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201. Insight into a Single Rod-like Helix in Activated Radixin Required for Membrane—Cytoskeletal Cross-Linking.

Author

Hoeflich, Klaus P., Tsukita, Sachiko, Hicks, Leslie, Kay, Cyril M., Tsukita, Shoichiro, and Ikura, Mitsuhiko

Subjects
*ACTIN, *CELL membranes, *CYTOSKELETAL proteins
Abstract

The members of the ezrin-radixin-moesin (ERM) family of proteins function as membrane cytoskeletal cross-linkers in actin-rich cell surface structures. ERM proteins are thereby thought to be essential for conical cytoskeleton organization, cell motility, adhesion, and proliferation. These modular polypeptides consist of a central helix-rich region, termed the α-domain, that connects an N-terminal FERM domain required for membrane binding and a C-terminal region which contains a major actin binding motif. Conformational regulation of ERM protein function occurs by association of the FERM and C-terminal domains, whereby the membrane- and actin-binding activities are mutually suppressed and the protein is thought to take an inactive "closed" form. Here we report in vitro and in vivo studies of radixin to address the role of the α-domain in conformational activation of ERM proteins. Remarkably, an isolated α-domain comprised of radixin[sub 311-469] forms a monomeric, stable helical rod that spans 240 Å in length from the N-terminus to the C-terminus, most likely stabilized by extensive salt bridge interactions. By fusing green fluorescent protein variants to the FERM and C-terminal domains, we probed in vitro conformational changes impacted by the presence of the α-domain using fluorescence resonance energy transfer (FRET). Furthermore, deletion of this unusually long α-helical structure (radixin residues 314411) prevents ERM membrane targeting in vivo. [ABSTRACT FROM AUTHOR]

Published
2003
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202. Interaction of actinogelin with actin.

Author

Ohtaki, Tetsuya, Tsukita, Sachiko, Mimura, Naotoshi, Tsukita, Shoichiro, and Asano, Akira

Subjects
*ACTIN, *POLYMERIZATION, *PROTEINS, *FLUORESCENCE, *LIVER, *RATS, *BIOCHEMISTRY
Abstract

Nucleation activity of actin polymerization of actinogelin, a calcium-sensitive F-actin cross-linking protein from rat liver, was measured by a fluorescence enhancement method using pyrenyl-actin and by high shear viscometry. No stimulation of nucleation by the addition of actinogelin was observed under several ionic conditions using the fluorescent method. Similar results were also obtained by viscometry. Therefore. it can be concluded that actinogelin has no nucleation activity for actin polymerization. By electron microscopy, it was found that actinogelin molecule has a dumbbell shape, binds to side of F-actin through its end(s), and cross-links actin filaments by binding with its two ends. It was also found that meshwork formation occurred in low Ca2+ conditions from F-actin and actinogelin. Under non-gelling high Ca2+ conditions, binding of actinogelin along the side of F-actin with its one end was still detected in accordance with the binding assay using ultracentrifugation and protein determination. Under low Ca2+ conditions, the critical gelling concentration of actinogelin measured by low shear viscometry at 20°C was 6 μg/ml for 250 μg/ml of actin. Comparing this value with those of the other actin cross-linking proteins, it was found that actinogelin was one of proteins with the highest gelation activity. On the other hand, gelation activity of actinogelin in high Ca2+ conditions was one order of magnitude lower; more than 50 μg/ml of the protein was required for gelation. At 37°C, gelation activity of actinogelin at low Ca2+ concentration was decreased to about a quarter of that at 20°C, but this was still higher than that of gizzard α-actinin at 20°C. Thus, role of actinogelin as an efficient and Ca2+-regulated cross-linker of microfilaments was substantiated. [ABSTRACT FROM AUTHOR]

Published
1985
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205. Structural conversion between open and closed forms of radixin: low-angle shadowing electron microscopy11Edited by M. Moody

Author

Ishikawa, Hiroaki, Tamura, Atsushi, Matsui, Takeshi, Sasaki, Hiroyuki, Hakoshima, Toshio, Tsukita, Shoichiro, and Tsukita, Sachiko

Abstract

The function of ERM (ezrin/radixin/moesin) proteins as general cross-linkers between actin filaments and plasma membranes is regulated downstream of Rho, through the transition between active and inactive forms. To directly examine the conformational change between the active and inactive forms of ERM proteins, we applied low-angle rotary-shadowing electron microscopy to the radixin molecules, wild-type, T564A-non-phosphorylated-type, and T564E-phosphorylated-type, since most of the active forms are reportedly stabilized in cells by the C-terminal threonine phosphorylation. As a result, the T564A- and wild-type radixin molecules yielded the globular closed forms, ∼8-14 nm in diameter, with some striations on their surfaces. In contrast, the T564E-radixin molecules tended to take elongated open forms, in which two globular structures measuring ∼8 nm and ∼5 nm in diameter were associated with both ends of the filamentous structures. The filamentous structure took either a ∼20-25 nm-long straight course or a folded course. Taken together with the biochemical and the crystal structural results obtained to date, the closed and open forms represent the inactive and active forms of radixin as cross-linkers between actin filaments and plasma membranes.

Published
2001
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206. Multicellular modeling of ciliopathy by combining iPS cells and microfluidic airway-on-a-chip technology

Author

Sone, Naoyuki, Konishi, Satoshi, Igura, Koichi, Tamai, Koji, Ikeo, Satoshi, Korogi, Yohei, Kanagaki, Shuhei, Namba, Toshinori, Yamamoto, Yuki, Xu, Yifei, Takeuchi, Kazuhiko, Adachi, Yuichi, Chen-Yoshikawa, Toyofumi F., Date, Hiroshi, Hagiwara, Masatoshi, Tsukita, Sachiko, Hirai, Toyohiro, Torisawa, Yu-suke, and Gotoh, Shimpei

Abstract

Combined induced pluripotent stem cells and airway-on-a-chip establish the global axis of planar cell polarity in patient-derived airway cell sheet.

Published
2021
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207. Immunofluorescence detection of ezrin/radixin/moesin (ERM) proteins with their carboxyl-terminal threonine phosphorylated in cultured cells and tissues Application of a novel fixation protocol using trichloroacetic acid (TCA) as a fixative

Author

Hayashi, Ken, Yonemura, Shigenobu, Matsui, Takeshi, Tsukita, Sachiko, and Tsukita, Shoichiro

Abstract

Ezrin/radixin/moesin (ERM) proteins are thought to play an important role in organizing cortical actin-based cytoskeletons through cross-linkage of actin filaments with integral membrane proteins. Recent in vitro biochemical studies have revealed that ERM proteins phosphorylated on their COOH-terminal threonine residue (CPERMs) are active in their cross-linking activity, but this has not yet been evaluated in vivo. To immunofluorescently visualize CPERMs in cultured cells as well as tissues using a mAb specific for CPERMs, we developed a new fixation protocol using trichloroacetic acid (TCA) as a fixative. Immunoblotting analyses in combination with immunofluorescence microscopy showed that TCA effectively inactivated soluble phosphatases, which maintained the phosphorylation level of CPERMs during sample processing for immunofluorescence staining. Immunofluorescence microscopy with TCA-fixed samples revealed that CPERMs were exclusively associated with plasma membranes in a variety of cells and tissues, whereas total ERM proteins were distributed in both the cytoplasm and plasma membranes. Furthermore, the amounts of CPERMs were shown to be regulated in a cell and tissue type-dependent manner. These findings favored the notion that phosphorylation of the COOH-terminal threonine plays a key role in the regulation of the cross-linking activity of ERM proteins in vivo.

Published
1999
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208. Direct Interaction of the Rho GDP Dissociation Inhibitor with Ezrin/Radixin/Moesin Initiates the Activation of the Rho Small G Protein*

Author

Takahashi, Kazuo, Sasaki, Takuya, Mammoto, Akiko, Takaishi, Kenji, Kameyama, Takaaki, Tsukita, Sachiko, Tsukita, Shoichiro, and Takai, Yoshimi

Abstract

The Rho GDP dissociation inhibitor (GDI) forms a complex with the GDP-bound form of the Rho family small G proteins and inhibits their activation. The GDP-bound form complexed with Rho GDI is not activated by the GDP/GTP exchange factor for the Rho family members, suggesting the presence of another factor necessary for this activation. We have reported that the Rho subfamily members regulate the ezrin/radixin/moesin (ERM)-CD44 system, implicated in reorganization of actin filaments. Here we report that Rho GDI directly interacts with ERM, initiating the activation of the Rho subfamily members by reducing the Rho GDI activity. These results suggest that ERM as well as Rho GDI and the Rho GDP/GTP exchange factor are involved in the activation of the Rho subfamily members, which then regulate reorganization of actin filaments through the ERM system.

Published
1997
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209. A gene family consisting of ezrin, radixin and moesin Its specific localization at actin filament/plasma membrane association sites

Author

Sato, Naruki, Funayama, Noriko, Nagafuchi, Akira, Yonemura, Sfugenobu, Tsukita, Sachiko, and Tsukita, Shoichiro

Abstract

Radixin is a barbed end-capping actin-modulating protein which was previously reported to be concentrated at cell-to-cell adherens junctions (AJ) and cleavage furrows. Recently, cDNA encoding mouse radixin was isolated, showing that radixin is highly homologous to but distinct from ezrin. From mouse teratocarcinoma cells we isolated and analyzed cDNA encoding another radixin-related protein. Sequence analysis has demonstrated that this protein is a mouse homologue of human moesin (98.3% identity) and that it shares 71.7% and 80.1% identity with ezrin and radixin, respectively. Translation experiments in vitro combined with immunoblot analyses led us to conclude that there is a gene family consisting of ezrin, radixin and moesin. These members are coexpressed in various types of cells. Then, by immunofluorescence microscopy, we closely analyzed their distribution using polyclonal and monoclonal antibodies, which could recognize all three members. In addition to cell-to-cell AJ and cleavage furrows, it was shown that they were concentrated at microvilli and ruffling membranes in various types of cells. Furthermore, the cell-to-substrate AJ (focal contacts) were clearly stained by anti-radixin pAb only after the apical/lateral membranes and cytoplasm were removed by the zinc method. We conclude that at least one of the members of the ezrinradixin-moesin family is concentrated at specific regions where actin filaments are densely associated with plasma membranes.

Published
1992
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210. Overexpression of occludin, a tight junction-associated integral membrane protein, induces the formation of intracellular multilamellar bodies bearing tight junction-like structures

Author

Furuse, Mikio, Fujimoto, Kazushi, Sato, Naruki, Hirase, Tetsuaki, Tsukita, Sachiko, and Tsukita, Shoichiro

Abstract

Occludin is an integral membrane protein localizing at tight junctions with four transmembrane domains. When chicken occludin was overexpressed in insect cells by recombinant baculovirus infection, peculiar multilamellar structures accumulated in the cytoplasm. Partial isolation of these structures indicated that the introduced chicken occludin was highly enriched in these structures. Thin section electron microscopy revealed that each lamella was transformed from intracellular membranous cisternae whose luminal space was completely collapsed, and that in each lamella, outer leaflets of opposing membranes appeared to be fused with no gaps, like tight junctions. Furthermore, in the freeze-fracture replicas of these multilamellar structures, short tight junction-like intramembranous particle strands were occasionally observed, which were specifically labeled by anti-occludin mAb. These observations favor the idea that occludin plays a key role in the formation of tight junctions.

Published
1996
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211. Reciprocal Association between the Apical Junctional Complex and AMPK: A Promising Therapeutic Target for Epithelial/Endothelial Barrier Function?

Author

Tsukita, Kazuto, Yano, Tomoki, Tamura, Atsushi, and Tsukita, Sachiko

Subjects
TIGHT junctions, OCCLUDINS, CLAUDINS, ADHERENS junctions, ADENOSINE monophosphate, CELL polarity, PROTEIN kinases, TRANSCRIPTION factors
Abstract

Epithelial/endothelial cells adhere to each other via cell–cell junctions including tight junctions (TJs) and adherens junctions (AJs). TJs and AJs are spatiotemporally and functionally integrated, and are thus often collectively defined as apical junctional complexes (AJCs), regulating a number of spatiotemporal events including paracellular barrier, selective permeability, apicobasal cell polarity, mechano-sensing, intracellular signaling cascades, and epithelial morphogenesis. Over the past 15 years, it has been acknowledged that adenosine monophosphate (AMP)-activated protein kinase (AMPK), a well-known central regulator of energy metabolism, has a reciprocal association with AJCs. Here, we review the current knowledge of this association and show the following evidences: (1) as an upstream regulator, AJs activate the liver kinase B1 (LKB1)–AMPK axis particularly in response to applied junctional tension, and (2) TJ function and apicobasal cell polarization are downstream targets of AMPK and are promoted by AMPK activation. Although molecular mechanisms underlying these phenomena have not yet been completely elucidated, identifications of novel AMPK effectors in AJCs and AMPK-driven epithelial transcription factors have enhanced our knowledge. More intensive studies along this line would eventually lead to the development of AMPK-based therapies, enabling us to manipulate epithelial/endothelial barrier function. [ABSTRACT FROM AUTHOR]

Published
2019
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213. Morphologic determinant of tight junctions revealed by claudin-3 structures.

Author

Nakamura, Shun, Irie, Katsumasa, Tanaka, Hiroo, Nishikawa, Kouki, Suzuki, Hiroshi, Saitoh, Yasunori, Tamura, Atsushi, Tsukita, Sachiko, and Fujiyoshi, Yoshinori

Abstract

Tight junction is a cell adhesion apparatus functioning as barrier and/or channel in the paracellular spaces of epithelia. Claudin is the major component of tight junction and polymerizes to form tight junction strands with various morphologies that may correlate with their functions. Here we present the crystal structure of mammalian claudin-3 at 3.6 Å resolution. The third transmembrane helix of claudin-3 is clearly bent compared with that of other subtypes. Structural analysis of additional two mutants with a single mutation representing other subtypes in the third helix indicates that this helix takes a bent or straight structure depending on the residue. The presence or absence of the helix bending changes the positions of residues related to claudin-claudin interactions and affects the morphology and adhesiveness of the tight junction strands. These results evoke a model for tight junction strand formation with different morphologies - straight or curvy strands - observed in native epithelia. The main components of tight junctions (TJ) are claudins that polymerize and form meshwork architectures called TJ strands. Here the authors present the 3.6 Å crystal structure of murine claudin-3 and show that residue P134 causes a bending of the third transmembrane helix which affects the morphology and adhesiveness of the TJ strands. [ABSTRACT FROM AUTHOR]

Published
2019
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224. R40.76 binds to the α domain of ZO-1: role of ZO-1 (α+) in epithelial differentiation and mechano-sensing

Author

Rouaud, Florian, Vasileva, Ekaterina, Spadaro, Domenica, Tsukita, Sachiko, and Citi, Sandra

Abstract

ABSTRACTThe barrier function of epithelia and endothelia depends on tight junctions, which are formed by the polymerization of claudins on a scaffold of ZO proteins. Two differentially spliced isoforms of ZO-1 have been described, depending on the presence of the α domain, but the function of this domain is unclear. ZO-1 also contains a C-terminal ZU5 domain, which is involved in a mechano-sensitive intramolecular interaction with the central (ZPSG) region of ZO-1. Here we use immunoblotting and immunofluorescence to map the binding sites for commercially available monoclonal and polyclonal antibodies against ZO-1, and for a new polyclonal antibody (R3) that we developed against the ZO-1 C-terminus. We demonstrate that antibody R40.76 binds to the α domain, and the R3 antibody binds to the ZU5 domain. The (α+) isoform of ZO-1 shows higher expression in epithelial versus endothelial cells, and in differentiated versus undifferentiated primary keratinocytes, suggesting a link to epithelial differentiation and a potential molecular adaptation to junctions subjected to stronger mechanical forces. These results provide new tools and hypotheses to investigate the role of the α and ZU5 domains in ZO-1 mechano-sensing and dynamic interactions with the cytoskeleton and junctional ligands.

Published
2019
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225. Crystallographic characterization of the radixin FERM domain bound to the cytoplasmic tail of the adhesion protein ICAM-2.

Author

Hamada, Keisuke, Shimizu, Toshiyuki, Matsui, Takeshi, Tsukita, Shoichiro, Tsukita, Sachiko, and Hakoshima, Toshio

Subjects
MEMBRANE proteins, CELL membranes, BIOMOLECULES, CELL adhesion molecules, PROTEINS, BIOLOGICAL membranes
Abstract

Radixin is a member of the ERM proteins, which cross-link plasma membranes and actin filaments. The FERM domains located at the N-terminal regions of ERM proteins are responsible for membrane association through direct interactions with the cytoplasmic domains of integral membrane proteins. Here, crystals of the complex between the radixin FERM domain and the full-length cytoplasmic tail (28-residue peptide) of intercellular adhesion molecule 2, ICAM-2, have been obtained. The crystals were found to belong to space group P3121 or P3221, with unit-cell parameters a = b = 100.44 (9), c = 99.49 (6) Å, and contain one complex in the crystallographic asymmetric unit. An intensity data set was collected to a resolution of 2.60 Å. [ABSTRACT FROM AUTHOR]

Published
2001
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227. Double mutation of claudin‐1 and claudin‐3 causes alopecia in infant mice.

Author

Suzuki, Koya, Yamaga, Kosuke, Tokumasu, Reitaro, Katsuno, Tatsuya, Tanaka, Hiroo, Chiba, Shuhei, Yagi, Takeshi, Katayama, Ichiro, Tamura, Atsushi, Murota, Hiroyuki, and Tsukita, Sachiko

Subjects
*HAIR follicles, *CLAUDINS, *HAIR growth, *SEBACEOUS glands, *INFANTS, *BALDNESS, *NONSENSE mutation
Abstract

Hair follicles (HFs) undergo cyclic phases of growth, regression, and rest in association with hair shafts to maintain the hair coat. Nonsense mutations in the tight junction protein claudin (CLDN)‐1 cause hair loss in humans. Therefore, we evaluated the roles of CLDNs in hair retention. Among the 27 CLDN family members, CLDN1, CLDN3, CLDN4, CLDN6, and CLDN7 were expressed in the inner bulge layer, isthmus, and sebaceous gland of murine HFs. Hair phenotypes were observed in Cldn1 weaker knockdown and Cldn3‐knockout (Cldn1Δ/ΔCldn3−/−) mice. Although hair growth was normal, Cldn1Δ/ΔCldn3−/− mice showed striking hair loss in the first telogen. Simultaneous deficiencies in CLDN1 and CLDN3 caused abnormalities in telogen HFs, such as an aberrantly layered architecture of epithelial cell sheets in bulges with multiple cell layers, mislocalization of bulges adjacent to sebaceous glands, and dilated hair canals. Along with the telogen HF abnormalities, which shortened the hair retention period, there was an enhanced proliferation of the epithelium surrounding HFs in Cldn1Δ/ΔCldn3−/− mice, causing accelerated hair regrowth in adults. Our findings suggested that CLDN1 and CLDN3 may regulate hair retention in infant mice by maintaining the appropriate layered architecture of HFs, a deficiency of which can lead to alopecia. [ABSTRACT FROM AUTHOR]

Published
2023
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228. The tight junction protein occludin modulates blood–brain barrier integrity and neurological function after ischemic stroke in mice.

Author

Sugiyama, Shintaro, Sasaki, Tsutomu, Tanaka, Hiroo, Yan, Haomin, Ikegami, Takeshi, Kanki, Hideaki, Nishiyama, Kumiko, Beck, Goichi, Gon, Yasufumi, Okazaki, Shuhei, Todo, Kenichi, Tamura, Atsushi, Tsukita, Sachiko, and Mochizuki, Hideki

Subjects
*OCCLUDINS, *BLOOD-brain barrier, *ISCHEMIC stroke, *TIGHT junctions, *MEMBRANE proteins, *MICE, *BRAIN injuries
Abstract

Blood–brain barrier (BBB) disruption contributes to brain injury and neurological impairment. Tight junctions (TJs) and cell–cell adhesion complexes develop between endothelial cells in the brain to establish and maintain the BBB. Occludin, the first transmembrane protein identified in TJs, has received intense research interest because numerous in vitro studies have suggested its importance in maintaining BBB integrity. However, its role in maintaining BBB integrity after ischemic stroke is less clear owing to the lack of in vivo evidence. This study aimed to investigate the dynamics and function of occludin across the acute and chronic phases after stroke using occludin-deficient mice. By photochemically induced thrombosis model, the expression of occludin was decreased in brain endothelial cells from ischemic lesions. The neurological function of occludin-deficient mice was continuously impaired compared to that of wild-type mice. BBB integrity evaluated by Evans blue and 0.5-kDa fluorescein in the acute phase and by 10-kDa fluorescein isothiocyanate-labeled dextran in the chronic phase was decreased to a greater extent after stroke in occludin-deficient mice. Furthermore, occludin-deficient mice showed decreased claudin-5 and neovascularization after stroke. Our study reveals that occludin plays an important role from the acute to the chronic phase after ischemic stroke in vivo. [ABSTRACT FROM AUTHOR]

Published
2023
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229. Requirement of ZO-1 for the formation of belt-like adherens junctions during epithelial cell polarization.

Author

Ikenouchi, Junichi, Umeda, Kazuaki, Tsukita, Sachiko, Furuse, Mikio, and Tsukita, Shoichiro

Subjects
*EPITHELIAL cells, *TIGHT junctions, *CELL junctions, *EPITHELIUM, *GENETIC mutation
Abstract

The molecular mechanisms of how primordial adherens junctions (AJs) evolve into spatially separated belt-like AJs and tight junctions (TJs) during epithelial polarization are not well understood. Previously, we reported the establishment of ZO-1/ZO-2-deficient cultured epithelial cells (1[ko]/2[kd] cells), which lacked TJs completely. In the present study, we found that the formation of belt-like AJs was significantly delayed in 1(ko)/2(kd) cells during epithelial polarization. The activation of Rac1 upon primordial AJ formation is severely impaired in 1(ko)/2(kd) cells. Our data indicate that ZO-1 plays crucial roles not only in TJ formation, but also in the conversion from "fibroblastic" AJs to belt-like "polarized epithelial" AJs through Rac1 activation. Furthermore, to examine whether ZO-1 itself mediate belt-like AJ and TJ formation, respectively, we performed a mutational analysis of ZO-1. The requirement for ZO-1 differs between belt-like AJ and TJ formation. We propose that ZO-1 is directly involved in the establishment of two distinct junctional domains, belt-like AJs and TJs, during epithelial polarization. [ABSTRACT FROM AUTHOR]

Published
2007
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230. Daple deficiency causes hearing loss in adult mice by inducing defects in cochlear stereocilia and apical microtubules.

Author

Ozono, Yoshiyuki, Tamura, Atsushi, Nakayama, Shogo, Herawati, Elisa, Hanada, Yukiko, Ohata, Kazuya, Takagishi, Maki, Takahashi, Masahide, Imai, Takao, Ohta, Yumi, Oshima, Kazuo, Sato, Takashi, Inohara, Hidenori, and Tsukita, Sachiko

Subjects
*ADULTS, *MICROTUBULES, *COCHLEA physiology, *HAIR cells, *HEARING disorders, *MICE, *CELL membranes
Abstract

The V-shaped arrangement of hair bundles on cochlear hair cells is critical for auditory sensing. However, regulation of hair bundle arrangements has not been fully understood. Recently, defects in hair bundle arrangement were reported in postnatal Dishevelled-associating protein (ccdc88c, alias Daple)-deficient mice. In the present study, we found that adult Daple−/− mice exhibited hearing disturbances over a broad frequency range through auditory brainstem response testing. Consistently, distorted patterns of hair bundles were detected in almost all regions, more typically in the basal region of the cochlear duct. In adult Daple−/− mice, apical microtubules were irregularly aggregated, and the number of microtubules attached to plasma membranes was decreased. Similar phenotypes were manifested upon nocodazole treatment in a wild type cochlea culture without affecting the microtubule structure of the kinocilium. These results indicate critical role of Daple in hair bundle arrangement through the orchestration of apical microtubule distribution, and thereby in hearing, especially at high frequencies. [ABSTRACT FROM AUTHOR]

Published
2021
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231. A microtubule‐LUZP1 association around tight junction promotes epithelial cell apical constriction.

Author

Yano, Tomoki, Tsukita, Kazuto, Kanoh, Hatsuho, Nakayama, Shogo, Kashihara, Hiroka, Mizuno, Tomoaki, Tanaka, Hiroo, Matsui, Takeshi, Goto, Yuhei, Komatsubara, Akira, Aoki, Kazuhiro, Takahashi, Ryosuke, Tamura, Atsushi, and Tsukita, Sachiko

Subjects
*EPITHELIAL cells, *IMMOBILIZED proteins, *ADHERENS junctions, *MICROTUBULE-associated proteins, *LEUCINE zippers, *TIGHT junctions, *CLAUDINS, *OCCLUDINS
Abstract

Apical constriction is critical for epithelial morphogenesis, including neural tube formation. Vertebrate apical constriction is induced by di‐phosphorylated myosin light chain (ppMLC)‐driven contraction of actomyosin‐based circumferential rings (CRs), also known as perijunctional actomyosin rings, around apical junctional complexes (AJCs), mainly consisting of tight junctions (TJs) and adherens junctions (AJs). Here, we revealed a ppMLC‐triggered system at TJ‐associated CRs for vertebrate apical constriction involving microtubules, LUZP1, and myosin phosphatase. We first identified LUZP1 via unbiased screening of microtubule‐associated proteins in the AJC‐enriched fraction. In cultured epithelial cells, LUZP1 was found localized at TJ‐, but not at AJ‐, associated CRs, and LUZP1 knockout resulted in apical constriction defects with a significant reduction in ppMLC levels within CRs. A series of assays revealed that ppMLC promotes the recruitment of LUZP1 to TJ‐associated CRs, where LUZP1 spatiotemporally inhibits myosin phosphatase in a microtubule‐facilitated manner. Our results uncovered a hitherto unknown microtubule‐LUZP1 association at TJ‐associated CRs that inhibits myosin phosphatase, contributing significantly to the understanding of vertebrate apical constriction. Synopsis: Apical cell constriction drives epithelial morphogenesis and is mediated by junctional actomyosin ring constriction in vertebrates. Here, the leucine zipper motif‐containing protein LUZP1 is found as a new regulator of this process via inhibition of myosin phosphatase activity at tight junction (TJ)‐associated circumferential rings (CRs). The microtubule‐associated protein LUZP1 localizes at TJ‐associated CRs.Di‐phosphorylated myosin light chain (ppMLC) promotes recruitment of LUZP1 to TJ‐associated CRs.LUZP1 inhibits myosin phosphatase to increase myosin light chain phosphorylation and promote CR contraction during apical constriction.Microtubules facilitate LUZP1‐mediated inhibition of myosin phosphatase activity. [ABSTRACT FROM AUTHOR]

Published
2021
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232. Inactivation of paracellular cation-selective claudin-2 channels attenuates immune-mediated experimental colitis in mice.

Author

Raju, Preeti, Shashikanth, Nitesh, Pei-Yun Tsai, Pongkorpsakol, Pawin, Chanez-Paredes, Sandra, Steinhagen, Peter R., Wei-Ting Kuo, Singh, Gurminder, Tsukita, Sachiko, Turner, Jerrold R., Tsai, Pei-Yun, and Kuo, Wei-Ting

Subjects
*CLAUDINS, *COLITIS, *INFLAMMATORY bowel diseases, *MICE, *TIGHT junctions, *T cells, *INTERLEUKINS, *BIOLOGICAL models, *BIOCHEMISTRY, *RESEARCH, *ANIMAL experimentation, *RESEARCH methodology, *MEDICAL cooperation, *EVALUATION research, *PHENOMENOLOGY, *COMPARATIVE studies, *RESEARCH funding, *MEMBRANE proteins, *INTESTINAL mucosa
Abstract

The tight junction protein claudin-2 is upregulated in disease. Although many studies have linked intestinal barrier loss to local and systemic disease, these have relied on macromolecular probes. In vitro analyses show, however, that these probes cannot be accommodated by size- and charge-selective claudin-2 channels. We sought to define the impact of claudin-2 channels on disease. Transgenic claudin-2 overexpression or IL-13-induced claudin-2 upregulation increased intestinal small cation permeability in vivo. IL-13 did not, however, affect permeability in claudin-2-knockout mice. Claudin-2 is therefore necessary and sufficient to effect size- and charge-selective permeability increases in vivo. In chronic disease, T cell transfer colitis severity was augmented or diminished in claudin-2-transgenic or -knockout mice, respectively. We translated the in vitro observation that casein kinase-2 (CK2) inhibition blocks claudin-2 channel function to prevent acute, IL-13-induced, claudin-2-mediated permeability increases in vivo. In chronic immune-mediated colitis, CK2 inhibition attenuated progression in claudin-2-sufficient, but not claudin-2-knockout, mice, i.e., the effect was claudin-2 dependent. Paracellular flux mediated by claudin-2 channels can therefore promote immune-mediated colitis progression. Although the mechanisms by which claudin-2 channels intensify disease remain to be defined, these data suggest that claudin-2 may be an accessible target in immune-mediated disorders, including inflammatory bowel disease. [ABSTRACT FROM AUTHOR]

Published
2020
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233. Cep128 associates with Odf2 to form the subdistal appendage of the centriole.

Author

Kashihara, Hiroka, Chiba, Shuhei, Kanno, Shin‐ichiro, Suzuki, Koya, Yano, Tomoki, and Tsukita, Sachiko

Subjects
*MICROTUBULES, *STEM cells
Abstract

The mother centriole in a cell has two appendages, the distal appendage (DA) and subdistal appendage (SDA), which have roles in generating cilia and organizing the cellular microtubular network, respectively. In the knockout (KO) cells of Odf2, the component of the DA and SDA, both appendages simultaneously disappear. However, the molecular mechanisms by which the DA and SDA form independently but close to each other downstream of Odf2 are unknown. Here, using super‐resolution structured illumination microscopy (SR‐SIM), we found that the signal for GFP‐tagged Odf2 overlapped considerably with that of immunofluorescently labeled Cep128. We further found that Cep128 knockdown (KD) caused the dissociation of other SDA components from the centriole, including centriolin, Ndel1, ninein and Cep170, whereas Odf2 was still associated with the centriole. In contrast, the DA components remained associated with the centriole in Cep128 KD cells. Consistent with this observation, we identified Cep128 as an Odf2‐interacting protein by immunoprecipitation. Taken with the finding that Cep128 deletion decreased the stability of centriolar microtubules, our results indicate that Cep128 associates with Odf2 in the hierarchical assembly of SDA components to elicit the microtubule‐organizing function. This study shows that Cep128 associates with Odf2 in the hierarchical assembly of subdistal appendage (SDA) components. Cep128 is essential for the SDA's specific Odf2‐based construction and function on the mother centriole. [ABSTRACT FROM AUTHOR]

Published
2019
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234. Claudin-3 regulates bile canalicular paracellular barrier and cholesterol gallstone core formation in mice.

Author

Tanaka, Hiroo, Imasato, Mitsunobu, Yamazaki, Yuji, Matsumoto, Kengo, Kunimoto, Koshi, Delpierre, Julien, Meyer, Kirstin, Zerial, Marino, Kitamura, Naho, Watanabe, Mitsuhiro, Tamura, Atsushi, and Tsukita, Sachiko

Subjects
*CLAUDINS, *BILE, *CHOLESTEROL, *GALLSTONES, *MICE
Abstract

Graphical abstract Highlights • Hepatic claudin-3 (Cldn3) expression decreases with aging in mice. • Cldn3 deficiency causes dysfunction in the paracellular barrier for phosphate ions. • Dysfunctional biliary metabolism of phosphate ions induces calcium phosphate core formation. • A calcium phosphate core induces cholesterol gallstone formation. Abstract Background & Aims Most cholesterol gallstones have a core consisting of inorganic and/or organic calcium salts, although the mechanisms of core formation are poorly understood. We examined whether the paracellular permeability of ions at hepatic tight junctions is involved in the core formation of cholesterol gallstones, with particular interest in the role of phosphate ion, a common food additive and preservative. Methods We focused on claudin-3 (Cldn3), a paracellular barrier-forming tight junction protein whose expression in mouse liver decreases with age. Since Cldn3- knockout mice exhibited gallstone diseases, we used them to assess the causal relationship between paracellular phosphate ion permeability and the core formation of cholesterol gallstones. Results In the liver of Cldn3- knockout mice, the paracellular phosphate ion permeability through hepatic tight junctions was significantly increased, resulting in calcium phosphate core formation. Cholesterol overdose caused cholesterol gallstone disease in these mice. Conclusion We revealed that in the hepatobiliary system, Cldn3 functions as a paracellular barrier for phosphate ions, to help maintain biliary ion homeostasis. We provide in vivo evidence that elevated phosphate ion concentrations play a major role in the lifestyle- and age-related risks of developing cholesterol gallstone disease under cholesterol overdose. Lay summary Herein, we reveal a new mechanism for cholesterol gallstone formation, in which increased paracellular phosphate ion permeability across hepatobiliary epithelia causes calcium phosphate core formation and cholesterol gallstones. Thus, altered phosphate ion metabolism under cholesterol overdose plays a major role in the lifestyle- and age-related risks of developing cholesterol gallstone disease. [ABSTRACT FROM AUTHOR]

Published
2018
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235. Apical cytoskeletons and junctional complexes as a combined system in epithelial cell sheets.

Author

Yano, Tomoki, Kanoh, Hatsuho, Tamura, Atsushi, and Tsukita, Sachiko

Subjects
*TIGHT junctions, *APICAL membrane antigen 1, *MICROTUBULES, *CLAUDINS, *HOMEOSTASIS, *EPITHELIAL cells
Abstract

Epithelial cell sheet formation is central to many aspects of vertebrate development and function. For example, it is a major principle of differentiation in embryogenesis and regeneration, enables the compartmentalization of tissues, and is the basis for the maintenance of homeostasis throughout the body. A key characteristic of biologically functional epithelial cell sheets is a clear difference between the top and bottom sides owing to the apicobasal polarity of the cells in the sheet, as seen in the simple polar epithelia. Epithelial cell sheets are formed by cell-cell adhesion conferred by junctional complexes, in particular via tight junctions (TJs), which thus create a paracellular barrier. This review focuses on the apical side of the sheet, which serves as the front line. The apical membranes and TJs of the various tissues have specific characteristics that enable them to function and adapt to their biological context: each system must be robust, but also dynamic and flexible to maintain homeostasis. Here, we describe various apical cytoskeletal structures that are critical to the integrity of epithelial cell sheets. We also discuss the association of apical cytoskeletal networks with TJs, which thus forms a combined system, tentatively termed the TJ-apical complex. [ABSTRACT FROM AUTHOR]

Published
2017
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236. Site-specific distribution of claudin-based paracellular channels with roles in biological fluid flow and metabolism.

Author

Tanaka, Hiroo, Tamura, Atsushi, Suzuki, Koya, and Tsukita, Sachiko

Subjects
*CLAUDINS, *TIGHT junctions, *LABORATORY mice, *EPITHELIAL cells, *PATHOGENIC microorganisms
Abstract

The claudins are a family of membrane proteins with at least 27 members in humans and mice. The extracellular regions of claudin proteins play essential roles in cell-cell adhesion and the paracellular barrier functions of tight junctions (TJs) in epithelial cell sheets. Furthermore, the extracellular regions of some claudins function as paracellular channels in the paracellular barrier that allow the selective passage of water, ions, and/or small organic solutes across the TJ in the extracellular space. Structural analyses have revealed a common framework of transmembrane, cytoplasmic, and extracellular regions among the claudin-based paracellular barriers and paracellular channels; however, differences in the claudins' extracellular regions, such as their charges and conformations, determine their properties. Among the biological systems that involve fluid flow and metabolism, it is noted that hepatic bile flow, renal Na+ reabsorption, and intestinal nutrient absorption are dynamically regulated via site-specific distributions of paracellular channel-forming claudins in tissue. Here, we focus on how site-specific distributions of claudin-2- and claudin-15-based paracellular channels drive their organ-specific functions in the liver, kidney, and intestine. [ABSTRACT FROM AUTHOR]

Published
2017
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237. Involvement of IQGAP family proteins in the regulation of mammalian cell cytokinesis.

Author

Adachi, Makoto, Kawasaki, Asami, Nojima, Hisashi, Nishida, Eisuke, and Tsukita, Sachiko

Subjects
*GTPASE-activating protein, *MAMMALIAN cell cycle, *CYTOKINESIS, *PROTEIN expression, *CELL adhesion
Abstract

IQGAP family proteins, comprising IQGAP1, -2, and -3 in mammals, are involved in diverse ranges of cellular processes such as adhesion and migration. IQGAP proteins in yeast also play important roles in cytokinesis. However, the involvement of IQGAP proteins in cytokinesis in mammals remains unaddressed. In this study, we showed that IQGAP3 specifically localized to the equatorial cortex at anaphase, whereas IQGAP1 localized to the cell cortex uniformly and IQGAP2 was unexpressed in HeLa cells. IQGAP3, but neither IQGAP1 nor -2, was able to interact with anillin, which was required for the localization of IQGAP3 to the contractile ring. The suppressed expression of IQGAP3 inhibited the completion of cleavage furrow ingression and led to the multinucleation of cells. The suppression of IQGAP1 also had similar inhibitory effects on cytokinesis, and the simultaneous suppression of IQGAP1 and -3 induced more severe effects. The localization of anillin and RhoA to the contractile ring was impaired by the suppression of IQGAP1 and -3, whereas their upstream regulators, the centralspindlin complex and Ect2, remained unaffected. These results suggested that mammalian IQGAP proteins may play a role in cytokinesis by regulating the localization of key cytokinesis regulatory proteins to the contractile apparatus during mitosis. [ABSTRACT FROM AUTHOR]

Published
2014
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238. A novel autoantibody against moesin in the serum of patients with MPO-ANCA-associated vasculitis.

Author

Suzuki, Koya, Nagao, Tomokazu, Itabashi, Mitsuyo, Hamano, Yoshitomo, Sugamata, Ryuichi, Yamazaki, Yuji, Yumura, Wako, Tsukita, Sachiko, Wang, Pi-Chao, Nakayama, Toshinori, and Suzuki, Kazuo

Subjects
*AUTOANTIBODIES, *MOESIN, *SERUM, *VASCULITIS, *ENDOTHELIAL cells, *ENZYME-linked immunosorbent assay, *CYTOKINES, *PATIENTS
Abstract

…Suzuki et al. have identified another autoantibody that could influence disease initiation or progression in Japanese AAV patients. Their observations emphasise the wider issue of the urgent need for sufficiently powered international collaborative studies to define the relations between the canonical ANCA, newly identified autoantibodies and other potential pathogenic factors…Background Antineutrophil cytoplasmic autoantibody (ANCA) directed against myeloperoxidase (MPO), a diagnostic criterion in MPO-ANCA-associated vasculitis (MPO-AAV), does not always correlate with disease activity. Here, we detected autoantibodies against moesin, which was located on the surface of stimulated endothelial cells, in the serum of patients. Methods The anti-moesin autoantibody titer was evaluated by ELISA. Seventeen kinds of cytokines/chemokines were measured by a Bio-Plex system. Results Serum creatinine in the anti-moesin autoantibody-positive group was higher than that in the negative group. Additionally, interferon (IFN)-γ, macrophage chemotactic peptide-1 (MCP-1), interleukin (IL)-2, IL-7, IL-12p70, IL-13, granulocyte/macrophage colony-stimulating factor (GM-CSF) and granulocyte colony-stimulating factor were significantly higher in the positive group. Furthermore, IL-7 and IL-12p70 levels correlated with the anti-moesin autoantibody titer. Based on these findings and the binding of anti-moesin IgG to neutrophils and monocytes, we detected the secretion of cytokines/chemokines such as IFN-γ, MCP-1 and GM-CSF from these cells. Conclusions The anti-moesin autoantibody existed in the serum of patients with MPO-AAV and was associated with the production of inflammatory cytokines/chemokines targeting neutrophils with a cytoplasmic profile, which suggests that the anti-moesin autoantibody has the possibility to be a novel autoantibody developing vasculitis via neutrophil and endothelial cell activation. [ABSTRACT FROM PUBLISHER]

Published
2014
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239. Moesin-deficient mice reveal a non-redundant role for moesin in lymphocyte homeostasis.

Author

Hirata, Takako, Nomachi, Akira, Tohya, Kazuo, Miyasaka, Masayuki, Tsukita, Sachiko, Watanabe, Takeshi, and Narumiya, Shuh

Subjects
*MOESIN, *LYMPHOCYTES, *HOMEOSTASIS, *LABORATORY mice, *EZRIN, *RADIXIN, *CYTOSKELETAL proteins
Abstract

Moesin is a member of the ezrin–radixin–moesin (ERM) family of cytoskeletal proteins. These proteins organize membrane domains by interacting with plasma membrane proteins and the actin cytoskeleton. Because of their high sequence similarity, ERM proteins are usually thought to be functionally redundant. Lymphocytes express two ERM proteins, ezrin and moesin. Whether each ERM plays a specialized role in lymphocytes, particularly in vivo, remains unknown. Here, we show that moesin has a crucial, non-redundant role in lymphocyte homeostasis. Moesin-deficient mice exhibited decreases in both T and B cells in the peripheral blood and lymph nodes, but not in the spleen. This phenotype was recapitulated in bone marrow (BM) chimeras with a hematopoietic moesin deficiency. Although the T and B cells apparently developed without major defects in the moesin-deficient mice, T cell egress from the thymus and immature B cell egress from the BM were impaired. In the periphery, both T and B cells showed delayed egress from lymphoid organs. We showed that moesin is the primary phosphorylated ERM subject to dynamic regulation during cell shape changes and migration. Our findings identify a previously unknown, non-redundant function of moesin in lymphocyte homeostasis in regulating lymphocyte egress from lymphoid organs. [ABSTRACT FROM AUTHOR]

Published
2012
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240. Claudin-based paracellular proton barrier in the stomach.

Author

Tamura, Atsushi, Yamazaki, Yuji, Hayashi, Daisuke, Suzuki, Koya, Sentani, Kazuhiro, Yasui, Wataru, and Tsukita, Sachiko

Subjects
*CLAUDINS, *EPITHELIAL cells, *GENE expression, *HOMEOSTASIS, *LABORATORY mice, *STOMACH physiology
Abstract

The claudins comprise a multigene family that consists of at least 27 members. Claudins are responsible for establishing the paracellular barrier-which has permselectivity-at the tight junctions in epithelial cells, and the specific patterns of claudin expression in the epithelial cell sheets that cover the internal and external surfaces of organs contribute to the formation of microenvironments and organs' biological functions. Data on the detailed characterization of individual claudins and their roles in different microenvironments are accumulating. A study on the stomach-specific claudin-18-knockout mouse, which has gastritis, recently revealed that the stomach-type claudin-18 specifically forms the proton barrier in the stomach, consistent with previously reported circumstantial evidence. Combined with previous studies on the specific ionic homeostasis by different types of claudins, our findings support the idea that claudins may regulate ion-specific homeostasis in vivo. [ABSTRACT FROM AUTHOR]

Published
2012
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241. Novel expression of claudin-5 in glomerular podocytes.

Author

Koda, Ryo, Zhao, Linning, Yaoita, Eishin, Yoshida, Yutaka, Tsukita, Sachiko, Tamura, Atsushi, Nameta, Masaaki, Zhang, Ying, Fujinaka, Hidehiko, Magdeldin, Sameh, Xu, Bo, Narita, Ichiei, and Yamamoto, Tadashi

Subjects
*GENE expression, *KIDNEY glomerulus, *TIGHT junctions, *PUROMYCIN, *MESSENGER RNA, *CELL membranes, *POLYMERASE chain reaction, *MASS spectrometry, *IN situ hybridization, *LABORATORY rats
Abstract

Tight junctions are the main intercellular junctions of podocytes of the renal glomerulus under nephrotic conditions. Their requisite components, claudins, still remain to be identified. We have measured the mRNA levels of claudin subtypes by quantitative real-time PCR using isolated rat glomeruli. Claudin-5 was found to be expressed most abundantly in glomeruli. Mass spectrometric analysis of membrane preparation from isolated glomeruli also confirmed only claudin-5 expression without any detection of other claudin subtypes. In situ hybridization and immunolocalization studies revealed that claudin-5 was localized mainly in glomeruli where podocytes were the only cells expressing claudin-5. Claudin-5 protein was observed on the entire surface of podocytes including apical and basal domains of the plasma membrane in the normal condition and was inclined to be concentrated on tight junctions in puromycin aminonucleoside nephrosis. Total protein levels of claudin-5 in isolated glomeruli were not significantly upregulated in the nephrosis. These findings suggest that claudin-5 is a main claudin expressed in podocytes and that the formation of tight junctions in the nephrosis may be due to local recruitment of claudin-5 rather than due to total upregulation of the claudin protein levels. [ABSTRACT FROM AUTHOR]

Published
2011
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242. Posttranslational regulation of Abcc2 expression by SUMOylation system.

Author

Minami, Satoko, Ito, Kousei, Honma, Masashi, Ikebuchi, Yuki, Anzai, Naohiko, Kanai, Yoshikatsu, Nishida, Tamotsu, Tsukita, Sachiko, Sekine, Shuichi, Hone, Toshiharu, and Suzuki, Hiroshi

Subjects
*POST-translational modification, *ATP-binding cassette transporters, *GENE expression, *UBIQUITIN, *ENZYMES, *IMMUNOFLUORESCENCE
Abstract

The ATP-binding cassette transporter family C 2 (Abcc2) is a member of efflux transporters involved in the biliary excretion of organic anions from hepatocytes. Posttranslational regulation of Abcc2 has been implicated, although the molecular mechanism is not fully understood. In the present study, we performed yeast two-hybrid screening to identify novel protein(s) that particularly interacts with the linker region of Abcc2 located between the NH2-terminal nucleotide binding domain and the last membrane-spanning domain. The screening resulted in the identification of a series of small ubiquitin-like modifier (SUMO)-related enzymes and their substrates. In yeast experiments, all of these interactions were abolished by substituting the putative SUMO consensus site in the linker region (IKKE) in Abcc2 to IRKE. In vitro SUMOylation experiments confirmed that the Abcc2 linker was a substrate of Ubc9-mediated SUMOylation. It was also found that the IKKE sequence is the target of SUMOylation, since a mutant with IKKE is substituted by IRKE was not SUlMOylated. Furthermore, we demonstrated for the first time that Abcc2, endogenously expressed in rat hepatoma-derived McARH7777 cells, is SUMOylated. Suppression of endogenous Ubc9 by small interfering RNA resulted in a selective 30% reduction in Abcc2 protein expression in the postnuclear supematant, whereas subcellular localization of Abcc2 confirmed by semiquantitative immunbfluorescence analysis was minimally affected. This is the first demonstration showing the regulation of ABC transporter expression by SUMOylation. [ABSTRACT FROM AUTHOR]

Published
2009
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243. Dysregulation of lung injury and repair in moesin-deficient mice treated with intratracheal bleomycin.

Author

Hashimoto, Soshi, Amaya, Fumimasa, Matsuyama, Hiroki, Ueno, Hiroshi, Kikuchi, Shojiro, Tanaka, Masaki, Watanabe, Yoshihisa, Ebina, Masahito, Ishizaka, Akitoshi, Tsukita, Sachiko, and Hashimoto, Satoru

Subjects
*LUNG injuries, *CYTOSKELETON, *ACTIN, *BLEOMYCIN, *CELL membranes, *PHYSIOLOGY
Abstract

Moesin belongs to the ezrin/radixin/moesin (ERM) protein family and participates in cellular functions, such as morphogenesis and motility, by cross-linking between the actin cytoskeleton and plasma membranes. Although moesin seems necessary for tissue construction and repair, its function at the whole body level remains elusive, perhaps because of redundancy among ERM proteins. To determine the role played by moesin in the modulation of pulmonary alveolar structure associated with lung injury and repair, we examined the morphological changes in the lung and the effect of bleomycin-induced lung injury and fibrosis in moesin-deficient (Msn-/Y) and control wild-type mice (Msn+/Y). Immunohistochemical analysis revealed that moesin was specifically localized in the distal lung epithelium, where ezrin and radixin were faintly detectable in Msn+/Y mice. Compared with Msn+/Y mice, Msn-/Y mice displayed abnormalities of alveolar architecture and, when treated with bleomycin, developed more prominent lung injury and fibrosis and lower body weight and survival rate. Furthermore, Msn-/Y mice had abnormal cytokine and chemokine gene expression as shown by real-time PCR. This is the first report of a functional involvement of moesin in the regulation of lung inflammation and repair. Our observations show that moesin critically regulates the preservation of alveolar structure and lung homeostasis. [ABSTRACT FROM AUTHOR]

Published
2008
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244. Functional involvement of TMF/ARA160 in Rab6-dependent retrograde membrane traffic

Author

Yamane, Junko, Kubo, Akiharu, Nakayama, Kazuhisa, Yuba-Kubo, Akiko, Katsuno, Tatsuya, Tsukita, Shoichiro, and Tsukita, Sachiko

Subjects
*GUANOSINE triphosphatase, *CARRIER proteins, *GOLGI apparatus, *BIOLOGICAL transport
Abstract

Abstract: The small GTPase Rab6 regulates retrograde membrane traffic from endosomes to the Golgi apparatus and from the Golgi to the endoplasmic reticulum (ER). We examined the role of a Rab6-binding protein, TMF/ARA160 (TATA element modulatory factor/androgen receptor-coactivator of 160 kDa), in this process. High-resolution immunofluorescence imaging revealed that TMF signal surrounded Rab6-positive Golgi structures and immunoelectron microscopy revealed that TMF is concentrated at the budding structures localized at the tips of cisternae. The knockdown of either TMF or Rab6 by RNA interference blocked retrograde transport of endocytosed Shiga toxin from early/recycling endosomes to the trans-Golgi network, causing missorting of the toxin to late endosomes/lysosomes. However, the TMF knockdown caused Rab6-dependent displacement of N-acetylgalactosaminyltransferase-2 (GalNAc-T2), but not β1,4-galactosyltransferase (GalT), from the Golgi. Analyses using chimeric proteins, in which the cytoplasmic regions of GalNAc-T2 and GalT were exchanged, revealed that the cytoplasmic region of GalNAc-T2 plays a crucial role in its TMF-dependent Golgi retention. These observations suggest critical roles for TMF in two Rab6-dependent retrograde transport processes: one from endosomes to the Golgi and the other from the Golgi to the ER. [Copyright &y& Elsevier]

Published
2007
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245. Tricellulin constitutes a novel barrier at tricellular contacts of epithelial cells.

Author

Ikenouchi, Junichi, Furuse, Mikio, Furuse, Kyoko, Sasaki, Hiroyuki, Tsukita, Sachiko, and Tsukita, Shoichiro

Subjects
*EPITHELIUM, *CELL junctions, *CELL membranes, *MEMBRANE proteins, *GENE expression
Abstract

For epithelia to function as barriers, the intercellular space must be sealed. Sealing two adjacent cells at bicellular tight junctions (bTJs) is well described with the discovery of the claudins. Yet, there are still barrier weak points at tricellular contacts, where three cells join together. In this study, we identify tricellulin, the first integral membrane protein that is concentrated at the vertically oriented TJ strands of tricellular contacts. When tricellulin expression was suppressed with RNA interference, the epithelial barrier was compromised, and tricellular contacts and bTJs were disorganized. These findings indicate the critical function of tricellulin for formation of the epithelial barrier. [ABSTRACT FROM AUTHOR]

Published
2005
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246. Achlorhydria by ezrin knockdown: defects in the formation/expansion of apical canaliculi in gastric parietal cells.

Author

Tamura, Atsushi, Kikuchi, Shojiro, Hata, Masaki, Katsuno, Tatsuyo, Matsui, Takeshi, Hayashi, Hisayoshi, Suzuki, Yuichi, Noda, Tetsuo, Tsukita, Shoicniro, and Tsukita, Sachiko

Subjects
*METABOLIC disorders, *GASTRIC acid, *ACHLORHYDRIA, *CELL membranes, *NEOMYCIN, *ELECTRON microscopy
Abstract

Loss of gastric acid secretion is pathologically known as achlorhydria. Acid-secreting parietal cells are characterized by abundant expression of ezrin (Vil2), one of ezrin/radixin/moesin proteins, which generally cross-link actin filaments with plasma membrane proteins. Here, we show the direct in vivo involvement of ezrin in gastric acid secretion. Ezrin knockout (Vil2-/-) mice did not survive >1.5 wk after birth, making difficult to examine gastric acid secretion. We then generated ezrin knockdown (Vil2kd/kd) mice by introducing a neomycin resistance cassette between exons 2 and 3. Vil2kd/kd mice born at the expected Mendelian ratio exhibited growth retardation and a high mortalily. Approximately 7% of Vil2kd/kd mice survived to adulthood. Ezrin protein levels in Vil2kd/kd stomachs decreased to <5% of the wild-type levels without compensatory up-regulation of radixin or moesin. Adult Vil2kd/kd mice suffered from severe achlorhydria. Immunofluorescence and electron microscopy revealed that this achlorhydria was caused by defects in the formation/expansion of canalicular apical membranes in gastric parietal cells. [ABSTRACT FROM AUTHOR]

Published
2005
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247. Radixin deficiency causes deafness associated with progressive degeneration of cochlear stereocilia.

Author

Kitajiri, Shin-Ichiro, Fukumoto, Kanehisa, Hata, Masaki, Sasaki, Hiroyuki, Katsuno, Tatsuya, Nakagawa, Takayuki, Ito, Juichi, Tsukita, Shoichiro, and Tsukita, Sachiko

Subjects
*SENSORY receptors, *PROTEINS, *CELL membranes, *INNER ear, *COCHLEA, *HAIR cells
Abstract

Ezrin/radixin/moesin(ERM) proteins cross-link actin filaments to plasma membranes to integrate the function of cortical layers, especially microvilli. We found that in cochlear and vestibular sensory hair cells of adult wild- type mice, radixin was specifically enriched in stereocilia, specially developed giant microvilli, and that radixin-deficient (Rdx-/-) adult mice exhibited deafness but no obvious vestibular dysfunction. Before the age of hearing onset (∼2 wk), in the cochlea and vestibule of Rdx-/- mice, stereocilia developed normally in which ezrin was concentrated. As these Rdx-/- mice grew, ezrin-based cochlear stereocilia progressively degenerated, causing deafness, whereas ezrin-based vestibular stereocilia were maintained normally in adult Rdx-/- mice. Thus, we concluded that radixin is indispensable for the hearing ability in mice through the maintenance of cochlear stereocilia, once developed. In Rdx-/- mice, ezrin appeared to compensate for radixin deficiency in terms of the development of cochlear stereocilia and the development/maintenance of vestibular stereocilia. These findings indicated the existence of complicate functional redundancy in situ among ERM proteins. [ABSTRACT FROM AUTHOR]

Published
2004
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248. Structural basis of adhesion-molecule recognition by ERM proteins revealed by the crystal structure of the radixin-ICAM-2 complex.

Author

Hamada, Keisuke, Shimizu, Toshiyuki, Yonemura, Shigenobu, Tsukita, Shoichiro, Tsukita, Sachiko, and Hakoshima, Toshio

Subjects
*PROTEINS, *COHESION, *ADSORPTION (Chemistry), *CELL adhesion molecules, *GENETIC mutation, *MOLECULES
Abstract

ERM (ezrin/radixin/moesin) proteins recognize the cytoptasmic domains of adhesion molecules in the formation of the membrane-associated cytosketeton. Here we report the crystal structure of the radixin FERM (4.1 and ERM) domain complexed with the ICAM-2 cytoplasmic peptide. The non-polar region of the ICAM-2 peptide contains the I4xxTYxVxxA sequence motif to form a β-strand followed by a short 310-helix. It binds the groove of the phosphotyrosine- binding (PTB)-like subdomain C mediated by a β-β association and several side-chain interactions. The binding mode of the ICAM-2 peptide to the FERM domain is distinct from that of the NPxY motif-containing peptide binding to the canonical PTB domain. Mutation analyses based on the crystal structure reveal the determinant elements of recognition and provide the first insights into the physical link between adhesion molecules and ERM proteins. [ABSTRACT FROM AUTHOR]

Published
2003
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249. Structural basis of the membrane-targeting and unmasking mechanisms of the radixin FERM domain.

Author

Hamada, Keisuke, Shimizu, Toshiyuki, Matsui, Takeshi, Tsukita, Shoichiro, Tsukita, Sachiko, and Hakoshima, Toshio

Subjects
*G proteins, *CELL adhesion, *CYTOSKELETON, *UBIQUITIN, *PROTEINS, *PHOSPHOINOSITIDES, *X-ray crystallography, *PROTEIN-tyrosine kinases
Abstract

Radixin is a member of the ezrin/radixin/moesin (ERM) family of proteins, which play a role in the formation of the membrane-associated cytoskeleton by linking actin filaments and adhesion proteins. This cross-linking activity is regulated by phosphoinositides such as phosphatidylinositol 4,5-bisphosphate (PIP2) in the downstream of the small G protein Rho. The X-ray crystal structures of the radixin FERM domain, which is responsible for membrane binding, and its complex with inositol-(1,4,5)-trisphosphate (IP3) have been determined. The domain consists of three sub-domains featuring a ubiquitin-like fold, a four-helix bundle and a phosphotyrosine-binding-like domain, respectively. These subdomains are organized by intimate interdomain interactions to form characteristic grooves and clefts. One such groove is negatively charged and so is thought to interact with basic juxta-membrane regions of adhesion proteins. IP3 binds a basic cleft that is distinct from those of pleckstrin homology domains and is located on a positively charged flat molecular surface, suggesting an electro-static mechanism of plasma membrane targeting. Based on the structural changes associated with IP3 binding, a possible unmasking mechanism of ERM proteins by PIP2 is proposed. [ABSTRACT FROM AUTHOR]

Published
2000
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250. Expression level, subcellular distribution and Rho-GDI binding affinity of merlin in comparison with ezrin/radixin/moesin proteins.

Author

Maeda, Masato, Matsui, Takeshi, Imamura, Masayuki, Tsukita, Shoichiro, and Tsukita, Sachiko

Subjects
*TUMOR suppressor genes, *PROTEINS, *NEUROFIBROMATOSIS
Abstract

Merlin, a neurofibromatosis type-2 tumor suppressor, shows significant sequence similarity to ERM (Ezrin/Radixin/Moesin) proteins, general actin filament/plasma membrane cross-linkers, which are regulated in a Rho-dependent manner. To understand its physiological functions, we compared merlin with ERM proteins in vivo and in vitro. Quantitative immunoblotting revealed that the molar ratio of merlin/ERM in cultured epithelial or non-epithelial cells was ∼0.14 or ∼0.05, respectively. After centrifugation of cell homogenate, merlin was mostly recovered in the insoluble fraction, whereas almost half of ERM proteins were found in the soluble fraction. Merlin and ERM proteins were concentrated at microvilli when introduced into fibroblasts. In contrast, in epithelial cells, introduced merlin was co-distributed with E-cadherin in lateral membranes, whereas ERM proteins were concentrated in apical microvilli. Finally, we examined the binding affinity of merlin to Rho GDP dissociation inhibitor (Rho-GDI), to which N-terminal halves of ERM proteins but not the full-length molecules specifically bind. In vitro binding assays revealed that the N-terminal halves of merlin isoform-I and -II as well as full-length merlin isoform-II bound to Rho-GDI with similar binding affinity to ERM proteins. Immunoprecipitation confirmed these findings in vivo. These findings do not favor the notion that merlin functions simply in a redundant or competitive manner to ERM proteins. [ABSTRACT FROM AUTHOR]

Published
1999
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