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Chapter 16. A Lamin-Dependent Pathway That Regulates Nuclear Organization, Cell Cycle Progression and Germ Cell Development

  1. Derek J. Chadwick Organizer,
  2. Jamie Goode
  1. Ayelet Margalit1,
  2. Jun Liu3,
  3. Alexandra Fridkin1,
  4. Katherine L. Wilson4,
  5. Yosef Gruenbaum2,*

Published Online: 7 OCT 2008

DOI: 10.1002/0470093765.ch16

Book Title

Nuclear Organization in Development and Disease: Novartis Foundation Symposium 264

Nuclear Organization in Development and Disease: Novartis Foundation Symposium 264

Additional Information

How to Cite

Margalit, A., Liu, J., Fridkin, A., Wilson, K. L. and Gruenbaum, Y. (2008) A Lamin-Dependent Pathway That Regulates Nuclear Organization, Cell Cycle Progression and Germ Cell Development, in Nuclear Organization in Development and Disease: Novartis Foundation Symposium 264 (eds D. J. Chadwick and J. Goode), John Wiley & Sons, Ltd, Chichester, UK. doi: 10.1002/0470093765.ch16

Author Information

  1. 1

    Department of Genetics, The Institute of Life Sciences, The Hebrew University of Jerusalem, Jerusalem 91904, Israel

  2. 2

    Department of Genetics, The Institute of Life Sciences, The Morris Cohen Wing, Room 2-428, The Hebrew University of Jerusalem, Givat-Ram, Jerusalem 91904, Israel

  3. 3

    Department of Molecular Biology and Genetics, Cornell University, Ithaca, NY 14853, USA

  4. 4

    Department of Cell Biology, The Johns Hopkins University School of Medicine, 725 N Wolfe Street, Baltimore, MD 21205, USA

*Department of Genetics, The Institute of Life Sciences, The Morris Cohen Wing, Room 2-428, The Hebrew University of Jerusalem, Givat-Ram, Jerusalem 91904, Israel

Publication History

  1. Published Online: 7 OCT 2008
  2. Published Print: 14 JAN 2005

Book Series:

  1. Novartis Foundation Symposia

Book Series Editors:

  1. Novartis Foundation

ISBN Information

Print ISBN: 9780470093733

Online ISBN: 9780470093764

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Keywords:

  • nuclear pore complexes (NPCs);
  • Ce-lamin down-regulation;
  • Emery-Dreifuss muscular dystrophy (EDMD);
  • Barrier-to-Autointegration Factor (BAF);
  • C. elegans genome;
  • Ce-MAN1 and Ce-emerin;
  • LEM-domain genes;
  • metabolic labelling experiments

Summary

The C. elegans genome encodes a single lamin protein (Ce-lamin), three LEM domain proteins (Ce-emerin, Ce-MAN1 and LEM-3) and a single BAF protein (Ce-BAF). Down-regulation of Ce-lamin causes embryonic lethality. Abnormalities include rapid changes in nuclear morphology during interphase, inability of cells to complete mitosis, abnormal condensation of chromatin, clustering of nuclear pore complexes (NPCs), and missing or abnormal germ cells. Ce-emerin and Ce-MAN1 are both embedded in the inner nuclear membrane, and both bind Ce-lamin and Ce-BAF; in addition, both require Ce-lamin for their localization. Mutations in human emerin cause X-linked recessive Emery-Dreifuss muscular dystrophy. In C. elegans, loss of Ce-emerin alone has no detectable phenotype, while loss of 90% Ce-MAN1 causes ∼ 15% embryonic lethality. However in worms that lack Ce-emerin, a ∼ 90% reduction of Ce-MAN1 is lethal to all embryos by the 100-cell stage, with a phenotype involving chromatin condensation and repeated cycles of anaphase chromosome bridging and cytokinesis. The anaphase-bridged chromatin retained a mitosis-specific phosphohistone H3 epitope, and failed to recruit detectable Ce-lamin or Ce-BAF. Down-regulation of Ce-BAF showed similar phenotypes. These findings suggest that lamin, LEM-domain proteins and BAF are part of a lamina network essential for chromatin organization and cell division, and that Ce-emerin and Ce-MAN1 share at least one and possibly multiple overlapping functions, which may be relevant to Emery-Dreifuss muscular dystrophy.

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