Literature DB >> 22025680

Essential function of protein 4.1G in targeting of membrane protein palmitoylated 6 into Schmidt-Lanterman incisures in myelinated nerves.

Nobuo Terada1, Yurika Saitoh, Nobuhiko Ohno, Masayuki Komada, Sei Saitoh, Elior Peles, Shinichi Ohno.   

Abstract

Protein 4.1G is a membrane skeletal protein found in specific subcellular structures in myelinated Schwann cells and seminiferous tubules. Here, we show that in the mouse sciatic nerve, protein 4.1G colocalized at Schmidt-Lanterman incisures (SLI) and the paranodes with a member of the membrane-associated guanylate kinase (MAGUK) family, membrane protein palmitoylated 6 (MPP6). Coimmunoprecipitation experiments revealed that MPP6 was interacting with protein 4.1G. In contrast to wild-type nerves, in 4.1G knockout mice, MPP6 was found largely in the cytoplasm near Schwann cell nuclei, indicating an abnormal protein transport. Although the SLI remained in the 4.1G knockout sciatic nerves, as confirmed by E-cadherin immunostaining, their shape was altered in aged 4.1G knockout nerves compared to their shape in wild-type nerves. In the seminiferous tubules, MPP6 was localized similarly to protein 4.1G along cell membranes of the spermatogonium and early spermatocytes. However, in contrast to myelinated peripheral nerves, the specific localization of MPP6 in the seminiferous tubules was unaltered in the absence of protein 4.1G. These results indicate that 4.1G has a specific role in the targeting of MPP6 to the SLI and the assembly of these subcellular structures.

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Year:  2011        PMID: 22025680      PMCID: PMC3255713          DOI: 10.1128/MCB.05945-11

Source DB:  PubMed          Journal:  Mol Cell Biol        ISSN: 0270-7306            Impact factor:   4.272


  51 in total

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Authors:  T Biederer; T C Sudhof
Journal:  J Biol Chem       Date:  2001-10-16       Impact factor: 5.157

3.  E-cadherin is required for the correct formation of autotypic adherens junctions of the outer mesaxon but not for the integrity of myelinated fibers of peripheral nerves.

Authors:  Peter Young; Oreda Boussadia; Philipp Berger; Dino P Leone; Patrick Charnay; Rolf Kemler; Ueli Suter
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4.  Regulation of protein 4.1R, p55, and glycophorin C ternary complex in human erythrocyte membrane.

Authors:  W Nunomura; Y Takakuwa; M Parra; J Conboy; N Mohandas
Journal:  J Biol Chem       Date:  2000-08-11       Impact factor: 5.157

5.  hCASK and hDlg associate in epithelia, and their src homology 3 and guanylate kinase domains participate in both intramolecular and intermolecular interactions.

Authors:  S L Nix; A H Chishti; J M Anderson; Z Walther
Journal:  J Biol Chem       Date:  2000-12-29       Impact factor: 5.157

6.  VAM-1: a new member of the MAGUK family binds to human Veli-1 through a conserved domain.

Authors:  T C Tseng; S M Marfatia; P J Bryant; S Pack; Z Zhuang; J E O'Brien; L Lin; T Hanada; A H Chishti
Journal:  Biochim Biophys Acta       Date:  2001-04-16

Review 7.  Kinesin carries the signal.

Authors:  K J Verhey; T A Rapoport
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8.  Immunoreactivity of glutamate in mouse retina inner segment of photoreceptors with in vivo cryotechnique.

Authors:  Nobuo Terada; Nobuhiko Ohno; Sei Saitoh; Yurika Saitoh; Shinichi Ohno
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9.  Dlg1, Sec8, and Mtmr2 regulate membrane homeostasis in Schwann cell myelination.

Authors:  Annalisa Bolis; Silvia Coviello; Ilaria Visigalli; Carla Taveggia; Angela Bachi; Athar H Chishti; Toshihiko Hanada; Angelo Quattrini; Stefano Carlo Previtali; Alessandra Biffi; Alessandra Bolino
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10.  Distinct claudins and associated PDZ proteins form different autotypic tight junctions in myelinating Schwann cells.

Authors:  Sebastian Poliak; Sean Matlis; Christoph Ullmer; Steven S Scherer; Elior Peles
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  14 in total

Review 1.  Schwann cell myelination.

Authors:  James L Salzer
Journal:  Cold Spring Harb Perspect Biol       Date:  2015-06-08       Impact factor: 10.005

2.  Deficiency of a membrane skeletal protein, 4.1G, results in myelin abnormalities in the peripheral nervous system.

Authors:  Yurika Saitoh; Nobuhiko Ohno; Junji Yamauchi; Takeharu Sakamoto; Nobuo Terada
Journal:  Histochem Cell Biol       Date:  2017-07-28       Impact factor: 4.304

3.  Necl-4/Cadm4 recruits Par-3 to the Schwann cell adaxonal membrane.

Authors:  Xiaosong Meng; Patrice Maurel; Isabel Lam; Corey Heffernan; Michael A Stiffler; Gavin McBeath; James L Salzer
Journal:  Glia       Date:  2018-12-26       Impact factor: 7.452

4.  In focus in HCB.

Authors:  Douglas J Taatjes; Jürgen Roth
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5.  Scaffold protein Lin7 family in membrane skeletal protein complex in mouse seminiferous tubules.

Authors:  Akio Kamijo; Yurika Saitoh; Takeharu Sakamoto; Hiroshi Kubota; Junji Yamauchi; Nobuo Terada
Journal:  Histochem Cell Biol       Date:  2019-08-13       Impact factor: 4.304

6.  Genetic deletion of Cadm4 results in myelin abnormalities resembling Charcot-Marie-Tooth neuropathy.

Authors:  Neev Golan; Elena Kartvelishvily; Ivo Spiegel; Daniela Salomon; Helena Sabanay; Katya Rechav; Anya Vainshtein; Shahar Frechter; Galia Maik-Rachline; Yael Eshed-Eisenbach; Takashi Momoi; Elior Peles
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7.  The Polarity Protein Pals1 Regulates Radial Sorting of Axons.

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Journal:  J Neurosci       Date:  2015-07-22       Impact factor: 6.167

8.  The membrane palmitoylated protein, MPP6, is involved in myelin formation in the mouse peripheral nervous system.

Authors:  Yurika Saitoh; Akio Kamijo; Junji Yamauchi; Takeharu Sakamoto; Nobuo Terada
Journal:  Histochem Cell Biol       Date:  2018-10-24       Impact factor: 4.304

9.  Involvement of Src in the membrane skeletal complex, MPP6-4.1G, in Schmidt-Lanterman incisures of mouse myelinated nerve fibers in PNS.

Authors:  Nobuo Terada; Yurika Saitoh; Nobuhiko Ohno; Masayuki Komada; Junji Yamauchi; Shinichi Ohno
Journal:  Histochem Cell Biol       Date:  2013-01-10       Impact factor: 4.304

Review 10.  Involvement of membrane skeletal molecules in the Schmidt-Lanterman incisure in Schwann cells.

Authors:  Nobuo Terada; Yurika Saitoh; Akio Kamijo; Shinichi Ohno; Nobuhiko Ohno
Journal:  Med Mol Morphol       Date:  2015-11-05       Impact factor: 2.309
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