Your search keyword '"Kentaro Semba"' showing total 201 results

1. Aberrant accumulation of NIK promotes tumor growth by dysregulating translation and post-translational modifications in breast cancer

Author

Yusuke Hayashi, Jun Nakayama, Mizuki Yamamoto, Masashi Maekawa, Shinya Watanabe, Shigeki Higashiyama, Jun-ichiro Inoue, Yusuke Yamamoto, and Kentaro Semba

Subjects

NIK, Non-canonical NF-κB, Translation, Post-translational regulation, In vivo selection, Orthotopic xenograft, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background In vivo investigations with cancer cells have powerful tools to discover cancer progression mechanisms and preclinical candidate drugs. Among these in vivo experimental models, the establishment of highly malignancy cell lines with xenograft has been frequently used. However, few previous researches targeted malignancy-related genes whose protein levels translationally changed. Therefore, this study aimed to identify malignancy-related genes which contributed to cancer progression and changed at the protein level in the in vivo selected cancer cell lines. Methods We established the high malignancy breast cancer cell line (LM05) by orthotopic xenograft as an in vivo selection method. To explore the altered genes by translational or post-translational regulation, we analyzed the protein production by western blotting in the highly malignant breast cancer cell line. Functional analyses of the altered genes were performed by in vitro and in vivo experiments. To reveal the molecular mechanisms of the regulation with protein level, we evaluated post-translational modification by immunoprecipitation. In addition, we evaluated translational production by click reaction-based purification of nascent protein. Results As a result, NF-κB inducing kinase (NIK) increased at the protein level and promoted the nuclear localization of NF-κB2 (p52) and RelB in the highly malignant breast cancer cell line. The functional analyses indicated the NIK upregulation contributed to tumor malignancy via cancer-associated fibroblasts (CAFs) attraction and partially anti-apoptotic activities. Additionally, the immunoprecipitation experiment revealed that the ubiquitination of NIK decreased in LM05 cells. The decline in NIK ubiquitination was attributed to the translational downregulation of cIAP1. Conclusions Our study identified a dysregulated mechanism of NIK production by the suppression of NIK post-modification and cIAP1 translation. The aberrant NIK accumulation promoted tumor growth in the highly malignant breast cancer cell line.

Published

2023

2. Effect of lonidamine derivatives on the inhibition of transformed cell area expansion

Author

Megumi Aoyama, Taiki Homma, Ryohto Koharazawa, Yoshitomo Suhara, and Kentaro Semba

Subjects

Transformed cell, Cancer cells, Lonidamine, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Expansion of transformed cell area is regulated by the surrounding nontransformed cells. Lonidamine (LND) was recently found to regulate transformed cell area expansion through suppressing the cell motility of nontransformed cells; however, the structure–activity relationship between LND and this inhibitory activity has yet to be elucidated. We synthesized several LND derivatives and evaluated their inhibitory activity against the expansion of transformed cell area and found that the halogenation pattern on the benzene ring moiety, the carboxylic acid moiety, and the overall hydrophobicity of the molecule were correlated with inhibition activity. We also found that the localization of the tight junction protein, zonula occludens-1 (ZO-1), in nontransformed cells was significantly altered after treatment with the LND derivatives that displayed inhibitory activity. Further studies with LND derivatives and monitoring the localization of ZO-1 may help to develop more active compounds for suppressing transformed cell area expansion and lead to new anticancer treatments.

Published

2023

3. Ocular expression of cyclin‐dependent kinase 5 in patients with proliferative diabetic retinopathy

Author

Hiroki Sano, Kazuhiko Namekata, Masanori Niki, Kentaro Semba, Fumiko Murao, Takayuki Harada, and Yoshinori Mitamura

Subjects

Cyclin‐dependent kinase 5, Diabetic retinopathy, Peroxisome proliferator‐activated receptor gamma, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

ABSTRACT Aims/Introduction Inhibition of peroxisome proliferator‐activated receptor gamma (PPARγ) phosphorylation mediated by cyclin‐dependent kinase 5 (Cdk5) is one of the main mechanisms of action of antidiabetic drugs. In this study, we analyzed the ocular expression and activation of Cdk5 in patients with proliferative diabetic retinopathy (PDR). Materials and Methods The concentrations of PPARγ, Cdk5 and its activating subunit (p35) were determined in the vitreous body of 24 PDR and 63 control eyes by enzyme‐linked immunosorbent assay. In addition, the messenger ribonucleic acid and protein expression levels of PPARγ, Cdk5 and p35 were measured in proliferative neovascular membranes from seven PDR eyes and non‐neovascular epiretinal membranes from five control eyes by quantitative real‐time polymerase chain reaction and immunohistochemical analysis. Results PPARγ, Cdk5 and p35 concentrations in the vitreous body were significantly higher in the PDR group compared with the control group. There was also a positive significant correlation of Cdk5 with PPARγ and p35 in the PDR group. Furthermore, the messenger ribonucleic acid expression levels of PPARγ, Cdk5 and p35 in proliferative neovascular membranes were significantly higher in the PDR group compared with the control group. Immunostaining showed increased protein expression levels of PPARγ, Cdk5 and p35 in proliferative neovascular membranes in the PDR group compared with the control group. Conclusions Cdk5 activation is involved in PDR pathogenesis through PPARγ expression, and inhibition of Cdk5‐mediated PPARγ phosphorylation might be a new therapeutic target for treatment of PDR.

Published

2022

4. Tyrosine Kinase Inhibitor Profiling Using Multiple Forskolin-Responsive Reporter Cells

Author

Yamato Kasahara, Sakura Tamamura, Gen Hiyama, Motoki Takagi, Kazuya Nakamichi, Yuta Doi, Kentaro Semba, Shinya Watanabe, and Kosuke Ishikawa

Subjects

trap vector, reporter cell, panel analysis, forskolin, dasatinib, tyrosine kinase inhibitor, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

We have developed a highly sensitive promoter trap vector system using transposons to generate reporter cells with high efficiency. Using an EGFP/luciferase reporter cell clone responsive to forskolin, which is thought to activate adenylate cyclase, isolated from human chronic myelogenous leukemia cell line K562, we found several compounds unexpectedly caused reporter responses. These included tyrosine kinase inhibitors such as dasatinib and cerdulatinib, which were seemingly unrelated to the forskolin-reactive pathway. To investigate whether any other clones of forskolin-responsive cells would show the same response, nine additional forskolin-responsive clones, each with a unique integration site, were generated and quantitatively evaluated by luciferase assay. The results showed that each clone represented different response patterns to the reactive compounds. Also, it became clear that each of the reactive compounds could be profiled as a unique pattern by the 10 reporter clones. When other TKIs, mainly bcr-abl inhibitors, were evaluated using a more focused set of five reporter clones, they also showed unique profiling. Among them, dasatinib and bosutinib, and imatinib and bafetinib showed homologous profiling. The tyrosine kinase inhibitors mentioned above are approved as anticancer agents, and the system could be used for similarity evaluation, efficacy prediction, etc., in the development of new anticancer agents.

Published

2023

5. Metalloproteinase-Dependent and TMPRSS2-Independent Cell Surface Entry Pathway of SARS-CoV-2 Requires the Furin Cleavage Site and the S2 Domain of Spike Protein

Author

Mizuki Yamamoto, Jin Gohda, Ayako Kobayashi, Keiko Tomita, Youko Hirayama, Naohiko Koshikawa, Motoharu Seiki, Kentaro Semba, Tetsu Akiyama, Yasushi Kawaguchi, and Jun-ichiro Inoue

Subjects

SARS-CoV-2, furin, membrane fusion, metalloproteinase, virus entry, Microbiology, QR1-502

Abstract

ABSTRACT The ongoing global vaccination program to prevent SARS-CoV-2 infection, the causative agent of COVID-19, has had significant success. However, recently, virus variants that can evade the immunity in a host achieved through vaccination have emerged. Consequently, new therapeutic agents that can efficiently prevent infection from these new variants, and hence COVID-19 spread, are urgently required. To achieve this, extensive characterization of virus-host cell interactions to identify effective therapeutic targets is warranted. Here, we report a cell surface entry pathway of SARS-CoV-2 that exists in a cell type-dependent manner and is TMPRSS2 independent but sensitive to various broad-spectrum metalloproteinase inhibitors such as marimastat and prinomastat. Experiments with selective metalloproteinase inhibitors and gene-specific small interfering RNAS (siRNAs) revealed that a disintegrin and metalloproteinase 10 (ADAM10) is partially involved in the metalloproteinase pathway. Consistent with our finding that the pathway is unique to SARS-CoV-2 among highly pathogenic human coronaviruses, both the furin cleavage motif in the S1/S2 boundary and the S2 domain of SARS-CoV-2 spike protein are essential for metalloproteinase-dependent entry. In contrast, the two elements of SARS-CoV-2 independently contributed to TMPRSS2-dependent S2 priming. The metalloproteinase pathway is involved in SARS-CoV-2-induced syncytium formation and cytopathicity, leading us to theorize that it is also involved in the rapid spread of SARS-CoV-2 and the pathogenesis of COVID-19. Thus, targeting the metalloproteinase pathway in addition to the TMPRSS2 and endosomal pathways could be an effective strategy by which to cure COVID-19 in the future. IMPORTANCE To develop effective therapeutics against COVID-19, it is necessary to elucidate in detail the infection mechanism of the causative agent, SARS-CoV-2. SARS-CoV-2 binds to the cell surface receptor ACE2 via the spike protein, and then the spike protein is cleaved by host proteases to enable entry. Here, we found that the metalloproteinase-mediated pathway is important for SARS-CoV-2 infection in addition to the TMPRSS2-mediated pathway and the endosomal pathway. The metalloproteinase-mediated pathway requires both the prior cleavage of spike into two domains and a specific sequence in the second domain, S2, conditions met by SARS-CoV-2 but lacking in the related human coronavirus SARS-CoV. Besides the contribution of metalloproteinases to SARS-CoV-2 infection, inhibition of metalloproteinases was important in preventing cell death, which may cause organ damage. Our study provides new insights into the complex pathogenesis unique to COVID-19 and relevant to the development of effective therapies.

Published

2022

6. Identification of two cancer stem cell-like populations in triple-negative breast cancer xenografts

Author

Jun Nakayama, Hiroko Matsunaga, Koji Arikawa, Takuya Yoda, Masahito Hosokawa, Haruko Takeyama, Yusuke Yamamoto, and Kentaro Semba

Subjects

breast cancer, cancer, cancer stem cell, spatial transcriptome, xenograft model, scrna-seq, Medicine, Pathology, RB1-214

Abstract

Gene expression analysis at the single-cell level by next-generation sequencing has revealed the existence of clonal dissemination and microheterogeneity in cancer metastasis. The current spatial analysis technologies can elucidate the heterogeneity of cell–cell interactions in situ. To reveal the regional and expressional heterogeneity in primary tumors and metastases, we performed transcriptomic analysis of microtissues dissected from a triple-negative breast cancer (TNBC) cell line MDA-MB-231 xenograft model with our automated tissue microdissection punching technology. This multiple-microtissue transcriptome analysis revealed three cancer cell-type clusters in the primary tumor and axillary lymph node metastasis, two of which were cancer stem cell (CSC)-like clusters (CD44/MYC-high, HMGA1-high). Reanalysis of public single-cell RNA-sequencing datasets confirmed that the two CSC-like populations existed in TNBC xenograft models and in TNBC patients. The diversity of these multiple CSC-like populations could cause differential anticancer drug resistance, increasing the difficulty of curing this cancer.

Published

2022

7. A method of producing genetically manipulated mouse mammary gland

Author

Hiroaki Tagaya, Kosuke Ishikawa, Yoshito Hosokawa, Shun Kobayashi, Yukino Ueoka, Mayuna Shimada, Yasuko Ohashi, Hirofumi Mikami, Mizuki Yamamoto, Tatsuya Ihara, Kentaro Kumazawa, Kosuke Sugihara, Naoki Goshima, Shinya Watanabe, and Kentaro Semba

Subjects

PiggyBac, Transposon, Transgenesis, Electroporation, MaSC, Doxycycline, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background To obtain a deep understanding of the mechanism by which breast cancer develops, the genes involved in tumorigenesis should be analyzed in vivo. Mouse mammary gland can regenerate completely from a mammary stem cell (MaSC), which enables us to analyze the effect of gene expression and repression on tumorigenesis in mammary gland regenerated from genetically manipulated MaSCs. Although lentiviral and retroviral systems have usually been applied for gene transduction into MaSCs, they are associated with difficulty in introducing long, repeated, or transcriptional termination sequences. There is thus a need for an easier and quicker gene delivery system. Methods We devised a new system for gene delivery into MaSCs using the piggyBac transposon vectors and electroporation. Compared with viral systems, this system enables easier and quicker transfection of even long, repeated, or transcriptional termination DNA sequences. We designed gene expression vectors of the transposon system, equipped with a luciferase (Luc) expression cassette for monitoring gene transduction into regenerative mammary gland in mice by in-vivo imaging. A doxycycline (Dox)-inducible system was also integrated for expressing the target gene after mammary regeneration to mimic the actual mechanism of tumorigenesis. Results With this new gene delivery system, genetically manipulated mammary glands were successfully reconstituted even though the vector size was > 200 kb and even in the presence of DNA elements such as promoters and transcription termination sequences, which are major obstacles to viral vector packaging. They differentiated correctly into both basal and luminal cells, and showed normal morphological change and milk production after pregnancy, as well as self-renewal capacity. Using the Tet-On system, gene expression can be controlled by the addition of Dox after mammary reconstitution. In a case study using polyoma-virus middle T antigen (PyMT), oncogene-induced tumorigenesis was achieved. The histological appearance of the tumor was highly similar to that of the mouse mammary tumor virus-PyMT transgenic mouse model. Conclusions With this system, gene transduction in the mammary gland can be easily and quickly achieved, and gene expression can be controlled by Dox administration. This system for genetic manipulation could be useful for analyzing genes involved in breast cancer.

Published

2019

8. Isolation of Reporter Cells That Respond to Vitamin A and/or D Using a piggyBac Transposon Promoter-Trapping Vector System

Author

Kosuke Ishikawa, Sakura Tamamura, Nobuhito Takahashi, Motoki Takagi, Kentaro Semba, and Shinya Watanabe

Subjects

trap vector, reporter cell, gene mining, transposon, vitamin A, vitamin D, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Previously, we established a highly sensitive promoter-trapping vector system using the piggyBac transposon for the efficient isolation of reporter cells. Herein, we examine whether this screening system can be applied to obtain vitamin-responsive cells. As a result, one and two reporter cells that responded to bexarotene (vitamin A) and calcitriol (vitamin D), respectively, were isolated from 4.7 × 106 seeded HeLaS3 cells. 5′ RACE analyses identified the well-known CYP24A1 gene as a calcitriol-responsive gene, as well as two new bexarotene- or calcitriol-responsive genes, BDKRB2 and TSKU, respectively. TSKU, interestingly, also responded to bexarotene. Endogenous levels of the TSKU and BDKRB2 transcripts displayed only slight changes and were not detected in the comprehensive analyses performed to date. Dose–response analyses of BDKRB2 and TSKU reporter cells in parallel revealed a differential profile in response to each vitamin A agonist, suggesting a bioanalyzer. The present study demonstrates that producing multiple reporter cells by a type of random screening can efficiently identify novel genes with unusual characteristics and be used for the profiling of the properties of vitamin compounds. Similar approaches to the method shown here may be useful for identifying new markers and for the analysis or diagnosis of nutrients, toxins, metabolites, etc.

Published

2022

9. A screening system for identifying interacting proteins using biomolecular fluorescence complementation and transposon gene trap.

Author

Honami Miyakura, Mei Fukuda, Hiroya Enomoto, Kosuke Ishikawa, Shinya Watanabe, and Kentaro Semba

Subjects

Medicine, Science

Abstract

We have established a new screening system for identifying interacting proteins by combining biomolecular fluorescence complementation (BiFC) and a transposon gene trap system. This system requires creation of a bait strain that stably expresses a fusion product of part of the fluorescent monomeric Kusabira-Green (mKG) protein to a protein of interest. A PiggyBac transposon vector is then introduced into this strain, and a sequence encoding the remainder of mKG is inserted into the genome and fused randomly with endogenous genes. The binding partner can be identified by isolating cells that fluoresce when BiFC occurs. Using this system, we screened for interactors of p65 (also known as RELA), an NF-κB subunit, and isolated a number of mKG-positive clones. 5'- or 3'-RACE to produce cDNAs encoding mKG-fragment fusion genes and subsequent reconstitution assay identified PKM, HSP90AB1, ANXA2, HSPA8, and CACYBP as p65 interactors. All of these, with the exception of CACYBP, are known regulators of NF-κB. Immunoprecipitation assay confirmed endogenously expressed CACYBP and p65 formed a complex. A reporter assay revealed that CACYBP enhanced 3κB reporter activation under TNFα stimulation. This screening system therefore represents a valuable method for identifying interacting factors that have not been identified by other methods.

Published

2021

10. Effect of optical correction on choroidal structure in children with anisohypermetropic amblyopia.

Author

Tomo Nishi, Tetsuo Ueda, Yuutaro Mizusawa, Kentaro Semba, Kayo Shinomiya, Yoshinori Mitamura, Shozo Sonoda, Eisuke Uchino, Taiji Sakamoto, and Nahoko Ogata

Subjects

Medicine, Science

Abstract

The aim of this study was to assess the effect of wearing optical correction on the choroidal structure in eyes of children with anisohypermetropic amblyopia. This study was conducted at the Nara Medical University Hospital and at the Tokushima University Hospital. Twenty-nine anisohypermetropic amblyopic eyes and their fellow eyes of 29 amblyopic patients (mean age, 5.7 ± 1.7 years, range 3- to 8-years) and twenty eyes of 20 age-similar control children (4.9 ± 0.8 years, range 4- to 6-years) were studied. All patients wore optical correction and 15 patients had both optical correction and patching. The values at the baseline were compared to that at one year later. The binarization method was used to determine the total, luminal, and stromal areas of the choroid in the enhanced depth imaging optical coherence tomographic images. The best-corrected visual acuity (BCVA) of the amblyopic eyes was significantly improved after the one-year period. A large luminal area was characteristic of the amblyopic eye at the baseline, and it was significantly reduced after the optical treatment. The stromal area widened significantly in the amblyopic and fellow eyes after one year whereas there were no significant changes in the choroid of the control eyes after one year. After one-year of optical correction, the luminal/stromal ratios in the amblyopic and fellow eyes were decreased and were then not significantly different from that of the normal control eyes. There was a significant and positive correlation between the improvement of the BCVA and the stromal area at the baseline (r = 0.64, P = 0.001). Wearing corrective lenses on the amblyopic eyes improves the BCVA, and the choroidal structure of the amblyopic eye becomes closer to that of the control eyes. The narrowed luminal area is a specific response of the amblyopic eye associated with the correction of the refractive error. The larger stromal area in the amblyopic eyes at the baseline is a predictive factor for improvements of the BCVA.

Published

2020

11. Fibrosis growth factor 23 is a promoting factor for cardiac fibrosis in the presence of transforming growth factor-β1.

Author

Kazuhiro Kuga, Yoichiro Kusakari, Ken Uesugi, Kentaro Semba, Takashi Urashima, Toru Akaike, and Susumu Minamisawa

Subjects

Medicine, Science

Abstract

Myocardial fibrosis is often associated with cardiac hypertrophy; indeed, fibrosis is one of the most critical factors affecting prognosis. We aimed to identify the molecules involved in promoting fibrosis under hypertrophic stimuli. We previously established a rat model of cardiac hypertrophy by pulmonary artery banding, in which approximately half of the animals developed fibrosis in the right ventricle. Here, we first comprehensively analyzed mRNA expression in the right ventricle with or without fibrosis in pulmonary artery banding model rats by DNA microarray analysis (GSE141650 at NCBI GEO). The expression levels of 19 genes were up-regulated more than 1.5-fold in fibrotic hearts compared with non-fibrotic hearts. Among them, fibrosis growth factor (FGF) 23 showed one of the biggest increases in expression. Real-time PCR analysis also revealed that, among the FGF receptor (FGFR) family, FGFR1 was highly expressed in fibrotic hearts. We then found that FGF23 was expressed predominantly in cardiomyocytes, while FGFR1 was predominantly expressed in fibroblasts in the rat ventricle. Next, we added FGF23 and transforming growth factor (TGF)-β1 (10-50 ng/mL of each) to isolated fibroblasts from normal adult rat ventricles and cultured them for three days. While FGF23 itself did not directly affect the expression levels of any fibrosis-related mRNAs, FGF23 enhanced the effect of TGF-β1 on increasing the expression levels of α-smooth muscle actin (α-SMA) mRNA. This increase in xx-SMA mRNA levels due to the combination of TGF-β1 and FGF23 was attenuated by the inhibition of FGFR1 or the knockdown of FGFR1 in fibroblasts. Thus, FGF23 synergistically promoted the activation of fibroblasts with TGF-β1, transforming fibroblasts into myofibroblasts via FGFR1. Thus, we identified FGF23 as a paracrine factor secreted from cardiomyocytes to promote cardiac fibrosis under conditions in which TGF-β1 is activated. FGF23 could be a possible target to prevent fibrosis following myocardial hypertrophy.

Published

2020

12. Endosomal phosphatidylserine is critical for the YAP signalling pathway in proliferating cells

Author

Tatsuyuki Matsudaira, Kojiro Mukai, Taishin Noguchi, Junya Hasegawa, Tomohisa Hatta, Shun-ichiro Iemura, Tohru Natsume, Norio Miyamura, Hiroshi Nishina, Jun Nakayama, Kentaro Semba, Takuya Tomita, Shigeo Murata, Hiroyuki Arai, and Tomohiko Taguchi

Subjects

Science

Abstract

Yes-associated protein (YAP) is a growth-promoting transcription co-activator that regulates the malignancy of various cancers, however its regulation is not fully understood. Here the authors show that phosphatdylserine at recycling endosomes regulates YAP signalling pathway.

Published

2017

13. The In Vivo Selection Method in Breast Cancer Metastasis

Author

Jun Nakayama, Yuxuan Han, Yuka Kuroiwa, Kazushi Azuma, Yusuke Yamamoto, and Kentaro Semba

Subjects

metastasis, in vivo selection, highly metastatic cancer cell line, breast cancer, xenograft model, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Metastasis is a complex event in cancer progression and causes most deaths from cancer. Repeated transplantation of metastatic cancer cells derived from transplanted murine organs can be used to select the population of highly metastatic cancer cells; this method is called as in vivo selection. The in vivo selection method and highly metastatic cancer cell lines have contributed to reveal the molecular mechanisms of cancer metastasis. Here, we present an overview of the methodology for the in vivo selection method. Recent comparative analysis of the transplantation methods for metastasis have revealed the divergence of metastasis gene signatures. Even cancer cells that metastasize to the same organ show various metastatic cascades and gene expression patterns by changing the transplantation method for the in vivo selection. These findings suggest that the selection of metastasis models for the study of metastasis gene signatures has the potential to influence research results. The study of novel gene signatures that are identified from novel highly metastatic cell lines and patient-derived xenografts (PDXs) will be helpful for understanding the novel mechanisms of metastasis.

Published

2021

14. High Sensitivity In Vivo Imaging of Cancer Metastasis Using a Near-Infrared Luciferin Analogue seMpai

Author

Jun Nakayama, Ryohei Saito, Yusuke Hayashi, Nobuo Kitada, Shota Tamaki, Yuxuan Han, Kentaro Semba, and Shojiro A. Maki

Subjects

in vivo imaging, near-infrared bioluminescence, luciferin analogue, metastasis, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Bioluminescence imaging (BLI) is useful to monitor cell movement and gene expression in live animals. However, D-luciferin has a short wavelength (560 nm) which is absorbed by tissues and the use of near-infrared (NIR) luciferin analogues enable high sensitivity in vivo BLI. The AkaLumine-AkaLuc BLI system (Aka-BLI) can detect resolution at the single-cell level; however, it has a clear hepatic background signal. Here, to enable the highly sensitive detection of bioluminescence from the surrounding liver tissues, we focused on seMpai (C15H16N3O2S) which has been synthesized as a luciferin analogue and has high luminescent abilities as same as AkaLumine. We demonstrated that seMpai BLI could detect micro-signals near the liver without any background signal. The solution of seMpai was neutral; therefore, seMpai imaging did not cause any adverse effect in mice. seMpai enabled a highly sensitive in vivo BLI as compared to previous techniques. Our findings suggest that the development of a novel mutated luciferase against seMpai may enable a highly sensitive BLI at the single-cell level without any background signal. Novel seMpai BLI system can be used for in vivo imaging in the fields of life sciences and medicine.

Published

2020

15. The Anticoagulant Nafamostat Potently Inhibits SARS-CoV-2 S Protein-Mediated Fusion in a Cell Fusion Assay System and Viral Infection In Vitro in a Cell-Type-Dependent Manner

Author

Mizuki Yamamoto, Maki Kiso, Yuko Sakai-Tagawa, Kiyoko Iwatsuki-Horimoto, Masaki Imai, Makoto Takeda, Noriko Kinoshita, Norio Ohmagari, Jin Gohda, Kentaro Semba, Zene Matsuda, Yasushi Kawaguchi, Yoshihiro Kawaoka, and Jun-ichiro Inoue

Subjects

SARS-CoV-2, TMPRSS2, fusion inhibitor, Microbiology, QR1-502

Abstract

Although infection by SARS-CoV-2, the causative agent of coronavirus pneumonia disease (COVID-19), is spreading rapidly worldwide, no drug has been shown to be sufficiently effective for treating COVID-19. We previously found that nafamostat mesylate, an existing drug used for disseminated intravascular coagulation (DIC), effectively blocked Middle East respiratory syndrome coronavirus (MERS-CoV) S protein-mediated cell fusion by targeting transmembrane serine protease 2 (TMPRSS2), and inhibited MERS-CoV infection of human lung epithelium-derived Calu-3 cells. Here we established a quantitative fusion assay dependent on severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) S protein, angiotensin I converting enzyme 2 (ACE2) and TMPRSS2, and found that nafamostat mesylate potently inhibited the fusion while camostat mesylate was about 10-fold less active. Furthermore, nafamostat mesylate blocked SARS-CoV-2 infection of Calu-3 cells with an effective concentration (EC)50 around 10 nM, which is below its average blood concentration after intravenous administration through continuous infusion. On the other hand, a significantly higher dose (EC50 around 30 μM) was required for VeroE6/TMPRSS2 cells, where the TMPRSS2-independent but cathepsin-dependent endosomal infection pathway likely predominates. Together, our study shows that nafamostat mesylate potently inhibits SARS-CoV-2 S protein-mediated fusion in a cell fusion assay system and also inhibits SARS-CoV-2 infection in vitro in a cell-type-dependent manner. These findings, together with accumulated clinical data regarding nafamostat’s safety, make it a likely candidate drug to treat COVID-19.

Published

2020

16. Effect of optical correction on subfoveal choroidal thickness in children with anisohypermetropic amblyopia.

Author

Tomo Nishi, Tetsuo Ueda, Yuutaro Mizusawa, Kentaro Semba, Kayo Shinomiya, Yoshinori Mitamura, Taiji Sakamoto, and Nahoko Ogata

Subjects

Medicine, Science

Abstract

The purpose of this study was to determine the effect of optical correction on the best-corrected visual acuity (BCVA) and subfoveal choroidal thickness (CT) in the eyes of children with anisohypermetropic amblyopia. Twenty-four anisohypermetropic amblyopic eyes and their fellow eyes of 24 patients and twenty-three eyes of 23 age-matched control children were studied. After one year of optical correction, the BCVA in the anisohypermetropic amblyopic eyes was significantly improved. Before the treatment, the mean subfoveal CT in the amblyopic eyes was 351.9 ± 59.4 μm which was significantly thicker than that of control eyes at 302.4 ± 63.2 μm. After the treatment, the amount of change in the subfoveal CT in the amblyopic and fellow eyes was greater than that in the control eyes. The amblyopic and fellow eyes with thicker choroids had a greater thinning of the choroid whereas eyes with thinner choroids had a greater thickening of the choroid. We conclude that wearing corrective lenses improves the visual acuity, and induces changes of the subfoveal CT in eyes with anisohypermetropic amblyopia.

Published

2017

17. Swept-Source Optical Coherence Tomographic Findings of Choroidal Osteoma

Author

Yuki Hayashi, Yoshinori Mitamura, Mariko Egawa, Kentaro Semba, and Toshihiko Nagasawa

Subjects

Choroidal osteoma, Fundus autofluorescence, Swept-source optical coherence tomography, Ophthalmology, RE1-994

Abstract

Purpose: To report the morphologic features of a choroidal osteoma using swept-source optical coherence tomography (SS-OCT) and fundus autofluorescence (FAF). Methods: Two eyes of two cases with a choroidal osteoma were studied using SS-OCT and FAF. Results: The location of the tumor was circumpapillary without macular involvement in case 1 and juxtapapillary with macular involvement in case 2. Both cases had a mixture of calcified and decalcified areas, and a concomitant choroidal neovascularization was found in case 2. The FAF images showed decreased autofluorescence in the central decalcified regions and relatively preserved fluorescence in marginal calcified regions in both cases. SS-OCT revealed a normal inner retina and an abnormal outer retina in both cases, and subretinal fluid in case 2. The calcified regions appeared sponge-like and were multilayered in case 2. A lamellar reflective pattern was observed in the decalcified regions in case 1, and hyperreflective mound-like areas were observed in both cases. SS-OCT demonstrated hyperreflective areas above Bruch's membrane accompanied by disruption of Bruch's membrane in case 1. The chorioscleral border was visible in both cases. Conclusions: The FAF pattern in the calcified and decalcified areas of the choroidal osteoma may correspond to the different stage of tumor evolution. The SS-OCT findings indicate that choroidal osteomas can have characteristic reflective patterns and alterations of the overlying retina.

Published

2014

18. Effects of Exercise on the Structure and Circulation of Choroid in Normal Eyes.

Author

Takamasa Kinoshita, Junya Mori, Natsuki Okuda, Hiroko Imaizumi, Masanori Iwasaki, Miho Shimizu, Hirotomo Miyamoto, Kei Akaiwa, Kentaro Semba, Shozo Sonoda, Taiji Sakamoto, and Yoshinori Mitamura

Subjects

Medicine, Science

Abstract

To determine the effects of dynamic exercise on the circulation and the luminal and stromal areas of the choroid in normal eyes.This was a prospective interventional study of 38 eyes of 38 normal subjects enrolled by invitation. The systolic and diastolic blood pressures, heart rate, intraocularpressure, mean ocular perfusion pressure (MOPP), choroidal blood velocity, and enhanced depth imaging optical coherence tomographic (EDI-OCT) images were recorded before, and immediately after mild dynamic exercise. The same measurements were recorded after 10 min of rest. The choroidal blood velocity was measured bylaser speckle flowgraphy, and the mean blur rate was used for the evaluations. The horizontal EDI-OCT images of the subfoveal choroid were converted to binary images. The central choroidal thickness (CCT), total cross sectional choroidal area, luminal areas, stromal areas, and the ratio of luminal area to total choroidal area (L/C ratio) were determined from these images.The systolic and diastolic blood pressures, heart rate, MOPP, and the mean blur rate were significantly increased immediately after the exercise and significantly decreased 10 minutes after the exercise. There wereno significant changes in the mean CCT, the mean total choroidal area, the mean luminal and stromal areas, and the mean L/C ratio after the exercise.Our results suggest that a rest period is needed before measurements of blood flow velocity but not necessary for the EDI-OCT imaging to determine the choroidal thickness and area.

Published

2016

19. Correction: Choroidal Structure in Children with Anisohypermetropic Amblyopia Determined by Binarization of Optical Coherence Tomographic Images.

Author

Tomo Nishi, Tetsuo Ueda, Yuutaro Mizusawa, Kayo Shinomiya, Kentaro Semba, Yoshinori Mitamura, Shozo Sonoda, Eisuke Uchino, Taiji Sakamoto, and Nahoko Ogata

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0164672.].

Published

2016

20. Choroidal Structure in Children with Anisohypermetropic Amblyopia Determined by Binarization of Optical Coherence Tomographic Images.

Author

Tomo Nishi, Tetsuo Ueda, Yuutaro Mizusawa, Kayo Shinomiya, Kentaro Semba, Yoshinori Mitamura, Shozo Sonoda, Eisuke Uchino, Taiji Sakamoto, and Nahoko Ogata

Subjects

Medicine, Science

Abstract

PURPOSE:To compare the choroidal structure of the subfoveal area in the eyes of children with anisohypermetropic amblyopia to that of the fellow eyes and to age-matched controls using a binarization method of the images obtained by enhanced depth imaging optical coherence tomography (EDI-OCT). METHODS:This study was performed at Nara Medical University Hospital, Tokushima University Hospital, and Kagoshima University Hospital, Japan. Forty amblyopic eyes with anisohypermetropic amblyopia and their fellow eyes (5.9 ± 2.1 years, mean ± standard deviation), and 103 age-matched controls (6.7 ± 2.4 years) were studied. The control eyes were divided into myopic, emmetropic, and hyperopic eyes. The total choroidal area, luminal area and stromal area of the subfoveal choroid were measured by the binarization method. The luminal/stromal ratio and the axial length of the amblyopic eyes were compared to that of the control eyes. RESULTS:The total choroidal area in the amblyopic eyes was significantly larger than that of the fellow eyes (P = 0.005). The luminal/stromal ratio was significantly larger in the amblyopic eyes than that of the fellow eyes (P

Published

2016

21. Changes in Choroidal Structures in Eyes with Chronic Central Serous Chorioretinopathy after Half-Dose Photodynamic Therapy.

Author

Takamasa Kinoshita, Yoshinori Mitamura, Terumi Mori, Kei Akaiwa, Kentaro Semba, Mariko Egawa, Junya Mori, Shozo Sonoda, and Taiji Sakamoto

Subjects

Medicine, Science

Abstract

To determine the structural changes in the choroid after half-dose photodynamic therapy (hPDT) in eyes with chronic central serous chorioretinopathy (CSC).This was a retrospective interventional study of 29 eyes of 29 patients who underwent hPDT for chronic CSC with serous retinal detachment (SRD) and were followed for ≥3 months. Enhanced depth imaging optical coherence tomographic (EDI-OCT) images of the subfoveal choroid were converted to binary images. The central choroidal thickness (CCT), the cross sectional subfoveal choroidal area, the hyporeflective and hyperreflective areas of the inner, outer, and whole choroid were determined at the baseline, and at 1, 3, and 12 months after the hPDT.The SRDs were resolved in 26 (89.7%) eyes at 3 months after the hPDT. The mean CCT (P = 0.001), the total choroidal area (P = 0.001), and the hypo-reflective area (P = 0.003) of the whole choroid were significantly decreased from the baseline at 3 months. The hyperreflective area of whole choroid was not significantly changed during the study period (P = 0.083). The hyperreflective but not the hyporeflective area of the inner choroid was significantly decreased at 3 months (P = 0.001, P = 1.000, respectively). The hyporeflective but not the hyperreflective area of the outer choroid was significantly decreased at 3 months (P = 0.001, P = 1.000, respectively).The hyperreflective area of the inner choroid and hyporeflective area of the outer choroid were significantly decreased after hPDT for chronic CSC. Because the hyperreflective and hyporeflective area correspond to the choroidal stroma and vessels, respectively, the decreased CCT and subfoveal choroidal area after hPDT may be attributed to a decrease in the exudative changes in the inner choroidal stroma and the reduction of the dilation of the outer choroidal vessels.

Published

2016

22. Prepapillary Vascular Loops Complicated by Suspected Macroaneurysm Rupture

Author

Kei Akaiwa, Yoshinori Mitamura, Takashi Katome, Kentaro Semba, Mariko Egawa, and Takeshi Naito

Subjects

Ophthalmology, RE1-994

Abstract

We present a case of prepapillary vascular loops complicated by a suspected macroaneurysm rupture which was treated with intravitreal bevacizumab (IVB). A 62-year-old woman presented with decreased vision and myodesopsia in her left eye. Her best-corrected visual acuity (BCVA) was 0.6 in the left eye. Fundus examination disclosed an elevated, round, and reddish lesion, retinal hemorrhage at the superior aspect of the optic disc, retinal opacification along the superior branch retinal artery, and a small vitreous hemorrhage. Optical coherence tomography showed a serous retinal detachment, and indocyanine green angiography demonstrated prepapillary vascular loops and a hypofluorescent area with hyperfluorescent margins. These findings suggested the presence of a macroaneurysm. No filling of the dye in the aneurysm-like dilatation suggested a blockage of the lumen with a thrombus which might be associated with a branch retinal artery occlusion (BRAO). A diagnosis of prepapillary vascular loops complicated by a suspected macroaneurysm rupture and BRAO was made. Because of a persistent serous retinal detachment, IVB was performed. One month later, the BCVA improved to 1.0. Fundus examination disclosed an organized yellowish-white macroaneurysm and resolution of the serous retinal detachment. We recommend careful monitoring of patients with prepapillary vascular loops because of complications such as macroaneurysm rupture and BRAO.

Published

2014

23. CXCL17 expression by tumor cells recruits CD11b+Gr1 high F4/80- cells and promotes tumor progression.

Author

Aya Matsui, Hideaki Yokoo, Yoichi Negishi, Yoko Endo-Takahashi, Nicole A L Chun, Ichiro Kadouchi, Ryo Suzuki, Kazuo Maruyama, Yukihiko Aramaki, Kentaro Semba, Eiji Kobayashi, Masafumi Takahashi, and Takashi Murakami

Subjects

Medicine, Science

Abstract

BACKGROUND: Chemokines are involved in multiple aspects of pathogenesis and cellular trafficking in tumorigenesis. In this study, we report that the latest member of the C-X-C-type chemokines, CXCL17 (DMC/VCC-1), recruits immature myeloid-derived cells and enhances early tumor progression. METHODOLOGY/PRINCIPAL FINDINGS: CXCL17 was preferentially expressed in some aggressive types of gastrointestinal, breast, and lung cancer cells. CXCL17 expression did not impart NIH3T3 cells with oncogenic potential in vitro, but CXCL17-expressing NIH3T3 cells could form vasculature-rich tumors in immunodeficient mice. Our data showed that CXCL17-expressing tumor cells increased immature CD11b(+)Gr1(+) myeloid-derived cells at tumor sites in mice and promoted CD31(+) tumor angiogenesis. Extensive chemotactic assays proved that CXCL17-responding cells were CD11b(+)Gr1(high)F4/80(-) cells (≈ 90%) with a neutrophil-like morphology in vitro. Although CXCL17 expression could not increase the number of CD11b(+)Gr1(+) cells in tumor-burdened SCID mice or promote metastases of low metastatic colon cancer cells, the existence of CXCL17-responding myeloid-derived cells caused a striking enhancement of xenograft tumor formation. CONCLUSIONS/SIGNIFICANCE: These results suggest that aberrant expression of CXCL17 in tumor cells recruits immature myeloid-derived cells and promotes tumor progression through angiogenesis.

Published

2012

24. Phosphoproteomics-based modeling defines the regulatory mechanism underlying aberrant EGFR signaling.

Author

Shinya Tasaki, Masao Nagasaki, Hiroko Kozuka-Hata, Kentaro Semba, Noriko Gotoh, Seisuke Hattori, Jun-ichiro Inoue, Tadashi Yamamoto, Satoru Miyano, Sumio Sugano, and Masaaki Oyama

Subjects

Medicine, Science

Abstract

BACKGROUND: Mutation of the epidermal growth factor receptor (EGFR) results in a discordant cell signaling, leading to the development of various diseases. However, the mechanism underlying the alteration of downstream signaling due to such mutation has not yet been completely understood at the system level. Here, we report a phosphoproteomics-based methodology for characterizing the regulatory mechanism underlying aberrant EGFR signaling using computational network modeling. METHODOLOGY/PRINCIPAL FINDINGS: Our phosphoproteomic analysis of the mutation at tyrosine 992 (Y992), one of the multifunctional docking sites of EGFR, revealed network-wide effects of the mutation on EGF signaling in a time-resolved manner. Computational modeling based on the temporal activation profiles enabled us to not only rediscover already-known protein interactions with Y992 and internalization property of mutated EGFR but also further gain model-driven insights into the effect of cellular content and the regulation of EGFR degradation. Our kinetic model also suggested critical reactions facilitating the reconstruction of the diverse effects of the mutation on phosphoproteome dynamics. CONCLUSIONS/SIGNIFICANCE: Our integrative approach provided a mechanistic description of the disorders of mutated EGFR signaling networks, which could facilitate the development of a systematic strategy toward controlling disease-related cell signaling.

Published

2010

25. TRAF6 establishes innate immune responses by activating NF-kappaB and IRF7 upon sensing cytosolic viral RNA and DNA.

Author

Hiroyasu Konno, Takuya Yamamoto, Kohsuke Yamazaki, Jin Gohda, Taishin Akiyama, Kentaro Semba, Hideo Goto, Atsushi Kato, Toshiaki Yujiri, Takahiko Imai, Yasushi Kawaguchi, Bing Su, Osamu Takeuchi, Shizuo Akira, Yasuko Tsunetsugu-Yokota, and Jun-ichiro Inoue

Subjects

Medicine, Science

Abstract

BACKGROUND:In response to viral infection, the innate immune system recognizes viral nucleic acids and then induces production of proinflammatory cytokines and type I interferons (IFNs). Toll-like receptor 7 (TLR7) and TLR9 detect viral RNA and DNA, respectively, in endosomal compartments, leading to the activation of nuclear factor kappaB (NF-kappaB) and IFN regulatory factors (IRFs) in plasmacytoid dendritic cells. During such TLR signaling, TNF receptor-associated factor 6 (TRAF6) is essential for the activation of NF-kappaB and the production of type I IFN. In contrast, RIG-like helicases (RLHs), cytosolic RNA sensors, are indispensable for antiviral responses in conventional dendritic cells, macrophages, and fibroblasts. However, the contribution of TRAF6 to the detection of cytosolic viral nucleic acids has been controversial, and the involvement of TRAF6 in IRF activation has not been adequately addressed. PRINCIPAL FINDINGS:Here we first show that TRAF6 plays a critical role in RLH signaling. The absence of TRAF6 resulted in enhanced viral replication and a significant reduction in the production of IL-6 and type I IFNs after infection with RNA virus. Activation of NF-kappaB and IRF7, but not that of IRF3, was significantly impaired during RLH signaling in the absence of TRAF6. TGFbeta-activated kinase 1 (TAK1) and MEKK3, whose activation by TRAF6 during TLR signaling is involved in NF-kappaB activation, were not essential for RLH-mediated NF-kappaB activation. We also demonstrate that TRAF6-deficiency impaired cytosolic DNA-induced antiviral responses, and this impairment was due to defective activation of NF-kappaB and IRF7. CONCLUSIONS/SIGNIFICANCE:Thus, TRAF6 mediates antiviral responses triggered by cytosolic viral DNA and RNA in a way that differs from that associated with TLR signaling. Given its essential role in signaling by various receptors involved in the acquired immune system, TRAF6 represents a key molecule in innate and antigen-specific immune responses against viral infection.

Published

2009

26. <scp> HOXB7 </scp> induces <scp>STAT3</scp> ‐mediated transformation and lung metastasis in immortalized mammary gland <scp>NMuMG</scp> cells

Author

Kazushi Azuma, Mai Sakamoto, Shota Katayama, Atsuka Matsui, Kazuya Nakamichi, Naoki Goshima, Shinya Watanabe, Jun Nakayama, and Kentaro Semba

Subjects

Genetics, Cell Biology

Published

2023

27. Collagen induction of immune cells in the mammary glands during pregnancy.

Author

Karen Yamaguchi, Jun Nakayama, Tomofumi Yamamoto, Kentaro Semba, Tatsuo Shirota, and Yusuke Yamamoto

Subjects

MAMMARY glands, COLLAGEN, CELL communication, BREAST, MYELOID cells, PREGNANCY, STROMAL cells

Abstract

The mammary glands are dynamic tissues affected by pregnancy-related hormones during the pregnancy-lactation cycle. Collagen production and its dynamics are essential to the remodeling of the mammary glands. Alterations of the mammary microenvironment and stromal cells during the pregnancy-lactation cycle are important for understanding the physiology of the mammary glands and the development of breast tumors. In this study, we performed an evaluation of collagen dynamics in the mammary fat pad during the pregnancy-lactation cycle. Reanalysis of single-cell RNA-sequencing (scRNA-Seq) data showed the ectopic collagen expression in the immune cells and cell-cell interactions for collagens with single-cell resolution. The scRNA-Seq data showed that type I and type III collagen were produced not only by stromal fibroblasts but also by lymphoid and myeloid cell types in the pregnancy phase. Furthermore, the total cell-cell interaction score for collagen interactions was dramatically increased in the pregnancy tissue. The data presented in this study provide evidence that immune cells contribute, at least in part, to mammary collagen dynamics. Our findings suggest that immune cells, including lymphoid and myeloid cells, might be supportive members of the extracellular matrix orchestration in the pregnancy-lactation cycle of the mammary glands. NEW & NOTEWORTHY Our study evaluated mammary gland collagen dynamics during the pregnancy-lactation cycle using single-cell RNA-sequencing data. We found ectopic collagen expression in immune cells and an increase in collagen interactions during pregnancy. Type I and type III collagen were produced by lymphoid, myeloid, and stromal fibroblast cells during pregnancy. These findings suggest that immune cells, including lymphoid and myeloid cells, play a crucial role in supporting the extracellular matrix in mammary glands during pregnancy-lactation cycles. [ABSTRACT FROM AUTHOR]

Published

2024

28. Metastatic potentials classified with hypoxia-inducible factor 1 downstream gene in pan-cancer cell lines

Author

Kazuya Nakamichi, Kentaro Semba, and Jun Nakayama

Abstract

Hypoxia-inducible factor 1 (HIF1) gene codes a transcription factor that is stabilized under hypoxia conditions via post-translational modifications. HIF1 regulates tumor malignancy and metastasis by gene transcriptions, such as Warburg effect- and angiogenesis-related genes, in cancer cells. However, the HIF1 downstream genes show varied expressional patterns in different cancer types. Herein, we performed the hierarchical clustering based on the HIF1 downstream gene expression patterns using 1,406 cancer cell lines crossing 30 types of cancer to understand the relationship between HIF1 downstream genes and the metastatic potential of cancer cell lines. Four types of cancer were classified by HIF1 downstream genes with significantly altered metastatic potentials. Furthermore, different HIF1 downstream gene subsets were extracted to discriminate each subtype for the four cancer types. HIF1 downstream subtyping classification will help understand the novel insight into tumor malignancy and metastasis in each cancer type.FundingThis work was supported by Project for JSPS KAKENHI (Grant-in-Aid for Scientific Research (C): JP23K06665 to JN, Grant-in-Aid for Early-Carrier Scientists: JP21K15562 to JN), and in part by translational research program from Fukushima Prefecture (KS).Competing Interests statementThe authors have declared that no conflict of interest exists.

Published

2023

29. Supplementary Table S1 from Tropomodulin 1 Expression Driven by NF-κB Enhances Breast Cancer Growth

Author

Jun-ichiro Inoue, Motoharu Seiki, Tadashi Yamamoto, Noritaka Yamaguchi, Kentaro Semba, Mizuki Yamamoto, Naohiko Koshikawa, and Taku Ito-Kureha

Abstract

Supplementary Table S1. Primers for the cDNA amplification and semiquantitative and real time RT-PCR.

Published

2023

30. Supplementary Figure S3 from Tropomodulin 1 Expression Driven by NF-κB Enhances Breast Cancer Growth

Author

Jun-ichiro Inoue, Motoharu Seiki, Tadashi Yamamoto, Noritaka Yamaguchi, Kentaro Semba, Mizuki Yamamoto, Naohiko Koshikawa, and Taku Ito-Kureha

Abstract

Supplementary Figure S3. TMOD1 positively regulates MMP13 expression and activity.

Published

2023

31. Supplementary Figure 3 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Figure 3 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

32. Supplementary Figure Legends 1-6 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Figure Legends 1-6 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

33. Supplementary Figure 4 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Figure 4 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

34. Supplementary Methods and References from Tropomodulin 1 Expression Driven by NF-κB Enhances Breast Cancer Growth

Author

Jun-ichiro Inoue, Motoharu Seiki, Tadashi Yamamoto, Noritaka Yamaguchi, Kentaro Semba, Mizuki Yamamoto, Naohiko Koshikawa, and Taku Ito-Kureha

Abstract

Supplementary Methods and References. Description of additional methods and procedures used in the study. Also includes Supplementary References.

Published

2023

35. Data from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

ErbB2-negative breast tumors represent a significant therapeutic hurdle because of a lack of effective molecular targets. Although NOTCH proteins are known to be involved in mammary tumorigenesis, the functional significance of these proteins in ErbB2-negative breast tumors is not clear. In the present study, we examined the expression of activated NOTCH receptors in human breast cancer cell lines, including ErbB2-negative and ErbB2-positive cell lines. Activated NOTCH1 and NOTCH3 proteins generated by γ-secretase were detected in most of the cell lines tested, and both proteins activated CSL-mediated transcription. Down-regulation of NOTCH1 by RNA interference had little or no suppressive effect on the proliferation of either ErbB2-positive or ErbB2-negative cell lines. In contrast, down-regulation of NOTCH3 significantly suppressed proliferation and promoted apoptosis of the ErbB2-negative tumor cell lines. Down-regulation of NOTCH3 did not have a significant effect on the ErbB2-positive tumor cell lines. Down-regulation of CSL also suppressed the proliferation of ErbB2-negative breast tumor cell lines, indicating that the NOTCH-CSL signaling axis is involved in cell proliferation. Finally, NOTCH3 gene amplification was detected in a breast tumor cell line and one breast cancer tissue specimen even though the frequency of NOTCH3 gene amplification was low (

Published

2023

36. Supplementary Figure 2 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Figure 2 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

37. Supplementary Figure 1 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Figure 1 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

38. Supplementary Figure 5 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Figure 5 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

39. Supplementary Table 1 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Author

Shinya Watanabe, Kentaro Semba, Jun-ichiro Inoue, Kuniaki Tatsuta, Susumu Ohwada, Jun-ichi Imai, Mika Kawamura, Akira Nishikawa, Yuka Yanagisawa, Reiko Honma, Ken Shimizu, Mitsuhiro Hayashi, Sakura Azuma, Hitoshi Satoh, Emi Ito, Tetsunari Oyama, and Noritaka Yamaguchi

Abstract

Supplementary Table 1 from NOTCH3 Signaling Pathway Plays Crucial Roles in the Proliferation of ErbB2-Negative Human Breast Cancer Cells

Published

2023

40. Tob negatively regulates NF-κB activation in breast cancer through its association with the TNF receptor complex

Author

Tadashi Yamamoto, Miho Tokumasu, Atsuko Sato, Taku Ito-Kureha, Mizuki Yamamoto, Nao Ohmine, Kentaro Semba, and Jun-ichiro Inoue

Abstract

NF-κB mediates transcriptional regulation crucial to many biological functions, and elevated NF-κB activity leads to autoimmune and inflammatory diseases, as well as cancer. Since highly aggressive breast cancers have few therapeutic molecular targets, clarification of key molecular mechanisms of NF-κB signaling would facilitate development of more effective therapy. In this report, we show that Tob, a member of the Tob/BTG family of antiproliferative proteins, acts as a negative regulator of the NF-κB signal in breast cancer. Studies with 35 human breast cancer cell lines reveal that Tob expression is negatively correlated with NF-κB activity. Analysis of The Cancer Genome Atlas (TCGA) database of clinical samples reveals an inverse correlation between Tob expression and NF-κB activity. Tob2, another member of the Tob/BTG family, shows no such negative correlations. Furthermore, in TNF-α treated cells, Tob associates with TNF receptor complex I to suppress polyubiquitylation of RIPK1, which results in repression of NF-kB activity. Therefore, Tob functions as a negative regulator of the NF-κB pathway and may serve as a therapeutic target for aggressive breast cancer.

Published

2023

41. Identification of a Novel Noncoding RNA Transcript TISPL Upregulated by Stressors that Stimulate ATF4

Author

Yutaro Wakabayashi, Aika Shimono, Yuki Terauchi, Chao Zeng, Michiaki Hamada, Kentaro Semba, Shinya Watanabe, and Kosuke Ishikawa

Published

2023

42. Ocular expression of cyclin‐dependent kinase 5 in patients with proliferative diabetic retinopathy

Author

Takayuki Harada, Yoshinori Mitamura, Masanori Niki, Fumiko Murao, Hiroki Sano, Kentaro Semba, and Kazuhiko Namekata

Subjects

medicine.medical_specialty, genetic structures, endocrine system diseases, Endocrinology, Diabetes and Metabolism, Peroxisome proliferator-activated receptor, Enzyme-Linked Immunosorbent Assay, Pathogenesis, Internal medicine, Diabetes Mellitus, Internal Medicine, medicine, Humans, RNA, Messenger, Receptor, chemistry.chemical_classification, Diabetic Retinopathy, business.industry, Cyclin-dependent kinase 5, Cyclin-Dependent Kinase 5, General Medicine, Diabetic retinopathy, medicine.disease, eye diseases, PPAR gamma, Vitreous Body, Endocrinology, nervous system, chemistry, Immunohistochemistry, Phosphorylation, sense organs, business, Immunostaining

Abstract

AIMS/INTRODUCTION Inhibition of peroxisome proliferator-activated receptor gamma (PPARγ) phosphorylation mediated by cyclin-dependent kinase 5 (Cdk5) is one of the main mechanisms of action of antidiabetic drugs. In this study, we analyzed the ocular expression and activation of Cdk5 in patients with proliferative diabetic retinopathy (PDR). MATERIALS AND METHODS The concentrations of PPARγ, Cdk5 and its activating subunit (p35) were determined in the vitreous body of 24 PDR and 63 control eyes by enzyme-linked immunosorbent assay. In addition, the messenger ribonucleic acid and protein expression levels of PPARγ, Cdk5 and p35 were measured in proliferative neovascular membranes from seven PDR eyes and non-neovascular epiretinal membranes from five control eyes by quantitative real-time polymerase chain reaction and immunohistochemical analysis. RESULTS PPARγ, Cdk5 and p35 concentrations in the vitreous body were significantly higher in the PDR group compared with the control group. There was also a positive significant correlation of Cdk5 with PPARγ and p35 in the PDR group. Furthermore, the messenger ribonucleic acid expression levels of PPARγ, Cdk5 and p35 in proliferative neovascular membranes were significantly higher in the PDR group compared with the control group. Immunostaining showed increased protein expression levels of PPARγ, Cdk5 and p35 in proliferative neovascular membranes in the PDR group compared with the control group. CONCLUSIONS Cdk5 activation is involved in PDR pathogenesis through PPARγ expression, and inhibition of Cdk5-mediated PPARγ phosphorylation might be a new therapeutic target for treatment of PDR.

Published

2021

43. Epithelial cells remove precancerous cells by cell competition via MHC class I–LILRB3 interaction

Author

Takeshi Maruyama, Ryohei Teramoto, Jun Nakayama, Nobuhito Goda, Nanami Sato, Yasuyuki Fujita, Kenji Ohba, Nagisa Kamoshita, Kentaro Semba, Shiyu Ayukawa, Hikari Abe, Novalia Pishesha, and Kei Kozawa

Subjects

biology, Chemistry, Immunology, Cell, Cell migration, Major histocompatibility complex, Cell biology, Immunosurveillance, medicine.anatomical_structure, Immune system, MHC class I, medicine, biology.protein, Immunology and Allergy, Cytotoxic T cell, CD8

Abstract

Epithelial cells have an ability termed ‘cell competition’, which is an immune surveillance-like function that extrudes precancerous cells from the epithelial layer, leading to apoptosis and clearance. However, it remains unclear how epithelial cells recognize and extrude transformed cells. Here, we discovered that a PirB family protein, leukocyte immunoglobulin-like receptor B3 (LILRB3), which is expressed on non-transformed epithelial cells, recognizes major histocompatibility complex class I (MHC class I) that is highly expressed on transformed cells. MHC class I interaction with LILRB3 expressed on normal epithelial cells triggers an SHP2–ROCK2 pathway that generates a mechanical force to extrude transformed cells. Removal of transformed cells occurs independently of natural killer (NK) cell or CD8+ cytotoxic T cell-mediated activity. This is a new mechanism in that the immunological ligand–receptor system generates a mechanical force in non-immune epithelial cells to extrude precancerous cells in the same epithelial layer. Epithelial cells can use an immune-like mechanism to extrude neighboring precancerous cells; however, the recognition and control mechanisms of this process are unclear. Maruyama and colleagues demonstrate that LILRB3 on normal epithelial cells recognizes elevated MHC class I on transformed cells and triggers the extrusion process.

Published

2021

44. Prediction of Resistance Mutations Against Upcoming Anaplastic Lymphoma Kinase Inhibitors

Author

Yuta Doi, Hiroaki Tagaya, Ayaka Noge, and Kentaro Semba

Subjects

Cancer Research, Lung Neoplasms, Oncology, Drug Resistance, Neoplasm, Carcinoma, Non-Small-Cell Lung, Mutation, Humans, Pharmacology (medical), Anaplastic Lymphoma Kinase, Protein Kinase Inhibitors

Abstract

Chromosomal aberrations involving the anaplastic lymphoma kinase (ALK) gene have been observed in approximately 4% of patients with non-small cell lung cancer (NSCLC). Although these patients clinically benefit from treatment with various ALK tyrosine kinase inhibitors (ALK-TKIs), none of these can inhibit the development of resistance mutations. Considering inevitable drug resistance and the variety of available ALK-TKIs, it is necessary to predict the pattern of drug-resistance mutations to determine the optimal treatment strategy.We aimed to establish a polymerase chain reaction (PCR)-based system to predict the development of resistance mutations against ALK-TKIs and identify therapeutic strategies using the upcoming ALK-TKIs repotrectinib (TPX-0005) and ensartinib (X-396) following recurrence on first-line alectinib treatment for ALK-positive NSCLC.An error-prone PCR-based method for predicting drug resistance mutations was established and the half-maximal inhibitory concentration (ICWe predicted several resistance mutations against repotrectinib and ensartinib, and demonstrated that the next-generation ALK-TKI TPX-0131, was active against repotrectinib-resistant mutations and that the FLT3 inhibitor gilteritinib was active against ensartinib-resistant mutations.We developed a PCR-based system for predicting drug resistance mutations. When this system was applied to repotrectinib and ensartinib, the results suggested that these drugs can be used for the second-line treatment of ALK-positive NSCLC. Predicting resistance mutations against TKIs will provide useful information to aid in the development of effective therapeutic strategies.

Published

2022

45. Targeting c-Jun is a potential therapy of luminal breast cancer bone metastasis

Author

Yuxuan Han, Mitsuru Futakuchi, Kazuya Nakamichi, Yutaro Wakabayashi, Mai Sakamoto, Jun Nakayama, and Kentaro Semba

Abstract

Luminal breast cancer has the highest bone metastasis frequency among all breast cancer subtypes, but its metastatic mechanism has not been elucidated because of the lack of appropriate metastatic cell lines. The study aim was to characterize high-osteolytic bone metastatic MCF7-BM cell lines and extract c-Jun, a novel bone metastasis marker. We found that c-Jun was upregulated in MCF7-BM cells, and its deficiency was associated with suppression of the cell migration, transformation, and stemness of BM cells. In vivo, c-Jun-deficient MCF7-TAM67 cells exhibited weaker bone metastatic ability. Additionally, c-Jun overexpression in MCF7-BM cells led to a tumor-migration promotion cycle in the bone microenvironment possibly by enhancing calcium-induced migration and releasing the osteoclast activator BMP5. Inhibition of c-Jun by JNK-IN-8, a JNK inhibitor, effectively reduced tumorigenesis activities and bone metastatic tumors. Our results indicate the potential benefits of a therapy that targets c-Jun to prevent or minimize luminal breast cancer bone metastasis.

Published

2022

46. Lonidamine and domperidone inhibit expansion of transformed cell areas by modulating motility of surrounding nontransformed cells

Author

Megumi Aoyama, Kosuke Ishikawa, Shuntaro Nemoto, Hiroyuki Hirano, Nobumoto Watanabe, Hiroyuki Osada, Shinya Watanabe, and Kentaro Semba

Subjects

Indazoles, Cell Biology, Molecular Biology, Biochemistry, Domperidone

Abstract

Cancer cells intrinsically proliferate in an autonomous manner; however, the expansion of cancer cell areas in a tissue is known to be regulated by surrounding nontransformed cells. Whether these nontransformed cells can be targeted to control the spread of cancer cells is not understood. In this study, we established a system to evaluate the cancer-inhibitory activity of surrounding nontransformed cells and screened chemical compounds that could induce this activity. Our findings revealed that lonidamine (LND) and domperidone (DPD) inhibited expansion of oncogenic foci of KRASG12D-expressing transformed cells, whereas they did not inhibit the proliferation of monocultured KRASG12D-expressing cells. Live imaging revealed that LND and DPD suppressed the movement of nontransformed cells away from the attaching cancer cells. Moreover, we determined that LND and DPD promoted stress fiber formation, and the dominant-negative mutant of a small GTPase RhoA relieved the suppression of focus expansion, suggesting that RhoA-mediated stress fiber formation is involved in the inhibition of the movement of nontransformed cells and focus expansion. In conclusion, we suggest that elucidation of the mechanism of action of LND and DPD may lead to the development of a new type of drug that could induce the anticancer activity of surrounding nontransformed cells.

Published

2022

47. Generation of Rat Monoclonal Antibodies Specific for Human Stromal Cell-Derived Factor-2

Author

Masako Tanaka, Jun Nakayama, Masayuki Shiota, Masaru Koyama, Masakazu Yashiro, Nobuhito Goda, and Kentaro Semba

Subjects

Protein glycosylation, Stromal cell, medicine.drug_class, Protein catabolic process, Chemistry, Endoplasmic reticulum, Stromal cell derived factor 2, Short Communication, Immunology, Immunoblotting, Antibodies, Monoclonal, Proteins, mAbs, Monoclonal antibody, SDF-2, Cell biology, Rats, Oxaliplatin, the rat medial iliac lymph method, medicine, Immunology and Allergy, Animals, Immunoprecipitation, Lymph Nodes

Abstract

Stromal cell-derived factor-2 (SDF-2) is reportedly involved in multiple endoplasmic reticulum (ER) functions, including the misfolded protein catabolic process, protein glycosylation, and ER protein quality control. However, the precise molecular and cellular functions of SDF-2 remain unknown. Previously, we discovered that SDF-2 mediates acquired resistance to oxaliplatin in human gastric cancer cells. In this study, we have generated SDF-2-specific monoclonal antibodies (mAbs), using the rat medial iliac lymph node method, as a tool to explore novel mechanisms of oxaliplatin resistance. The antibodies detected endogenous human SDF-2 in immunoblotting analyses. In addition, immunoprecipitation analyses revealed the availability of these antibodies for human SDF-2. Thus, these mAbs will be available to elucidate molecular and cellular functions of SDF-2 in cancer cells.

Published

2020

48. Establishment and characterization of highly osteolytic luminal breast cancer cell lines by intracaudal arterial injection

Author

Yusuke Hayashi, Emi Ito, Jun Nakayama, Mitsuru Futakuchi, Shinya Watanabe, Yuxuan Han, Seongmoon Jeong, and Kentaro Semba

Subjects

Osteolysis, Microarray, Bone Neoplasms, Breast Neoplasms, Biology, Mice, 03 medical and health sciences, Breast cancer, Breast cancer cell line, Mice, Inbred NOD, Osteoclast, Cell Line, Tumor, Genetics, medicine, Animals, Humans, skin and connective tissue diseases, Pathological, 030304 developmental biology, 0303 health sciences, Bone metastasis, Cell Biology, medicine.disease, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, Mice, Inbred C57BL, Disease Models, Animal, medicine.anatomical_structure, Cell culture, MCF-7 Cells, Cancer research, Female

Abstract

Bone is one of the most common metastatic sites of breast cancer, and bone metastasis profoundly affects the quality of life of breast cancer patients. Bone metastasis is commonly observed among all the subtypes of breast cancer; however, its molecular mechanism has been analyzed only in triple-negative subtype of breast cancer (TNBC). To characterize the molecular mechanisms of bone metastasis of luminal breast cancer, we established a bone-metastatic model of the MCF7, luminal breast cancer cell line, with enhanced osteolytic activity by intracaudal arterial injection (CAI). Pathological analysis of the established cell lines revealed that they exhibited fierce osteolytic ability by promoting osteoclast differentiation and activity. The signature genes extracted from highly osteolytic MCF7 cell lines were differed from those of bone-metastatic TNBC cell lines. Our results suggest that unique mechanisms of osteolysis in bone-metastatic lesions of luminal breast cancer. In addition, several up-regulated genes in MCF7-BM (Bone Metastasis) 02 cell lines correlated with poor prognosis with luminal breast cancer patients. Our findings support further study on the bone-metastatic mechanisms of luminal breast cancer.

Published

2020

49. Author Reply to Peer Reviews of Identification of two cancer stem cell-like populations in triple-negative breast cancer xenografts

Author

Kentaro Semba, Yusuke Yamamoto, Haruko Takeyama, Masahito Hosokawa, Takuya Yoda, Koji Arikawa, Hiroko Matsunaga, and Jun Nakayama

Published

2022

50. Metalloproteinase-dependent and TMPRSS2-independnt cell surface entry pathway of SARS-CoV-2 requires the furin-cleavage site and the S2 domain of spike protein

Author

Mizuki Yamamoto, Jin Gohda, Ayako Kobayashi, Keiko Tomita, Youko Hirayama, Naohiko Koshikawa, Motoharu Seiki, Kentaro Semba, Tetsu Akiyama, Yasushi Kawaguchi, and Jun-ichiro Inoue

Subjects

viruses

Abstract

The ongoing global vaccination program to prevent SARS-CoV-2 infection, the causative agent of COVID-19, has had significant success. However, recently virus variants have emerged that can evade the immunity in a host achieved through vaccination. Consequently, new therapeutic agents that can efficiently prevent infection from these new variants, and hence COVID-19 spread are urgently required. To achieve this, extensive characterization of virus-host cell interactions to identify effective therapeutic targets is warranted. Here, we report a cell surface entry pathway of SARS-CoV-2 that exists in a cell type-dependent manner is TMPRSS2-independent but sensitive to various broad-spectrum metalloproteinase inhibitors such as marimastat and prinomastat. Experiments with selective metalloproteinase inhibitors and gene-specific siRNAs revealed that a disintegrin and metalloproteinase 10 (ADAM10) is partially involved in the metalloproteinase pathway. Consistent with our finding that the pathway is unique to SARS-CoV-2 among highly pathogenic human coronaviruses, both the furin cleavage motif in the S1/S2 boundary and the S2 domain of SARS-CoV-2 spike protein are essential for metalloproteinase-dependent entry. In contrast, the two elements of SARS-CoV-2 independently contributed to TMPRSS2-dependent S2 priming. The metalloproteinase pathway is involved in SARS-CoV-2-induced syncytia formation and cytopathicity, leading us to theorize that it is also involved in the rapid spread of SARS-CoV-2 and the pathogenesis of COVID-19. Thus, targeting the metalloproteinase pathway in addition to the TMPRSS2 and endosome pathways could be an effective strategy by which to cure COVID-19 in the future.Author SummaryTo develop effective therapeutics against COVID-19, it is necessary to elucidate in detail the infection mechanism of the causative agent, SARS-CoV-2, including recently emerging variants. SARS-CoV-2 binds to the cell surface receptor ACE2 via the Spike protein, and then the Spike protein is cleaved by host proteases to enable entry. Selection of target cells by expression of these tissue-specific proteases contributes to pathogenesis. Here, we found that the metalloproteinase-mediated pathway is important for SARS-CoV-2 infection, variants included. This pathway requires both the prior cleavage of Spike into two domains and a specific sequence in the second domain S2, conditions met by SARS-CoV-2 but lacking in the related human coronavirus SARS-CoV. The contribution of several proteases, including metalloproteinases, to SARS-CoV-2 infection was cell type dependent, especially in cells derived from kidney, ovary, and endometrium, in which SARS-CoV-2 infection was metalloproteinase-dependent. In these cells, inhibition of metalloproteinases by treatment with marimastat or prinomastat, whose safety was previously confirmed in clinical trials, was important in preventing cell death. Our study provides new insights into the complex pathogenesis unique to COVID-19 and relevant to the development of effective therapies.

Published

2021