. This appeared to be restricted to cells of B cell lineage with myeloid rebound noted as unremarkable. Furthermore, all hematological parameters were observed to be normal once recovery from transplantation was complete. Furthermore, overexpression of STAP-2, specifically in lymphoid cells, resulted in reduced numbers of late-stage B cell progenitors within the bone marrow. While numbers of mature peripheral B and T cells were unaffected, recovery from sub-lethal irradiation or transplantation was dramatically reduced. Lipopolysaccharide (LPS) normally suppresses B precursor expansion in response to interleukin 7, however, STAP-2 deficiency made these cells more resistant. Preliminary RNA-Seq analyses indicated multiple signaling pathways in B progenitors as STAP-2-dependent. These findings suggest that STAP-2 modulates formation of B lymphocytes in demand conditions. Further study of this adapter protein could reveal ways to speed recovery of humoral immunity following chemotherapy or transplantation.

Published
2021
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30. Graft-versus-host disease develops in mice transplanted with lymphocyte-depleted bone marrow cells from signal-transducing adaptor protein-2 transgenic mice.

Author

Saito H, Ichii M, Toda J, Kitai Y, Muromoto R, Kashiwakura JI, Saitoh K, Tanimura A, Yokota T, Shibayama H, Matsuda T, Oritani K, Kanakura Y, and Hosen N

Subjects
Acute Disease, Animals, Lymphocyte Count, Major Histocompatibility Complex, Mice, Transgenic, T-Lymphocytes, Regulatory immunology, Transplantation, Homologous, Adaptor Proteins, Signal Transducing metabolism, Bone Marrow Cells immunology, Bone Marrow Transplantation, Graft vs Host Disease immunology, Lymphocyte Depletion
Abstract

Graft-versus-host disease (GVHD) is the most frequent complication after allogeneic hematopoietic stem cell transplantation (HSCT), and is one of the major causes of non-relapse mortality. Transferred mature lymphocytes are thought to be responsible for GVHD based on the findings that mice transplanted with lymphocyte-depleted bone marrow (BM) cells from MHC-mismatched donors do not develop GVHD. However, we found that overexpression of signal-transducing adaptor protein (STAP)-2 in lymphoid cells could induce GVHD after lymphocyte-depleted BM transplantation. To examine the function of STAP-2, which has been shown to play an important role in development and function of lymphocytes, in GVHD, we transplanted BM cells from STAP-2 deficient, or Lck promoter/IgH enhancer-driven STAP-2 transgenic (Tg) mice into MHC-mismatched recipients. Unexpectedly, mice transplanted with lymphocyte-depleted BM cells from STAP-2 Tg mice developed severe acute GVHD with extensive colitis and atrophy of thymus, while no obvious GVHD developed in mice transplanted with the wild type or STAP-2 deficient graft. Furthermore, mice transplanted with lymphocyte-depleted BM cells from the syngeneic STAP-2 Tg mice developed modest GVHD with colitis and atrophy of thymus. These results suggest that STAP-2 overexpression may enhance survival of allo-, and even auto-, reactive lymphocytes derived from engrafted hematopoietic progenitor cells in lethally irradiated mice, and that clarification of the mechanism may help understanding induction of immune tolerance after HSCT., Competing Interests: Declaration of competing interest The authors declare no competing financial interest., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2021
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31. Synthesis of Resolvin E1 and Its Conformationally Restricted Cyclopropane Congeners with Potent Anti-Inflammatory Effect.

Author

Ishimura K, Fukuda H, Fujiwara K, Muromoto R, Hirashima K, Murakami Y, Watanabe M, Ishihara J, Matsuda T, and Shuto S

Abstract

RvE1 ( 1 ) is an endogenous lipid mediator with very potent anti-inflammatory activity, which is due to the inhibition of neutrophil chemotaxis and inflammatory cytokine production and the promotion of macrophage phagocytosis. On the basis of the conformational analysis of RvE1, we designed its four cyclopropane congeners ( 2a - d ), in which the conformationally flexible terminal C1-C4 moiety of RvE1 was rigidified by introducing stereoisomeric cyclopropanes. The four congeners and also RvE1 were efficiently synthesized via a common synthetic route. The evaluation of the anti-inflammatory effects of the compounds in mice resulted in the identification of trans -β-CP-RvE1 ( 2d ), which was significantly more active than RvE1, as a potential lead for anti-inflammatory drugs of a novel mechanism of action., Competing Interests: The authors declare no competing financial interest., (© 2021 American Chemical Society.)

Published
2021
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32. Therapeutic Advantage of Tyk2 Inhibition for Treating Autoimmune and Chronic Inflammatory Diseases.

Author

Muromoto R, Shimoda K, Oritani K, and Matsuda T

Subjects
Animals, Autoimmune Diseases enzymology, Chronic Disease, Humans, Inflammation enzymology, Autoimmune Diseases drug therapy, Inflammation drug therapy, TYK2 Kinase antagonists & inhibitors
Abstract

Tyrosine kinase 2 (Tyk2) is a member of the Janus family of protein tyrosine kinases (Jaks). Tyk2 associates with interferon (IFN)-α, IFN-β, interleukin (IL)-6, IL-10, IL-12, and IL-23 receptors and mediates their downstream signaling pathways. Based on our data using Tyk2-deficient mice and cells, Tyk2 plays crucial roles in the differentiation, maintenance, and function of T helper 1 (Th1) and Th17 cells, and its dysregulation may promote autoimmune and/or inflammatory diseases. IFN-α-induced growth inhibition of B lymphocyte progenitors is dependent on Tyk2-mediated signals to regulate death-associated protein (Daxx) nuclear localization and Daxx-promyelocytic leukemia protein interactions. Tyk2-deficient mice show impaired constitutive production of type I IFNs by macrophages under steady-state conditions. When heat-killed Cutibacterium acnes is injected intraperitoneally, Tyk2-deficient mice show less granuloma formation through enhanced prostaglandin E 2 and protein kinase A activities, leading to high IL-10 production by macrophages. Thus, Tyk2 is widely involved in the immune and inflammatory response at multiple events; therefore, Tyk2 is likely to be a suitable target for treating patients with autoimmune and/or chronic inflammatory diseases. Clinical trials of Tyk2 inhibitors have shown higher response rates and improved tolerability in the treatment of patients with psoriasis and inflammatory bowel diseases. Taken together, Tyk2 inhibition has great potential for clinical application in the management of a variety of diseases.

Published
2021
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33. Pivotal Role of Signal-Transducing Adaptor Protein-2 in Pathogenesis of Autoimmune Hepatitis.

Author

Sasaki Y, Saitoh K, Kagohashi K, Kitai Y, Muromoto R, Oritani K, Kashiwakura JI, and Matsuda T

Subjects
Animals, Apoptosis, Caspase 3 metabolism, Concanavalin A, Disease Models, Animal, Female, Liver metabolism, Lymphocytes metabolism, Male, Mice, Inbred C57BL, Mice, Knockout, Necrosis, Signal Transduction, Up-Regulation, Mice, Adaptor Proteins, Signal Transducing metabolism, Fas Ligand Protein metabolism, Hepatitis, Autoimmune metabolism, Interferon-gamma metabolism, Liver pathology
Abstract

Signal-transducing adaptor protein-2 (STAP-2) is an adaptor protein involved in inflammatory and immune responses, such as inflammatory bowel disease and allergic responses. In this study, we investigated the role of STAP-2 in the pathogenesis of autoimmune hepatitis. After intravenous injection of concanavalin A (ConA), STAP-2 knock out (KO) mice showed more severe liver necrosis along with substantial lymphocyte infiltration compared to wild type (WT) mice. Serum alanine aminotransferase levels were significantly higher in ConA-injected STAP-2 KO mice than in WT mice. Levels of interferon-γ (IFN-γ), an important factor for liver necrosis, were also significantly increased in sera of STAP-2 KO mice compared to WT mice after ConA injection. Statistically significant upregulation of Fas ligand (FasL) expression was observed in the livers of ConA-injected STAP-2 KO mice compared to WT mice. In accordance with these results, apoptotic signals were facilitated in STAP-2 KO mice compared to WT mice after ConA injection. Correctively, these results suggest that STAP-2 is involved in the pathogenesis of autoimmune hepatitis by regulating the expression of FasL and the production of IFN-γ.

Published
2021
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34. Expression of signal-transducing adaptor protein-1 attenuates experimental autoimmune hepatitis via down-regulating activation and homeostasis of invariant natural killer T cells.

Author

Kashiwakura JI, Saitoh K, Ihara T, Sasaki Y, Kagohashi K, Enohara S, Morioka Y, Watarai H, Muromoto R, Kitai Y, Iwabuchi K, Oritani K, and Matsuda T

Subjects
Animals, Concanavalin A, Cytokines biosynthesis, Galactosylceramides metabolism, Mice, Inbred C57BL, Mice, Knockout, Adaptor Proteins, Signal Transducing metabolism, Down-Regulation, Hepatitis, Autoimmune immunology, Homeostasis, Natural Killer T-Cells immunology
Abstract

Objective: Signal-transducing adaptor protein (STAP) family members function as adaptor molecules and are involved in several events during immune responses. Notably however, the biological functions of STAP-1 in other cells are not known. We aimed to investigate the functions of STAP-1 in invariant natural killer T (iNKT) cells and iNKT cell-dependent hepatitis., Methods: We employed concanavalin A (Con A)-induced hepatitis and α-galactosylceramide (α-GalCer)-induced hepatitis mouse models, both are models of iNKT cell-dependent autoimmune hepatitis, and STAP-1 overexpressing 2E10 cells to investigate the role of STAP-1 in iNKT cell activation in vivo an in vitro, respectively., Results: After Con A- or α-GalCer-injection, hepatocyte necrotic areas and plasma alanine aminotransferase elevation were more severe in STAP-1 knockout (S1KO) mice and milder in lymphocyte-specific STAP-1 transgenic (S1Tg) mice, as compared to wild-type (WT) mice. Two events that may be related to Con A-induced and/or α-GalCer-induced hepatitis were influenced by STAP-1 manipulation. One is that iNKT cell populations in the livers and spleens were increased in S1KO mice and were decreased in S1Tg mice. The other is that Con A-induced interleukin-4 and interferon-γ production was attenuated by STAP-1 overexpression. These effects of STAP-1 were confirmed using 2E10 cells overexpressing STAP-1 that showed impairment of interleukin-4 and interferon-γ production as well as phosphorylation of Akt and mitogen-activated protein kinases in response to Con A stimulation., Conclusions: These results conclude that STAP-1 regulates iNKT cell maintenance/activation, and is involved in the pathogenesis of autoimmune hepatitis., Competing Interests: The authors have declared that no competing interests exist.

Published
2020
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35. Synthesis of Resolvin E3, a Proresolving Lipid Mediator, and Its Deoxy Derivatives: Identification of 18-Deoxy-resolvin E3 as a Potent Anti-Inflammatory Agent.

Author

Fukuda H, Ikeda H, Muromoto R, Hirashima K, Ishimura K, Fujiwara K, Aoki-Saito H, Hisada T, Watanabe M, Ishihara J, Matsuda T, and Shuto S

Subjects
Animals, Mice, Anti-Inflammatory Agents pharmacology, Fatty Acids, Unsaturated
Abstract

We synthesized RvE3 and its deoxy derivatives, 17-deoxy-RvE3 and 18-deoxy-RvE3, by a common route via Sonogashira coupling as a key step. The evaluation of their anti-inflammatory activities revealed that 18-deoxy-RvE3 was remarkably more potent than the parent RvE3 and significantly active at a 300 fg dose in mice; additionally, 17-deoxy-RvE3 was significantly less potent than the parent RvE3. For the first time, we found that the 17-hydroxy group of RvE3 is very important for anti-inflammatory activity.

Published
2020
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36. Signal-transducing adapter protein-1 is required for maintenance of leukemic stem cells in CML.

Author

Toda J, Ichii M, Oritani K, Shibayama H, Tanimura A, Saito H, Yokota T, Motooka D, Okuzaki D, Kitai Y, Muromoto R, Kashiwakura JI, Matsuda T, Hosen N, and Kanakura Y

Subjects
Adaptor Proteins, Signal Transducing metabolism, Animals, Cell Line, Tumor, Fusion Proteins, bcr-abl genetics, Fusion Proteins, bcr-abl metabolism, Gene Expression Profiling methods, Humans, K562 Cells, Kaplan-Meier Estimate, Leukemia, Myelogenous, Chronic, BCR-ABL Positive metabolism, Leukemia, Myelogenous, Chronic, BCR-ABL Positive pathology, Mice, Inbred C57BL, Mice, Knockout, Neoplastic Stem Cells pathology, Protein Binding, Proto-Oncogene Proteins c-bcl-2 genetics, Proto-Oncogene Proteins c-bcl-2 metabolism, Signal Transduction genetics, Adaptor Proteins, Signal Transducing genetics, Apoptosis genetics, Disease Models, Animal, Gene Expression Regulation, Leukemic, Leukemia, Myelogenous, Chronic, BCR-ABL Positive genetics, Neoplastic Stem Cells metabolism
Abstract

The family of signal-transducing adapter proteins (STAPs) has been reported to be involved in a variety of intracellular signaling pathways and implicated as transcriptional factors. We previously cloned STAP-2 as a c-Fms interacting protein and explored its effects on chronic myeloid leukemia (CML) leukemogenesis. STAP-2 binds to BCR-ABL, upregulates BCR-ABL phosphorylation, and activates its downstream molecules. In this study, we evaluated the role of STAP-1, another member of the STAP family, in CML pathogenesis. We found that the expression of STAP-1 is aberrantly upregulated in CML stem cells (LSCs) in patients' bone marrow. Using experimental model mice, deletion of STAP-1 prolonged the survival of CML mice with inducing apoptosis of LSCs. The impaired phosphorylation status of STAT5 by STAP-1 ablation leads to downregulation of antiapoptotic genes, Bcl-2 and Bcl-xL. Interestingly, transcriptome analyses indicated that STAP-1 affects several signaling pathways related to BCR-ABL, JAK2, and PPARγ. This adapter protein directly binds to not only BCR-ABL, but also STAT5 proteins, showing synergistic effects of STAP-1 inhibition and BCR-ABL or JAK2 tyrosine kinase inhibition. Our results identified STAP-1 as a regulator of CML LSCs and suggested it to be a potential therapeutic target for CML.

Published
2020
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37. Design and Synthesis of Benzene Congeners of Resolvin E2, a Proresolving Lipid Mediator, as Its Stable Equivalents.

Author

Murakami Y, Fukuda H, Muromoto R, Hirashima K, Ishimura K, Fujiwara K, Ishihara J, Matsuda T, Watanabe M, and Shuto S

Abstract

Resolvins (Rvs) are highly potent anti-inflammatory lipid mediators that are chemically and biologically unstable because of their polyunsaturated structures. To address this issue, we designed benzene congeners of RvE2, i.e., o -, m -, and p -BZ-RvE2s, as stable equivalents of RvE2 by replacing the unstable skipped diene moiety with a benzene ring on the basis of computational conformation studies and synthesized these congeners via a short common route through two Stille couplings. o -BZ-RvE2 exhibited more potent anti-inflammatory activity and much higher metabolic stability than RvE2. Thus, o -BZ-RvE2 was identified as a stable equivalent of RvE2, which is useful as a lead for anti-inflammatory drugs with a new mechanism of action as well as a biotool for investigating RvE2-mediated inflammation resolving pathways., Competing Interests: The authors declare no competing financial interest., (Copyright © 2020 American Chemical Society.)

Published
2020
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38. The mechanism of Tyk2 deficiency-induced immunosuppression in mice involves robust IL-10 production in macrophages.

Author

Hirashima K, Muromoto R, Minoguchi H, Matsumoto T, Kitai Y, Kashiwakura JI, Shimoda K, Oritani K, and Matsuda T

Abstract

Macrophages are highly plastic in their pro-inflammatory/anti-inflammatory roles. Type I and II interferons (IFNs) are known to modulate macrophage activation. Tyrosine kinase 2 (Tyk2) has an intimate relationship with type I and II IFN signaling. Animal studies have shown that Tyk2 knock-out (KO) in mice is associated with reduced inflammatory responses in various mouse models of diseases. To investigate the role of Tyk2 in inflammation in more detail, we intraperitoneally injected heat-killed Propionibacterium acnes (P. acnes) to Tyk2 KO mice. P. acnes-induced acute peritoneal inflammation, assessed by neutrophil infiltration, was reduced in Tyk2 KO mice. The reduction was accompanied with diminished productions of inflammatory cytokines and an enhanced production of anti-inflammatory IL-10. Unexpectedly, pre-treatment of wild-type mice with the neutralizing antibodies for IFNs did not affect P. acnes-induced neutrophil infiltration. A neutralizing antibody for the IL-10 receptor in Tyk2 KO mice restored P. acnes-induced peritoneal inflammation. Enhanced production of IL-10 from Tyk2 KO peritoneal cells was suppressed by either the cyclooxygenase inhibitor diclofenac or protein kinase A inhibitor H-89. The level of prostaglandin E 2 (PGE 2 ) in the steady-state peritoneal cavity in Tyk2 KO mice was higher than that in wild-type mice. Tyk2 KO macrophages showed an enhanced CREB phosphorylation induced by P. acnes plus PGE 2 . Taken together, these results showed that Tyk2 deficiency potentiates the PGE 2 -protein kinase A-IL-10 pathway in macrophages, and thereby contributes to potentiation of the immunosuppressive phenotype., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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39. Dimethyl fumarate dampens IL-17-ACT1-TBK1 axis-mediated phosphorylation of Regnase-1 and suppresses IL-17-induced IκB-ζ expression.

Author

Ohgakiuchi Y, Saino Y, Muromoto R, Komori Y, Sato A, Hirashima K, Kitai Y, Kashiwakura JI, Oritani K, and Matsuda T

Subjects
Cell Line, Humans, Phosphorylation drug effects, RNA Stability drug effects, Subcellular Fractions drug effects, Subcellular Fractions metabolism, Adaptor Proteins, Signal Transducing genetics, Adaptor Proteins, Signal Transducing metabolism, Dimethyl Fumarate pharmacology, Gene Expression Regulation drug effects, Interleukin-17 metabolism, Protein Serine-Threonine Kinases metabolism, Ribonucleases metabolism
Abstract

The signaling elicited by the cytokine interleukin-17A (IL-17) is important for antimicrobial defense responses, whereas excessive IL-17 production leads to autoimmune diseases such as psoriasis and multiple sclerosis. IL-17-induced stabilization of mRNAs has been recognized as a unique and important feature of IL-17 signaling. Previously, we demonstrated that IL-17 signaling protein ACT1 is required to counteract constitutive inhibitor of nuclear factor kappa B zeta (IκB-ζ) mRNA degradation by the ribonuclease Regnase-1. However, information about the mechanism of mRNA stabilization in IL-17-stimulated cells remains insufficient. In the present study, we aimed to clarify the mechanism in more detail and identify an agent that can inhibit IL-17-induced mRNA stabilization. Experiments using small interfering RNA and an inhibitor of TANK-binding kinase 1 (TBK1) revealed that TBK1 was required for IκB-ζ mRNA stabilization through Regnase-1 phosphorylation. Intriguingly, this TBK1-mediated phosphorylation of Regnase-1 was suppressed by the addition of dimethyl fumarate (DMF), an electrophilic small molecule that has been used to treat IL-17-related autoimmune diseases. Confocal microscopic observation of the cellular localization of ACT1 revealed that DMF treatment resulted in the disappearance of ACT1 nuclear dots and perinuclear accumulation of ACT1. These results suggested that DMF is a small molecule that compromises IL-17-induced activation of the ACT1-TBK1 pathway, thereby inhibiting IL-17-induced mRNA stabilization., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published
2020
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40. IκB-ζ Expression Requires Both TYK2/STAT3 Activity and IL-17-Regulated mRNA Stabilization.

Author

Muromoto R, Tawa K, Ohgakiuchi Y, Sato A, Saino Y, Hirashima K, Minoguchi H, Kitai Y, Kashiwakura JI, Shimoda K, Oritani K, and Matsuda T

Subjects
3' Untranslated Regions, Adaptor Proteins, Signal Transducing antagonists & inhibitors, Animals, Disease Models, Animal, Gene Knockout Techniques, HeLa Cells, Humans, Keratinocytes metabolism, Mice, Mice, Inbred BALB C, Mice, Knockout, Protein Kinase Inhibitors pharmacology, Psoriasis chemically induced, Psoriasis metabolism, RNA, Messenger metabolism, Ribonucleases metabolism, TYK2 Kinase genetics, Transcription Factors metabolism, Adaptor Proteins, Signal Transducing metabolism, Interleukin-17 metabolism, RNA Stability, STAT3 Transcription Factor metabolism, TYK2 Kinase metabolism
Abstract

Cytokine IL-17A (IL-17) acts on various cell types, including epidermal keratinocytes, and induces antimicrobial peptide and chemokine production to elicit antibacterial and antifungal defense responses. Excess IL-17 leads to inflammatory skin diseases such as psoriasis. The IκB family protein IκB-ζ mediates IL-17-induced responses. However, the mechanism controlling IκB-ζ expression in IL-17-stimulated cells remains elusive. In this study, we showed that JAK kinase TYK2 positively regulates IL-17-induced IκB-ζ expression. TYK2-deficient mice showed reduced inflammation and concomitant reduction of IκB-ζ mRNA compared with wild-type mice in imiquimod-induced skin inflammation. The analysis of the IκB-ζ promoter activity using human cell lines (HaCaT and HeLa) revealed that catalytic activity of TYK2 and its substrate transcription factor STAT3, but not IL-17, is required for IκB-ζ promoter activity. In contrast, IL-17-induced signaling, which did not activate STAT3, posttranscriptionally stabilized IκB-ζ mRNA via its 3'-untranslated region. IL-17 signaling protein ACT1 was required to counteract constitutive IκB-ζ mRNA degradation by RNase Regnase-1. These results suggested that transcriptional activation by TYK2-STAT3 pathway and mRNA stabilization by IL-17-mediated signals act separately from each other but complementarily to achieve IκB-ζ induction. Therefore, JAK/TYK2 inhibition might be of significance in regulation of IL-17-induced inflammatory reactions., (Copyright © 2019 The Authors.)

Published
2019
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41. STAP-2 positively regulates FcεRI-mediated basophil activation and basophil-dependent allergic inflammatory reactions.

Author

Kashiwakura JI, Yamashita S, Yoshihara M, Inui K, Saitoh K, Sekine Y, Muromoto R, Kitai Y, Oritani K, and Matsuda T

Subjects
Adaptor Proteins, Signal Transducing deficiency, Animals, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Mice, Knockout, Adaptor Proteins, Signal Transducing immunology, Basophils immunology, Hypersensitivity immunology, Immunoglobulin E immunology, Inflammation immunology, Receptors, IgE immunology
Abstract

Basophils are an important cell type in the regulation of Th2 immune responses. Recently, we revealed that signal-transducing adaptor protein-2 (STAP-2) negatively regulates mast cell activation via FcεRI. However, the role of STAP-2 in basophil maturation and activation remained unclear. In this study, we demonstrated the normal development of basophils in STAP-2-deficient (STAP-2-/-) mice. We also demonstrated in vitro normal basophil differentiation and FcεRI expression in STAP-2-/- mice, suggesting that STAP-2 is dispensable for basophil maturation. Using bone marrow-derived cultured basophils (BMBs), we showed that degranulation and cytokine production of STAP-2-/- BMBs were lower than those of wild-type (WT) BMBs upon stimulation with IgE/Ag. In accordance with the reduction of degranulation and cytokine production, phosphorylation of several signal molecules such as Lyn, PLC-γ2 and Erk was reduced in STAP-2-/- BMBs after stimulation via FcεRI. Finally, it was observed that IgE-dependent chronic allergic inflammation of STAP-2-/- mice was significantly inhibited compared with WT mice. Taken together, we conclude that STAP-2 is an adaptor molecule that positively regulates FcεRI-mediated basophil activation and basophil-dependent allergic inflammatory reactions., (© The Japanese Society for Immunology. 2019. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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42. Synthesis of Chiral cis-Cyclopropane Bearing Indole and Chromone as Potential TNFα Inhibitors.

Author

Kanada R, Tanabe M, Muromoto R, Sato Y, Kuwahara T, Fukuda H, Arisawa M, Matsuda T, Watanabe M, and Shuto S

Subjects
Chemistry Techniques, Synthetic, Cyclopropanes chemistry, Drug Design, Stereoisomerism, Chromones chemistry, Cyclopropanes chemical synthesis, Cyclopropanes pharmacology, Indoles chemistry, Tumor Necrosis Factor-alpha antagonists & inhibitors
Abstract

Conformationally restricted analogues of SPD-304, the first small-molecule TNFα inhibitor, in which two heteroaryl groups, indole and chromone, are connected by chiral methyl- or ethyl- cis-cyclopropane, were designed. Synthesis of these molecules was achieved via Suzuki-Miyaura or Stille coupling reactions with chiral bromomethylenecyclopropane or iodovinyl- cis-cyclopropane as the substrate, both of which were prepared from chiral methylenecyclopropane as a common intermediate, constructing the heteroaryl-methyl or -ethyl- cis-cyclopropane structures as key steps. This study presents an efficient synthesis of a series of chiral cis-cyclopropane conjugates with two heteroaryl groups.

Published
2018
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43. STAP-2 protein promotes prostate cancer growth by enhancing epidermal growth factor receptor stabilization.

Author

Kitai Y, Iwakami M, Saitoh K, Togi S, Isayama S, Sekine Y, Muromoto R, Kashiwakura JI, Yoshimura A, Oritani K, and Matsuda T

Subjects
Animals, ErbB Receptors metabolism, Humans, Male, Mice, Inbred BALB C, Phosphorylation, Prostatic Neoplasms metabolism, Protein Stability, Signal Transduction, Tumor Cells, Cultured, Ubiquitination, Xenograft Model Antitumor Assays, Adaptor Proteins, Signal Transducing metabolism, Cell Proliferation, ErbB Receptors chemistry, Phosphoproteins metabolism, Prostatic Neoplasms pathology
Abstract

Signal-transducing adaptor family member-2 (STAP-2) is an adaptor protein that regulates various intracellular signaling pathways and promotes tumorigenesis in melanoma and breast cancer cells. However, the contribution of STAP-2 to the behavior of other types of cancer cells is unclear. Here, we show that STAP-2 promotes tumorigenesis of prostate cancer cells through up-regulation of EGF receptor (EGFR) signaling. Tumor growth of a prostate cancer cell line, DU145, was strongly decreased by STAP-2 knockdown. EGF-induced gene expression and phosphorylation of AKT, ERK, and STAT3 were significantly decreased in STAP-2-knockdown DU145 cells. Mechanistically, we found that STAP-2 interacted with EGFR and enhanced its stability by inhibiting c-CBL-mediated EGFR ubiquitination. Our results indicate that STAP-2 promotes prostate cancer progression via facilitating EGFR activation., (© 2017 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2017
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44. Biochanin A enhances RORγ activity through STAT3-mediated recruitment of NCOA1.

Author

Takahashi M, Muromoto R, Kojima H, Takeuchi S, Kitai Y, Kashiwakura JI, and Matsuda T

Subjects
Animals, Cells, Cultured, Dose-Response Relationship, Drug, Female, Mice, Mice, Inbred C57BL, Structure-Activity Relationship, Genistein pharmacology, Nuclear Receptor Coactivator 1 metabolism, Nuclear Receptor Subfamily 1, Group F, Member 3 metabolism, STAT3 Transcription Factor metabolism
Abstract

Interleukin (IL)-17-producing T cells play important roles in autoimmunity, chronic inflammation and host protection against extracellular bacteria and fungi. The retinoic acid receptor-related orphan receptors (ROR) α and γ are key regulators of the IL-17-producing phenotype. We previously showed that the isoflavone biochanin A enhanced ROR-mediated transcriptional activity. Here, we investigated the possible mechanisms underlying this ROR activation. Biochanin A-treated murine thymoma EL4 and primary splenocytes demonstrated enhanced induction of IL-17. Biochanin A also induced tyrosine-phosphorylation of signal transducer and activator of transcription 3 (STAT3) in these cells. Stable knockdown of either RORγ or STAT3 in EL4 cells canceled biochanin A-induced upregulation of IL-17 expression. Importantly, biochanin A enhanced complex formation between RORγ and STAT3 or nuclear-receptor coactivator 1 (NCOA1). Furthermore, the biochanin A-induced RORγ-NCOA1 complex was disrupted by a dominant negative mutant of STAT3 or by the STAT3 specific inhibitor Stattic. These results suggest that biochanin A activates RORγ-dependent IL-17 transcription through the enhancement of STAT3 phosphorylation and STAT3-mediated recruitment of NCOA1 to RORγ., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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45. A Novel α9 Integrin Ligand, XCL1/Lymphotactin, Is Involved in the Development of Murine Models of Autoimmune Diseases.

Author

Matsumoto N, Kon S, Nakatsuru T, Miyashita T, Inui K, Saitoh K, Kitai Y, Muromoto R, Kashiwakura JI, Uede T, and Matsuda T

Subjects
Animals, Antibodies, Neutralizing immunology, Arthritis, Experimental immunology, Cell Adhesion, Cell Movement, Disease Models, Animal, Encephalomyelitis, Autoimmune, Experimental physiopathology, Encephalomyelitis, Autoimmune, Experimental therapy, Integrin alpha Chains immunology, Ligands, Mice, Mice, Inbred C57BL, NIH 3T3 Cells, Rhabdomyosarcoma immunology, Chemokines, C immunology, Chemokines, C metabolism, Encephalomyelitis, Autoimmune, Experimental immunology, Integrin alpha Chains metabolism
Abstract

The integrin α9β1 is a key receptor involved in the development of autoimmune diseases. However, the detailed mechanism for the association of α9β1 integrin with its ligands remains unclear. In this study, we introduce XCL1/lymphotactin, a member of the chemokine family, as a novel ligand for α9 integrin. Using α9 integrin-overexpressing NIH3T3 cells and endogenously α9 integrin-expressing human rhabdomyosarcoma cells, the interaction between XCL1 and α9 integrin was confirmed by pull-down assays. XCL1 enhanced α9 integrin-dependent cell migration of these cells, thus acting on α9 integrin as a chemoattractant. We also analyzed the in vivo function of XCL1 in the development of anti-type II collagen Ab-induced inflammatory arthritis (CAIA) in BALB/c mice and experimental autoimmune encephalomyelitis in C57BL/6 mice, because α9 integrin is involved in these autoimmune disease models. In CAIA, recombinant XCL1 aggravated the disease and this exacerbation was inhibited by an anti-α9 integrin Ab. An XCL1-neutralizing Ab produced in this study also ameliorated CAIA. Furthermore, the XCL1-neutralizing Ab abrogated the disease progression in experimental autoimmune encephalomyelitis. Therefore, to our knowledge this study provides the first in vitro and in vivo evidence that the interaction between XCL1 and α9 integrin has an important role for autoimmune diseases., (Copyright © 2017 by The American Association of Immunologists, Inc.)

Published
2017
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46. STAP-2 interacts with Pyk2 and enhances Pyk2 activity in T-cells.

Author

Saitoh K, Tsuchiya T, Kashiwakura JI, Muromoto R, Kitai Y, Sekine Y, Oritani K, and Matsuda T

Subjects
Humans, Tumor Cells, Cultured, Adaptor Proteins, Signal Transducing metabolism, Focal Adhesion Kinase 2 metabolism, Phosphoproteins metabolism, T-Lymphocytes metabolism
Abstract

STAP-2 is an adaptor molecule regulating several signaling pathways, including TLRs and cytokine/chemokine receptors in immune cells. We previously reported that STAP-2 enhances SDF-1α-induced Vav1/Rac1-mediated T-cell chemotaxis. However, the detailed mechanisms of STAP-2 involvement in enhancing T-cell chemotaxis remain unknown. In the present study, we demonstrate that STAP-2 directly interacts with Pyk2, which is a key molecule in the regulation of SDF-1α/CXCR4-mediated T-cell chemotaxis, and increases phosphorylation of Pyk2. Pyk2 itself can induce STAP-2 Y250 phosphorylation, and this phosphorylation is critical for maximal interactions between STAP-2 and Pyk2. Finally, SDF-1α-induced T-cell chemotaxis is inhibited by treatment with Pyk2 siRNA or AG17, an inhibitor of Pyk2, in Jurkat cells overexpressing STAP-2. Taken together, the Pyk2/STAP-2 interaction is a novel mechanism to regulate SDF-1α-dependent T-cell chemotaxis., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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47. Design and Synthesis of Cyclopropane Congeners of Resolvin E2, an Endogenous Proresolving Lipid Mediator, as Its Stable Equivalents.

Author

Fukuda H, Muromoto R, Takakura Y, Ishimura K, Kanada R, Fushihara D, Tanabe M, Matsubara K, Hirao T, Hirashima K, Abe H, Arisawa M, Matsuda T, and Shuto S

Abstract

Lipid chemical mediator resolvins with highly potent anti-inflammatory activity can be leads to develop novel anti-inflammatory drugs; however, they are unstable in oxygen due to their characteristic polyunsaturated structures. To solve the problem, CP-RvE2 has been designed and synthesized in which the cis-olefin of RvE2 was replaced with a cyclopropane. CP-RvE2s were much more stable than RvE2 against autoxidation and equipotent or more potent than RvE2. CP-RvE2s were successfully identified as stable equivalents of RvE2.

Published
2016
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48. IL-17A plays a central role in the expression of psoriasis signature genes through the induction of IκB-ζ in keratinocytes.

Author

Muromoto R, Hirao T, Tawa K, Hirashima K, Kon S, Kitai Y, and Matsuda T

Subjects
Adaptor Proteins, Signal Transducing, Cell Line, Humans, Keratinocytes pathology, Psoriasis pathology, Gene Expression Regulation immunology, I-kappa B Proteins immunology, Interleukin-17 immunology, Keratinocytes immunology, Nuclear Proteins immunology, Psoriasis immunology
Abstract

In psoriasis lesions, a diverse mixture of cytokines is up-regulated that influence each other generating a complex inflammatory situation. Although this is the case, the inhibition of IL-17A alone showed unprecedented clinical results in patients, indicating that IL-17A is a critical inducer of psoriasis pathogenesis. To elucidate IL-17A-driven keratinocyte-intrinsic signaling pathways, we treated monolayers of normal human epidermal keratinocytes in vitro with a mixture of six cytokines (IL-17A, TNF-α, IL-17C, IL-22, IL-36γ and IFN-γ) involved in psoriasis to mimic the inflammatory milieu in psoriasis lesions. Microarray and gene set enrichment analysis revealed that this cytokine mixture induced similar gene expression changes with the previous transcriptome studies using psoriasis lesions. Importantly, we identified a set of IL-17A-regulated genes in keratinocytes, which recapitulate typical psoriasis genes exemplified by DEFB4A, S100A7, IL19 and CSF3, based on the differences in the expression profiles of cells stimulated with six cytokines versus cells stimulated with only five cytokines lacking IL-17A. Furthermore, a specific IL-17A-induced gene, NFKBIZ, which encodes IκB-ζ, a transcriptional regulator for NF-κB, was demonstrated to have a significant role for IL-17A-induced gene expression. Thus, we present novel in vitro data from normal human keratinocytes that would help elucidating the IL-17A-driven keratinocyte activation in psoriasis., (© The Japanese Society for Immunology. 2016. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2016
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49. Anti-IL-17A blocking antibody reduces cyclosporin A-induced relapse in experimental autoimmune encephalomyelitis mice.

Author

Saitoh K, Kon S, Nakatsuru T, Inui K, Ihara T, Matsumoto N, Kitai Y, Muromoto R, and Matsuda T

Abstract

Cyclosporin A (CsA) is effective at reducing pathogenic immune responses, but upon withdrawal of CsA the immune response often "rebounds" resulting in a relapse or exacerbation of disease. The mechanisms, cells and cytokines involved in the relapse or exacerbation after CsA withdrawal are unknown. We hypothesized that CsA withdrawal induces IL-17 production that could be responsible for relapse, and examined the effect of anti-IL-17A antibody on relapse induced after CsA withdrawal in mouse experimental autoimmune encephalomyelitis (EAE). CsA treatment markedly decreased the EAE disease score during the first episode, but augmented disease severity after CsA withdrawal, compared to untreated mice. After discontinuation of CsA the production of IL-17A was increased and the severity of relapse in EAE was reduced by treatment with anti-IL-17A antibody. These results suggest that the resumption of T cell immune responses after CsA withdrawal leads to a burst of IL-17A production that is at least partially responsible for relapse in EAE mice.

Published
2016
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50. A New STAT3-binding Partner, ARL3, Enhances the Phosphorylation and Nuclear Accumulation of STAT3.

Author

Togi S, Muromoto R, Hirashima K, Kitai Y, Okayama T, Ikeda O, Matsumoto N, Kon S, Sekine Y, Oritani K, and Matsuda T

Subjects
ADP-Ribosylation Factors genetics, Active Transport, Cell Nucleus drug effects, Active Transport, Cell Nucleus genetics, Cell Nucleus genetics, Gene Expression Regulation drug effects, HeLa Cells, Humans, Interleukin-6 pharmacology, Phosphorylation drug effects, Phosphorylation genetics, Protein Binding drug effects, Protein Binding genetics, STAT3 Transcription Factor genetics, ADP-Ribosylation Factors metabolism, Cell Nucleus metabolism, STAT3 Transcription Factor metabolism
Abstract

Signal transducer and activator of transcription 3 (STAT3) is involved in cell proliferation, differentiation, and cell survival during immune responses, hematopoiesis, neurogenesis, and other biological processes. STAT3 activity is regulated by a variety of mechanisms, including phosphorylation and nuclear translocation. To clarify the molecular mechanisms underlying the regulation of STAT3 activity, we performed yeast two-hybrid screening. We identified ARL3 (ADP-ribosylation factor-like 3) as a novel STAT3-binding partner. ARL3 recognizes the DNA-binding domain as well as the C-terminal region of STAT3 in vivo, and their binding was the strongest when both proteins were activated. Importantly, small interfering RNA-mediated reduction of endogenous ARL3 expression decreased IL-6-induced tyrosine phosphorylation, nuclear accumulation, and transcriptional activity of STAT3. These results indicate that ARL3 interacts with STAT3 and regulates the transcriptional activation of STAT3 by influencing its nuclear accumulation of STAT3., (© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published
2016
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