Thomas Metzger scite author profile

The basic unit of skeletal muscle in all metazoans is the multinucleate myofiber, within which individual nuclei are regularly positioned1. The molecular machinery responsible for myonuclear positioning is not known. Improperly positioned nuclei are a hallmark of numerous muscles diseases2, including centronuclear myopathies3, but it is unclear whether correct nuclear positioning is necessary for muscle function. Here we identify the microtubule-associated protein Ensconsin(Ens)/MAP7 and Kinesin Heavy Chain (Khc)/Kif5b as essential, evolutionary conserved regulators of myonuclear positioning in Drosophila and cultured mammalian myotubes. We find that these proteins physically interact and that expression of the Kif5b motor domain fused to the MAP7 microtubule binding domain rescues nuclear positioning defects in MAP7 depleted cells. This suggests that MAP7 links Kif5b to the microtubule cytoskeleton to promote nuclear positioning. Finally we demonstrate that myonuclear positioning is physiologically important. Drosophila ens mutant larvae display decreased locomotion and incorrect myonuclear positioning, and these phenotypes are rescued by muscle specific expression of Ens. We conclude that improper nuclear positioning contributes to muscle dysfunction in a cell autonomous fashion.

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Nuclear Localization of the Interferon-Inducible Protein Kinase PKR in Human Cells and Transfected Mouse Cells

Jeffrey

Kadereit

Meurs

et al. 1995

Experimental Cell Research

113

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The levels and subcellular distribution of the interferon-inducible double-stranded RNA-dependent protein kinase PKR have been measured in human Daudi cells and stably transfected mouse NIH 3T3 cells expressing the human protein kinase. Immunofluorescence of intact cells and quantitative immunoblotting of cell extracts indicate that PKR occurs in both the cytoplasm and the cell nucleus, with staining specifically in the nucleolus. The ratio of cytoplasmic to nuclear PKR is approximately 5:1 in control cells; in response to interferon treatment the protein kinase is induced severalfold in the cytoplasm whereas the level in the nucleus does not increase significantly. Analysis of individual transfected cells by confocal microscopy reveals a pattern of distribution of PKR similar to that in Daudi cells, with immunostaining of cytoplasm and nucleoli. Similar results are observed whether cells expressing wild-type PKR or a catalytically inactive mutant form of the kinase are analyzed, but untransfected 3T3 cells are not stained by the antibody used. Two-dimensional isoelectric focusing analysis of PKR in whole cell extracts reveals the presence of multiple forms with different pI values whereas similar analysis of the nuclear fraction indicates only one predominant species with a relatively basic pI. These results suggest that PKR may have a role in the cell nucleus as well as the cytoplasm and that the subcellular distribution of the protein kinase may be related to post-translational modifications.

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Thomas Metzger

MAP and kinesin-dependent nuclear positioning is required for skeletal muscle function

Nuclear Localization of the Interferon-Inducible Protein Kinase PKR in Human Cells and Transfected Mouse Cells

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