Your search keyword '"Takashi Namba"' showing total 172 results

1. Role of cell metabolism in the pathophysiology of brain size-associated neurodevelopmental disorders

Author

Lei Xing, Wieland B. Huttner, and Takashi Namba

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Cell metabolism is a key regulator of human neocortex development and evolution. Several lines of evidence indicate that alterations in neural stem/progenitor cell (NPC) metabolism lead to abnormal brain development, particularly brain size-associated neurodevelopmental disorders, such as microcephaly. Abnormal NPC metabolism causes impaired cell proliferation and thus insufficient expansion of NPCs for neurogenesis. Therefore, the production of neurons, which is a major determinant of brain size, is decreased and the size of the brain, especially the size of the neocortex, is significantly reduced. This review discusses recent progress understanding NPC metabolism, focusing in particular on glucose metabolism, fatty acid metabolism and amino acid metabolism (e.g., glutaminolysis and serine metabolism). We provide an overview of the contributions of these metabolic pathways to brain development and evolution, as well as to the etiology of neurodevelopmental disorders. Furthermore, we discuss the advantages and disadvantages of various experimental models to study cell metabolism in the developing brain.

Published

2024

2. Functional synergy of a human-specific and an ape-specific metabolic regulator in human neocortex development

Author

Lei Xing, Vasiliki Gkini, Anni I. Nieminen, Hui-Chao Zhou, Matilde Aquilino, Ronald Naumann, Katrin Reppe, Kohichi Tanaka, Peter Carmeliet, Oskari Heikinheimo, Svante Pääbo, Wieland B. Huttner, and Takashi Namba

Subjects

Science

Abstract

Abstract Metabolism has recently emerged as a major target of genes implicated in the evolutionary expansion of human neocortex. One such gene is the human-specific gene ARHGAP11B. During human neocortex development, ARHGAP11B increases the abundance of basal radial glia, key progenitors for neocortex expansion, by stimulating glutaminolysis (glutamine-to-glutamate-to-alpha-ketoglutarate) in mitochondria. Here we show that the ape-specific protein GLUD2 (glutamate dehydrogenase 2), which also operates in mitochondria and converts glutamate-to-αKG, enhances ARHGAP11B’s ability to increase basal radial glia abundance. ARHGAP11B + GLUD2 double-transgenic bRG show increased production of aspartate, a metabolite essential for cell proliferation, from glutamate via alpha-ketoglutarate and the TCA cycle. Hence, during human evolution, a human-specific gene exploited the existence of another gene that emerged during ape evolution, to increase, via concerted changes in metabolism, progenitor abundance and neocortex size.

Published

2024

3. Phenotypes of streptozotocin-induced gestational diabetes mellitus in mice.

Author

Narumi Takahashi, Osamu Ichii, Masaya Hiraishi, Takashi Namba, Yuki Otani, Teppei Nakamura, and Yasuhiro Kon

Subjects

Medicine, Science

Abstract

Gestational diabetes mellitus (GDM) in human patients disrupts glucose metabolism post-pregnancy, affecting fetal development. Although obesity and genetic factors increase GDM risk, a lack of suitable models impedes a comprehensive understanding of its pathology. To address this, we administered streptozotocin (STZ, 75 mg/kg) to C57BL/6N mice for two days before pregnancy, establishing a convenient GDM model. Pregnant mice exposed to STZ (STZ-pregnant) were compared with STZ-injected virgin mice (STZ-virgin), citrate buffer-injected virgin mice (CB-virgin), and pregnant mice injected with citrate buffer (CB-pregnant). STZ-pregnant non-obese mice exhibited elevated blood glucose levels on gestational day 15.5 and impaired glucose tolerance. They also showed fewer normal fetuses compared to CB-pregnant mice. Additionally, STZ-pregnant mice had the highest plasma C-peptide levels, with decreased pancreatic islets or increased alpha cells compared to CB-pregnant mice. Kidneys isolated from STZ-pregnant mice did not display histological alterations or changes in gene expression for the principal glucose transporters (GLUT2 and SGLT2) and renal injury-associated markers. Notably, STZ-pregnant mice displayed decreased gene expression of insulin-receiving molecules (ISNR and IGFR1), indicating heightened insulin resistance. Liver histology in STZ-pregnant mice remained unchanged except for a pregnancy-related increase in lipid droplets within hepatocytes. Furthermore, the duodenum of STZ-pregnant mice exhibited increased gene expression of ligand-degradable IGFR2 and decreased expression of GLUT5 and GLUT12 (fructose and glucose transporters, respectively) compared to STZ-virgin mice. Thus, STZ-pregnant mice displayed GDM-like symptoms, including fetal abnormalities, while organs adapted to impaired glucose metabolism by altering glucose transport and insulin reception without histopathological changes. STZ-pregnant mice offer a novel model for studying mild onset non-obese GDM and species-specific differences in GDM features between humans and animals.

Published

2024

4. Structural Features of Connective Tissue Formed around Resin Implants Subcutaneously Embedded in Dairy Cows

Author

Yuka Katayama, Osamu Ichii, Teppei Nakamura, Keita Yanase, Masaya Hiraishi, Takashi Namba, Yuki Otani, Teppei Ikeda, Erika Tsuji, Natsuko Tsuzuki, Ken Kobayashi, Yasuhiro Kon, and Takanori Nishimura

Subjects

cow, connective tissue, foreign body reaction, inflammation, fibrosis, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Foreign body reactions (FBRs) are inadvertently observed in invading or artificially embedded materials, triggering inflammation and subsequent fibrotic processes to occur in situ. Here, we assessed the spatiotemporal formation of connective tissue around implanted materials to establish a technique using connective tissue formed by FBRs as xenografts. An acrylic resin implant, comprising a columnar inner rod and a tubular outer cylinder (OC) with several slits, was embedded in adult dairy cows. Tissues formed in the inner rod and OC groups were histologically analyzed at weeks 2, 4, 8, and 12. Edematous tissues with non-collagenous fibers formed for 2 weeks and showed increased cellularity after 4 weeks. The weight, thickness, amounts of total protein, collagen, DNA, and quantitative scores of α-smooth muscle actin-positive myofibroblasts or elastic fibers notably increased after 8 weeks, with condensed collagen fibers showing orientation. Inflammatory cells were primarily localized in tissues close to the OC, and their numbers increased, with the count of CD204+ cells peaking at 8 weeks and declining at 12 weeks. The count of Ki67+ proliferating cells slightly increased in tissues close to the OC; however, the number and lumen of CD31+ vessels increased. These results may help understand FBR-related tissue remodeling.

Published

2023

5. Transcriptome and proteome analysis of dogs with precursor targeted immune-mediated anemia treated with splenectomy.

Author

Mei Sugawara-Suda, Keitaro Morishita, Osamu Ichii, Takashi Namba, Keisuke Aoshima, Yumiko Kagawa, Sangho Kim, Kenji Hosoya, Nozomu Yokoyama, Noboru Sasaki, Kensuke Nakamura, Jumpei Yamazaki, and Mitsuyoshi Takiguchi

Subjects

Medicine, Science

Abstract

Precursor-targeted immune-mediated anemia (PIMA) in dogs is characterized by persistent non-regenerative anemia and ineffective erythropoiesis, and it is suspected to be an immune-mediated disease. Most affected dogs respond to immunosuppressive therapies; however, some are resistant. In this study, we carried out splenectomy as an alternative therapy for refractory PIMA in dogs, and analyzed gene expression levels in the spleen of dogs with or without PIMA and in serum before and after splenectomy. A total of 1,385 genes were found to express differentially in the spleens from dogs with PIMA compared with healthy dogs by transcriptome analysis, of which 707 genes were up-regulated, including S100A12, S100A8, and S100A9 that are linked directly to the innate immune system and have been characterized as endogenous damage-associated molecular patterns. Furthermore, immunohistochemistry confirmed that S100A8/A9 protein expression levels were significantly higher in dogs with PIMA compared with those in healthy dogs. A total of 22 proteins were found to express differentially between the serum samples collected before and after splenectomy by proteome analysis, of which 12 proteins were up-regulated in the samples before. The lectin pathway of complement activation was identified by pathway analysis in pre-splenectomy samples. We speculated that S100A8/9 expression may be increased in the spleen of dogs with PIMA, resulting in activation of the lectin pathway before splenectomy. These findings further our understanding of the pathology and mechanisms of splenectomy for PIMA.

Published

2023

6. Morphological Characteristics of Genital Organ-Associated Lymphoid Tissue in the Vaginal Vestibule of Goats and Pigs

Author

Tsolmon Chuluunbaatar, Osamu Ichii, Md. Abdul Masum, Takashi Namba, and Yasuhiro Kon

Subjects

genital organ-associated lymphoid tissue, mucosa-associated lymphoid tissue, goat, pig, vaginal vestibule, lymphatic nodule, Veterinary medicine, SF600-1100

Abstract

Mucosa-associated lymphoid tissue (MALT) is a specialized form of peripheral lymphoid tissue (LT), which is found on mucosal surfaces exposed to the environment. However, morphological data of these tissues in farm animals are scarce. This study investigated the gross anatomical and histological features of genital organ-associated lymphoid tissues (GOALTs) in the vaginal vestibule (VV) of healthy, non-pregnant, adult goats and pigs. Their VVs were composed of stratified squamous, non-keratinized epithelium, and various-sized dark-blue hematoxylin-positive spots were observed in whole-mount specimens, which were diffusely distributed throughout the mucosal surfaces. These spots were histologically identified as LTs and consisted of lymphatic nodules (LNs) or diffuse lymphoid tissue (DLTs). Both LNs and DLTs contained B cells, T cells, macrophages, dendritic cells, plasma cells, and high endothelial venules. Only the numbers of B cells were significantly higher in both the LNs and DLTs of pigs compared to goats. Furthermore, the surface of the VV epithelium covering the LTs was partially disrupted with a large intercellular space containing abundant connective tissue fibers with numerous lymphocytes. In conclusion, GOALTs in the VV appear to be common local immunological barriers in both examined animals. This knowledge is crucial for understanding the structures and disorders of female reproductive organs in farm animals.

Published

2023

7. Ex vivo Tissue Culture Protocols for Studying the Developing Neocortex

Author

Takashi Namba, Christiane Haffner, and Wieland Huttner

Subjects

Biology (General), QH301-705.5

Abstract

The size of the neocortex and its morphology are highly divergent across mammalian species. Several approaches have been utilized for the analysis of neocortical development and comparison among different species. In the present protocol (Note: This protocol requires basic knowledge of brain anatomy), we describe three ex vivo neocortical slice/tissue culture methods: (i) organotypic slice culture (mouse, ferret, human); (ii) hemisphere rotation culture (mouse, ferret); and (iii) free-floating tissue culture (mouse, ferret, human). Each of these three culture methods offers distinct features with regard to the analyses to be performed and can be combined with genetic manipulation by electroporation and treatment with specific inhibitors. These three culture methods are therefore powerful techniques to examine the function of genes involved in neocortical development.

Published

2021

8. Developmental Changes of the Ovary in Neonatal Cotton Rat (Sigmodon hispidus)

Author

Md. Rashedul Islam, Osamu Ichii, Teppei Nakamura, Takao Irie, Md. Abdul Masum, Yuki Otani, Takashi Namba, Tsolmon Chuluunbaatar, Yaser Hosny Ali Elewa, and Yasuhiro Kon

Subjects

neonatal cotton rat, folliculogenesis, multi-oocyte follicles, double nucleated oocytes, apoptosis, oocytogenesis, Physiology, QP1-981

Abstract

The reproductive characteristics and ovarian development in cotton rats (Sigmodon hispidus, CRs) are unclear, although CRs are commonly used as animal models in biomedical research. We previously reported that young (6–8 weeks) CRs showed multi-oocyte follicles (MOFs) and double nucleated oocytes (DNOs) in different stages of follicles. The developmental changes in neonatal CR ovaries were investigated in the present study and were compared with our findings in previous studies of unique phenotypes, particularly in oocytes. CR ovaries at postnatal days (PND) 0, 4, and 7 were obtained from the Hokkaido Institute of Public Health. Samples were analyzed by light and transmission electron microscopy. The general histology and folliculogenesis in CR ovaries were similar to those in other experimental rodents. However, DNOs were observed in all age categories and were frequently observed in primordial follicles, whereas MOFs started to develop from PND4 with greater frequency in primary follicles. Almost all developing follicles expressed DEAD (Asp-Glu-Ala-Asp) box polypeptide 4 and forkhead box L2, which are representative markers of oocytes and follicular epithelial cells, respectively. Ki-67 staining demonstrated the proliferative activity of granulosa cells, but not of oocytes, in follicles. Moreover, rapid folliculogenesis of CR due to a small number of apoptotic oocytes was suggested, based on results of the terminal deoxynucleotidyl transferase dUTP nick end labeling assay, confirming the formation of DNOs or MOFs. These findings clarify the development of unique phenotypes of neonatal CR ovaries and support it as a useful model to better understand folliculogenesis and oocytogenesis as well as their abnormalities in humans and other animals.

Published

2021

9. Vasculature-Associated Lymphoid Tissue: A Unique Tertiary Lymphoid Tissue Correlates With Renal Lesions in Lupus Nephritis Mouse Model

Author

Md. Abdul Masum, Osamu Ichii, Yaser Hosny Ali Elewa, Yuki Otani, Takashi Namba, and Yasuhiro Kon

Subjects

tertiary lymphoid tissue, lupus nephritis, chemokine, kidney, renal lesions, dexamethasone, Immunologic diseases. Allergy, RC581-607

Abstract

Lupus nephritis (LN) is a common complication in young patients and the most predominant cause of glomerulonephritis. Infiltrating immune cells and presence of immunocomplexes in the kidney are hallmarks of LN, which is closely associated with renal lesions (RLs). However, their regulatory mechanism in the kidney remains unclear, which is valuable for prevention of RL development. Here, we show the development of vasculature-associated lymphoid tissue (VALT) in LN, which is related to renal inflammatory cytokines, indicating that VALT is a unique tertiary lymphoid tissue. Transcriptomic analysis revealed different chemokines and costimulatory molecules for VALT induction and organization. Vascular and perivascular structures showed lymphoid tissue organization through lymphorganogenic chemokine production. Transcriptional profile and intracellular interaction also demonstrated antigen presentation, lymphocyte activity, clonal expansion, follicular, and germinal center activity in VALT. Importantly, VALT size was correlated with infiltrating immune cells in kidney and RLs, indicating its direct correlation with the development of RLs. In addition, dexamethasone administration reduced VALT size. Therefore, inhibition of VALT formation would be a novel therapeutic strategy against LN.

Published

2020

10. Beyond Axon Guidance: Roles of Slit-Robo Signaling in Neocortical Formation

Author

Yuko Gonda, Takashi Namba, and Carina Hanashima

Subjects

Robo, Slit, neocortex, migration, proliferation, dendrite, Biology (General), QH301-705.5

Abstract

The formation of the neocortex relies on intracellular and extracellular signaling molecules that are involved in the sequential steps of corticogenesis, ranging from the proliferation and differentiation of neural progenitor cells to the migration and dendrite formation of neocortical neurons. Abnormalities in these steps lead to disruption of the cortical structure and circuit, and underly various neurodevelopmental diseases, including dyslexia and autism spectrum disorder (ASD). In this review, we focus on the axon guidance signaling Slit-Robo, and address the multifaceted roles of Slit-Robo signaling in neocortical development. Recent studies have clarified the roles of Slit-Robo signaling not only in axon guidance but also in progenitor cell proliferation and migration, and the maturation of neocortical neurons. We further discuss the etiology of neurodevelopmental diseases, which are caused by defects in Slit-Robo signaling during neocortical formation.

Published

2020

11. Unique Running Pattern and Mucosal Morphology Found in the Colon of Cotton Rats

Author

Tsolmon Chuluunbaatar, Osamu Ichii, Teppei Nakamura, Takao Irie, Takashi Namba, Md Rashedul Islam, Yuki Otani, Md Abdul Masum, Yuko Okamatsu-Ogura, Yaser Hosny Ali Elewa, and Yasuhiro Kon

Subjects

cotton rat, morphology, large intestine, colon, longitudinal fold, sex difference, Physiology, QP1-981

Abstract

Cotton rats are one of the experimental rodents used for testing different infectious and non-infectious diseases, including gastrointestinal tract pathology. However, their intestinal morphological characteristics are still poorly understood. Here, we clarified the anatomical and histological characteristics of the cecum and ascending colon (AC) of young (1–3-month old), adult (4–6-month old), and old (10–12-month old) cotton rats. The large intestine (LI) in cotton rats is composed of the cecum, AC, transverse and descending colons, and rectum, and is similar to that of other mammals. The AC begins with a double or triple spiral loop-like flexure (SLLF) and ends with a coupled horseshoe-like flexure (HSLF). A single longitudinal mucosal fold (SLMF) was found at the beginning of the AC along the mesentery line and developed with age. Furthermore, the SLMF contained several lymphatic nodules (LNs), indicating their role in digestive and immunological functions. Small and large protuberant LNs were found in the cecum and SLLF, respectively, whereas thin and flat LNs were observed in the HSLF and transverse colon, respectively. Regarding sex-related differences, adult females had a significantly longer AC with a higher number of SLLFs compared to males. The SLMF length and LN number were also longer and higher, respectively, in adult females compared to adult males. These are crucial findings, indicating the presence of sex-related differences in the morphology of the LI in cotton rats, and ours is the first study to discover a sex difference in the mammalian LI lining. Our study clarified the unique morphology of the LI in cotton rats, which could serve as the principal model for elucidating species-specific digestive tract functions and gastrointestinal disorders.

Published

2020

12. Comparison of Ovarian Morphology and Follicular Disturbances between Two Inbred Strains of Cotton Rats (Sigmodon hispidus)

Author

Md Rashedul Islam, Osamu Ichii, Teppei Nakamura, Takao Irie, Akio Shinohara, Md Abdul Masum, Yuki Otani, Takashi Namba, Tsolmon Chuluunbaatar, Yaser Hosny Ali Elewa, and Yasuhiro Kon

Subjects

cotton rat, multi-oocyte follicles, double nucleated oocytes, proliferative cells, mitochondrial clouds, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Most mammalian ovarian follicles contain only a single oocyte having a single nucleus. However, two or more oocytes and nuclei are observed within one follicle and one oocyte, respectively, in several species, including cotton rat (CR, Sigmodon hispidus). The present study compared ovarian histology, focusing on folliculogenesis, between two inbred CR strains, HIS/Hiph and HIS/Mz. At 4 weeks of age, ovarian sections from both the strains were analyzed histologically. Multi-oocyte follicles (MOFs) and double-nucleated oocytes (DNOs) were observed in all stages of developing follicles in HIS/Hiph, whereas HIS/Mz had MOFs up to secondary stages and lacked DNOs. The estimated total follicles in HIS/Mz were almost half that of HIS/Hiph, but interstitial cells were well developed in HIS/Mz. Furthermore, immunostaining revealed no clear strain differences in the appearance of oocytes positive for Ki67, PCNA, and p63 in MOF or DNOs; no cell death was observed in these oocytes. Ultrastructural analysis revealed more abundant mitochondrial clouds in oocytes of HIS/Hiph than HIS/Mz. Thus, we clarified the strain differences in the CR ovary. These findings indicate that early events during folliculogenesis affect the unique ovarian phenotypes found in CRs, including MOFs or DNOs, and their strain differences.

Published

2021

13. Discovery of long-range inhibitory signaling to ensure single axon formation

Author

Tetsuya Takano, Mengya Wu, Shinichi Nakamuta, Honda Naoki, Naruki Ishizawa, Takashi Namba, Takashi Watanabe, Chundi Xu, Tomonari Hamaguchi, Yoshimitsu Yura, Mutsuki Amano, Klaus M. Hahn, and Kozo Kaibuchi

Subjects

Science

Abstract

Emerging evidence suggests that gut microbiota influences immune function in the brain and may play a role in neurological diseases. Here, the authors offer in vivo evidence from a Drosophila model that supports a role for gut microbiota in modulating the progression of Alzheimer’s disease.

Published

2017

14. Malformations of Human Neocortex in Development – Their Progenitor Cell Basis and Experimental Model Systems

Author

Anneline Pinson, Takashi Namba, and Wieland B. Huttner

Subjects

neocortex, malformations, development, progenitors, model systems, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Malformations of the human neocortex in development constitute a heterogeneous group of complex disorders, resulting in pathologies such as intellectual disability and abnormal neurological/psychiatric conditions such as epilepsy or autism. Advances in genomic sequencing and genetic techniques have allowed major breakthroughs in the field, revealing the molecular basis of several of these malformations. Here, we focus on those malformations of the human neocortex, notably microcephaly, and macrocephaly, where an underlying basis has been established at the level of the neural stem/progenitor cells (NPCs) from which neurons are directly or indirectly derived. Particular emphasis is placed on NPC cell biology and NPC markers. A second focus of this review is on experimental model systems used to dissect the underlying mechanisms of malformations of the human neocortex in development at the cellular and molecular level. The most commonly used model system have been genetically modified mice. However, although basic features of neocortical development are conserved across the various mammalian species, some important differences between mouse and human exist. These pertain to the abundance of specific NPC types and/or their proliferative capacity, as exemplified in the case of basal radial glia. These differences limit the ability of mouse models to fully recapitulate the phenotypes of malformations of the human neocortex. For this reason, additional experimental model systems, notably the ferret, non-human primates and cerebral organoids, have recently emerged as alternatives and shown to be of increasing relevance. It is therefore important to consider the benefits and limitations of each of these model systems for studying malformations of the human neocortex in development.

Published

2019

15. Human-specific ARHGAP11B induces hallmarks of neocortical expansion in developing ferret neocortex

Author

Nereo Kalebic, Carlotta Gilardi, Mareike Albert, Takashi Namba, Katherine R Long, Milos Kostic, Barbara Langen, and Wieland B Huttner

Subjects

ferret, ARHGAP11B, neocortex development, neocortex evolution, Medicine, Science, Biology (General), QH301-705.5

Abstract

The evolutionary increase in size and complexity of the primate neocortex is thought to underlie the higher cognitive abilities of humans. ARHGAP11B is a human-specific gene that, based on its expression pattern in fetal human neocortex and progenitor effects in embryonic mouse neocortex, has been proposed to have a key function in the evolutionary expansion of the neocortex. Here, we study the effects of ARHGAP11B expression in the developing neocortex of the gyrencephalic ferret. In contrast to its effects in mouse, ARHGAP11B markedly increases proliferative basal radial glia, a progenitor cell type thought to be instrumental for neocortical expansion, and results in extension of the neurogenic period and an increase in upper-layer neurons. Consequently, the postnatal ferret neocortex exhibits increased neuron density in the upper cortical layers and expands in both the radial and tangential dimensions. Thus, human-specific ARHGAP11B can elicit hallmarks of neocortical expansion in the developing ferret neocortex.

Published

2018

16. Time-lapse imaging reveals symmetric neurogenic cell division of GFAP-expressing progenitors for expansion of postnatal dentate granule neurons.

Author

Takashi Namba, Hideki Mochizuki, Ryusuke Suzuki, Masafumi Onodera, Masahiro Yamaguchi, Hideo Namiki, Seiji Shioda, and Tatsunori Seki

Subjects

Medicine, Science

Abstract

Granule cells in the hippocampus, a region critical for memory and learning, are generated mainly during the early postnatal period but neurogenesis continues in adulthood. Postnatal neuronal production is carried out by primary progenitors that express glial fibrillary acidic protein (GFAP) and they are assumed to function as stem cells. A central question regarding postnatal dentate neurogenesis is how astrocyte-like progenitors produce neurons. To reveal cell division patterns and the process of neuronal differentiation of astrocyte-like neural progenitors, we performed time-lapse imaging in cultured hippocampal slices from early postnatal transgenic mice with mouse GFAP promoter-controlled enhanced green fluorescent protein (mGFAP-eGFP Tg mice) in combination with a retrovirus carrying a red fluorescent protein gene. Our results showed that the majority of GFAP-eGFP+ progenitor cells that express GFAP, Sox2 and nestin divided symmetrically to produce pairs of GFAP+ cells (45%) or pairs of neuron-committed cells (45%), whereas a minority divided asymmetrically to generate GFAP+ cells and neuron-committed cells (10%). The present results suggest that a substantial number of GFAP-expressing progenitors functions as transient amplifying progenitors, at least in an early postnatal dentate gyrus, although a small population appears to be stem cell-like progenitors. From the present data, we discuss possible cell division patterns of adult GFAP+ progenitors.

Published

2011

17. Analysis of gene expression in poultry red mite, Dermanyssus gallinae, by RNAscope in situ hybridization

Author

Hikari SEO, Shiro MURATA, Osamu ICHII, Takashi NAMBA, Shwe Yee WIN, Takumi SATO, Eiji OISHI, Akira TANENO, Naoya MAEKAWA, Tomohiro OKAGAWA, Satoru KONNAI, and Kazuhiko OHASHI

Subjects

General Veterinary

Published

2023

18. Expression of Indian hedgehog signaling in murine oviductal infundibulum and its relationship with epithelial homeostasis

Author

Marina Hosotani, Osamu Ichii, Takashi Namba, Md. Abdul Masum, Teppei Nakamura, Yasuhiro Hasegawa, Takafumi Watanabe, and Yasuhiro Kon

Subjects

Histology, Cell Biology, Pathology and Forensic Medicine

Abstract

Homeostasis of the oviductal infundibulum epithelium is continuously regulated by signaling pathways under physiological and pathological conditions. Herein, we investigated the expression of hedgehog (Hh) signaling-related components in the murine oviductal infundibulum, which is known to maintain homeostasis in the adult epithelium. Additionally, using autoimmune disease-prone MRL/MpJ-Fas

Published

2022

19. Ameliorated Renal Pathological Feature in MRL/MpJ-Faslpr/lpr Background Interleukin-36 Receptor-Deficient Mice

Author

Takashi Namba, Osamu Ichii, Tadashi Okamura, Kenta Nakano, Teppei Nakamura, Yuki Otani, and Yasuhiro Kon

Subjects

Instrumentation

Abstract

Systemic autoimmune diseases frequently induce lupus nephritis, causing altered balance and expression of interleukin 36 receptor (IL-36R) ligands, including agonists (IL-36α, β, γ) and antagonists (IL-36Ra, IL-38), in kidneys. Here, we established and analyzed a mouse model of lupus nephritis, MRL/MpJ-Faslpr/lpr with IL-36R-knockout (KO), compared to wild-type (WT) mice. In both genotypes, indices for immune abnormalities and renal functions were comparable, although female WT mice showed higher serum autoantibody levels than males. IL-36R ligand expression did not differ significantly between genotypes at the mRNA level or in IL-36α and IL-38 scores. However, glomerular lesions, especially mesangial matrix expansion, were significantly ameliorated in both sexes of IL-36R-KO mice compared to WT mice. Cell infiltration into the tubulointerstitium with the development of tertiary lymphoid structures was comparable between genotypes. However, the positive correlation with the IL-36α score in WT mice was not evident in IL-36R-KO mice. Fibrosis was less in female IL-36R-KO mice than in WT mice. Importantly, some IL-36α+ nuclei co-localized with acetylated lysine and GCN5 histone acetyltransferase, in both genotypes. Therefore, IL-36R ligands, especially IL-36α, contribute to the progression of renal pathology in lupus nephritis via IL-36R-dependent and IL-36R-independent pathways.

Published

2022

20. Ureteral morphology and pathology during urolithiasis in cats

Author

Osamu Ichii, Kazuhisa Oyamada, Hazuki Mizukawa, Nozomu Yokoyama, Takashi Namba, Yuki Otani, Yaser Hosny Ali Elewa, Noboru Sasaki, Teppei Nakamura, and Yasuhiro Kon

Subjects

Inflammation, Urolithiasis, General Veterinary, Cats, Animals, Collagen, Ureter, Cat Diseases, Ureteral Obstruction

Abstract

Cats exhibit high susceptibility to urinary organ-related diseases. We investigated the healthy ureter morphologies and compared these with ureters that were surgically resected distal to a urolithiasis obstruction in cats. Healthy ureters (total length 9.88 ± 0.38 cm) developed adventitia composed of collagen fibers (ADCF), containing a longitudinal muscular layer, toward the distal segment. The healthy ureter was the smallest in the middle segment (4.71-6.90 cm from the urinary bladder) with significantly decreased luminal and submucosal areas compared to those in the proximal segment. Diseased cats exhibited a high incidence of calcium oxalate urolithiasis with renal dysfunction, regardless of age, sex, and body size. Diseased ureters showed increased perimeters, inflammation, and decreased nerves in ADCF. Collagen fibers were increased in the submucosal area, intermuscular spaces, and ADCF, particularly near the obstructed lesion. The mean resected ureter length was 5.66 ± 0.49 cm, suggesting a high obstruction risk in the middle segment. The middle segment also increased the cross-sectional area of the ureter and ADCF, regardless of the distance from the obstructed lesion. The ureters in several cases either lacked the transitional epithelium, or exhibited transitional epithelial hyperplasia, and some of these formed the mucosal folds. In conclusion, we demonstrated the following characteristics and histopathological features of cat ureters: decreases in the ureter size, lumen area, and submucosa area from proximal to middle segment in healthy; ADCF changes in urolithiasis, including increased connective tissues with inflammation and decreased nerves. These data are important to understand the pathogenesis of feline ureteral obstruction.

Published

2022

21. Modified foreign body reaction to silicone imbedded in subcutaneous tissues by different mouse systemic immune conditions

Author

Tomohiro Yamakawa, Osamu Ichii, Teppei Nakamura, Takashi Namba, Yaser Hosny Ali Elewa, Md. Abdul Masum, Yuki Otani, Takanori Nishimura, and Yasuhiro Kon

Subjects

Inflammation, Mice, Inbred MRL lpr, Foreign-Body Reaction, Silicones, Metals and Alloys, Biomedical Engineering, Mice, Inbred Strains, Fibrosis, Mice, Inbred C57BL, Biomaterials, Mice, Subcutaneous Tissue, Ceramics and Composites, Animals, Humans, Collagen

Abstract

Foreign body reaction (FBR) causes unexpected adverse effects due to implanted materials in humans and animals. Inflammation and subsequent fibrosis during FBR seems to be affected by recipient immunity, such as the balance of T helper (Th) response that has the potential to regulate FBR-related macrophage function. Here, the immunological effects of FBR on subcutaneously imbedded silicone tubes (ST) at 8 weeks were investigated histologically by comparing Th1-biased C57BL/6N, Th2-biased MRL/MpJ, and autoimmune disease-prone MRL/MpJ-Fas

Published

2022

22. Close Association between Altered Urine–Urothelium Barrier and Tertiary Lymphoid Structure Formation in the Renal Pelvis during Nephritis

Author

Yasuhiro Kon, Takashi Namba, Yaser Hosny Ali Elewa, Taro Horino, Osamu Ichii, Marina Hosotani, Teppei Nakamura, Abdul Masum, and Yuki Otani

Subjects

renal pelvis, Pathology, medicine.medical_specialty, Urinary system, medicine.medical_treatment, Pathogenesis, nephritis, Medicine, Humans, tertiary lymphoid structure, Kidney Pelvis, CXCL13, Urothelium, business.industry, chemokine, urothelium, General Medicine, medicine.disease, urine, Cytokine, Basic Research, Tertiary Lymphoid Structures, Nephrology, CXCL9, Bullous pemphigoid, business, Nephritis

Abstract

Background Kidneys with chronic inflammation develop tertiary lymphoid structures (TLSs). Infectious pyelonephritis is characterized by renal pelvis (RP) inflammation. However, the pathologic features of TLSs, including their formation and association with non-infectious nephritis, are unclear. Methods RPs from humans and mice that were healthy or had non-infectious chronic nephritis were analyzed for TLS development, and the mechanism of TLS formation investigated using urothelium or lymphoid structure cultures. Results Regardless of infection, TLSs in the RP, termed urinary tract-associated lymphoid structures (UTALSs), formed in humans and mice with chronic nephritis. Moreover, urine played a unique role in UTALS formation. Specifically, we identified urinary IFN-gamma as a candidate factor affecting urothelial barrier integrity because it alters occludin expression. In a nephritis mouse model, urine leaked from the lumen of the RP into the parenchyma. In addition, urine immunologically stimulated UTALS-forming cells via cytokine (IFN-gamma, TNF-alpha) and chemokine (CXCL9, CXCL13) production. CXCL9 and CXCL13 were expressed in UTALS stromal cells and urine stimulation specifically induced CXCL13 in cultured fibroblasts. Characteristically, type XVII collagen (BP180), a candidate autoantigen of bullous pemphigoid, was ectopically localized in the urothelium covering UTALSs and associated with UTALS development by stimulating CXCL9 or IL-22 induction via the TNF-alpha/ FOS/JUN pathway. Notably, UTALS development indices were positively correlated with chronic nephritis development. Conclusions TLS formation in the RP is possible and altered urine-urothelium barrier-based UTALS formation may represent a novel mechanism underlying the pathogenesis of chronic nephritis, regardless of urinary tract infection.

Published

2022

23. Human-specific

Author

Jan, Fischer, Eduardo Fernández, Ortuño, Fabio, Marsoner, Annasara, Artioli, Jula, Peters, Takashi, Namba, Christina Eugster, Oegema, Wieland B, Huttner, Julia, Ladewig, and Michael, Heide

Subjects

Organoids, Neural Stem Cells, Pan troglodytes, Neurogenesis, GTPase-Activating Proteins, Animals, Humans, Hominidae, Neocortex

Abstract

The human-specific gene

Published

2022

24. Embryonic mouse medial neocortex as a model system for studying the radial glial scaffold in fetal human neocortex

Author

Samir Vaid, Oskari Heikinheimo, and Takashi Namba

Subjects

Psychiatry and Mental health, Neurology, Neurology (clinical), Biological Psychiatry

Abstract

Neocortex is the evolutionarily newest region in the brain, and is a structure with diversified size and morphology among mammalian species. Humans have the biggest neocortex compared to the body size, and their neocortex has many foldings, that is, gyri and sulci. Despite the recent methodological advances in in vitro models such as cerebral organoids, mice have been continuously used as a model system for studying human neocortical development because of the accessibility and practicality of in vivo gene manipulation. The commonly studied neocortical region, the lateral neocortex, generally recapitulates the developmental process of the human neocortex, however, there are several important factors missing in the lateral neocortex. First, basal (outer) radial glia (bRG), which are the main cell type providing the radial scaffold to the migrating neurons in the fetal human neocortex, are very few in the mouse lateral neocortex, thus the radial glial scaffold is different from the fetal human neocortex. Second, as a consequence of the difference in the radial glial scaffold, migrating neurons might exhibit different migratory behavior and thus distribution. To overcome those problems, we propose the mouse medial neocortex, where we have earlier revealed an abundance of bRG similar to the fetal human neocortex, as an alternative model system. We found that similar to the fetal human neocortex, the radial glial scaffold, neuronal migration and neuronal distribution are tangentially scattered in the mouse medial neocortex. Taken together, the embryonic mouse medial neocortex could be a suitable and accessible in vivo model system to study human neocortical development and its pathogenesis.

Published

2022

25. Human‐specific <scp>ARHGAP11B</scp> ensures human‐like basal progenitor levels in hominid cerebral organoids

Author

Jan Fischer, Eduardo Fernández Ortuño, Fabio Marsoner, Annasara Artioli, Jula Peters, Takashi Namba, Christina Eugster Oegema, Wieland B. Huttner, Julia Ladewig, Michael Heide, and Neuroscience Center

Subjects

Pan troglodytes, Neurogenesis, Biochemistry, Neural Stem Cells, Genetics, Animals, Humans, Molecular Biology, OUTER SUBVENTRICULAR ZONE, HUMAN BRAIN-DEVELOPMENT, brain organoids, GTPase-Activating Proteins, UPPER MIOCENE, 3112 Neurosciences, CORTICAL DEVELOPMENT, Hominidae, neocortex evolution, Human-specific genes, SELF-ORGANIZATION, Neocortex development, STEM-CELL MODELS, EVOLUTION, ARHGAP11B, NEOCORTEX, Organoids, NEURONS ARISE, 1182 Biochemistry, cell and molecular biology, RADIAL GLIA

Abstract

The human-specific gene ARHGAP11B has been implicated in human neocortex expansion. However, the extent of ARHGAP11B's contribution to this expansion during hominid evolution is unknown. Here we address this issue by genetic manipulation of ARHGAP11B levels and function in chimpanzee and human cerebral organoids. ARHGAP11B expression in chimpanzee cerebral organoids doubles basal progenitor levels, the class of cortical progenitors with a key role in neocortex expansion. Conversely, interference with ARHGAP11B's function in human cerebral organoids decreases basal progenitors down to the chimpanzee level. Moreover, ARHGAP11A or ARHGAP11B rescue experiments in ARHGAP11A plus ARHGAP11B double-knockout human forebrain organoids indicate that lack of ARHGAP11B, but not of ARHGAP11A, decreases the abundance of basal radial glia-the basal progenitor type thought to be of particular relevance for neocortex expansion. Taken together, our findings demonstrate that ARHGAP11B is necessary and sufficient to ensure the elevated basal progenitor levels that characterize the fetal human neocortex, suggesting that this human-specific gene was a major contributor to neocortex expansion during human evolution.

Published

2022

26. Human TKTL1 implies greater neurogenesis in frontal neocortex of modern humans than Neanderthals

Author

Anneline Pinson, Lei Xing, Takashi Namba, Nereo Kalebic, Jula Peters, Christina Eugster Oegema, Sofia Traikov, Katrin Reppe, Stephan Riesenberg, Tomislav Maricic, Razvan Derihaci, Pauline Wimberger, Svante Pääbo, and Wieland B. Huttner

Subjects

Mice, Multidisciplinary, Neurogenesis, Ependymoglial Cells, Ferrets, Animals, Humans, Neocortex, Transketolase, Neanderthals

Abstract

Neanderthal brains were similar in size to those of modern humans. We sought to investigate potential differences in neurogenesis during neocortex development. Modern human transketolase-like 1 (TKTL1) differs from Neanderthal TKTL1 by a lysine-to-arginine amino acid substitution. Using overexpression in developing mouse and ferret neocortex, knockout in fetal human neocortical tissue, and genome-edited cerebral organoids, we found that the modern human variant, hTKTL1, but not the Neanderthal variant, increases the abundance of basal radial glia (bRG) but not that of intermediate progenitors (bIPs). bRG generate more neocortical neurons than bIPs. The hTKTL1 effect requires the pentose phosphate pathway and fatty acid synthesis. Inhibition of these metabolic pathways reduces bRG abundance in fetal human neocortical tissue. Our data suggest that neocortical neurogenesis in modern humans differs from that in Neanderthals.

Published

2022

27. Morphological Features of the Testis among Autoimmune Mouse Model and Healthy Strains

Author

Abdul Masum, Mohamed Kassab, Osamu Ichii, Zeinab Shouman, Hany E. Marei, Yasser Hosny Ali Elewa, Takashi Namba, Ahmed Abd-Elmaksoud, and Yasuhiro Kon

Subjects

Autoimmune disease, Infertility, Spleen, Spermatocyte, Biology, medicine.disease, Sertoli cell, Andrology, medicine.anatomical_structure, Immune system, Meiosis, medicine, Immunohistochemistry, Instrumentation

Abstract

Autoimmune diseases play a critical role in the progression of infertility in both sexes and their severity has been reported to increase with age. However, few reports have discussed their effect on the morphological features of the testis. Therefore, we compared the morphological alterations in the testes of autoimmune model mice (MRL/MpJ-Faslpr) and the control strain (MRL/MpJ) with those of their background strain (C57BL/6N) at 3 and 6 months. Furthermore, we analyzed the changes in spermatocytes, Sertoli cells, immune cells, and Zonula occludens-1 junctional protein by immunohistochemical staining. The MRL/MpJ-Faslpr mice showed a significant increase in the serum Anti-double stranded DNA antibody level, relative spleen weight, and seminiferous luminal area when compared with other studied two strains. In contrast, a significant decrease in the relative testis weight, and numbers of both Sertoli, meiotic spermatocyte was observed in MRL/MpJ-Faslpr and MRL/MpJ mice compared with C57BL/6N mice especially at 6 months. Similarly, Zonula occludens-1 junctional protein positive cells showed a significant decrease in the same strains at 6 months. However, no immune cell infiltration could be observed among the studied three strains. Our findings suggest that the increase in autoimmune severity especially with age could lead to infertility through loss of spermatogenic and Sertoli cells, rather than the disturbance of the blood–testis barrier.

Published

2021

28. Compartmentalization of interleukin 36 subfamily according to inducible and constitutive expression in the kidneys of a murine autoimmune nephritis model

Author

Abdul Masum, Yuki Otani, Yasuhiro Kon, Osamu Ichii, Teppei Nakamura, Yaser Hosny Ali Elewa, Takashi Namba, and Marina Hosotani

Subjects

medicine.medical_specialty, Kidney, Histology, biology, CD44, Interleukin-36, Interleukin, Inflammation, Cell Biology, medicine.disease, Pathology and Forensic Medicine, medicine.anatomical_structure, Endocrinology, Internal medicine, medicine, biology.protein, medicine.symptom, Receptor, Nephritis, Homeostasis

Abstract

The interleukin (IL) 36 subfamily belongs to the IL-1 family and is comprised of agonists (IL-36α, IL-36β, IL-36γ) and antagonists (IL-36Ra, IL-38). We previously reported IL-36α overexpression in renal tubules of chronic nephritis mice. To understand the localization status and biological relationships among each member of the IL-36 subfamily in the kidneys, MRL/MpJ-Faslpr/lpr mice were investigated as autoimmune nephritis models using pathology-based techniques. MRL/MpJ-Faslpr/lpr mice exhibited disease onset from 3 months and severe nephritis at 6–7 months (early and late stages, respectively). Briefly, IL-36γ and IL-36Ra were constitutively expressed in murine kidneys, while the expression of IL-36α, IL-36β, IL-36Ra, and IL-38 was induced in MRL/MpJ-Faslpr/lpr mice. IL-36α expression was significantly increased and localized to injured tubular epithelial cells (TECs). CD44+-activated parietal epithelial cells (PECs) also exhibited higher IL-36α-positive rates, particularly in males. IL-36β and IL-38 are expressed in interstitial plasma cells. Quantitative indices for IL-36α and IL-38 positively correlated with nephritis severity. Similar to IL-36α, IL-36Ra localized to TECs and PECs at the late stage; however, MRL/MpJ-Faslpr/lpr and healthy MRL/MpJ mice possessed IL-36Ra+ smooth muscle cells in kidney arterial tunica media at both stages. IL-36γ was constitutively expressed in renal sympathetic axons regardless of strain and stage. IL-36 receptor gene was ubiquitously expressed in the kidneys and was induced proportional to disease severity. MRL/MpJ-Faslpr/lpr mice kidneys possessed significantly upregulated IL-36 downstream candidates, including NF-κB- or MAPK-pathway organizing molecules. Thus, the IL-36 subfamily contributes to homeostasis and inflammation in the kidneys, and especially, an IL-36α-dominant imbalance could strongly impact nephritis deterioration.

Published

2021

29. An energy mix to reach carbon neutral in the electric power generation toward 2050

Author

Shoji KOTAKE, Koji SATO, Takashi NAMBA, and Yutaka SAGAYAMA

Published

2021

30. Glutaminolysis and the Control of Neural Progenitors in Neocortical Development and Evolution

Author

Vasiliki Gkini and Takashi Namba

Subjects

stomatognathic diseases, General Neuroscience, otorhinolaryngologic diseases, Neurology (clinical)

Abstract

Multiple types of neural progenitor cells (NPCs) contribute to the development of the neocortex, a brain region responsible for our higher cognitive abilities. Proliferative capacity of NPCs varies among NPC types, developmental stages, and species. The higher proliferative capacity of NPCs in the developing human neocortex is thought to be a major contributing factor why humans have the most expanded neocortex within primates. Recent studies have shed light on the importance of cell metabolism in the neocortical NPC proliferative capacity. Specifically, glutaminolysis, a metabolic pathway that converts glutamine to glutamate and then to α-ketoglutarate, has been shown to play a critical role in human NPCs, both in apical and basal progenitors. In this review, we summarize our current knowledge of NPC metabolism, focusing especially on glutaminolysis, and discuss the role of NPC metabolism in neocortical development, evolution, and neurodevelopmental disorders, providing a broader perspective on a newly emerging research field.

Published

2022

31. Genital organ-associated lymphoid tissues arranged in a ring in the mucosa of cow vaginal vestibules

Author

Tsolmon Chuluunbaatar, Osamu Ichii, Md. Abdul Masum, Takashi Namba, Md. Rashedul Islam, Yuki Otani, Yaser Hosny Ali Elewa, and Yasuhiro Kon

Subjects

Mucous Membrane, General Veterinary, Lymphoid Tissue, Animals, Cattle, Female, Genitalia, Immunity, Mucosal, Vulva

Abstract

Female reproductive tracts are equipped with local and mucosal immune systems; however, structural information remains unclear for farm animals. In this study, the mucosa-associated lymphoid tissue-like structures in cow reproductive tracts were described. Vaginal vestibule (VV) and external parts of the genital organ, including the clitoris and vulva, were morphologically analyzed. Whole-mount specimens revealed several hematoxylin-positive spots arranged in a ring in the mucosa. Histologically, these spots were aggregated immune cells and defined as genital organ-associated lymphoid tissues (GOALTs). GOALTs were composed of lymphatic follicles (LFs) or diffuse lymphoid tissues (DLTs) at different depths of lamina propria. LFs frequently contained germinal centers. Scattered lymphocytes occupied the border area between follicles and epithelium, whereas DLTs had indefinite shapes. GOALTs contained immune cells and high endothelial venules. B cells were dominant both in LFs and DLTs. Abundant collagenous fibers were stretched across VV lamina propria, whereas reticular fibers were primarily observed in the DLT rather than LF. The epithelium covering of GOALTs was partially or fully disrupted by the invasion of immune cells toward the VV lumen. These findings suggest GOALTs function as a "genital lymphoid ring" as in Waldeyer's pharyngeal ring and act as immunological gate systems in cow reproductive tracts.

Published

2021

32. Inheritance and flexibility of cell polarity: a clue for understanding human brain development and evolution

Author

Nereo, Kalebic and Takashi, Namba

Subjects

Neurons, Brain evolution, Neurogenesis, Neuronal polarity, Brain, Cell Polarity, Neocortex, Hypothesis, Brain development, nervous system, Neural Stem Cells, Cell Movement, Neural stem cell, Animals, Humans, Cell Lineage, Neural Development, Cell Division, Cell Proliferation

Abstract

Cell polarity is fundamentally important for understanding brain development. Here, we hypothesize that the inheritance and flexibility of cell polarity during neocortex development could be implicated in neocortical evolutionary expansion. Molecular and morphological features of cell polarity may be inherited from one type of progenitor cell to the other and finally transmitted to neurons. Furthermore, key cell types, such as basal progenitors and neurons, exhibit a highly flexible polarity. We suggest that both inheritance and flexibility of cell polarity are implicated in the amplification of basal progenitors and tangential dispersion of neurons, which are key features of the evolutionary expansion of the neocortex., Summary: We suggest that the inheritance and flexibility of cell polarity are implicated in the evolutionary expansion of the developing neocortex by promoting the amplification of neural progenitors and tangential migration of neurons.

Published

2021

33. Comparison of Ovarian Morphology and Follicular Disturbances between Two Inbred Strains of Cotton Rats (Sigmodon hispidus)

Author

Takashi Namba, Yasuhiro Kon, Yuki Otani, Takao Irie, Teppei Nakamura, Tsolmon Chuluunbaatar, Abdul Masum, Osamu Ichii, Rashedul Islam, Akio Shinohara, and Yaser Hosny Ali Elewa

Subjects

Veterinary medicine, Ovary, Biology, mitochondrial clouds, Article, Andrology, Follicle, Inbred strain, Follicular phase, SF600-1100, medicine, Cotton rat, proliferative cells, General Veterinary, cotton rat, Sigmodon hispidus, Oocyte, biology.organism_classification, double nucleated oocytes, medicine.anatomical_structure, QL1-991, Animal Science and Zoology, Folliculogenesis, multi-oocyte follicles, Zoology

Abstract

Most mammalian ovarian follicles contain only a single oocyte having a single nucleus. However, two or more oocytes and nuclei are observed within one follicle and one oocyte, respectively, in several species, including cotton rat (CR, Sigmodon hispidus). The present study compared ovarian histology, focusing on folliculogenesis, between two inbred CR strains, HIS/Hiph and HIS/Mz. At 4 weeks of age, ovarian sections from both the strains were analyzed histologically. Multi-oocyte follicles (MOFs) and double-nucleated oocytes (DNOs) were observed in all stages of developing follicles in HIS/Hiph, whereas HIS/Mz had MOFs up to secondary stages and lacked DNOs. The estimated total follicles in HIS/Mz were almost half that of HIS/Hiph, but interstitial cells were well developed in HIS/Mz. Furthermore, immunostaining revealed no clear strain differences in the appearance of oocytes positive for Ki67, PCNA, and p63 in MOF or DNOs, no cell death was observed in these oocytes. Ultrastructural analysis revealed more abundant mitochondrial clouds in oocytes of HIS/Hiph than HIS/Mz. Thus, we clarified the strain differences in the CR ovary. These findings indicate that early events during folliculogenesis affect the unique ovarian phenotypes found in CRs, including MOFs or DNOs, and their strain differences.

Published

2021

34. Non-radial tortuous migration with cell polarity alterations of newly generated granule neurons in the neonatal rat dentate gyrus

Author

Hiroshi Shinohara, Takashi Namba, and Tatsunori Seki

Subjects

Histology, Neurogenesis, Biology, Hippocampal formation, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Cell Movement, Cell polarity, medicine, Animals, 0501 psychology and cognitive sciences, Rats, Wistar, Neurons, Neonatal rat, General Neuroscience, Dentate gyrus, 05 social sciences, Granule (cell biology), Cell Polarity, Granule cell, Embryonic stem cell, medicine.anatomical_structure, nervous system, Dentate Gyrus, Excitatory postsynaptic potential, Anatomy, Neuroscience, 030217 neurology & neurosurgery

Abstract

To establish functional neuronal circuits, newborn neurons generally migrate from the ventricular germinal zones to their final positions during embryonic periods. However, most excitatory neurons of the hippocampal dentate gyrus are born postnatally in the hilus, far from the lateral ventricle. Newly generated granule neurons must then migrate to the surrounding granule cell layer (GCL), which suggests that newborn granule cells may migrate by unique cellular mechanisms. In the present study, we describe the migratory behaviors of postnatally generated granule neurons using combined retroviral labeling and time-lapse imaging analysis. Our results show that whereas half of the newly generated neurons undergo radial migration, the remainder engages in more complex migratory patterns with veering and turning movements accompanied by process formation and cell polarity alterations. These data reveal a previously unappreciated diversity of mechanisms by which granule neurons distribute throughout the GCL to contribute to hippocampal circuitry.

Published

2019

35. Primate neocortex development and evolution: Conserved versus evolved folding

Author

Takashi Namba, Samir Vaid, and Wieland B. Huttner

Subjects

Primates, 0301 basic medicine, Neurogenesis, Lissencephaly, Neocortex, Macaque, 03 medical and health sciences, 0302 clinical medicine, Species Specificity, biology.animal, medicine, Animals, Humans, Primate, Gyrification, Abnormal neuronal migration, biology, General Neuroscience, medicine.disease, Biological Evolution, Primate evolution, Folding (chemistry), 030104 developmental biology, medicine.anatomical_structure, Evolutionary biology, 030217 neurology & neurosurgery

Abstract

The neocortex, the seat of higher cognitive functions, exhibits a key feature across mammalian species-a highly variable degree of folding. Within the neocortex, two distinct subtypes of cortical areas can be distinguished, the isocortex and the proisocortex. Here, we have compared specific spatiotemporal aspects of folding between the proisocortex and the isocortex in 13 primates, including human, chimpanzee, and various Old World and New World monkeys. We find that folding at the boundaries of the dorsal isocortex and the proisocortex, which gives rise to the cingulate sulcus (CiS) and the lateral fissure (LF), is conserved across the primates studied and is therefore referred to as conserved folding. In contrast, the degree of folding within the dorsal isocortex exhibits huge variation across these primates, indicating that this folding, which gives rise to gyri and sulci, is subject to major changes during primate evolution. We therefore refer to the folding within the dorsal isocortex as evolved folding. Comparison of fetal neocortex development in long-tailed macaque and human reveals that the onset of conserved folding precedes the onset of evolved folding. Moreover, the analysis of infant human neocortex exhibiting lissencephaly, a developmental malformation thought to be mainly due to abnormal neuronal migration, shows that the evolved folding is perturbed more than the conserved folding. Taken together, our study presents a two-step model of folding that pertains to primate neocortex development and evolution. Specifically, our data imply that the conserved folding and the evolved folding constitute two distinct, sequential events.

Published

2018

36. Altered Renal Pathology in an Autoimmune Disease Mouse Model After Induction of Diabetes Mellitus

Author

Osamu Ichii, Teppei Nakamura, Yaser Hosny Ali Elewa, Takashi Namba, Shiori Hiramatsu, Md. Abdul Masum, Yuki Otani, and Yasuhiro Kon

Subjects

medicine.medical_specialty, endocrine system diseases, Kidney Glomerulus, autoimmune disease, streptozotocin, Autoimmune Diseases, Diabetes Complications, 03 medical and health sciences, Mice, 0302 clinical medicine, Glomerulonephritis, Diabetes mellitus, Internal medicine, Diabetes Mellitus, Medicine, Animals, 030212 general & internal medicine, Instrumentation, BXSB, 030304 developmental biology, Autoimmune disease, 0303 health sciences, business.industry, nutritional and metabolic diseases, Streptozotocin, medicine.disease, diabetic kidney disease, Pathophysiology, Disease Models, Animal, Endocrinology, MpJ-Yaa, Renal pathology, Albuminuria, medicine.symptom, business, Nephritis, medicine.drug

Abstract

Diabetes mellitus (DM) is a predisposing factor for renal disorder progression and is referred to as diabetic kidney disease (DKD). However, there are no reports of DKD with an underlying autoimmune disorder. In this study, we compared the pathophysiological changes caused by DM induction after streptozotocin (STZ) injection in comparison with that in a control group receiving citrate buffer (CB) in the autoimmune disease model mice “BXSB/MpJ-Yaa” (Yaa) and the wild-type strain BXSB/MpJ. Both strains showed hyperglycemia after 12 weeks of STZ injection. Interestingly, the Yaa group developed membranous and proliferative glomerulonephritis, which tended to be milder glomerular lesions in the STZ group than in the CB group, as indicated by a decreased mesangial area and ameliorated albuminuria. Statistically, the indices for hyperglycemia and autoimmune abnormalities were negatively and positively correlated with the histopathological parameters for mesangial matrix production and glomerular proliferative lesions, respectively. STZ treatment induced renal tubular anisonucleosis and dilations in both strains, and they were more severe in Yaa. Significantly decreased cellular infiltration was observed in the Yaa group compared to the CB group. Thus, in DKD related to autoimmune nephritis, hyperglycemia modifies its pathology by decreasing the mesangial area and interstitial inflammation and aggravating renal tubular injury.

Published

2021

37. Expression of human‐specific ARHGAP11B in mice leads to neocortex expansion and increased memory flexibility

Author

Radislav Sedlacek, Agnieszka Kubik-Zahorodna, Anneline Pinson, Takashi Namba, Mihail Sarov, Marta Florio, Wieland B. Huttner, Lei Xing, and Jan Prochazka

Subjects

Genetically modified mouse, Male, Neurogenesis, Mice, Transgenic, Neocortex, Anxiety, General Biochemistry, Genetics and Molecular Biology, Article, memory flexibility, brain evolution, 03 medical and health sciences, Mice, 0302 clinical medicine, Cognition, Memory, biology.animal, medicine, Animals, Humans, basal progenitors, Molecular Biology, 030304 developmental biology, Progenitor, Cell Proliferation, Neurons, 0303 health sciences, General Immunology and Microbiology, biology, General Neuroscience, GTPase-Activating Proteins, Flexibility (personality), Marmoset, Articles, Phenotype, neocortex expansion, Biological Evolution, Mice, Inbred C57BL, medicine.anatomical_structure, nervous system, human‐specific gene, Female, Neuron, Neuroscience, 030217 neurology & neurosurgery

Abstract

Neocortex expansion during human evolution provides a basis for our enhanced cognitive abilities. Yet, which genes implicated in neocortex expansion are actually responsible for higher cognitive abilities is unknown. The expression of human‐specific ARHGAP11B in embryonic/foetal mouse, ferret and marmoset neocortex was previously found to promote basal progenitor proliferation, upper‐layer neuron generation and neocortex expansion during development, features commonly thought to contribute to increased cognitive abilities. However, a key question is whether this phenotype persists into adulthood and if so, whether cognitive abilities are indeed increased. Here, we generated a transgenic mouse line with physiological ARHGAP11B expression that exhibits increased neocortical size and upper‐layer neuron numbers persisting into adulthood. Adult ARHGAP11B‐transgenic mice showed altered neurobehaviour, notably increased memory flexibility and a reduced anxiety level. Our data are consistent with the notion that neocortex expansion by ARHGAP11B, a gene implicated in human evolution, underlies some of the altered neurobehavioural features observed in the transgenic mice, such as the increased memory flexibility, a neocortex‐associated trait, with implications for the increase in cognitive abilities during human evolution., Effects of human‐specific ARHGAP11B, linked to higher cognitive abilities, on basal progenitor proliferation and upper‐layer neuron generation in rodent embryos persist into adulthood, correlating with altered neurobehaviour including reduced anxiety levels.

Published

2021

38. Novel polychrome staining distinguishing osteochondral tissue and bone cells in decalcified paraffin sections

Author

Teppei Nakamura, Osamu Ichii, Takao Irie, Takashi Namba, Yasuhiro Kon, Takashi Mishima, Ken-ichi Nagasaki, Tomoji Yoshiyasu, Kanako Sumi, Erika Tsuji, and Marina Hosotani

Subjects

Male, Pathology, medicine.medical_specialty, Histology, Epiphyseal plate, Pathology and Forensic Medicine, Mice, Bone cell, medicine, Osteochondral staining, Animals, Endochondral ossification, Osteochondritis, Osteoid, Bone Development, Bone decalcification, Hyaline cartilage, Chemistry, Cartilage, Cell Biology, Mineralized bone, Staining, medicine.anatomical_structure, Paraffin, Bone cells

Abstract

The bone is a dynamic and metabolically active organ in which growth and resorption of the osteochondral matrix is orchestrated by osteoblasts and osteoclasts. For decalcified paraffin-embedded specimens, decalcifying agents alter the staining intensity, and excess decalcification interferes with bone staining. Robust bone staining methods independent of the decalcification conditions and animal species are lacking. In this study, we have developed a novel polychrome staining method, named JFRL staining, which stains the components of osteochondral tissue in different colors. With this staining we could visualize the hyaline cartilage as blue by alcian blue, osteoid as red by picrosirius red, and mineralized bone as green by picro-light green SF or picro-naphthol green B and easily distinguished osteoblasts, osteocytes, and osteoclasts. In mineralized bone, this staining revealed the obvious lamellar structures and woven bone. Notably, this staining was independent of the decalcification conditions and experimental animal species examined. To verify the usefulness of JFRL staining, we observed cotton rat tail which has shorter length and shows a false autotomy. The caudal vertebrae were normally developed via endochondral ossification without a fracture plane. At 6 months of age, the number of chondrocytes declined and the hypertrophic zone was absent at the epiphyseal plate, which might reflect the shorter tail. In conclusion, JFRL staining is the first method to simultaneously distinguish osteochondral matrix and bone cells in one section regardless of decalcifying conditions. This robust staining will provide new information for a wide number of biomedical fields, including bone development, physiology, and pathology.

Published

2021

39. Castrated autoimmune glomerulonephritis mouse model shows attenuated glomerular sclerosis with altered parietal epithelial cell phenotype

Author

Yasuhiro Kon, Osamu Ichii, Yuki Otani, Takashi Namba, Teppei Nakamura, and Md. Abdul Masum

Subjects

0301 basic medicine, Male, medicine.drug_class, Kidney Glomerulus, 030232 urology & nephrology, General Biochemistry, Genetics and Molecular Biology, Autoimmune Diseases, 03 medical and health sciences, 0302 clinical medicine, Glomerulonephritis, Immunity, immune system diseases, medicine, Animals, skin and connective tissue diseases, Original Research, Autoimmune disease, business.industry, Podocytes, Glomerulosclerosis, Epithelial Cells, Androgen, medicine.disease, Mice, Mutant Strains, Disease Models, Animal, 030104 developmental biology, Hyaluronan Receptors, Phenotype, Receptors, Androgen, Immunology, Splenomegaly, business, Orchiectomy, Homeostasis, Kidney disease, Hormone

Abstract

Sex hormones help in maintaining proper immunity as well as renal homeostasis in mammals, and these multi-functional properties characterize the onset of sex-dependent diseases. To clarify the contribution of sex hormones to autoimmune disease-related renal pathogenesis, BXSB/MpJ- Yaa was investigated as a murine autoimmune glomerulonephritis model. BXSB/MpJ- Yaa and its wild-type, BXSB/MpJ- Yaa+ were castrated or sham-operated at three weeks and examined until six months of age. Both castrated strains showed significantly lower serum testosterone levels and body weights than sham-operated mice. Castration did not change the disease phenotypes in BXSB/MpJ- Yaa+. At three months, both sham-operated and castrated BXSB/MpJ- Yaa manifested splenomegaly, autoantibody production, and glomerulonephritis, and castrated BXSB/MpJ- Yaa tended to show heavier spleen weights than the sham-operated group. At six months, both the treated BXSB/MpJ- Yaa showed equivalent autoimmune disease conditions; however, castrated mice clearly showed milder glomerular sclerotic lesions than the sham-operated groups. Urinary albumin excretion in castrated BXSB/MpJ- Yaa was significantly milder than in sham-operated mice at four months, but those of both the treated BXSB/MpJ- Yaa were comparable at six months. The examined renal histopathological indices in parietal epithelial cells were remarkably altered by castration. Briefly, castration decreased the height of parietal epithelial cells and total parietal epithelial cell number in BXSB/MpJ- Yaa at six months. For immunostaining, parietal epithelial cells facing the injured glomeruli of BXSB/MpJ- Yaa expressed CD44, an activated parietal epithelial cell marker, and CD44-positive parietal epithelial cells showed nuclear localization of the androgen receptor and proliferation marker Ki67. CD44- or Ki67-positive parietal epithelial cells were significantly fewer in castrated group than in sham-operated BXSB/MpJ- Yaa at six months. Further, quantitative indices for CD44-positive parietal epithelial cell number and frequency in renal corpuscles positively correlated with glomerular sclerotic severity in BXSB/MpJ- Yaa. In conclusion, androgen seemed to have an effect on both systemic immunity and renal morpho-function; however, the effect on the latter could be more clearly observed in BXSB/MpJ- Yaa, as parietal epithelial cell activation resulted in glomerular sclerosis.

Published

2021

40. Metabolic Regulation of Neocortical Expansion in Development and Evolution

Author

Takashi Namba, Wieland B. Huttner, Jeannette Nardelli, Pierre Gressens, and Neuroscience Center

Subjects

0301 basic medicine, Neurogenesis, Regulator, Neocortex, Mitochondrion, Biology, 03 medical and health sciences, 0302 clinical medicine, Neural Stem Cells, medicine, otorhinolaryngologic diseases, Animals, Humans, Progenitor cell, Gene, Cell Proliferation, Neurons, Glutaminolysis, General Neuroscience, 3112 Neurosciences, Biological Evolution, Metabolic pathway, stomatognathic diseases, 030104 developmental biology, medicine.anatomical_structure, Metabolic regulation, Neuroscience, 030217 neurology & neurosurgery, Metabolic Networks and Pathways

Abstract

The neocortex, the seat of our higher cognitive abilities, has expanded in size during the evolution of certain mammals such as primates, including humans. This expansion occurs during development and is linked to the proliferative capacity of neural stem and progenitor cells (NPCs) in the neocortex. A number of cellintrinsic and cell-extrinsic factors have been implicated in increasing NPC proliferative capacity. However, NPC metabolism has only recently emerged as major regulator of NPC proliferation. In this Perspective, we summarize recent insights into the role of NPC metabolism in neocortical development and neurodevelopmental disorders and its relevance for neocortex evolution. We discuss certain human-specific genes and microcephaly-implicated genes that operate in, or at, the mitochondria of NPCs and stimulate their proliferation by promoting glutaminolysis. We also discuss other metabolic pathways and develop a perspective on how metabolism mechanistically regulates NPC proliferation in neocortical development and how this contributed to neocortex evolution.

Published

2021

41. Compartmentalization of interleukin 36 subfamily according to inducible and constitutive expression in the kidneys of a murine autoimmune nephritis model

Author

Takashi, Namba, Osamu, Ichii, Teppei, Nakamura, Md Abdul, Masum, Yuki, Otani, Marina, Hosotani, Yaser Hosny Ali, Elewa, and Yasuhiro, Kon

Subjects

Male, Disease Models, Animal, Mice, Nephritis, Interleukins, Animals, Female, Renal Insufficiency, Chronic, Kidney

Abstract

The interleukin (IL) 36 subfamily belongs to the IL-1 family and is comprised of agonists (IL-36α, IL-36β, IL-36γ) and antagonists (IL-36Ra, IL-38). We previously reported IL-36α overexpression in renal tubules of chronic nephritis mice. To understand the localization status and biological relationships among each member of the IL-36 subfamily in the kidneys, MRL/MpJ-Fas

Published

2021

42. Ex vivo Tissue Culture Protocols for Studying the Developing Neocortex

Author

Christiane Haffner, Takashi Namba, and Wieland B. Huttner

Subjects

Neocortex, Strategy and Management, Mechanical Engineering, Electroporation, Metals and Alloys, Biology, Industrial and Manufacturing Engineering, Brain anatomy, Tissue culture, Basic knowledge, medicine.anatomical_structure, Methods Article, medicine, Neuroscience, Ex vivo, Neocortical slice, Organotypic slice

Abstract

The size of the neocortex and its morphology are highly divergent across mammalian species. Several approaches have been utilized for the analysis of neocortical development and comparison among different species. In the present protocol (Note: This protocol requires basic knowledge of brain anatomy), we describe three ex vivo neocortical slice/tissue culture methods: (i) organotypic slice culture (mouse, ferret, human); (ii) hemisphere rotation culture (mouse, ferret); and (iii) free-floating tissue culture (mouse, ferret, human). Each of these three culture methods offers distinct features with regard to the analyses to be performed and can be combined with genetic manipulation by electroporation and treatment with specific inhibitors. These three culture methods are therefore powerful techniques to examine the function of genes involved in neocortical development.

Published

2021

43. Human-specific ARHGAP11B is necessary and sufficient for human-type basal progenitor levels in primate brain organoids

Author

Jan Fischer, Jula Peters, Takashi Namba, Michael Heide, and Wieland B. Huttner

Subjects

Basal (phylogenetics), Fetus, Neocortex, medicine.anatomical_structure, biology, biology.animal, Organoid, medicine, Primate, Progenitor cell, Function (biology), Cell biology, Progenitor

Abstract

Based on studies in various animal models, including developing ferret neocortex (Kalebic et al., 2018), the human-specific gene ARHGAP11B has been implicated in human neocortex expansion. However, the extent of its contribution to this expansion during primate evolution is unknown. Here we addressed this issue by genetic manipulation of ARHGAP11B levels and function in chimpanzee and human cerebral organoids. Interference with ARHGAP11B’s function in human cerebral organoids caused a massive decrease, down to a chimpanzee level, in the proliferation and abundance of basal progenitors, the progenitors thought to have a key role in neocortex expansion. Conversely, ARHGAP11B expression in chimpanzee cerebral organoids resulted in a doubling of cycling basal progenitors. Taken together, our findings demonstrate that ARHGAP11B is necessary and sufficient to maintain the elevated basal progenitor levels that characterize the fetal human neocortex, suggesting that this human-specific gene was a major contributor to neocortex expansion during human evolution.

Published

2020

44. Spatiotemporal histological changes observed in mouse subcutaneous tissues during the foreign body reaction to silicone

Author

Yasuhiro Kon, Takanori Nishimura, Sao Oe, Yasuhide Nakayama, Yuki Otani, Osamu Ichii, Takashi Namba, Teppei Nakamura, Md. Abdul Masum, and Yaser Hosny Ali Elewa

Subjects

Male, Pathology, medicine.medical_specialty, Materials science, genetic structures, 0206 medical engineering, Biomedical Engineering, Silicones, Connective tissue, Inflammation, Biocompatible Materials, 02 engineering and technology, Biomaterials, chemistry.chemical_compound, Mice, Silicone, Subcutaneous Tissue, Fibrosis, medicine, Macrophage, Animals, Myofibroblasts, Mice, Inbred ICR, Foreign-Body Reaction, Macrophages, Metals and Alloys, Neutrophil extracellular traps, 021001 nanoscience & nanotechnology, Mast cell, medicine.disease, 020601 biomedical engineering, medicine.anatomical_structure, chemistry, Reticular connective tissue, Ceramics and Composites, medicine.symptom, 0210 nano-technology

Abstract

We investigated spatiotemporal changes in host tissues during foreign body reactions. Silicone tube was subcutaneously embedded into ICR mice, and tissue surrounding silicone (TSS) was observed at 2, 7, 14, 21, 28, 43, and 70 days (D) postsurgery. The thin layer (TL) and loose connective tissues (LCTs) (inside and outside the TSS) developed until D21 and densified afterward. Neutrophils infiltrated the TSS until D14 and formed neutrophil extracellular traps (NETs) in the TL during D7-21. In the LCTs, mast cell counts increased until D21, and macrophage numbers peaked at D14. Several macrophages showed LYVE-1 expression, supporting a tissue-remodeling role. Developmental indices of collagen fibers (CFs) and reticular fibers (RFs) increased during D2-21. NETs, but not neutrophils, were detected after D28. Mast cell numbers peaked at D43 and were maintained until D70. Myofibroblasts consistently localized to the TL from D14. During D21-28, the area of connective tissue (CNT), and CFs and RFs decreased and increased, respectively, and both remained constant during D28-70. The CF density remained constant from D21 and increased at D70. Thus, TSS showed two phases: inflammation and CNT development (D2-21), and inflammation convergence and CNT stabilization (D28-70). These results provide insights into foreign body reactions in clinical cases.

Published

2020

45. Histopathological changes in tear-secreting tissues and cornea in a mouse model of autoimmune disease

Author

Yaser Ha Elewa, Masaya Hiraishi, Osamu Ichii, Takashi Namba, Yasuhiro Kon, Abdul Masum, and Yuki Otani

Subjects

0301 basic medicine, Male, Pathology, medicine.medical_specialty, Aging, Acinar Cells, General Biochemistry, Genetics and Molecular Biology, Antibodies, Autoimmune Diseases, 03 medical and health sciences, Mice, 0302 clinical medicine, immune system diseases, Cornea, medicine, Animals, skin and connective tissue diseases, Original Research, Autoimmune disease, Microvilli, business.industry, Harderian Gland, Epithelium, Corneal, Lacrimal Apparatus, Meibomian Glands, medicine.disease, eye diseases, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Tears, 030221 ophthalmology & optometry, Dry Eye Syndromes, sense organs, Goblet Cells, business, Spleen

Abstract

The tear film covers the cornea, and its abnormalities (including immunological) induce dry eye. Using autoimmune disease model mice, BXSB/MpJ- Yaa (BXSB-Yaa), histopathological changes in the eye and tear-secreting tissues were examined using histopathology, immunohistochemistry, and electron microscopy at 8, 20, and 28 weeks for early, middle, and late disease stages. Early and middle stage BXSB-Yaa showed increased serum autoantibody and spleen weight-to-body weight (S/B) ratio, respectively, and higher tear volume than controls, BXSB/MpJ (BXSB), at early stages, which decreased with ageing and negatively correlated with autoimmune disease indices. Smaller Meibomian gland acini, intraorbital lacrimal glands, and Harderian gland acinar cells were seen in late stage BXSB-Yaa than in BXSB; the latter two indices decreased with ageing and negatively correlated with the S/B ratio. Cell infiltration occurred in the middle stage BXSB-Yaa extraorbital lacrimal gland, and acinar cells were smaller than BXSB. The conjunctival goblet cells decreased from early to middle stages in both strains, but in BXSB-Yaa, they increased at late stages with a partial lack of microvilli on the cornea and were inversely altered with anterior epithelium thickness through ageing, suggesting that they compensated for anterior epithelium damage. In conclusion, the tear film was unstable due to an autoimmune disease condition in BXSB-Yaa. Impact statement Cornea, an outermost layer of mammalian eye, is protected by tear film and abnormalities of tear film causes dry eye. Dry eye injures the cornea which results lower vision in patients. Several factors cause dry eye, including altered systemic conditions, environment, and immunological abnormality of the patient in autoimmune disease like Sjögren’s syndrome (SS). However, the detailed pathology of autoimmune abnormality-mediated dry eye is unclear. Here we demonstrated that systemic autoimmune abnormality in BXSB-Yaa mice was associated with histological changes in the exocrine glands and cornea of the eyes. We also showed that BXSB-Yaa mice developed mild or early stage dry eye-like disease and explain the existence of a compensatory mechanism associated with the dysfunction of these tissues. Thus, BXSB-Yaa could be a model for SS-like disease-associated dry eye and these data would contribute to the understanding of the pathogenesis of autoimmune-related dry eye disease.

Published

2020

46. Anatomy and histology of the foramen of ovarian bursa opening to the peritoneal cavity and its changes in autoimmune disease-prone mice

Author

Yasuhiro Kon, Teppei Nakamura, Marina Hosotani, Hiromi Ueda, Osamu Ichii, Takashi Namba, Takafumi Watanabe, Rashedul Islam, and Yaser Hosny Ali Elewa

Subjects

0301 basic medicine, endocrine system, Mesosalpinx, Pathology, medicine.medical_specialty, animal structures, Histology, Oviducts, Biology, Autoimmune Diseases, Infundibulum, 03 medical and health sciences, Peritoneal cavity, Mice, 0302 clinical medicine, medicine, Animals, skin and connective tissue diseases, Molecular Biology, Peritoneal Cavity, Ecology, Evolution, Behavior and Systematics, Autoimmune disease, Reproduction, Ovary, Cell Biology, Mesovarium, Oocyte, medicine.disease, Original Papers, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Oviduct, Female, Anatomy, 030217 neurology & neurosurgery, Developmental Biology

Abstract

The ovarian bursa is a small peritoneal cavity enclosed by the mesovarium and mesosalpinx, which surrounds the ovaries and oviductal infundibulum in mammals. The ovarian bursa is considered as the structure facilitating the transport of ovulated oocytes into the oviduct. Our previous study revealed reduced oocyte pick‐up function in the oviduct of lupus‐prone MRL/MpJ‐Fas(lpr) (/) (lpr) mouse, suggesting the possibility of an escape of ovulated oocytes into the peritoneal cavity, despite the presence of an almost complete ovarian bursa in the mouse. In this study, we revealed anatomical and histological characteristics of the ovarian bursa in C57BL/6 N, MRL/MpJ, and MRL/MpJ‐Fas(lpr) (/) (lpr) mice. All strains had the foramen of ovarian bursa (FOB), with a size of approximately 0.04 to 0.12 cm(2), surrounded by the ligament of ovarian bursa (LOB), which is part of the mesosalpinx. The LOB was partially lined with the cuboidal mesothelial cells and consisted of a thick smooth muscle layer in all strains. In 6‐month‐old MRL/MpJ‐Fas(lpr) (/) (lpr) mice, in which the systemic autoimmune abnormality deteriorated and oocyte pick‐up function was impaired, the size of the FOB tended to be larger than that of other strains. Additionally, in MRL/MpJ‐Fas(lpr) (/) (lpr) mice at 6 months of age, there was infiltration by numerous immune cells in the mesosalpinx suspending the isthmus; however, the LOB prevented severe inflammation and showed deposition of collagen fibers. These results not only indicate that the FOB is a common structure within mice, but also imply the physiological function of the LOB and its role in maintaining the microenvironment around the ovary, as well as regulating healthy reproduction.

Published

2020

47. Histopathological changes in tear-secreting tissues and cornea in a mouse model of autoimmune disease

Author

Masaya, Hiraishi, Md Abdul, Masum, Takashi, Namba, Otani, Yuki, Elewa, Yaser H. A., 1000060547769, Ichii, Osamu, Kon, Yasuhiro, Masaya, Hiraishi, Md Abdul, Masum, Takashi, Namba, Otani, Yuki, Elewa, Yaser H. A., 1000060547769, Ichii, Osamu, and Kon, Yasuhiro

Abstract

The tear film covers the cornea, and its abnormalities (including immunological) induce dry eye. Using autoimmune disease model mice, BXSB/MpJ-Yaa (BXSB-Yaa), histopathological changes in the eye and tear-secreting tissues were examined using histopathology, immunohistochemistry, and electron microscopy at 8, 20, and 28 weeks for early, middle, and late disease stages. Early and middle stage BXSB-Yaa showed increased serum autoantibody and spleen weight-to-body weight (S/B) ratio, respectively, and higher tear volume than controls, BXSB/MpJ (BXSB), at early stages, which decreased with ageing and negatively correlated with autoimmune disease indices. Smaller Meibomian gland acini, intraorbital lacrimal glands, and Harderian gland acinar cells were seen in late stage BXSB-Yaa than in BXSB; the latter two indices decreased with ageing and negatively correlated with the S/B ratio. Cell infiltration occurred in the middle stage BXSB-Yaa extraorbital lacrimal gland, and acinar cells were smaller than BXSB. The conjunctival goblet cells decreased from early to middle stages in both strains, but in BXSB-Yaa, they increased at late stages with a partial lack of microvilli on the cornea and were inversely altered with anterior epithelium thickness through ageing, suggesting that they compensated for anterior epithelium damage. In conclusion, the tear film was unstable due to an autoimmune disease condition in BXSB-Yaa. Impact statement Cornea, an outermost layer of mammalian eye, is protected by tear film and abnormalities of tear film causes dry eye. Dry eye injures the cornea which results lower vision in patients. Several factors cause dry eye, including altered systemic conditions, environment, and immunological abnormality of the patient in autoimmune disease like Sjogren's syndrome (SS). However, the detailed pathology of autoimmune abnormality-mediated dry eye is unclear. Here we demonstrated that systemic autoimmune abnormality in BXSB-Yaa mice was associated with hi

Published

2020

48. Insm1 Induces Neural Progenitor Delamination in Developing Neocortex via Downregulation of the Adherens Junction Belt-Specific Protein Plekha7

Author

Andreas Dahl, Wieland B. Huttner, Takashi Namba, Michaela Wilsch-Bräuninger, Stefania Tavano, Judith T.M.L. Paridaen, Nereo Kalebic, Elena Taverna, Christiane Haffner, Molecular Neuroscience and Ageing Research (MOLAR), and Stem Cell Aging Leukemia and Lymphoma (SALL)

Subjects

0301 basic medicine, PROMOTES, AJUBA, Subventricular zone, Down-Regulation, Mice, Transgenic, Neocortex, CELL BIOLOGY, Adherens junction, NEUROGENESIS, 03 medical and health sciences, Mice, Organ Culture Techniques, Neural Stem Cells, Pregnancy, PLEKHA7, medicine, Animals, Humans, Transcription factor, Progenitor, Chemistry, General Neuroscience, Neurogenesis, Adherens Junctions, EXPANSION, PRIMARY CILIUM, Neural stem cell, EVOLUTION, Cell biology, DNA-Binding Proteins, Mice, Inbred C57BL, Repressor Proteins, 030104 developmental biology, medicine.anatomical_structure, MAINTENANCE, Female, Carrier Proteins, STEM-CELLS, Transcription Factors, RADIAL GLIA

Abstract

Delamination of neural progenitor cells (NPCs) from the ventricular surface is a crucial prerequisite to form the subventricular zone, the germinal layer linked to the expansion of the mammalian neocortex in development and evolution. Here, we dissect the molecular mechanismby which the transcription factor Insm1 promotes the generation of basal progenitors (BPs). Insm1 protein is most highly expressed in newborn BPs in mouse and human developing neocortex. Forced Insm1 expression in embryonic mouse neocortex causes NPC delamination, converting apical to basal radial glia. Insm1 represses the expression of the apical adherens junction belt-specific protein Plekha7. CRISPR/Cas9-mediated disruption of Plekha7 expression suffices to cause NPC delamination. Plekha7 overexpression impedes the intrinsic and counteracts the Insm1-induced, NPC delamination. Our findings uncover a novel molecular mechanism underlying NPC delamination in which a BP-genic transcription factor specifically targets the integrity of the apical adherens junction belt, rather than adherens junction components as such.

Published

2018

49. Superabsorbent Polymers

Author

FREDRIC L. BUCHHOLZ, NICHOLAS A. PEPPAS, A. B. Kinney, A. B. Scranton, Fredric L. Buchholz, Nicholas A. Peppas, Deepak Hariharan, Burak Erman, Yong Li, Chunfang Li, Zhibing Hu, Bhagwati G. Kabra, Stevin H. Gehrke, Fusayoshi Masuda, Herbert Nagorski, Tadao Shimomura, Takashi Namba, Kazuo Hogari, Fumi

Published

1994

50. Report from Research Committee on Nuclear-Renewable Harmonized Energy Systems (2) A Study on Energy Mix in 2050

Author

Shoji KOTAKE, Koji SATO, Takashi NAMBA, and Yutaka SAGAYAMA

Published

2021