An Ryr1I4B95T mutation abolishes Ca2+ release channel function and delays development in homozygous offspring of a mutant mouse line.

Autor: Zvaritch, Elena, Depreux, Frederic, Kraeva, Natasha, Loy, Ryan E., Goonasekera, Sanjeewa A., Boncompagi, Simona, Kraev, Alexander, Gramolini, Anthony O., Dirksen, Robert T., Franzini-Armstrong, Clara, Seidman, Christine E., Seidman, J. G., MacLennan, David H.
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Zdroj: Proceedings of the National Academy of Sciences of the United States of America; 11/20/2007, Vol. 104 Issue 47, p18537-18542, 6p, 3 Diagrams, 1 Graph
Abstrakt: A heterozygous Ile4898 to Thr (I4898T) mutation in the human type 1 ryanodine receptor/Ca2+ release channel (RyR1) leads to a severe form of central core disease. We created a mouse line in which the corresponding Ryr1I4895T mutation was introduced by using a "knockin" protocol. The heterozygote does not exhibit an overt disease phenotype, but homozygous (IT/IT) mice are paralyzed and die perinatally, apparently because of asphyxia. Histological analysis shows that IT/IT mice have greatly reduced and amorphous skeletal muscle. Myotubes are small, nuclei remain central. myofibrils are disarranged, and no cross striation is obvious. Many areas indicate probable degeneration, with shortened myotubes containing central stacks of pyknotic nuclei. Other manifestations of a delay in completion of late stages of embryogenesis include growth retardation and marked delay in ossification, dermatogenesis, and cardiovascular development. Electron microscopy of IT/IT muscle demonstrates appropriate targeting and positioning of RyR1 at triad junctions and a normal organization of dihydropyridine receptor (DHPR) complexes into RyR1-associated tetrads. Functional studies carried out in cultured IT/IT myotubes show that ligand-induced and DHPR-activated RyR1 Ca2+ release is absent, although retrograde enhancement of DHPR Ca2+ conductance is retained. IT/IT mice, in which RyR1-mediated Ca2+ release is abolished without altering the formation of the junctional DHPR-RyR1 macromolecular complex, provide a valuable model for elucidation of the role of RyR1-mediated Ca2+ signaling in mammalian embryogenesis. [ABSTRACT FROM AUTHOR]
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