Karin Schaefer scite author profile

Karin Schaefer

2Publications

111Citation Statements Received

84Citation Statements Given

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Ludwig-Maximilians-Universität München

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Claudin k is specifically expressed in cells that form myelin during development of the nervous system and regeneration of the optic nerve in adult zebrafish

Münzel

Schaefer

Obirei

et al. 2011

Glia

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The zebrafish has become an important model organism to study myelination during development and after a lesion of the adult central nervous system (CNS). Here, we identify Claudin k as a myelin-associated protein in zebrafish and determine its localization during development and adult optic nerve regeneration. We find Claudin k in subcellular compartments consistent with location in autotypic tight junctions of oligodendrocytes and myelinating Schwann cells. Expression starts in the hindbrain at 2 days (mRNA) and 3 days (protein) postfertilization and is maintained in adults. A newly generated claudin k:green fluorescent protein (GFP) reporter line allowed us to characterize oligodendrocytes in the adult retina that express Claudin k and olig2, but not P0 and uniquely only form loose wraps of membrane around axons. After a crush of the adult optic nerve, Claudin k protein levels were first reduced and then recovered within 4 weeks postlesion, concomitant with optic nerve myelin de- and regeneration. During optic nerve regeneration, oligodendrocytes, many of which were newly generated, repopulated the lesion site and exhibited increasing morphological complexity over time. Thus, Claudin k is a novel myelin-associated protein expressed by oligodendrocytes and Schwann cells from early stages of wrapping and myelin formation in zebrafish development and adult regeneration, suggesting important functions of the gene for myelin formation and maintenance. Our Claudin k antibodies and claudin k:GFP reporter line represent excellent ways to visualize oligodendrocyte and Schwann cell differentiation in vivo.

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Zwilling-A and -B, Two Related Myelin Proteins of Teleosts, Which Originate from a Single Bicistronic Transcript

Schaefer

Brösamle

2008

Molecular Biology and Evolution

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Myelination, the ensheathment of axons by membranes of highly specialized glial cells, has been a crucial innovation during early vertebrate evolution. It enables high nerve signal conduction velocities, while maintaining nervous system size and energy requirements at moderate levels. Consequently, myelination has been conserved in all extant gnathostome vertebrates. In a genomewide mRNA expression screen, we identified several novel neural crest and myelin-specific transcripts in the zebrafish (Danio rerio). Here, we describe the characterization of two proteins, Zwilling-A and -B (ZwiA and ZwiB), which are exclusively expressed in myelinating glia of teleosts. They are structurally homologous and are translated from a common, bicistronic transcript. No similarities to sequences or domains of other proteins were detected. Analysis of phylogeny, genomic organization, and genomic syntenies suggests that the zwi gene has appeared soon after the teleost-specific genome duplication event and evolved under conservative selective pressure. We hypothesize that ZwiA and ZwiB serve important physiological functions in teleost myelin.

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Karin Schaefer

Claudin k is specifically expressed in cells that form myelin during development of the nervous system and regeneration of the optic nerve in adult zebrafish

Zwilling-A and -B, Two Related Myelin Proteins of Teleosts, Which Originate from a Single Bicistronic Transcript

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