Molecular dissection of the interaction of desmin with the C-terminal region of nebulin.

In vertebrate skeletal muscle, ultrastructural studies have suggested that the Z-line and extracellular intermediate filaments are linked, although a structural basis for this has remained elusive. We searched for potential novel ligands of the Z-line portion of nebulin by a yeast two-hybrid (Y2H) approach. This identified that the nebulin modules M160 to M170 interact with desmin. In desmin, deletion series experiments assigned a 19-kDa central coiled-coil domain as the nebulin-binding site. The specific interactions of nebulin and desmin were confirmed in vitro by GST pull-down experiments. In situ, the nebulin modules M176 to M181 colocalize with desmin in a Z-line-associated, striated pattern as shown by immunofluorescence studies. Our data are consistent with a model that desmin attaches directly to the Z-line through its interaction with the nebulin repeats M163-M170. This interaction may link myofibrillar Z-discs to the intermediate filament system, thereby forming a lateral linkage system which contributes to maintain adjacent Z-lines in register.

[1]  M. Bang,et al.  Myopalladin, a Novel 145-Kilodalton Sarcomeric Protein with Multiple Roles in Z-Disc and I-Band Protein Assemblies , 2001, The Journal of cell biology.

[2]  C. Gregorio,et al.  To the heart of myofibril assembly. , 2000, Trends in cell biology.

[3]  M. Bang,et al.  Distinct Families of Z-Line Targeting Modules in the Cooh-Terminal Region of Nebulin , 2000, The Journal of cell biology.

[4]  L. Thornell,et al.  Differences in the distribution of synemin, paranemin, and plectin in skeletal muscles of wild-type and desmin knock-out mice , 2000, Histochemistry and Cell Biology.

[5]  U. Aebi,et al.  Intermediate filament assembly: temperature sensitivity and polymorphism , 1999, Cellular and Molecular Life Sciences CMLS.

[6]  J C Perriard,et al.  Myofibrillogenesis in the developing chicken heart: assembly of Z-disk, M-line and the thick filaments. , 1999, Journal of cell science.

[7]  I. Blümcke,et al.  Immunogold EM reveals a close association of plectin and the desmin cytoskeleton in human skeletal muscle. , 1999, European journal of cell biology.

[8]  H. Ishikawa,et al.  Plectin is a linker of intermediate filaments to Z-discs in skeletal muscle fibers. , 1999, Journal of cell science.

[9]  F. Raynaud,et al.  Alpha actinin–CapZ, an anchoring complex for thin filaments in Z-line , 1999, Journal of Muscle Research & Cell Motility.

[10]  C. Gregorio,et al.  Muscle assembly: a titanic achievement? , 1999, Current opinion in cell biology.

[11]  Siegfried Labeit,et al.  The NH2 Terminus of Titin Spans the Z-Disc: Its Interaction with a Novel 19-kD Ligand (T-cap) Is Required for Sarcomeric Integrity , 1998, The Journal of cell biology.

[12]  K. Pelin,et al.  Characterization of nebulette and nebulin and emerging concepts of their roles for vertebrate Z-discs. , 1998, Journal of molecular biology.

[13]  M. Gautel,et al.  Two immunoglobulin‐like domains of the Z‐disc portion of titin interact in a conformation‐dependent way with telethonin , 1998, FEBS letters.

[14]  M. Gautel,et al.  Molecular structure of the sarcomeric Z‐disk: two types of titin interactions lead to an asymmetrical sorting of α‐actinin , 1998, The EMBO journal.

[15]  S. W. Sernett,et al.  Molecular Characteristics of the Novel Intermediate Filament Protein Paranemin , 1997, The Journal of Biological Chemistry.

[16]  H. Lassmann,et al.  Targeted inactivation of plectin reveals essential function in maintaining the integrity of skin, muscle, and heart cytoarchitecture. , 1997, Genes & development.

[17]  G. Butler-Browne,et al.  Desmin Is Essential for the Tensile Strength and Integrity of Myofibrils but Not for Myogenic Commitment, Differentiation, and Fusion of Skeletal Muscle , 1997, The Journal of cell biology.

[18]  K. Suzuki,et al.  Tissue-specific expression and alpha-actinin binding properties of the Z-disc titin: implications for the nature of vertebrate Z-discs. , 1997, Journal of molecular biology.

[19]  A. Chapelle,et al.  Refined Localisation of the Genes for Nebulin and Titin on Chromosome 2q Allows the Assignment of Nebulin as a Candidate Gene for Autosomal Recessive Nemaline Myopathy , 1997, European journal of human genetics : EJHG.

[20]  J. Squire,et al.  Architecture and function in the muscle sarcomere. , 1997, Current opinion in structural biology.

[21]  Y. Capetanaki,et al.  Desmin in muscle formation and maintenance: knockouts and consequences. , 1997, Cell structure and function.

[22]  F. Protasi,et al.  Independent assembly of 1.6 microns long bipolar MHC filaments and I-Z-I bodies. , 1997, Cell structure and function.

[23]  H. Yajima,et al.  Binding of the N‐terminal 63 kDa portion of connectin/titin to α‐actinin as revealed by the yeast two‐hybrid system , 1997, FEBS letters.

[24]  Y. Capetanaki,et al.  Disruption of muscle architecture and myocardial degeneration in mice lacking desmin , 1996, The Journal of cell biology.

[25]  G. Gyapay,et al.  Human desmin gene: cDNA sequence, regional localization and exclusion of the locus in a familial desmin-related myopathy , 1996, Human Genetics.

[26]  A. Pastore,et al.  Correlation between conformational and binding properties of nebulin repeats. , 1996, Journal of molecular biology.

[27]  S. W. Sernett,et al.  Synemin contains the rod domain of intermediate filaments. , 1995, Biochemical and Biophysical Research Communications - BBRC.

[28]  J. Trinick,et al.  Titin and nebulin: protein rulers in muscle? , 1994, Trends in biochemical sciences.

[29]  J. Vigoreaux The muscle Z band: lessons in stress management , 1994, Journal of Muscle Research & Cell Motility.

[30]  S J Winder,et al.  Nebulin, a helical actin binding protein. , 1994, The EMBO journal.

[31]  L. Binder,et al.  Identification of the intermediate filament-associated protein gyronemin as filamin. Implications for a novel mechanism of cytoskeletal interaction. , 1992, Journal of cell science.

[32]  K. Wang,et al.  Nebulin as a length regulator of thin filaments of vertebrate skeletal muscles: correlation of thin filament length, nebulin size, and epitope profile , 1991, The Journal of cell biology.

[33]  T. Gibson,et al.  Evidence that nebulin is a protein‐ruler in muscle thin filaments , 1991, FEBS letters.

[34]  D. Fischman,et al.  Molecular analysis of protein assembly in muscle development. , 1991, Science.

[35]  K. Wang,et al.  Architecture of the sarcomere matrix of skeletal muscle: immunoelectron microscopic evidence that suggests a set of parallel inextensible nebulin filaments anchored at the Z line , 1988, The Journal of cell biology.

[36]  S. Craig,et al.  Cap Z06132), a Barbed End Actin-capping Protein, Is a Component of the Z-line of Skeletal Muscle Materials and Methods , 1987 .

[37]  D. J. Wild,et al.  A comparative study of high molecular weight proteins in various types of muscle across the animal kingdom. , 1986, Journal of biochemistry.

[38]  K. Maruyama,et al.  Sodium dodecyl sulfate gel electrophoresis studies of connectin-like high molecular weight proteins of various types of vertebrate and invertebrate muscles. , 1986, Journal of biochemistry.

[39]  K. Mullis,et al.  Enzymatic amplification of beta-globin genomic sequences and restriction site analysis for diagnosis of sickle cell anemia. , 1985, Science.

[40]  H. Eppenberger,et al.  Myomesin and M-protein: expression of two M-band proteins in pectoral muscle and heart during development , 1985, The Journal of cell biology.

[41]  D. Fischman,et al.  Immunocytochemical analysis of intermediate filaments in embryonic heart cells with monoclonal antibodies to desmin , 1984, The Journal of cell biology.

[42]  E. Lazarides,et al.  Expression of intermediate filament-associated proteins paranemin and synemin in chicken development , 1983, The Journal of cell biology.

[43]  S. Singer,et al.  Immunoelectron microscopic studies of desmin (skeletin) localization and intermediate filament organization in chicken cardiac muscle , 1983, The Journal of cell biology.

[44]  K. Wang,et al.  A network of transverse and longitudinal intermediate filaments is associated with sarcomeres of adult vertebrate skeletal muscle , 1983, The Journal of cell biology.

[45]  S. Pierobon-Bormioli,et al.  Transverse sarcomere filamentous systems: ‘Z- and M-cables’ , 1981, Journal of Muscle Research & Cell Motility.

[46]  R. Robson,et al.  Immunoelectron and immunofluorescence localization of desmin in mature avian muscles. , 1981, European journal of cell biology.

[47]  B. L. Granger,et al.  Synemin: a new high molecular weight protein associated with desmin and vimentin filaments in muscle , 1980, Cell.

[48]  C. Franzini-armstrong,et al.  Trabecular network in adult skeletal muscle. , 1980, Journal of ultrastructure research.

[49]  B. L. Granger,et al.  Desmin and vimentin coexist at the periphery of the myofibril Z disc , 1979, Cell.

[50]  D. E. Goll,et al.  Studies on purified -actinin. I. Effect of temperature and tropomyosin on the -actinin-F-actin interaction. , 1972, Journal of molecular biology.

[51]  K. Wang Titin/connectin and nebulin: giant protein rulers of muscle structure and function. , 1996, Advances in biophysics.

[52]  A. Lupas Prediction and analysis of coiled-coil structures. , 1996, Methods in enzymology.

[53]  C. Moncman,et al.  Nebulette: a 107 kD nebulin-like protein in cardiac muscle. , 1995, Cell motility and the cytoskeleton.

[54]  B. Kolmerer,et al.  The complete primary structure of human nebulin and its correlation to muscle structure. , 1995, Journal of molecular biology.

[55]  F. Studier,et al.  Use of T7 RNA polymerase to direct expression of cloned genes. , 1990, Methods in enzymology.

[56]  J. Trinick,et al.  [2] Preparation of myofibrils , 1982 .