Your search keyword '"Kazutomo Suzue"' showing total 77 results

1. TusDCB, a sulfur transferase complex involved in tRNA modification, contributes to UPEC pathogenicity

Author

Yumika Sato, Ayako Takita, Kazutomo Suzue, Yusuke Hashimoto, Suguru Hiramoto, Masami Murakami, Haruyoshi Tomita, and Hidetada Hirakawa

Subjects

Urinary tract infection (UTI), Bacterial pathogenesis, Virulence, tRNA modification, Biofilm, Drug resistance, Medicine, Science

Abstract

Abstract tRNA modifications play a crucial role in ensuring accurate codon recognition and optimizing translation levels. While the significance of these modifications in eukaryotic cells for maintaining cellular homeostasis and physiological functions is well-established, their physiological roles in bacterial cells, particularly in pathogenesis, remain relatively unexplored. The TusDCB protein complex, conserved in γ-proteobacteria like Escherichia coli, is involved in sulfur modification of specific tRNAs. This study focused on the role of TusDCB in the virulence of uropathogenic E. coli (UPEC), a bacterium causing urinary tract infections. The findings indicate that TusDCB is essential for optimal production of UPEC's virulence factors, including type 1 fimbriae and flagellum, impacting the bacterium's ability to aggregate in bladder epithelial cells. Deletion of tusDCB resulted in decreased virulence against urinary tract infection mice. Moreover, mutant TusDCB lacking sulfur transfer activity and tusE- and mnmA mutants revealed the indispensability of TusDCB's sulfur transfer activity for UPEC pathogenicity. The study extends its relevance to highly pathogenic, multidrug-resistant strains, where tusDCB deletion reduced virulence-associated bacterial aggregation. These insights not only deepen our understanding of the interplay between tRNA sulfur modification and bacterial pathogenesis but also highlight TusDCB as a potential therapeutic target against UPEC strains resistant to conventional antimicrobial agents.

Published

2024

2. The PapB/FocB family protein TosR acts as a positive regulator of flagellar expression and is required for optimal virulence of uropathogenic Escherichia coli

Author

Hidetada Hirakawa, Mizuki Shimokawa, Koshi Noguchi, Minori Tago, Hiroshi Matsuda, Ayako Takita, Kazutomo Suzue, Hirotaka Tajima, Ikuro Kawagishi, and Haruyoshi Tomita

Subjects

urinary tract infection, bacterial pathogenesis, virulence, flagella, fimbriae, Biofilm, Microbiology, QR1-502

Abstract

Uropathogenic Escherichia coli (UPEC) is a major causative agent of urinary tract infections. The bacteria internalize into the uroepithelial cells, where aggregate and form microcolonies. UPEC fimbriae and flagella are important for the formation of microcolonies in uroepithelial cells. PapB/FocB family proteins are small DNA-binding transcriptional regulators consisting of approximately 100 amino acids that have been reported to regulate the expression of various fimbriae, including P, F1C, and type 1 fimbriae, and adhesins. In this study, we show that TosR, a member of the PapB/FocB family is the activator of flagellar expression. The tosR mutant had similar expression levels of type 1, P and F1C fimbriae as the parent strain, but flagellar production was markedly lower than in the parent strain. Flagellin is a major component of flagella. The gene encoding flagellin, fliC, is transcriptionally activated by the sigma factor FliA. The fliA expression is induced by the flagellar master regulator FlhDC. The flhD and flhC genes form an operon. The promoter activity of fliC, fliA and flhD in the tosR mutant was significantly lower than in the parent strain. The purified recombinant TosR does not bind to fliC and fliA but to the upstream region of the flhD gene. TosR is known to bind to an AT-rich DNA sequence consisting of 29 nucleotides. The characteristic AT-rich sequence exists 550–578 bases upstream of the flhD gene. The DNA fragment lacking this sequence did not bind TosR. Furthermore, loss of the tosR gene reduced motility and the aggregation ability of UPEC in urothelial cells. These results indicate that TosR is a transcriptional activator that increases expression of the flhDC operon genes, contributing to flagellar expression and optimal virulence.

Published

2023

3. A Macroporous Magnesium Oxide-Templated Carbon Adsorbs Shiga Toxins and Type III Secretory Proteins in Enterohemorrhagic Escherichia coli, Which Attenuates Virulence

Author

Hidetada Hirakawa, Kazutomo Suzue, Motoyuki Uchida, Ayako Takita, Wataru Kamitani, and Haruyoshi Tomita

Subjects

bacterial pathogenesis, antimicrobial resistance, porous carbon, virulence, enterohemorrhagic Escherichia coli, Shiga toxin, Microbiology, QR1-502

Abstract

Enterohemorrhagic Escherichia coli (EHEC) is one of the most common foodborne pathogens. However, no drug that prevents the severe complications caused by this bacterium has been approved yet. This study showed that a macroporous magnesium oxide (MgO)-templated carbon material (MgOC150) adsorbs Shiga toxins, and Type III secretory EspA/EspB proteins responsible for EHEC pathogenesis, and decreases the extracellular levels of these proteins. On the other hand, this material did not affect the growth of EHEC. Citrobacter rodentium traditionally used to estimate Type III secretion system-associated virulence in mice is highly virulent. The survival period of infected mice was prolonged when MgOC150 was administered. This adsorbent disturbed neither mammalian cells nor normal intestinal bacteria, such as Enterococcus hirae, Lactobacillus acidophilus, and Lactobacillus casei. In contrast, MgOC150 adsorbed antimicrobial agents, including β-lactams, quinolones, tetracyclines, and trimethoprim/sulfamethoxazole. However, fosfomycin and amikacin were not adsorbed. Thus, MgOC150 can be used with fosfomycin and amikacin to treat infections. MgOC150 is used for industrial purposes, such as an electrode catalyst, a bioelectrode, and enzyme immobilization. The study proposed another potential application of MgOC150, assisting anti-EHEC chemotherapy.

Published

2022

4. CD8+ regulatory T cells are critical in prevention of autoimmune-mediated diabetes

Author

Chikako Shimokawa, Tamotsu Kato, Tadashi Takeuchi, Noriyasu Ohshima, Takao Furuki, Yoshiaki Ohtsu, Kazutomo Suzue, Takashi Imai, Seiji Obi, Alex Olia, Takashi Izumi, Minoru Sakurai, Hirokazu Arakawa, Hiroshi Ohno, and Hajime Hisaeda

Subjects

Science

Abstract

Helminth infections are associated with a reduction in inflammatory pathology in rodent models of type 1 diabetes. Here, the authors show patient data and that trehalose (produced by H. polygyrus) can alter the microbiome of mice, inducing regulatory CD8+ T cells and reducing susceptibility to autoimmune diabetes.

Published

2020

5. Live Vaccination with Blood-Stage Plasmodium yoelii 17XNL Prevents the Development of Experimental Cerebral Malaria

Author

Takashi Imai, Ha Ngo-Thanh, Kazutomo Suzue, Aoi Shimo, Akihiro Nakamura, Yutaka Horiuchi, Hajime Hisaeda, and Takashi Murakami

Subjects

malaria, experimental cerebral malaria, live vaccination, inflammatory response, blood–brain barrier, Medicine

Abstract

In our work, we aim to develop a malaria vaccine with cross-strain (-species) protection. C57BL/6 mice infected with the P. berghei ANKA strain (PbA) develop experimental cerebral malaria (ECM). In contrast, ECM development is inhibited in infected mice depleted of T cells. The clinical applications of immune-cell depletion are limited due to the benefits of host defense against infectious diseases. Therefore, in the present study we attempted to develop a new method for preventing ECM without immune cell depletion. We demonstrated that mice inoculated with a heterologous live-vaccine of P. yoelii 17XNL were able to prevent both ECM and lung pathology and survived longer than control mice when challenged with PbA. Live vaccination protected blood–organ barriers from PbA infection. Meanwhile, live vaccination conferred sterile protection against homologous challenge with the P. yoelii 17XL virulent strain for the long-term. Analysis of the immune response induced by live vaccination showed that cross-reactive antibodies against PbA antigens were generated. IL-10, which has an immunosuppressive effect, was strongly induced in mice challenged with PbA, unlike the pro-inflammatory cytokine IFNγ. These results suggest that the protective effect of heterologous live vaccination against ECM development results from IL-10-mediated host protection.

Published

2022

6. Roles of the Tol/Pal System in Bacterial Pathogenesis and Its Application to Antibacterial Therapy

Author

Hidetada Hirakawa, Kazutomo Suzue, and Haruyoshi Tomita

Subjects

Gram-negative bacteria, virulence, drug resistance, antimicrobial chemotherapy, vaccine, outer membrane protein, Medicine

Abstract

The Tol/Pal system (also written as “The Tol-Pal system”) is a set of protein complexes produced by most Gram-negative bacteria. It comprises the inner membrane-associated and the outer membrane-anchored subunits composed of the TolA, TolQ, and TolR proteins and the TolB and Pal proteins, respectively. Although the Tol/Pal system was first defined as bacterial proteins involved in colicin uptake of Escherichia coli, its global roles have been characterized in several studies as mentioned in this article. Pathogenesis of many Gram-negative pathogens is sustained by the Tol/Pal system. It is also essential for cell growth and fitness in some pathogens. Therefore, the Tol/Pal system is proposed as a potential target for antimicrobial chemotherapy. Although the tol/pal mutants are low in virulence, they still have the ability to stimulate the immune system. The Pal protein is highly immunogenic and induces both adaptive and innate immune responses. Therefore, the tol/pal mutant strains and Pal proteins also have potential vaccine properties. For these reasons, the Tol/Pal system represents a promising research target in the development of antibacterial therapeutic strategies for refractory infections caused by multi-drug-resistant (MDR), Gram-negative pathogens. In this paper, we summarize studies on the Tol/Pal system associated with bacterial pathogenesis and vaccine development.

Published

2022

7. Polyglutamine-containing microglia leads to disturbed differentiation and neurite retraction of neuron-like cells

Author

Ryuji Owada, Saaya Awata, Kazutomo Suzue, Hiroyasu Kanetaka, Yohei Kakuta, and Kazuhiro Nakamura

Subjects

Neurite, Polyglutamine, Neuronal death, Molecular neuroscience, Neuroanatomy, Cell culture, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Expanded polyglutamine-containing proteins in neurons intrinsically contributes to neuronal dysfunctions and neuronal cell death in polyglutamine (polyQ) diseases. In addition, an expanded polyQ-containing protein in microglia also leads to apoptosis of neurons. However, detailed morphological analysis of neurons exposed to conditioned medium (CM) derived from polyQ-containing microglia has not been essentially carried out. Here, we introduced aggregated peptide with 69 glutamine repeat (69Q) into BV2 microglial cells. The 69Q-containing BV2 cells showed shorter branches. The CM from 69Q-containing microglia (69Q-CM) induced neurite retraction and fewer number of branch point of neurites of differentiated PC12 cells. Likewise, the 69Q-CM induces disturbed differentiation of PC12 cells with shorter total length of neurites and fewer number of branch point of neurites. Thus, the factor(s) released from polyQ-containing microglia affect both differentiation and degeneration of neuron-like cells.

Published

2020

8. Roles of OmpA in Type III Secretion System-Mediated Virulence of Enterohemorrhagic Escherichia coli

Author

Hidetada Hirakawa, Kazutomo Suzue, Ayako Takita, and Haruyoshi Tomita

Subjects

virulence, pathogenicity, type III secretion system, gastrointestinal infection, outer membrane protein, enteric pathogen, Medicine

Abstract

Outer membrane proteins are commonly produced by gram-negative bacteria, and they have diverse functions. A subgroup of proteins, which includes OmpA, OmpW and OmpX, is often involved in bacterial pathogenesis. Here we show that OmpA, rather than OmpW or OmpX, contributes to the virulence of enterohemorrhagic Escherichia coli (EHEC) through its type III secretion system (T3SS). Deletion of ompA decreased secretion of the T3SS proteins EspA and EspB; however, the expression level of the LEE genes that encode a set of T3SS proteins did not decrease. The ompA mutant had less abilities to form A/E lesions in host epithelial cells and lyse human red blood cells than the parent strain. Moreover, the virulence of an ompA mutant of Citrobacter rodentium (traditionally used to estimate T3SS-associated virulence in mice) was attenuated. Mice infected with the ompA mutant survived longer than those infected with the parent strain. Furthermore, mice infected with ompA developed symptoms of diarrhea more slowly than mice infected with the parent strain. Altogether, these results suggest that OmpA sustains the activity of the T3SS and is required for optimal virulence in EHEC. This work expands the roles of outer membrane proteins in bacterial pathogenesis.

Published

2021

9. Fluctuations of Spleen Cytokine and Blood Lactate, Importance of Cellular Immunity in Host Defense Against Blood Stage Malaria Plasmodium yoelii

Author

Takashi Imai, Kazutomo Suzue, Ha Ngo-Thanh, Suguri Ono, Wakako Orita, Haruka Suzuki, Chikako Shimokawa, Alex Olia, Seiji Obi, Tomoyo Taniguchi, Hidekazu Ishida, Luc Van Kaer, Shigeo Murata, Keiji Tanaka, and Hajime Hisaeda

Subjects

malaria, T cell, CD8 T cell, CD4 T cell, macrophage, erythroblast, Immunologic diseases. Allergy, RC581-607

Abstract

Our previous studies of protective immunity and pathology against blood stage malaria parasites have shown that not only CD4+ T cells, but also CD8+ T cells and macrophages, are important for host defense against blood stage malaria infection. Furthermore, we found that Plasmodium yoelii 17XNL (PyNL) parasitizes erythroblasts, the red blood cell (RBC) precursor cells, which then express MHC class I molecules. In the present study, we analyzed spleen cytokine production. In CD8+ T cell-depleted mice, IL-10 production in early stage infection was increased over two-fold relative to infected control animals and IL-10+ CD3− cells were increased, whereas IFN-γ production in the late stage of infection was decreased. At day 16 after PyNL infection, CD8+ T cells produced more IFN-γ than CD4+ T cells. We evaluated the involvement of the immunoproteasome in induction of immune CD8+ T cells, and the role of Fas in protection against PyNL both of which are downstream of IFN-γ. In cell transfer experiments, at least the single molecules LMP7, LMP2, and PA28 are not essential for CD8+ T cell induction. The Fas mutant LPR mouse was weaker in resistance to PyNL infection than WT mice, and 20% of the animals died. LPR-derived parasitized erythroid cells exhibited less externalization of phosphatidylserine (PS), and phagocytosis by macrophages was impaired. Furthermore, we tried to identify the cause of death in malaria infection. Blood lactate concentration was increased in the CD8+ T cell-depleted PyNL-infected group at day 19 (around peak parasitemia) to similar levels as day 7 after infection with a lethal strain of Py. When we injected mice with lactate at day 4 and 6 of PyNL infection, all mice died at day 8 despite demonstrating low parasitemia, suggesting that hyperlactatemia is one of the causes of death in CD8+ T cell-depleted PyNL-infected mice. We conclude that CD8+ T cells might control cytokine production to some extent and regulate hyperparasitemia and hyperlactatemia in protection against blood stage malaria parasites.

Published

2019

10. The Tol-Pal System of Uropathogenic Escherichia coli Is Responsible for Optimal Internalization Into and Aggregation Within Bladder Epithelial Cells, Colonization of the Urinary Tract of Mice, and Bacterial Motility

Author

Hidetada Hirakawa, Kazutomo Suzue, Kumiko Kurabayashi, and Haruyoshi Tomita

Subjects

virulence, invasion, biofilm, pyelonephritis, urinary tract infection (UTI), Microbiology, QR1-502

Abstract

Urinary tracts infection (UTI) caused by uropathogenic Escherichia coli (UPEC) is a common infectious disease. With the shortage of new antimicrobial agents, the increase in UPEC resistance to commonly used drugs, such as fluoroquinolones and β-lactams including carbapenems is a critical issue. UPEC invades urinary tract cells, where it aggregates, and subsequently, forms biofilm-like multicellular colonies termed intracellular bacterial communities (IBCs). This process allows the bacteria to establish infections and so may be a good potential target for new drugs to treat infections. Here, we show that deletion of the tolB gene, encoding a protein of the Tol-Pal system that was originally characterized as a protein complex for colicin uptake and maintenance of the outer membrane, decreases the level of bacterial internalization into and aggregation within cultured bladder epithelial cells and also inhibits the colonization of mice urinary tracts. The tolB mutant also exhibited defective motility because of impaired flagellum syntheses. The fliC and motA mutants, which are non-motile strains, also exhibited lower levels of bacterial internalization and aggregation than their wild-type parent. Additional deletion of tolB in the fliC mutant did not further decrease these, suggesting that the attenuated virulence of the tolB mutant is a result of defective motility. The tolA, tolQ, tolR, and pal mutants that lack other members of the Tol-Pal system also exhibited lower levels of motility and aggregation within bladder epithelial cells compared to their wild-type parent. These combined results suggest another role of the Tol-Pal system, i.e., that it is responsible for optimal internalization, aggregation followed by IBC formation within urinary tract cells, and bacterial motility.

Published

2019

11. Potential and Limitations of Cross-Protective Vaccine against Malaria by Blood-Stage Naturally Attenuated Parasite

Author

Takashi Imai, Kazutomo Suzue, Ha Ngo-Thanh, Chikako Shimokawa, and Hajime Hisaeda

Subjects

Malaria, live vaccine, whole parasite, spleen, lymph node, Plasmodium, Medicine

Abstract

Human malaria vaccine trials have revealed vaccine efficacy but improvement is still needed. In this study, we aimed to re-evaluate vaccination with blood-stage naturally attenuated parasites, as a whole-organism vaccine model against cross-strain and cross-species malaria, to establish a better vaccination strategy. C57BL/6 mice controlled blood-stage Plasmodium yoelii 17XNL (PyNL) within 1 month of infection, while mice with a variety of immunodeficiencies demonstrated different susceptibilities to PyNL, including succumbing to hyperparasitemia. However, after recovery, survivors had complete protection against a challenge with the lethal strain PyL. Unlike cross-strain protection, PyNL-recovered mice failed to induce sterile immunity against Plasmodium berghei ANKA, although prolonged survival was observed in some vaccinated mice. Splenomegaly is a typical characteristic of malaria; the splenic structure became reorganized to prioritize extra-medullary hematopoiesis and to eliminate parasites. We also found that the peritoneal lymph node was enlarged, containing activated/memory phenotype cells that did not confer protection against PyL challenge. Hemozoins remained in the spleen several months after PyNL infection. Generation of an attenuated human blood-stage parasite expressing proteins from multiple species of malaria would greatly improve anti-malaria vaccination.

Published

2020

12. Cytotoxic activities of CD8+ T cells collaborate with macrophages to protect against blood-stage murine malaria

Author

Takashi Imai, Hidekazu Ishida, Kazutomo Suzue, Tomoyo Taniguchi, Hiroko Okada, Chikako Shimokawa, and Hajime Hisaeda

Subjects

malaria, erythroblast, CD8+ T cell, Medicine, Science, Biology (General), QH301-705.5

Abstract

The protective immunity afforded by CD8+ T cells against blood-stage malaria remains controversial because no MHC class I molecules are displayed on parasite-infected human erythrocytes. We recently reported that rodent malaria parasites infect erythroblasts that express major histocompatibility complex (MHC) class I antigens, which are recognized by CD8+ T cells. In this study, we demonstrate that the cytotoxic activity of CD8+ T cells contributes to the protection of mice against blood-stage malaria in a Fas ligand (FasL)-dependent manner. Erythroblasts infected with malarial parasites express the death receptor Fas. CD8+ T cells induce the externalization of phosphatidylserine (PS) on the infected erythroblasts in a cell-to-cell contact-dependent manner. PS enhances the engulfment of the infected erythroid cells by phagocytes. As a PS receptor, T-cell immunoglobulin-domain and mucin-domain-containing molecule 4 (Tim-4) contributes to the phagocytosis of malaria-parasite-infected cells. Our findings provide insight into the molecular mechanisms underlying the protective immunity exerted by CD8+ T cells in collaboration with phagocytes.

Published

2015

13. Resistance to malaria by enhanced phagocytosis of erythrocytes in LMP7-deficient mice.

Author

Xuefeng Duan, Takashi Imai, Bin Chou, Liping Tu, Kunisuke Himeno, Kazutomo Suzue, Makoto Hirai, Tomoyo Taniguchi, Hiroko Okada, Chikako Shimokawa, and Hajime Hisaeda

Subjects

Medicine, Science

Abstract

General cellular functions of proteasomes occur through protein degradation, whereas the specific function of immunoproteasomes is the optimization of antigen processing associated with MHC class I. We and others previously reported that deficiency in subunits of immunoproteasomes impaired the activation of antigen-specific CD8(+) T cells, resulting in higher susceptibility to tumor and infections. We demonstrated that CD8(+) T cells contributed to protection against malaria parasites. In this study, we evaluated the role of immunoproteasomes in the course of infection with rodent malaria parasites. Unexpectedly, Plasmodium yoelii infection of mice deficient in LMP7, a catalytic subunit of immunoproteasomes, showed lower parasite growth in the early phase of infection and lower lethality compared with control mice. The protective characteristics of LMP7-deficient mice were not associated with enhanced immune responses, as the mutant mice showed comparable or diminished activation of innate and acquired immunity. The remarkable difference was observed in erythrocytes instead of immune responses. Parasitized red blood cells (pRBCs) purified from LMP7-deficient mice were more susceptible to phagocytosis by macrophages compared with those from wild-type mice. The susceptibility of pRBC to phagocytosis appeared to correlate with deformity of the membrane structures that were only observed after infection. Our results suggest that RBCs of LMP7-deficient mice were more likely to deform in response to infection with malaria parasites, presumably resulting in higher susceptibility to phagocytosis and in the partial resistance to malaria.

Published

2013

14. Correction: Species-Specific Immunity Induced by Infection with and in Mice.

Author

Chikako Shimokawa, Richard Culleton, Takashi Imai, Kazutomo Suzue, Makoto Hirai, Tomoyo Taniguchi, Seiki Kobayashi, Hajime Hisaeda, and Shinjiro Hamano

Subjects

Medicine, Science

Published

2013

15. Species-specific immunity induced by infection with Entamoeba histolytica and Entamoeba moshkovskii in mice.

Author

Chikako Shimokawa, Richard Culleton, Takashi Imai, Kazutomo Suzue, Makoto Hirai, Tomoyo Taniguchi, Seiki Kobayashi, Hajime Hisaeda, and Shinjiro Hamano

Subjects

Medicine, Science

Abstract

Entamoeba histolytica, the parasitic amoeba responsible for amoebiasis, causes approximately 100,000 deaths every year. There is currently no vaccine against this parasite. We have previously shown that intracecal inoculation of E. histolytica trophozoites leads to chronic and non-healing cecitis in mice. Entamoeba moshkovskii, a closely related amoeba, also causes diarrhea and other intestinal disorders in this model. Here, we investigated the effect of infection followed by drug-cure of these species on the induction of immunity against homologous or heterologous species challenge. Mice were infected with E. histolytica or E. moshkovskii and treated with metronidazole 14 days later. Re-challenge with E. histolytica or E. moshkovskii was conducted seven or 28 days following confirmation of the clearance of amoebae, and the degree of protection compared to non-exposed control mice was evaluated. We show that primary infection with these amoebae induces a species-specific immune response which protects against challenge with the homologous, but not a heterologous species. These findings pave the way, therefore, for the identification of novel amoebae antigens that may become the targets of vaccines and provide a useful platform to investigate host protective immunity to Entamoeba infections.

Published

2013

16. The murine stem cell virus promoter drives correlated transgene expression in the leukocytes and cerebellar Purkinje cells of transgenic mice.

Author

Miho Oue, Hiroshi Handa, Yasunori Matsuzaki, Kazutomo Suzue, Hirokazu Murakami, and Hirokazu Hirai

Subjects

Medicine, Science

Abstract

The murine stem cell virus (MSCV) promoter exhibits activity in mouse hematopoietic cells and embryonic stem cells. We generated transgenic mice that expressed enhanced green fluorescent protein (GFP) under the control of the MSCV promoter. We obtained 12 transgenic founder mice through 2 independent experiments and found that the bodies of 9 of the founder neonates emitted different levels of GFP fluorescence. Flow cytometric analysis of circulating leukocytes revealed that the frequency of GFP-labeled leukocytes among white blood cells ranged from 1.6% to 47.5% across the 12 transgenic mice. The bodies of 9 founder transgenic mice showed various levels of GFP expression. GFP fluorescence was consistently observed in the cerebellum, with faint or almost no fluorescence in other brain regions. In the cerebellum, 10 founders exhibited GFP expression in Purkinje cells at frequencies of 3% to 76%. Of these, 4 mice showed Purkinje cell-specific expression, while 4 and 2 mice expressed GFP in the Bergmann glia and endothelial cells, respectively. The intensity of the GFP fluorescence in the body was relative to the proportion of GFP-positive leukocytes. Moreover, the frequency of the GFP-expressing leukocytes was significantly correlated with the frequency of GFP-expressing Purkinje cells. These results suggest that the MSCV promoter is useful for preferentially expressing a transgene in Purkinje cells. In addition, the proportion of transduced leukocytes in the peripheral circulation reflects the expression level of the transgene in Purkinje cells, which can be used as a way to monitor transgene expression properties in the cerebellum without invasive techniques.

Published

2012

17. Arf1 and Arf6 Synergistically Maintain Survival of T Cells during Activation

Author

Yuki Ikuta, Yasunori Kanaho, Satoshi Matsuda, Madoka Ozawa, Kana Bando, Yui Kotani, Mami Sumiyoshi, Takaya Abe, Kazutomo Suzue, Shigeo Koyasu, Tomoya Katakai, Toshio Watanabe, and Taketo Yamada

Subjects

Encephalomyelitis, Autoimmune, Experimental, Cell Survival, T-Lymphocytes, T cell, Immunology, Receptors, Antigen, T-Cell, Apoptosis, Mice, Transgenic, Biology, Lymphocyte Activation, Mice, Immune system, medicine, Animals, Immunology and Allergy, Cells, Cultured, ADP-Ribosylation Factors, T-cell receptor, Experimental autoimmune encephalomyelitis, Colitis, medicine.disease, Cell biology, Mice, Inbred C57BL, medicine.anatomical_structure, Proto-Oncogene Proteins c-bcl-2, ADP-Ribosylation Factor 6, ADP-Ribosylation Factor 1, Cytokine secretion, Immunotherapy, Guanine nucleotide exchange factor, Ras superfamily, Signal Transduction

Abstract

ADP-ribosylation factor (Arf) family consisting of six family members, Arf1–Arf6, belongs to Ras superfamily and orchestrates vesicle trafficking under the control of guanine nucleotide exchange factors (GEFs) and GTPase-activating proteins. It is well established that brefeldin A, a potent inhibitor of ArfGEFs, blocks cytokine secretion from activated T cells, suggesting that the Arf pathway plays important roles in T cell functions. In this study, because Arf1 and Arf6 are the best-characterized members among Arf family, we established T lineage–specific Arf1-deficient, Arf6-deficient, and Arf1/6 double-deficient mice to understand physiological roles of the Arf pathway in the immune system. Contrary to our expectation, Arf deficiency had little or no impact on cytokine secretion from the activated T cells. In contrast, the lack of both Arf1 and Arf6, but neither Arf1 nor Arf6 deficiency alone, rendered naive T cells susceptible to apoptosis upon TCR stimulation because of imbalanced expression of Bcl-2 family members. We further demonstrate that Arf1/6 deficiency in T cells alleviates autoimmune diseases like colitis and experimental autoimmune encephalomyelitis, whereas Ab response under Th2-polarizing conditions is seemingly normal. Our findings reveal an unexpected role for the Arf pathway in the survival of T cells during TCR-induced activation and its potential as a therapeutic target in the autoimmune diseases.

Published

2021

18. Blood–cerebrospinal fluid barrier: another site disrupted during experimental cerebral malaria caused by Plasmodium berghei ANKA

Author

Hajime Hisaeda, Wataru Kamitani, Hideaki Yokoo, Ha Ngo-Thanh, Tsutomu Sasaki, Koji Isoda, Chikako Shimokawa, Takashi Imai, and Kazutomo Suzue

Subjects

0301 basic medicine, Plasmodium berghei, 030231 tropical medicine, Malaria, Cerebral, Inflammation, Mice, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, parasitic diseases, medicine, Animals, Evans Blue, biology, Brain, biology.organism_classification, medicine.disease, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Infectious Diseases, chemistry, Blood-Brain Barrier, Cerebral Malaria, Cerebral ventricle, Immunology, Parasitology, Choroid plexus, medicine.symptom, Plasmodium yoelii, Malaria

Abstract

Cerebral malaria is one of the most severe pathologies of malaria; it induces neuro-cognitive sequelae and has a high mortality rate. Although many factors involved in the development of cerebral malaria have been discovered, its pathogenic mechanisms are still not completely understood. Most studies on cerebral malaria have focused on the blood-brain barrier, despite the importance of the blood-cerebrospinal fluid barrier, which protects the brain from peripheral inflammation. Consequently, the pathological role of the blood-cerebrospinal fluid barrier in cerebral malaria is currently unknown. To examine the status of the blood-cerebrospinal fluid barrier in cerebral malaria and malaria without this pathology (non-cerebral malaria), we developed a new method for evaluating the permeabilization of the blood-cerebrospinal fluid barrier during cerebral malaria in mice, using Evans blue dye and a software-assisted image analysis. Using C57BL/6J (B6) mice infected with Plasmodium berghei ANKA strain as an experimental cerebral malaria model and B6 mice infected with P. berghei NK65 strain or Plasmodium yoelii as non-cerebral malaria models, we revealed that the permeability of the blood-cerebrospinal fluid barrier increased during experimental cerebral malaria but not during non-cerebral malaria. We observed haemorrhaging in the cerebral ventricles and hemozoin-like structures in the choroid plexus, which is a key component of the blood-cerebrospinal fluid barrier, in cerebral malaria mice. Taken together, this evidence indicates that the blood-cerebrospinal fluid barrier is disrupted in experimental cerebral malaria, whereas it remains intact in non-cerebral malaria. We also found that P. berghei ANKA parasites and CD8+ T cells are involved in the blood-cerebrospinal fluid barrier disruption in experimental cerebral malaria. An understanding of the mechanisms underlying cerebral malaria might help in the development of effective strategies to prevent and manage cerebral malaria in humans.

Published

2020

19. Roles of OmpX, an Outer Membrane Protein, on Virulence and Flagellar Expression in Uropathogenic Escherichia coli

Author

Ayako Takita, Hidetada Hirakawa, Haruyoshi Tomita, Kazutomo Suzue, and Wataru Kamitani

Subjects

Hydrolases, Virulence Factors, media_common.quotation_subject, Immunology, Mutant, Virulence, Biology, Flagellum, medicine.disease_cause, Microbiology, medicine, Humans, Uropathogenic Escherichia coli, Internalization, Pathogen, Escherichia coli, Escherichia coli Infections, media_common, Escherichia coli Proteins, Biofilm, Gene Expression Regulation, Bacterial, Molecular Pathogenesis, Infectious Diseases, Flagella, Biofilms, Urinary Tract Infections, Parasitology, Bacterial outer membrane, Bacterial Outer Membrane Proteins

Abstract

Uropathogenic Escherichia coli (UPEC) is a major pathogen that causes urinary tract infection (UTI). This bacterium adheres to and internalizes within urinary tract cells, where it aggregates and subsequently forms biofilm-like multicellular colonies that protect UPEC from antimicrobial agents and the host’s immune system. Here, we show that OmpX, an outer membrane protein, plays a role in the pathogenesis of UPEC in renal cells. Deletion of ompX decreased bacterial internalization and aggregation within kidney epithelial cells and also impaired the colonization of mouse urinary tracts, but the ompX mutant still adhered to the epithelial cells at a level similar to that of the parent strain. FlhD, the master regulator of flagellum-related genes, had a low expression level in the ompX mutant compared to the parent strain, and the ompX mutant exhibited defective motility due to lower flagellar production than the parent strain. The fliC mutant, which lacks flagella, exhibited lower levels of bacterial internalization and aggregation than the parent strain. Additional deletion of ompX in the fliC mutant did not further decrease bacterial internalization. These combined results suggest that OmpX contributes to flagellar production in UPEC and then sustains UPEC virulence associated with bacterial internalization and aggregation within urinary tract cells and colonization in the urinary tract.

Published

2021

20. Long-term acrylamide exposure exacerbates brain and lung pathology in a mouse malaria model

Author

Ha Ngo-Thanh, Wataru Kamitani, Kazutomo Suzue, Trang Dam Thuy, Koji Isoda, Takashi Imai, Chikako Shimokawa, Hideaki Yokoo, and Hajime Hisaeda

Subjects

musculoskeletal diseases, Male, medicine.medical_specialty, Plasmodium berghei, Physiology, Parasitemia, Toxicology, 03 medical and health sciences, Mice, 0404 agricultural biotechnology, Immune system, parasitic diseases, medicine, Animals, skin and connective tissue diseases, Survival rate, Lung, Carcinogen, 030304 developmental biology, 0303 health sciences, Acrylamide, medicine.diagnostic_test, biology, business.industry, Brain, Magnetic resonance imaging, 04 agricultural and veterinary sciences, General Medicine, medicine.disease, biology.organism_classification, 040401 food science, Malaria, Mice, Inbred C57BL, Disease Models, Animal, Histopathology, Female, business, Food Science

Abstract

The consumption of dietary acrylamide (ACR), a carcinogen, results in the dysfunction of various organs and the immune system. However, the impact of ACR exposure on the progression of infectious diseases is unknown. This study investigated the effect of ACR on the progression of malaria infection using a mouse model of malaria. C57BL/6 mice were continuously treated with ACR at a dose of 20 mg/kg bodyweight/day for six weeks (long-term exposure) or phosphate-buffered saline (PBS). Next, the mice were infected with the rodent malaria parasite, Plasmodium berghei NK65 (PbNK). Parasitemia and survival rate were analyzed in the different treatment groups. Magnetic resonance imaging (MRI) and histopathological analyses were performed to evaluate the effect of ACR exposure on the morphology of various organs. Long-term ACR exposure exacerbated PbNK-induced multiorgan dysfunction. MRI and histopathological analysis revealed signs of encephalomeningitis and acute respiratory distress syndrome in the PbNK-infected long-term ACR exposure mice, which decreased the survival rate of mice, but not in the PbNK-infected long-term PBS exposure group. These findings enhance our understanding of the impact of ACR on the progression of infectious diseases, such as malaria.

Published

2021

21. Author Correction: CD8+ T cell activation by murine erythroblasts infected with malaria parasites

Author

Hidekazu Ishida, Kazutomo Suzue, Tomoyo Taniguchi, Takashi Imai, Tomohisa Suzuki, Hajime Hisaeda, Makoto Hirai, Chikako Shimokawa, and Hiroko Okada

Subjects

Mice, Knockout, Multidisciplinary, Erythroblasts, Ovalbumin, lcsh:R, Green Fluorescent Proteins, Histocompatibility Antigens Class I, lcsh:Medicine, Plasmodium yoelii, Biology, CD8-Positive T-Lymphocytes, medicine.disease, Lymphocyte Activation, Virology, Malaria, Mice, Inbred C57BL, Mice, medicine, Cytotoxic T cell, Animals, lcsh:Q, lcsh:Science, Author Correction

Abstract

Recent studies show that some human malaria parasite species Plasmodium falciparum and P. vivax parasitize erythroblasts; however, the biological and clinical significance of this is unclear. To investigate further, we generated a rodent malaria parasite (P. yoelii 17XNL) expressing GFP-ovalbumin (OVA). Its infectivity to erythroblasts was confirmed, and parasitized erythroblasts were capable of initiating malaria infections. Experiments showed that MHC class I molecules were highly expressed on parasitized erythroblasts. As CD8(+) T cells recognize MHC class I and peptide complexes on target cells, and are involved in protection or pathology against malaria, we examined whether erythroblasts are targeted by CD8(+) T cells. Purified non-parasitized erythroblasts pulsed with OVA peptides were recognized by OVA-specific CD8(+) T cells. Crucially, parasitized erythroblasts isolated from GFP-OVA-, but not GFP- infected-mice, activated OT-I CD8(+) T cells, indicating that CD8(+) T cells recognize parasitized erythroblasts in an antigen-specific manner.

Published

2020

22. Polyglutamine-containing microglia leads to disturbed differentiation and neurite retraction of neuron-like cells

Author

Yohei Kakuta, Ryuji Owada, Saaya Awata, Hiroyasu Kanetaka, Kazutomo Suzue, and Kazuhiro Nakamura

Subjects

0301 basic medicine, Programmed cell death, Neurite, Cellular differentiation, Neuronal death, Molecular neuroscience, 03 medical and health sciences, 0302 clinical medicine, Cell differentiation, medicine, lcsh:Social sciences (General), lcsh:Science (General), Multidisciplinary, Microglia, Chemistry, Cell biology, Neuroanatomy, 030104 developmental biology, medicine.anatomical_structure, nervous system, Apoptosis, Cell culture, lcsh:H1-99, Neuron, Polyglutamine, 030217 neurology & neurosurgery, Research Article, lcsh:Q1-390

Abstract

Expanded polyglutamine-containing proteins in neurons intrinsically contributes to neuronal dysfunctions and neuronal cell death in polyglutamine (polyQ) diseases. In addition, an expanded polyQ-containing protein in microglia also leads to apoptosis of neurons. However, detailed morphological analysis of neurons exposed to conditioned medium (CM) derived from polyQ-containing microglia has not been essentially carried out. Here, we introduced aggregated peptide with 69 glutamine repeat (69Q) into BV2 microglial cells. The 69Q-containing BV2 cells showed shorter branches. The CM from 69Q-containing microglia (69Q-CM) induced neurite retraction and fewer number of branch point of neurites of differentiated PC12 cells. Likewise, the 69Q-CM induces disturbed differentiation of PC12 cells with shorter total length of neurites and fewer number of branch point of neurites. Thus, the factor(s) released from polyQ-containing microglia affect both differentiation and degeneration of neuron-like cells., Neurite, Polyglutamine, Neuronal death, Molecular neuroscience, Neuroanatomy, Cell culture, Cell differentiation

Published

2020

23. Potential and Limitations of Cross-Protective Vaccine against Malaria by Blood-Stage Naturally Attenuated Parasite

Author

Ha Ngo-Thanh, Chikako Shimokawa, Hajime Hisaeda, Takashi Imai, and Kazutomo Suzue

Subjects

0301 basic medicine, Plasmodium, Plasmodium berghei, Immunology, lcsh:Medicine, Article, 03 medical and health sciences, 0302 clinical medicine, live vaccine, Immunity, Drug Discovery, parasitic diseases, Medicine, Pharmacology (medical), Pharmacology, Attenuated vaccine, biology, business.industry, Malaria vaccine, lcsh:R, Plasmodium yoelii, lymph node, medicine.disease, Vaccine efficacy, biology.organism_classification, Malaria, Vaccination, 030104 developmental biology, Infectious Diseases, spleen, business, whole parasite, 030217 neurology & neurosurgery

Abstract

Human malaria vaccine trials have revealed vaccine efficacy but improvement is still needed. In this study, we aimed to re-evaluate vaccination with blood-stage naturally attenuated parasites, as a whole-organism vaccine model against cross-strain and cross-species malaria, to establish a better vaccination strategy. C57BL/6 mice controlled blood-stage Plasmodium yoelii 17XNL (PyNL) within 1 month of infection, while mice with a variety of immunodeficiencies demonstrated different susceptibilities to PyNL, including succumbing to hyperparasitemia. However, after recovery, survivors had complete protection against a challenge with the lethal strain PyL. Unlike cross-strain protection, PyNL-recovered mice failed to induce sterile immunity against Plasmodium berghei ANKA, although prolonged survival was observed in some vaccinated mice. Splenomegaly is a typical characteristic of malaria, the splenic structure became reorganized to prioritize extra-medullary hematopoiesis and to eliminate parasites. We also found that the peritoneal lymph node was enlarged, containing activated/memory phenotype cells that did not confer protection against PyL challenge. Hemozoins remained in the spleen several months after PyNL infection. Generation of an attenuated human blood-stage parasite expressing proteins from multiple species of malaria would greatly improve anti-malaria vaccination.

Published

2020

24. CD8+ regulatory T cells are critical in prevention of autoimmune-mediated diabetes

Author

Seiji Obi, Chikako Shimokawa, Takashi Izumi, Takao Furuki, Hiroshi Ohno, Hajime Hisaeda, Hirokazu Arakawa, Noriyasu Ohshima, Alex Olia, Yoshiaki Ohtsu, Minoru Sakurai, Kazutomo Suzue, Takashi Imai, Tamotsu Kato, and Tadashi Takeuchi

Subjects

Male, 0301 basic medicine, endocrine system diseases, General Physics and Astronomy, Disease, CD8-Positive T-Lymphocytes, T-Lymphocytes, Regulatory, Mice, chemistry.chemical_compound, 0302 clinical medicine, Mice, Inbred NOD, Insulin-Secreting Cells, RNA, Ribosomal, 16S, Ruminococcus, lcsh:Science, Clostridiales, Multidisciplinary, biology, Female, Infection, Immunosuppressive Agents, medicine.drug, Science, Article, General Biochemistry, Genetics and Molecular Biology, Diabetes Mellitus, Experimental, 03 medical and health sciences, Diabetes mellitus, parasitic diseases, medicine, Animals, Humans, Autoimmune disease, Type 1 diabetes, Faecalibacterium prausnitzii, nutritional and metabolic diseases, Trehalose, General Chemistry, medicine.disease, Streptozotocin, biology.organism_classification, Gastrointestinal Microbiome, Mice, Inbred C57BL, Disease Models, Animal, Diabetes Mellitus, Type 1, 030104 developmental biology, chemistry, Immunology, lcsh:Q, CD8, Parasite host response, 030215 immunology

Abstract

Type 1 diabetes (T1D) is an autoimmune disease in which insulin-producing pancreatic β-cells are destroyed. Intestinal helminths can cause asymptomatic chronic and immunosuppressive infections and suppress disease in rodent models of T1D. However, the underlying regulatory mechanisms for this protection are unclear. Here, we report that CD8+ regulatory T (Treg) cells prevent the onset of streptozotocin -induced diabetes by a rodent intestinal nematode. Trehalose derived from nematodes affects the intestinal microbiota and increases the abundance of Ruminococcus spp., resulting in the induction of CD8+ Treg cells. Furthermore, trehalose has therapeutic effects on both streptozotocin-induced diabetes and in the NOD mouse model of T1D. In addition, compared with healthy volunteers, patients with T1D have fewer CD8+ Treg cells, and the abundance of intestinal Ruminococcus positively correlates with the number of CD8+ Treg cells in humans., Helminth infections are associated with a reduction in inflammatory pathology in rodent models of type 1 diabetes. Here, the authors show patient data and that trehalose (produced by H. polygyrus) can alter the microbiome of mice, inducing regulatory CD8+ T cells and reducing susceptibility to autoimmune diabetes.

Published

2020

25. Roles of the Tol-Pal system in the Type III secretion system and flagella-mediated virulence in enterohemorrhagic Escherichia coli

Author

Ayako Takita, Chikako Awazu, Jun Kurushima, Kazutomo Suzue, Hidetada Hirakawa, and Haruyoshi Tomita

Subjects

0301 basic medicine, Mutant, lcsh:Medicine, Pathogenesis, medicine.disease_cause, Bacterial Adhesion, Type three secretion system, Type III Secretion Systems, lcsh:Science, Mice, Inbred C3H, Multidisciplinary, Shiga-Toxigenic Escherichia coli, Virulence, Antimicrobials, Escherichia coli Proteins, Enterobacteriaceae Infections, humanities, Flagella, Enterohemorrhagic Escherichia coli, Female, Pathogens, Periplasmic Proteins, Microbial genetics, Bacterial Outer Membrane Proteins, Lipoproteins, 030106 microbiology, Motility, Peptidoglycan, Biology, Flagellum, Microbiology, Article, Shiga Toxin, 03 medical and health sciences, medicine, Animals, Humans, Secretion, Escherichia coli, lcsh:R, Bacteriology, Epithelial Cells, Gene Expression Regulation, Bacterial, biology.organism_classification, 030104 developmental biology, Mutation, bacteria, Citrobacter rodentium, lcsh:Q, Bacteria, HeLa Cells

Abstract

The Tol-Pal system is a protein complex that is highly conserved in many gram-negative bacteria. We show here that the Tol-Pal system is associated with the enteric pathogenesis of enterohemorrhagic E. coli (EHEC). Deletion of tolB, which is required for the Tol-Pal system decreased motility, secretion of the Type III secretion system proteins EspA/B, and the ability of bacteria to adhere to and to form attaching and effacing (A/E) lesions in host cells, but the expression level of LEE genes, including espA/B that encode Type III secretion system proteins were not affected. The Citrobacter rodentium, tolB mutant, that is traditionally used to estimate Type III secretion system associated virulence in mice did not cause lethality in mice while it induced anti-bacterial immunity. We also found that the pal mutant, which lacks activity of the Tol-Pal system, exhibited lower motility and EspA/B secretion than the wild-type parent. These combined results indicate that the Tol-Pal system contributes to the virulence of EHEC associated with the Type III secretion system and flagellar activity for infection at enteric sites. This finding provides evidence that the Tol-Pal system may be an effective target for the treatment of infectious diseases caused by pathogenic E. coli.

Published

2020

26. IL-33 is essential to prevent high-fat diet-induced obesity in mice infected with an intestinal helminth

Author

Seiji Obi, Chikako Shimokawa, Hajime Hisaeda, Alex Olia, Takashi Imai, Kazutomo Suzue, and Mizuki Katsuura

Subjects

0301 basic medicine, Male, Allergy, 030231 tropical medicine, Immunology, Adipose tissue, Diet, High-Fat, 03 medical and health sciences, Mice, 0302 clinical medicine, medicine, Animals, Lymphocytes, Obesity, Intestinal Diseases, Parasitic, Strongylida Infections, Nematospiroides dubius, biology, Macrophages, Innate lymphoid cell, Interleukin, Therapy with Helminths, biology.organism_classification, medicine.disease, Interleukin-33, Immunity, Innate, Interleukin 33, Mice, Inbred C57BL, 030104 developmental biology, Adipose Tissue, Parasitology, Heligmosomoides polygyrus, medicine.symptom, Weight gain

Abstract

Intestinal helminthes induce immunosuppressive responses as well as type 2 immunity. Their suppressive properties are intended to regulate inflammatory diseases such as allergies and autoimmune diseases. This study evaluated whether helminthic infections suppress obesity, a chronic inflammatory state, using an intestinal nematode, Heligmosomoides polygyrus (Hp). Infection with Hp at the same time as feeding a high-fat diet (HFD) prevented weight gain, dyslipidaemia and glucose intolerance observed in uninfected obese mice. Immunologically, Hp infection skewed M1 macrophages to M2 macrophages and induced type 2 innate lymphoid cells in adipose tissues. The expression of interleukin (IL)-33, a potent initiator of type 2 responses, was also increased in association with uncoupled protein 1 (UCP1). To further investigate the anti-obesity effects of IL-33 in mice infected with Hp, IL-33-deficient mice were fed the HFD and infected with Hp. These mutant mice rapidly gained weight compared with wild-type mice, indicating the anti-obesity effect of IL-33. In the absence of IL-33, the rapid increase in weight was not prevented, and type 2 responses and UCP1 expression were not observed even during Hp infection. These results suggested that the suppression of obesity by Hp is dependent on IL-33.

Published

2019

27. Fluctuations of Spleen Cytokine and Blood Lactate, Importance of Cellular Immunity in Host Defense Against Blood Stage Malaria Plasmodium yoelii

Author

Hajime Hisaeda, Shigeo Murata, Wakako Orita, Haruka Suzuki, Luc Van Kaer, Seiji Obi, Hidekazu Ishida, Chikako Shimokawa, Ha Ngo-Thanh, Keiji Tanaka, Alex Olia, Kazutomo Suzue, Suguri Ono, Tomoyo Taniguchi, and Takashi Imai

Subjects

lcsh:Immunologic diseases. Allergy, 0301 basic medicine, CD4-Positive T-Lymphocytes, Male, Erythrocytes, T cell, Immunology, malaria, Parasitemia, macrophage, CD8-Positive T-Lymphocytes, 03 medical and health sciences, 0302 clinical medicine, Immune system, medicine, Immunology and Allergy, Macrophage, Cytotoxic T cell, Animals, Original Research, Mice, Knockout, Immunity, Cellular, biology, Macrophages, CD4 T cell, Plasmodium yoelii, medicine.disease, biology.organism_classification, Mice, Inbred C57BL, Red blood cell, 030104 developmental biology, medicine.anatomical_structure, CD8 T cell, Lactates, Cytokines, Female, lcsh:RC581-607, CD8, Spleen, 030215 immunology, erythroblast

Abstract

Our previous studies of protective immunity and pathology against blood stage malaria parasites have shown that not only CD4+ T cells, but also CD8+ T cells and macrophages, are important for host defense against blood stage malaria infection. Furthermore, we found that Plasmodium yoelii 17XNL (PyNL) parasitizes erythroblasts, the red blood cell (RBC) precursor cells, which then express MHC class I molecules. In the present study, we analyzed spleen cytokine production. In CD8+ T cell-depleted mice, IL-10 production in early stage infection was increased over two-fold relative to infected control animals and IL-10+ CD3− cells were increased, whereas IFN-γ production in the late stage of infection was decreased. At day 16 after PyNL infection, CD8+ T cells produced more IFN-γ than CD4+ T cells. We evaluated the involvement of the immunoproteasome in induction of immune CD8+ T cells, and the role of Fas in protection against PyNL both of which are downstream of IFN-γ. In cell transfer experiments, at least the single molecules LMP7, LMP2, and PA28 are not essential for CD8+ T cell induction. The Fas mutant LPR mouse was weaker in resistance to PyNL infection than WT mice, and 20% of the animals died. LPR-derived parasitized erythroid cells exhibited less externalization of phosphatidylserine (PS), and phagocytosis by macrophages was impaired. Furthermore, we tried to identify the cause of death in malaria infection. Blood lactate concentration was increased in the CD8+ T cell-depleted PyNL-infected group at day 19 (around peak parasitemia) to similar levels as day 7 after infection with a lethal strain of Py. When we injected mice with lactate at day 4 and 6 of PyNL infection, all mice died at day 8 despite demonstrating low parasitemia, suggesting that hyperlactatemia is one of the causes of death in CD8+ T cell-depleted PyNL-infected mice. We conclude that CD8+ T cells might control cytokine production to some extent and regulate hyperparasitemia and hyperlactatemia in protection against blood stage malaria parasites.

Published

2019

28. Suppression of Obesity by an Intestinal Helminth through Interactions with Intestinal Microbiota

Author

Seiji Obi, Chikako Shimokawa, Alex Olia, Takashi Imai, Mioko Shibata, Kazutomo Suzue, and Hajime Hisaeda

Subjects

Male, 0301 basic medicine, obesity, medicine.medical_specialty, medicine.drug_class, Immunology, Antibiotics, Mice, Obese, Microbiology, Mice, Norepinephrine, 03 medical and health sciences, 0302 clinical medicine, Immunity, Internal medicine, parasitic diseases, microbiota, Adipocytes, medicine, Animals, Humans, Helminths, Receptor, helminth, Uncoupling Protein 1, Host Response and Inflammation, Nematospiroides dubius, biology, medicine.disease, biology.organism_classification, immunity, Obesity, Thermogenin, Gastrointestinal Microbiome, Biological Therapy, Intestines, Mice, Inbred C57BL, 030104 developmental biology, Infectious Diseases, Endocrinology, Parasitology, Heligmosomoides polygyrus, medicine.symptom, Weight gain, 030217 neurology & neurosurgery

Abstract

Obesity is increasingly causing lifestyle diseases in developed countries where helminthic infections are rarely seen. Here, we investigated whether an intestinal nematode, Heligmosomoides polygyrus, has a suppressive role in diet-induced obesity in mice., Obesity is increasingly causing lifestyle diseases in developed countries where helminthic infections are rarely seen. Here, we investigated whether an intestinal nematode, Heligmosomoides polygyrus, has a suppressive role in diet-induced obesity in mice. Infection with H. polygyrus suppressed weight gain in obese mice, which was associated with increased uncoupling protein 1 (UCP1) expression in adipocytes and a higher serum norepinephrine (NE) concentration. Blocking interactions of NE with its receptor on adipocytes resulted in the failure to prevent weight gain and to enhance UCP1 expression in obese mice infected with H. polygyrus, indicating that NE is responsible for the protective effects of H. polygyrus on obesity. In addition to sympathetic nerve-derived NE, the intestinal microbiota was involved in the increase in NE. Infection with H. polygyrus altered the composition of intestinal bacteria, and antibiotic treatment to reduce intestinal bacteria reversed the higher NE concentration, UCP1 expression, and prevention of the weight gain observed after H. polygyrus infection. Our data indicate that H. polygyrus exerts suppressive roles on obesity through modulation of microbiota that produce NE.

Published

2019

29. Suppression of systemic lupus erythematosus in NZBWF1 mice infected with Hymenolepis microstoma

Author

Takashi Imai, Alex Olia, Chikako Shimokawa, Kazutomo Suzue, and Hajime Hisaeda

Subjects

0301 basic medicine, Hymenolepis microstoma, Hymenolepiasis, 030231 tropical medicine, Spleen, Lymphocyte Activation, medicine.disease_cause, T-Lymphocytes, Regulatory, Autoimmunity, Mice, 03 medical and health sciences, 0302 clinical medicine, Immune system, Hygiene hypothesis, Immunity, medicine, Animals, Lupus Erythematosus, Systemic, Mesenteric lymph nodes, Immunosuppression Therapy, Mice, Inbred NZB, biology, business.industry, Autoantibody, 030108 mycology & parasitology, biology.organism_classification, Specific Pathogen-Free Organisms, Disease Models, Animal, Infectious Diseases, medicine.anatomical_structure, Immunology, Female, Parasitology, business, Hymenolepis

Abstract

Intestinal helminths induce immune suppressive responses thought to regulate inflammatory diseases including allergies and autoimmune diseases. This study was designed to evaluate whether helminthic infections suppress the natural development of systemic lupus erythematosus (SLE) in NZBWF1 mice. Infection of NZBWF1 SLE-prone mice with two nematodes failed to establish long-lasting settlement. However, the Hymenolepis microstoma (Hm) rodent tapeworm successfully established long-term parasitization of NZBWF1 mice and was used to evaluate the suppressive effects of helminth infection. Ten-month-old NZBWF1 mice developed symptoms including autoantibody generation, proteinuria, glomerular histopathology, and splenomegaly, but mice infected with Hm at 2 months of age did not show any clinical signs. Furthermore, infection with Hm reduced lymphocyte activation and increased regulatory T cells in the spleen and mesenteric lymph nodes. These results indicate that infection with Hm protects NZBWF1 mice from naturally developing SLE and suggest that pathological immunity is attenuated, presumably because of the induction of regulatory T cells.

Published

2020

30. Evaluating experimental cerebral malaria using oxidative stress indicator OKD48 mice

Author

Hiroko Okada, Makoto Hirai, Kazutomo Suzue, Tomoyo Taniguchi, Hajime Hisaeda, Takashi Imai, Ryoko Akai, and Takao Iwawaki

Subjects

biology, Plasmodium berghei, Malaria, Cerebral, Brain, Mice, Inbred Strains, Plasmodium yoelii, biology.organism_classification, medicine.disease, medicine.disease_cause, Antimalarials, Mice, Oxidative Stress, Pyrimethamine, Infectious Diseases, Cerebral Malaria, Luminescent Measurements, parasitic diseases, Evaluation methods, Immunology, medicine, Animals, Parasitology, Malaria, Oxidative stress

Abstract

Cerebral malaria is a fatal complication of malaria. Conventional methods for evaluating experimental cerebral malaria have several drawbacks. Therefore, we aimed to develop an easy-to-use method for evaluating experimental cerebral malaria using OKD48 (Keap1-dependent Oxidative stress Detector, No-48-luciferase) mice to evaluate oxidative stress. OKD48 mice infected with Plasmodium berghei ANKA strain (PbA) suffered from experimental cerebral malaria and oxidative stress was successfully detected in the brains of living OKD48 mice developing experimental cerebral malaria. Oxidative stress in the brain was dependent on the development of experimental cerebral malaria, as prevention of experimental cerebral malaria did not elicit oxidative stress. We provide a novel evaluation method for experimental cerebral malaria using oxidative stress indicator OKD48 mice.

Published

2014

31. Plasmodium berghei infection ameliorates atopic dermatitis‐like skin lesions in <scp>NC</scp> /Nga mice

Author

Hiroo Amano, Kazutomo Suzue, Chikako Kishi, and Osamu Ishikawa

Subjects

Plasmodium berghei, Immunology, Real-Time Polymerase Chain Reaction, hygiene hypothesis, Dermatitis, Atopic, Mice, Hygiene hypothesis, medicine, Animals, Immunology and Allergy, natural killer cells, atopic dermatitis, biology, business.industry, Original Articles, Atopic dermatitis, biology.organism_classification, medicine.disease, Immunohistochemistry, Malaria, Disease Models, Animal, E4 promotor-binding protein 4, Skin lesion, business

Abstract

Background Atopic diseases are more prevalent in industrialized countries than in developing countries. In addition, significant differences in the prevalence of allergic diseases are observed between rural and urban areas within the same country. This difference in prevalence has been attributed to what is called the ‘hygiene hypothesis’. Although parasitic infections are known to protect against allergic reactions, the mechanism is still unknown. The aim of this study was to investigate whether or not malarial infections can inhibit atopic dermatitis (AD)-like skin lesions in a mouse model of AD. Methods We used NC/Nga mice which are a model for AD. The NC/Nga mice were intraperitoneally infected with 1 × 105 Plasmoduim berghei (Pb) XAT-infected erythrocytes. Results Malarial infections ameliorated AD-like skin lesions in the NC/Nga mice. This improvement was blocked by the administration of anti-asialo GM1 antibodies, which are anti-natural killer (NK) cells. Additionally, adoptive transfer of NK cells markedly improved AD-like skin lesions in conventional NC/Nga mice; these suggest that the novel protective mechanism associated with malaria parasitic infections is at least, in part, dependent on NK cells. Conclusions We have experimentally demonstrated for the first time that malarial infections ameliorated AD-like skin lesions in a mouse model of AD. Our study could explain in part the mechanism of the ‘hygiene hypothesis’, which states that parasitic infections can inhibit the development of allergic diseases.

Published

2014

32. Cranial irradiation induces bone marrow-derived microglia in adult mouse brain tissue

Author

Noriyuki Okonogi, Hirokazu Hirai, Takuya Kaminuma, Takashi Nakano, Yoshiyuki Suzuki, Kazuhiro Nakamura, Kazutomo Suzue, and Nana Suto

Subjects

Genetically modified mouse, Male, Pathology, medicine.medical_specialty, Health, Toxicology and Mutagenesis, Cellular differentiation, Population, Central nervous system, Green Fluorescent Proteins, microglia, Bone Marrow Cells, Mice, Transgenic, Biology, transgenic mice, Mice, Cell Movement, medicine, Animals, Radiology, Nuclear Medicine and imaging, cranial irradiation, education, education.field_of_study, Radiation, Microglia, Brain, Cell Differentiation, bone marrow-derived microglia, Recombinant Proteins, Mice, Inbred C57BL, Haematopoiesis, medicine.anatomical_structure, Bone marrow, Stem cell

Abstract

Postnatal hematopoietic progenitor cells do not contribute to microglial homeostasis in adult mice under normal conditions. However, previous studies using whole-body irradiation and bone marrow (BM) transplantation models have shown that adult BM cells migrate into the brain tissue and differentiate into microglia (BM-derived microglia; BMDM). Here, we investigated whether cranial irradiation alone was sufficient to induce the generation of BMDM in the adult mouse brain. Transgenic mice that express green fluorescent protein (GFP) under the control of a murine stem cell virus (MSCV) promoter (MSCV-GFP mice) were used. MSCV-GFP mice express GFP in BM cells but not in the resident microglia in the brain. Therefore, these mice allowed us to detect BM-derived cells in the brain without BM reconstitution. MSCV–GFP mice, aged 8–12 weeks, received 13.0 Gy irradiation only to the cranium, and BM-derived cells in the brain were quantified at 3 and 8 weeks after irradiation. No BM-derived cells were detected in control non-irradiated MSCV-GFP mouse brains, but numerous GFP-labeled BM-derived cells were present in the brain stem, basal ganglia and cerebral cortex of the irradiated MSCV-GFP mice. These BM-derived cells were positive for Iba1, a marker for microglia, indicating that GFP-positive BM-derived cells were microglial in nature. The population of BMDM was significantly greater at 8 weeks post-irradiation than at 3 weeks post-irradiation in all brain regions examined. Our results clearly show that cranial irradiation alone is sufficient to induce the generation of BMDM in the adult mouse.

Published

2014

33. IL-23 protection againstPlasmodium bergheiinfection in mice is partially dependent on IL-17 from macrophages

Author

Makoto Hirai, Tomohisa Suzuki, Hiroko Okada, Akihiko Yoshimura, Chikako Shimokawa, Yoichiro Iwakura, Hajime Hisaeda, Hidekazu Ishida, Kazutomo Suzue, Tomoyo Taniguchi, and Takashi Imai

Subjects

Adoptive cell transfer, Immunology, Parasitemia, CCL2, Biology, medicine.disease, biology.organism_classification, Immune system, medicine, Interleukin 23, Immunology and Allergy, Macrophage, Plasmodium berghei, Interleukin 17

Abstract

Although IL-12 is believed to contribute to protective immune responses, the role played by IL-23 (a member of the IL-12 family) in malaria is elusive. Here, we show that IL-23 is produced during infection with Plasmodium berghei NK65. Mice deficient in IL-23 (p19KO) had higher parasitemia and died earlier than wild-type (WT) controls. Interestingly, p19KO mice had lower numbers of IL-17-producing splenic cells than their WT counterparts. Furthermore, mice deficient in IL-17 (17KO) suffered higher parasitemia than the WT controls, indicating that IL-23-mediated protection is dependent on induction of IL-17 during infection. We found that macrophages were responsible for IL-17 production in response to IL-23. We observed a striking reduction in splenic macrophages in the p19KO and 17KO mice, both of which became highly susceptible to infection. Thus, IL-17 appears to be crucial for maintenance of splenic macrophages. Adoptive transfer of macrophages into macrophage-depleted mice confirmed that macrophage-derived IL-17 is required for macrophage accumulation and parasite eradication in the recipient mice. We also found that IL-17 induces CCL2/7, which recruit macrophages. Our findings reveal a novel protective mechanism whereby IL-23, IL-17, and macrophages reduce the severity of infection with blood-stage malaria parasites.

Published

2013

34. Development of experimental cerebral malaria is independent of IL-23 and IL-17

Author

Hajime Hisaeda, Makoto Hirai, Takashi Imai, Yoshihisa Nojima, Chikako Matsuzaki-Moriya, Kunio Yanagisawa, Shinjiro Hamano, Yoichiro Iwakura, Hidekazu Ishida, Akihiko Yoshimura, Chikako Shimokawa, and Kazutomo Suzue

Subjects

Male, Plasmodium falciparum, Malaria, Cerebral, Biophysics, Inflammation, medicine.disease_cause, Interleukin-23, Biochemistry, Autoimmunity, Mice, Immune system, Immunity, parasitic diseases, medicine, Animals, Plasmodium berghei, Molecular Biology, Mice, Knockout, biology, Interleukin-17, Cell Biology, biology.organism_classification, Mice, Inbred C57BL, Disease Models, Animal, Cerebral Malaria, Immunology, Female, Interleukin 17, medicine.symptom

Abstract

Cerebral malaria (CM) is the most severe complication of Plasmodium infection. Although inappropriate immune responses to Plasmodium falciparum are reported as the major causes of CM, the precise mechanisms for development remain unclear. IL-23 and IL-17 have critical roles in the onset of autoimmunity and inflammatory diseases triggered by microbial infections. Thus, we investigated the influence of IL-23 and IL-17 on experimental CM (ECM) using Plasmodium berghei ANKA infection of C57BL/6 mice. Both IL-23 deficient mice and wild-type (WT) mice developed ECM. IL-17 deficient mice also developed ECM, while IL-17 producing cells other than CD4(+) T cells (Th17) were increased in WT mice that developed ECM. In conclusion, this study showed that IL-23 and IL-17 are not involved in ECM development.

Published

2010

35. Critical role of dendritic cells in determining the Th1/Th2 balance upon Leishmania major infection

Author

Mamoru Suzuki, Shigeo Koyasu, Seiki Kobayashi, Kazutomo Suzue, and Tsutomu Takeuchi

Subjects

Immunology, CD11c, Bone Marrow Cells, Mice, Transgenic, chemical and pharmacologic phenomena, Biology, Mice, Th2 Cells, Splenocyte, medicine, Animals, Immunology and Allergy, Leishmania major, Antigen-presenting cell, Leishmaniasis, Cells, Cultured, Mice, Inbred BALB C, Chimera, hemic and immune systems, Dendritic Cells, General Medicine, T lymphocyte, Th1 Cells, biology.organism_classification, Immunity, Innate, Transplantation, Haematopoiesis, medicine.anatomical_structure, Bone marrow

Abstract

The onset of T(h)1 immunity is in part regulated by genetic background. To elucidate the cell type carrying critical factors determining the T(h)1 response, we employed Rag-2(-/-) mice on Leishmania major-susceptible BALB/c and -resistant B10.D2 backgrounds. By using bone marrow (BM) chimeras generated by the transplantation of B10.D2 BM cells into BALB/c-Rag-2(-/-) mice, and vice versa, it was shown that hematopoietic cells carry factors determining the disease outcome and T(h)1 response against L. major infection. B10.D2-Rag-2(-/-) mice reconstituted with BALB/c CD4(+) T cells exhibited a T(h)1 response and controlled L. major infection. Wild-type BALB/c mice inoculated with L. major-parasitized B10.D2-Rag-2(-/-) splenocytes also exhibited a T(h)1 response and a mild disease outcome, whereas such a T(h)1 response was not induced when CD11c(+) dendritic cells (DCs) were depleted from parasitized B10.D2-Rag-2(-/-) splenocytes. T(h)1 response was reconstituted by the addition of L. major-parasitized B10.D2 DCs but not L. major-parasitized BALB/c DCs to DC-depleted parasitized B10.D2-Rag-2(-/-) splenocytes. These results indicate that DCs determine the outcome of the disease upon L. major infection.

Published

2008

36. A Case of Falciparum Malaria Successfully Treated with Maximum Dose of Mefloquine

Author

Yoshio Ohyama, Kazutomo Suzue, Yuko Oku, Yasushi Mogami, Tomoyoshi Nozaki, Ryo Taguchi, Jun'ichi Tamura, Hiroko Sato, and Etsuo Kawada

Subjects

business.industry, Mefloquine, Maximum dose, Medicine, General Medicine, Pharmacology, business, medicine.disease, Malaria, medicine.drug

Abstract

症例は37歳男性マリ人. 来日後7日目に発熱, 咽頭痛, 水様性下痢にて発症した. 血液検査では貧血と血小板減少を認め, 母国マリ共和国への渡航歴からマラリア感染を疑い, 末梢血塗末標本にて原虫を確認し, 熱帯熱マラリアと診断した. メフロキンを治療薬として選択し, 1,650mgの最大量投与にて治療を開始したところ, 速やかな解熱と全身状態の改善を認めた. 熱帯熱マラリアは容易に重症化や死亡に至る疾患であるため迅速な治療開始が必須であると同時に, 薬剤耐性マラリアを考慮した適切な治療薬の選択が重要である.

Published

2008

37. Plasmodium berghei ANKA causes intestinal malaria associated with dysbiosis

Author

Hiroshi Ohno, Jun Hirata, Chikako Shimokawa, Tadashi Handa, Eiji Miyauchi, Haruyoshi Tomita, Shota Nakamura, Kazutomo Suzue, Risa Onishi, Takahiro Nomura, Makoto Hirai, Tomoyo Taniguchi, Hiroko Okada, Takashi Imai, Alex Olia, Toshihiro Horii, and Hajime Hisaeda

Subjects

Multidisciplinary, Intestinal permeability, biology, Firmicutes, Plasmodium falciparum, medicine.disease, biology.organism_classification, Article, Microbiology, Diarrhea, Cerebral Malaria, parasitic diseases, Immunology, medicine, Plasmodium berghei, medicine.symptom, Dysbiosis, Malaria

Abstract

Gastrointestinal symptoms, such as abdominal pain and diarrhea, are frequently observed in patients with Plasmodium falciparum malaria. However, the correlation between malaria intestinal pathology and intestinal microbiota has not been investigated. In the present study, infection of C57BL/6 mice with P. berghei ANKA (PbA) caused intestinal pathological changes, such as detachment of epithelia in the small intestines and increased intestinal permeability, which correlated with development with experimental cerebral malaria (ECM). Notably, an apparent dysbiosis occurred, characterized by a reduction of Firmicutes and an increase in Proteobacteria. Furthermore, some genera of microbiota correlated with parasite growth and/or ECM development. By contrast, BALB/c mice are resistant to ECM and exhibit milder intestinal pathology and dysbiosis. These results indicate that the severity of cerebral and intestinal pathology coincides with the degree of alteration in microbiota. This is the first report demonstrating that malaria affects intestinal microbiota and causes dysbiosis.

Published

2015

38. A transient resistance to blood-stage malaria in interferon-γ-deficient mice through impaired production of the host cells preferred by malaria parasites

Author

Tomoyo Taniguchi, Takashi Imai, Hajime Hisaeda, Hiroko Okada, Jun Hirata, Risa Onishi, Kazutomo Suzue, and Chikako Shimokawa

Subjects

Hemolytic anemia, Microbiology (medical), Rodent, reticulocytes, Anemia, Immunology, lcsh:QR1-502, malaria, Parasitemia, Microbiology, lcsh:Microbiology, biology.animal, parasitic diseases, medicine, Parasite hosting, IFN-γ, Original Research, biology, host–parasite relationship, biology.organism_classification, medicine.disease, Erythropoiesis, Plasmodium yoelii, Malaria, erythropoiesis

Abstract

IFN-γ plays both pathological and protective roles during blood-stage malaria. One of its pathological roles is its contribution to anemia by suppressing erythropoiesis. Here, to evaluate the effects of IFN-γ-mediated alterations in erythropoiesis on the course of malaria infection, mice deficient in IFN-γ (GKO) were infected with two strains of the rodent malaria parasite Plasmodium yoelii, 17XL (PyL) and 17XNL (PyNL), whose host cell ranges differ. Regardless of genotype, all mice infected with PyL, which can invade any erythrocyte, developed high parasitemia and died quickly. Although PyNL caused a transient non-lethal infection in wild-type (WT) mice, some GKO mice were unable to control the infection and died. However, GKO mice were resistant to the early phase of infection, showing an impaired increase in parasitemia compared with WT mice. This resistance in the GKO mice was associated with having significantly fewer reticulocytes, which are the preferred host cells for PyNL parasites, than the WT mice. Compared with the amount of reticulocytes in GKO mice during the early stages of infection, there was a significant increase in the amount of these cells at later stages, which coincided with the inability of these mice to control the infection. We found that the growth of PyNL parasites correlated with the amount of reticulocytes. Thus, the reduced number of reticulocytes in mice lacking IFN-γ appears to be responsible for the limited parasite growth. Notably, these differences in GKO mice were at least partially reversed when the mice were injected with exogenous IFN-γ. Additionally, an artificial induction of hemolytic anemia and an increase in reticulocytes by phenylhydrazine treatment in GKO mice completely abolished the lower parasitemia and resistance during early phase infection. These results suggest that IFN-γ may contribute to the early growth of PyNL parasites by increasing the amount of reticulocytes, presumably by enhancing erythropoiesis.

Published

2015

39. Differentiation of malignant tumours from granulomas by using dynamic [18F]-fluoro-L-α-methyltyrosine positron emission tomography

Author

Kazutomo Suzue, Hideyuki Tominaga, Yutaka Fujisawa, Akihiro Morita, Aiko Yamaguchi, Hajime Hisaeda, Songji Zhao, Yuji Kuge, Yasuhiko Iida, Tetsuya Higuchi, Hirofumi Hanaoka, and Yoshito Tsushima

Subjects

3-[18F]-Fluoro-α-methyl-L-tyrosine, Inflammation, Pathology, medicine.medical_specialty, Granuloma, medicine.diagnostic_test, business.industry, Diagnostic accuracy, medicine.disease, C6 glioma, Positron emission tomography, Initial distribution, medicine, Radiology, Nuclear Medicine and imaging, Sarcoidosis, Differential diagnosis, Tumour, business, Nuclear medicine, Dynamic positron emission tomography, Original Research

Abstract

Background Previous clinical studies have revealed the potential of [18F]-fluoro-L-α-methyltyrosine (18F-FAMT) for the differential diagnosis of malignant tumours from sarcoidosis. However, one concern regarding the differential diagnosis with 18F-FAMT is the possibility of false negatives given the small absolute uptake of 18F-FAMT that has been observed in some malignant tumours. The aim of this study was to evaluate a usefulness of dynamic 18F-FAMT positron emission tomography (PET) for differentiating malignant tumours from granulomas. Methods Rats bearing both granulomas (Mycobacterium bovis bacillus Calmette-Guérin (BCG)-induced) and tumours (C6 glioma cell-induced) underwent dynamic 2-deoxy-2-[18F]-fluoro-D-glucose (18F-FDG) PET and 18F-FAMT PET for 120 min on consecutive days. Time-activity curves, static images, mean standardized uptake values (SUVs) and the SUV ratios (SUVRs; calculated by dividing SUV at each time point by that of 2 min after injection) were assessed. Results In tumours, 18F-FAMT showed a shoulder peak immediately after the initial distribution followed by gradual clearance compared with granulomas. Although the mean SUV in the tumours (1.00 ± 0.10) was significantly higher than that in the granulomas (0.88 ± 0.12), a large overlap was observed. In contrast, the SUVR was markedly higher in tumours than in granulomas (50 min/2 min, 0.72 ± 0.06 and 0.56 ± 0.05, respectively) with no overlap. The dynamic patterns, SUVR, and mean SUV of 18F-FDG in the granulomas were comparable to those in the tumours. Conclusions Dynamic 18F-FAMT and SUVR analysis might compensate for the current limitations and help in improving the diagnostic accuracy of 18F-FAMT.

Published

2015

40. Cytotoxic activities of CD8+ T cells collaborate with macrophages to protect against blood-stage murine malaria

Author

Hajime Hisaeda, Hiroko Okada, Chikako Shimokawa, Kazutomo Suzue, Hidekazu Ishida, Tomoyo Taniguchi, and Takashi Imai

Subjects

Cytotoxicity, Immunologic, Fas Ligand Protein, Erythroblasts, QH301-705.5, Science, Immunology, malaria, Phosphatidylserines, CD8-Positive T-Lymphocytes, Major histocompatibility complex, Exocytosis, General Biochemistry, Genetics and Molecular Biology, Fas ligand, Host-Parasite Interactions, Phagocytosis, NK-92, Antigen, MHC class I, Animals, Humans, Cytotoxic T cell, Biology (General), mouse, Mice, Knockout, Microbiology and Infectious Disease, General Immunology and Microbiology, biology, Macrophages, General Neuroscience, Membrane Proteins, Plasmodium yoelii, General Medicine, Flow Cytometry, Natural killer T cell, Cell biology, Mice, Inbred C57BL, Microscopy, Fluorescence, biology.protein, Medicine, CD8+ T cell, CD8, Research Article, erythroblast

Abstract

The protective immunity afforded by CD8+ T cells against blood-stage malaria remains controversial because no MHC class I molecules are displayed on parasite-infected human erythrocytes. We recently reported that rodent malaria parasites infect erythroblasts that express major histocompatibility complex (MHC) class I antigens, which are recognized by CD8+ T cells. In this study, we demonstrate that the cytotoxic activity of CD8+ T cells contributes to the protection of mice against blood-stage malaria in a Fas ligand (FasL)-dependent manner. Erythroblasts infected with malarial parasites express the death receptor Fas. CD8+ T cells induce the externalization of phosphatidylserine (PS) on the infected erythroblasts in a cell-to-cell contact-dependent manner. PS enhances the engulfment of the infected erythroid cells by phagocytes. As a PS receptor, T-cell immunoglobulin-domain and mucin-domain-containing molecule 4 (Tim-4) contributes to the phagocytosis of malaria-parasite-infected cells. Our findings provide insight into the molecular mechanisms underlying the protective immunity exerted by CD8+ T cells in collaboration with phagocytes. DOI: http://dx.doi.org/10.7554/eLife.04232.001, eLife digest The immune system consists of several different types of cell that work together to prevent infection and disease. For example, immune cells called cytotoxic CD8+ T cells kill tumor cells or other cells that are infected. To do so, the CD8+ T cells must recognize certain molecules on the surface of the tumor or infected cells and bind to them. Malaria is an infectious disease caused by the Plasmodium parasite, which is transferred between individuals by mosquitoes. The parasite is able to evade the immune system—so much so that it is not well understood how the immune system tries to respond to stop the infection. This has made it difficult to develop a vaccine that protects against malaria. During the latter stages of a malaria infection, the parasite infects the host's red blood cells. It was long believed that CD8+ T cells did not help to eliminate the red blood cells that had been infected by Plasmodium. However, recent work in mice suggested that CD8+ T cells do respond to infected erythroblasts—precursor cells that develop into red blood cells—and that CD8+ T cells help protect mice against blood-stage malaria. Now, Imai et al. describe how the CD8+ T cells in mice help to kill erythroblasts infected with Plasmodium yoelli, a species of the parasite used to study malaria in mice. The infected cells display a protein called Fas on their surface. Imai et al. found that, during a malaria infection, the CD8+ T cells produce a protein that can interact with Fas. This interaction causes the infected cell to move a signaling molecule to its outside surface, which encourages another type of immune cell to engulf and destroy the infected cell. This knowledge of how CD8+ T cells fight Plasmodium parasites in the bloodstream could now help to develop new types of blood-stage vaccine for malaria. DOI: http://dx.doi.org/10.7554/eLife.04232.002

Published

2015

41. Author response: Cytotoxic activities of CD8+ T cells collaborate with macrophages to protect against blood-stage murine malaria

Author

Hiroko Okada, Hidekazu Ishida, Tomoyo Taniguchi, Takashi Imai, Chikako Shimokawa, Kazutomo Suzue, and Hajime Hisaeda

Subjects

Blood stage, business.industry, Immunology, Murine malaria, Cytotoxic T cell, Medicine, business

Published

2015

42. NOD/SCID/γcnull mouse: an excellent recipient mouse model for engraftment of human cells

Author

Kyoji Hioki, Yoshio Koyanagi, Tatsutoshi Nakahata, Mamoru Ito, Kazutomo Suzue, Kimio Kobayashi, Kohichiro Tsuji, Kazuo Sugamura, Mariko Kawahata, Hidefumi Hiramatsu, Yoshito Ueyama, and Toshio Heike

Subjects

Male, Mice, SCID, Nod, Biochemistry, Mice, Mice, Inbred NOD, Cells, Cultured, Mice, Knockout, Graft Survival, Antibodies, Monoclonal, Ascites, Cell Differentiation, Hematology, Killer Cells, Natural, Haematopoiesis, medicine.anatomical_structure, Models, Animal, NSG mouse, Female, Cord Blood Stem Cell Transplantation, Interleukin Receptor Common gamma Subunit, medicine.drug, Interleukin 2, Transplantation, Heterologous, Immunology, Spleen, G(M1) Ganglioside, Biology, Natural killer cell, Interferon-gamma, medicine, Animals, Humans, Cell Lineage, Crosses, Genetic, Antigens, Bacterial, Transplantation Chimera, Severe combined immunodeficiency, Receptors, Interleukin-7, Infant, Newborn, Dendritic Cells, Cell Biology, medicine.disease, Listeria monocytogenes, Molecular biology, Lymphocyte Subsets, Mice, Inbred C57BL, Humanized mouse, beta 2-Microglobulin

Abstract

To establish a more appropriate animal recipient for xenotransplantation, NOD/SCID/gamma(c)(null) mice double homozygous for the severe combined immunodeficiency (SCID) mutation and interleukin-2Rgamma (IL-2Rgamma) allelic mutation (gamma(c)(null)) were generated by 8 backcross matings of C57BL/6J-gamma(c)(null) mice and NOD/Shi-scid mice. When human CD34+ cells from umbilical cord blood were transplanted into this strain, the engraftment rate in the peripheral circulation, spleen, and bone marrow were significantly higher than that in NOD/Shi-scid mice treated with anti-asialo GM1 antibody or in the beta2-microglobulin-deficient NOD/LtSz-scid (NOD/SCID/beta2m(null)) mice, which were as completely defective in NK cell activity as NOD/SCID/gamma(c)(null) mice. The same high engraftment rate of human mature cells was observed in ascites when peripheral blood mononuclear cells were intraperitoneally transferred. In addition to the high engraftment rate, multilineage cell differentiation was also observed. Further, even 1 x 10(2) CD34+ cells could grow and differentiate in this strain. These results suggest that NOD/SCID/gamma(c)(null) mice were superior animal recipients for xenotransplantation and were especially valuable for human stem cell assay. To elucidate the mechanisms involved in the superior engraftment rate in NOD/SCID/gamma(c)(null) mice, cytokine production of spleen cells stimulated with Listeria monocytogenes antigens was compared among these 3 strains of mice. The interferon-gamma production from dendritic cells from the NOD/SCID/gamma(c)(null) mouse spleen was significantly suppressed in comparison with findings in 2 other strains of mice. It is suggested that multiple immunological dysfunctions, including cytokine production capability, in addition to functional incompetence of T, B, and NK cells, may lead to the high engraftment levels of xenograft in NOD/SCID/gamma(c)(null) mice.

Published

2002

43. Natural human immunoglobulin G subclass responses to Plasmodium falciparum serine repeat antigen in Uganda

Author

Kazutomo Suzue, Jie Li, David Okello, Xin-Li Pang, Toshihiro Horii, Thomas G. Egwang, Brenda Okech, and Anne Nalunkuma

Subjects

Adult, Male, Adolescent, Rain, Plasmodium falciparum, Antibodies, Protozoan, Antigens, Protozoan, Enzyme-Linked Immunosorbent Assay, Subclass, Serology, law.invention, Apicomplexa, Age Distribution, Immunity, law, Virology, parasitic diseases, medicine, Animals, Humans, Uganda, Malaria, Falciparum, Child, biology, Age Factors, Infant, Newborn, Infant, medicine.disease, biology.organism_classification, Cross-Sectional Studies, Infectious Diseases, Child, Preschool, Immunoglobulin G, Immunology, biology.protein, Recombinant DNA, Female, Parasitology, Disease Susceptibility, Seasons, Antibody, Malaria

Abstract

Serum samples from Ugandan residents of a malaria-hyperendemic region were tested by enzyme-linked immunosorbent assay for reactivity against recombinant constructs of the 47 (SE47')- and 50 (SE50A)-kDa fragments of Plasmodium falciparum serine repeat antigen (SERA). Immunoglobulin (Ig) G3 and IgG1 were the predominant subclass responses to SE47' and SE50A, respectively. The geometric mean optical density (OD) for IgG3 anti-SE47' was significantly lower in children15 years compared with adultsor = 15 years (P0.0001). By contrast, the geometric mean IgG1 anti-SE50A was slightly higher in children compared with adults (P0.01). The proportion of high responders (ODs0.5) to SE47' was significantly lower in children compared with adults (P0.001), whereas the proportion of high responders to SE50A was comparable in children and adults (P = 0.07). This first detailed study of SERA in a malaria-hyperendemic region suggests that natural human IgG3 anti-SE47' might be associated with immunity to malaria.

Published

2001

44. Critical role of IL-15–IL-15R for antigen-presenting cell functions in the innate immune response

Author

Takayuki Ota, Toshiaki Ohteki, Chikako Maki, Shigeo Koyasu, and Kazutomo Suzue

Subjects

medicine.medical_treatment, Immunology, Antigen presentation, Nitric Oxide, Interferon-gamma, Mice, medicine, Animals, Immunology and Allergy, RNA, Messenger, CD40 Antigens, Antigen-presenting cell, Cells, Cultured, Interleukin-15, Mice, Knockout, CD40, Innate immune system, biology, Receptors, Interleukin-15, Macrophages, Histocompatibility Antigens Class II, CCL18, Receptors, Interleukin-2, Dendritic Cells, Receptors, Interleukin, Interleukin-12, Up-Regulation, Cell biology, Interleukin-2 Receptor beta Subunit, Mice, Inbred C57BL, Cytokine, Interleukin 15, Interleukin 12, biology.protein, Interleukin-2

Abstract

Activation of dendritic cells (DCs) and macrophages by infectious agents leads to secretion of interleukin 12 (IL-12), which subsequently induces interferon-gamma (IFN-gamma) production by multiple cell types that include DCs and macrophages. In turn, IFN-gamma acts on macrophages to augment IL-12 secretion and to produce nitric oxide (NO), which eradicates infected microbes. We show here that in cytokine common gamma subunit-deficient and/or IL-2 receptor beta-deficient mice, production of IL-12, IFN-gamma and NO by DCs and macrophages was severely impaired, as was up-regulation of major histocompatibility complex class II and CD40. Similar phenotypes were observed in DCs and macrophages from IL-15-deficient mice but not in those from IL-2-deficient mice. This shows that the IL-15-IL-15R interaction is critical in early activation of antigen-presenting cells and plays an important role in the innate immune system.

Published

2001

45. Interleukin 12–dependent Interferon γ Production by CD8α+Lymphoid Dendritic Cells

Author

Chikako Maki, Taro Fukao, Shigeo Koyasu, Toshiaki Ohteki, Kazutomo Suzue, Mamoru Ito, and Masataka Nakamura

Subjects

CD8 Antigens, Immunology, Fluorescent Antibody Technique, Transposases, Biology, Interferon-gamma, Mice, Interferon, medicine, recombinase-activating gene 2 knockout mouse, Immunology and Allergy, Animals, Interferon gamma, Cells, Cultured, Mice, Knockout, γc knockout mouse, Innate immune system, natural killer cells, Interferon-gamma production, Follicular dendritic cells, Interleukin, T helper cell, Dendritic Cells, Molecular biology, Listeria monocytogenes, Interleukin-12, DNA-Binding Proteins, Killer Cells, Natural, medicine.anatomical_structure, Interleukin 12, Brief Definitive Reports, nonobese diabetic-severe combined immunodeficiency disease mouse, Spleen, medicine.drug

Abstract

We investigated the role of antigen-presenting cells in early interferon (IFN)-gamma production in normal and recombinase activating gene 2-deficient (Rag-2(-/-)) mice in response to Listeria monocytogenes (LM) infection and interleukin (IL)-12 administration. Levels of serum IFN-gamma in Rag-2(-/-) mice were comparable to those of normal mice upon either LM infection or IL-12 injection. Depletion of natural killer (NK) cells by administration of anti-asialoGM1 antibodies had little effect on IFN-gamma levels in the sera of Rag-2(-/-) mice after LM infection or IL-12 injection. Incubation of splenocytes from NK cell-depleted Rag-2(-/-) mice with LM resulted in the production of IFN-gamma that was completely blocked by addition of anti-IL-12 antibodies. Both dendritic cells (DCs) and monocytes purified from splenocytes were capable of producing IFN-gamma when cultured in the presence of IL-12. Intracellular immunofluorescence analysis confirmed the IFN-gamma production from DCs. It was further shown that IFN-gamma was produced predominantly by CD8alpha+ lymphoid DCs rather than CD8alpha- myeloid DCs. Collectively, our data indicated that DCs are potent in producing IFN-gamma in response to IL-12 produced by bacterial infection and play an important role in innate immunity and subsequent T helper cell type 1 development in vivo.

Published

1999

46. Protective immunity induced in squirrel monkeys with recombinant serine repeat antigen (SERA) of Plasmodium falciparum

Author

Kazutomo Suzue, Yoshitsugu Matsumoto, Toshihiro Horii, Mamoru Ito, and Yoshikuni Tanioka

Subjects

biology, Malaria vaccine, Immunogenicity, Antibody titer, Plasmodium falciparum, Parasitemia, biology.organism_classification, medicine.disease, Virology, Infectious Diseases, Immune system, Antigen, parasitic diseases, medicine, biology.protein, Parasitology, Antibody

Abstract

We examined the immunogenicity and the protection by a recombinant blood stage antigen derived from the malaria parasite Plasmodium falciparum SERA (serine-repeat antigen) in squirrel monkeys ( Saimiro sciureus ). The monkeys were immunized with recombinant SE47' protein produced using a synthetic gene expressing amino acids 17-382 (SE47') of the SERA polypeptide in E. coli , with or without Freund's adjuvant. All monkeys administered with SE47' protein developed the antibody. After the challenge by the blood stage P. falciparum (Indochina-1 strain), the mean parasitemia in a group of monkeys immunized with SE47' protein in the absence of the adjuvant was lower than that of the control group, especially in an early phase of the infection. Antibody titers against SERA protein in two of the SE47' monkeys immunized without Freund's adjuvant were stimulated after the parasite challenge. The observed increase in SERA ELISA titers following challenge infection correlated with the degree of protection as assessed by significant reductions in peak levels of parasitemia. In addition, immune serum from SE47' immunized monkeys inhibited the growth of P. falciparum in vitro. These results demonstrate that protective immune responses can be induced by an E. coli -produced recombinant SE47' SERA proteins in Saimiro sciureus monkeys, and further that the humoral immune response after experimental immunization can be boosted by P. falciparum challenge infection, presumably due to native SERA molecules produced by challenge parasites.

Published

1997

47. Plasmodium falciparum:An Epitope within a Highly Conserved Region of the 47-kDa Amino-Terminal Domain of the Serine Repeat Antigen Is a Target of Parasite-Inhibitory Antibodies

Author

Pang Xing-Li, Toshihiro Horii, David J. Bzik, Kazutomo Suzue, and Barbara A. Fox

Subjects

Antigenicity, medicine.drug_class, Recombinant Fusion Proteins, Molecular Sequence Data, Plasmodium falciparum, Immunology, Antibodies, Protozoan, Antigens, Protozoan, Enzyme-Linked Immunosorbent Assay, Monoclonal antibody, Peptide Mapping, Epitope, Epitopes, Mice, Antigen, medicine, Animals, Humans, Amino Acid Sequence, Conserved Sequence, Glutathione Transferase, biology, Linear epitope, Immunogenicity, General Medicine, Virology, Molecular biology, Molecular Weight, Infectious Diseases, Polyclonal antibodies, biology.protein, Electrophoresis, Polyacrylamide Gel, Parasitology, Antibody

Abstract

Previously, the Plasmodium falciparum serine repeat antigen has been shown to be protective in primate models of malaria immunity and also to be a target of in vitro parasite-inhibitory antibodies. To further define parasite-inhibitory epitopes a series of deletions from the amino-terminal 47-kDa domain of the serine repeat antigen (SERA) were constructed as glutathione-S-transferase fusion proteins. Several GST-SERA fusion proteins were used to vaccinate mice with Freund's adjuvant and the resulting immune sera were used to assay for the inhibition of P. falciparum invasion of erythrocytes in vitro. The minimal epitope shown to be the target of invasion-blocking antibodies was SERA amino acids 17–165. Additional GST-SERA deletion constructs of the 47-kDa domain were developed and evaluated for reactivity, by Western immunoblot analysis, with a parasite-inhibitory murine monoclonal antibody (mAb 43E5), a parasite-inhibitory pooled goat polyclonal sera, and a pooled human Nigerian immune serum. The parasite-inhibitory epitope defined by mAb 43E5 was mapped to SERA amino acids 17–110 and, at least, part of the epitope was defined to include amino acids in the region of amino acids 59–72. The parasite-inhibitory epitope recognized by mAb 43E5 appears to be well conserved between diverse geographical isolates ofP. falciparum.The results have relevance for malaria vaccine development and suggest that an appropriately designed recombinant SERA antigen produced from a synthetic gene inEscherichia colimay be an effective component of a candidate malaria vaccine.

Published

1997

48. CD8+ T cell activation by murine erythroblasts infected with malaria parasites

Author

Makoto Hirai, Hajime Hisaeda, Hidekazu Ishida, Hiroko Okada, Tomohisa Suzuki, Tomoyo Taniguchi, Takashi Imai, Kazutomo Suzue, and Chikako Shimokawa

Subjects

Infectivity, Multidisciplinary, hemic and immune systems, Plasmodium falciparum, Biology, medicine.disease, biology.organism_classification, Virology, Article, Green fluorescent protein, hemic and lymphatic diseases, parasitic diseases, MHC class I, medicine, biology.protein, Cytotoxic T cell, Malaria, CD8, Plasmodium yoelii, circulatory and respiratory physiology

Abstract

Recent studies show that some human malaria parasite species Plasmodium falciparum and P. vivax parasitize erythroblasts; however, the biological and clinical significance of this is unclear. To investigate further, we generated a rodent malaria parasite (P. yoelii 17XNL) expressing GFP-ovalbumin (OVA). Its infectivity to erythroblasts was confirmed, and parasitized erythroblasts were capable of initiating malaria infections. Experiments showed that MHC class I molecules were highly expressed on parasitized erythroblasts. As CD8+ T cells recognize MHC class I and peptide complexes on target cells, and are involved in protection or pathology against malaria, we examined whether erythroblasts are targeted by CD8+ T cells. Purified non-parasitized erythroblasts pulsed with OVA peptides were recognized by OVA-specific CD8 + T cells. Crucially, parasitized erythroblasts isolated from GFP-OVA-, but not GFP-infected-mice, activated OT-I CD8+ T cells, indicating that CD8+ T cells recognize parasitized erythroblasts in an antigen-specific manner., Scientific Reports, 3, 1572; 2013

Published

2013

49. IL-23 protection against Plasmodium berghei infection in mice is partially dependent on IL-17 from macrophages

Author

Hidekazu, Ishida, Takashi, Imai, Kazutomo, Suzue, Makoto, Hirai, Tomoyo, Taniguchi, Akihiko, Yoshimura, Yoichiro, Iwakura, Hiroko, Okada, Tomohisa, Suzuki, Chikako, Shimokawa, and Hajime, Hisaeda

Subjects

Mice, Knockout, Plasmodium berghei, Macrophages, Interleukin-17, Parasitemia, Adoptive Transfer, Malaria, Mice, Inbred C57BL, Mice, Cell Movement, Models, Animal, Interleukin-23 Subunit p19, Animals, Humans, Female, Cells, Cultured, Chemokine CCL2, Spleen

Abstract

Although IL-12 is believed to contribute to protective immune responses, the role played by IL-23 (a member of the IL-12 family) in malaria is elusive. Here, we show that IL-23 is produced during infection with Plasmodium berghei NK65. Mice deficient in IL-23 (p19KO) had higher parasitemia and died earlier than wild-type (WT) controls. Interestingly, p19KO mice had lower numbers of IL-17-producing splenic cells than their WT counterparts. Furthermore, mice deficient in IL-17 (17KO) suffered higher parasitemia than the WT controls, indicating that IL-23-mediated protection is dependent on induction of IL-17 during infection. We found that macrophages were responsible for IL-17 production in response to IL-23. We observed a striking reduction in splenic macrophages in the p19KO and 17KO mice, both of which became highly susceptible to infection. Thus, IL-17 appears to be crucial for maintenance of splenic macrophages. Adoptive transfer of macrophages into macrophage-depleted mice confirmed that macrophage-derived IL-17 is required for macrophage accumulation and parasite eradication in the recipient mice. We also found that IL-17 induces CCL2/7, which recruit macrophages. Our findings reveal a novel protective mechanism whereby IL-23, IL-17, and macrophages reduce the severity of infection with blood-stage malaria parasites.

Published

2013

50. Correction: Species-Specific Immunity Induced by Infection with Entamoeba histolytica and Entamoeba moshkovskii in Mice

Author

Richard Culleton, Tomoyo Taniguchi, Takashi Imai, Hajime Hisaeda, Makoto Hirai, Shinjiro Hamano, Kazutomo Suzue, Seiki Kobayashi, and Chikako Shimokawa

Subjects

Multidisciplinary, Text mining, business.industry, Science, Immunology, Correction, Medicine, Specific immunity, Biology, business

Published

2013