Antisense oligonucleotide experiments elucidate the essential role of titin in sarcomerogenesis in adult rat cardiomyocytes in long-term culture

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Bennett, P. M. and Gautel, M (1996). Titin domain patterns correlate with the axial disposition of myosin at the end of the thick filament. J. Mol. Biol 259, 896-903.[Medline]

Calogero, A., Hospers, G. A. and Mulder, N. H (1997). Synthetic oligonucleotides: useful molecules? A review. Pharm. World & Sci 19, 264-268.[Medline]

Claycomb, W. C. and Palazzo, M. C (1980). Culture of the terminally differentiated adult cardiac muscle cell: a light and scanning electron microscope study. Dev. Biol 80, 466-482.[Medline]

Ehler, E., Rothen, B. M., Hammerle, S. P., Komiyama, M. and Perriard, J. C (1999). Myofibrillogenesis in the developing chicken heart: assembly of Z-disk, M-line and the thick filaments. J. Cell Sci 112, 1529-1539.[Abstract]

Eilertsen, K. J., Kazmierski, S. T. and Keller, T. C. III (1994). Cellular titin localization in stress fibers and interaction with myosin II filaments in vitro. J. Cell Biol 126, 1201-1210.[Abstract/Free Full Text]

Eppenberger, M., Hauser, I. and Eppenberger, H. M (1987). Myofibril formation in longterm-cultures of adult rat heart cells. Biomed. Biochim. Acta 46, 640-645.

Freiburg, A., Trombitas, K., Hell, W., Cazorla, O., Fougerousse, F., Centner, T., Kolmerer, B., Witt, C., Beckmann, J. S., Gregorio, C. C. et al. ( (2000). Series of exon-skipping events in the elastic spring region of titin as the structural basis for myofibrillar elastic diversity. Circ. Res 86, 1114-1121.[Abstract/Free Full Text]

Fulton, A. B (1999). The elastic filament system in myogenesis. Rev. Physiol. Biochem. Pharmacol 138, 139-161.[Medline]

Fulton, A. B. and Isaacs, W. B (1991). Titin, a huge, elastic sarcomeric protein with a probable role in morphogenesis. BioEssays 13, 157-161.[Medline]

Furst, D. O., Osborn, M. and Weber, K (1989). Myogenesis in the mouse embryo: differential onset of expression of myogenic proteins and the involvement of titin in myofibril assembly. J. Cell Biol 109, 517-527.[Abstract/Free Full Text]

Gregorio, C. C., Granzier, H., Sorimachi, H. and Labeit, S (1999). Muscle assembly: a titanic achievement?. Curr. Opin. Cell Biol 11, 18-25.[Medline]

Hein, S., Scholz, D., Fujitani, N., Rennollet, H., Brand T., Friedl, A. and Schaper, J (1994). Altered expression of titin and contractile proteins in failing human myocardium. J. Mol. Cell Card 26, 1291-1306.[Medline]

Helmes, M., Trombitas, K., Centner, T., Kellermayer, M., Labeit, S., Linke, W. A. and Granzier, H (1999). Mechanically driven contour-length adjustment in rat cardiac titin's unique N2B sequence: titin is an adjustable spring. Circ. Res 84, 1339-1352.[Abstract/Free Full Text]

Holtzer, H., Hijikata, T., Lin, Z. X., Zhang, Z. Q., Holtzer, S., Protasi, F., Franzini-Armstrong, C. and Sweeney, H. L (1997). Independent assembly of 1.6 microns long bipolar MHC filaments and I-Z-I bodies. Cell Struct. Funct 22, 83-93.[Medline]

Horowits, R (1992). Passive force generation and titin isoforms in mammalian skeletal muscle. Biophys. J 61, 392-398.[Medline]

Jansen, M., de Moor, C. H., Sussenbach, J. S. and van den Brande, J. L (1995). Translational control of gene expression. Ped. Res 37, 681-686.[Medline]

Jin, J. P (1995). Cloned rat cardiac titin class I and class II motifs. Expression, purification, characterization, and interaction with F-actin. J. Biol. Chem 270, 6908-6916.[Abstract/Free Full Text]

Komiyama, M., Kouchi, K., Maruyama, K. and Shimada, Y (1993). Dynamics of actin and assembly of connectin (titin) during myofibrillogenesis in embryonic chick cardiac muscle cells in vitro. Dev. Dynam 196, 291-299.[Medline]

Labeit, S., Gautel, M., Lakey, A. and Trinick, J (1992). Towards a molecular understanding of titin. EMBO J 11, 1711-1716.[Medline]

Labeit, S. and Kolmerer, B (1995). Titins: giant proteins in charge of muscle ultrastructure and elasticity. Science 270, 293-296.[Abstract/Free Full Text]

Labeit, S., Kolmerer, B. and Linke, W. A (1997). The giant protein titin. Emerging roles in physiology and pathophysiology. Circ. Res 80, 290-294.[Abstract/Free Full Text]

Linke, W. A., Stockmeier, M. R., Ivemeyer, M., Hosser, H. and Mundel, P (1998). Characterizing titin's I-band Ig domain region as an entropic spring. J. Cell Sci 111, 1567-1574.[Abstract]

Loke, S. L., Stein, C. A., Zhang, X. H., Mori, K., Nakanishi, M., Subasinghe, C., Cohen, J. S. and Neckers, L. M (1989). Characterization of oligonucleotide transport into living cells. Proc. Nat. Acad. Sci. USA 86, 3474-3478.[Abstract/Free Full Text]

Machado, C., Sunkel, C. E. and Andrew, D. J (1998). Human autoantibodies reveal titin as a chromosomal protein. J. Cell Biol 141, 321-333.[Abstract/Free Full Text]

Maruyama, K., Murakami, F. and Ohashi, K (1977). Connectin, an elastic protein of muscle. Comparative Biochemistry. J. Biochem 82, 339-345.

Mitcheson, J. S., Hancox, J. C. and Levi, A. J (1998). Cultured adult cardiac myocytes: future applications, culture methods, morphological and electrophysiological properties. Cardiovasc. Res 39, 280-300.[Abstract/Free Full Text]

Morano, I., Hadicke, K., Grom, S., Koch, A., Schwinger, R. H., Bohm, M., Bartel, S., Erdmann, E. and Krause, E. G (1994). Titin, myosin light chains and C-protein in the developing and failing human heart. J. Mol. Cell Cardiol 26, 361-368.[Medline]

Nag, A. C., Lee, M. L. and Sarkar, F. H (1996). Remodelling of adult cardiac muscle cells in culture: dynamic process of disorganization and reorganization of myofibrils. J. Muscle Res. Cell Motil 17, 313-334.[Medline]

Obermann, W. M., Gautel, M., Weber, K. and Furst, D. O (1997). Molecular structure of the sarcomeric M band: mapping of titin and myosin binding domains in myomesin and the identification of a potential regulatory phosphorylation site in myomesin. EMBO J 16, 211-220.[Medline]

Person, V., Kostin, S., Suzuki, K. and Schaper, J (1999). Antisense experiments elucidate the essential role of titin in sarcomerogenesis. Circulation 100, 1401-.

Scanlon, K. J., Ohta, Y., Ishida, H., Kijima, H., Ohkawa, T., Kaminski, A., Tsai, J., Horng, G. and Kashani-Sabet, M (1995). Oligonucleotide-mediated modulation of mammalian gene expression. FASEB J 9, 1288-1296.[Abstract]

Schaub, M. C., Hefti, M. A., Harder, B. A. and Eppenberger, H. M (1997). Various hypertrophic stimuli induce distinct phenotypes in cardiomyocytes. J. Mol. Med 75, 901-920.[Medline]

Schultheiss, T., Lin, Z. X., Lu, M. H., Murray, J., Fischman, D. A., Weber, K., Masaki, T., Imamura, M. and Holtzer, H (1990). Differential distribution of subsets of myofibrillar proteins in cardiac nonstriated and striated myofibrils. J. Cell Biol 110, 1159-1172.[Abstract/Free Full Text]

Shaw, J. P., Kent, K., Bird, J., Fishback, J. and Froehler, B (1991). Modified deoxyoligonucleotides stable to exonuclease degradation in serum. Nucl. Acids Res 19, 747-750.[Abstract/Free Full Text]

Shiraishi, I., Simpson, D. G., Carver, W., Price, R., Hirozane, T., Terracio, L. and Borg, T. K (1997). Vinculin is an essential component for normal myofibrillar arrangement in fetal mouse cardiac myocytes. J. Mol. Cell Cardiol 29, 2041-2052.[Medline]

Stein, C. A (1996). Phosphorothioate antisense oligodeoxynucleotides: questions of specificity. Trends Biotech 14, 147-149.[Medline]

Takahashi, K., Azuma, M., Huschenbett, J., Michaelis, M. L. and Azuma, J (1999). Effects of antisense oligonucleotides to the cardiac Na+/Ca2+exchanger on calcium dynamics in cultured cardiac myocytes. Biochem. Biophys. Res. Commun 260, 117-121.[Medline]

Tokuyasu, K. T. and Maher, P. A (1987). Immunocytochemical studies of cardiac myofibrillogenesis in early chick embryos. I. Presence of immunofluorescent titin spots in premyofibril stages. J. Cell Biol 105, 2781-2793.[Abstract/Free Full Text]

Turnacioglu, K. K., Mittal, B., Dabiri, G. A., Sanger, J. M. and Sanger, J. W (1997). An N-terminal fragment of titin coupled to green fluorescent protein localizes to the Z-bands in living muscle cells: overexpression leads to myofibril disassembly. Mol. Biol. Cell 8, 705-717.[Abstract]

Wang, K., McClure, J. and Tu, A (1979). Titin: major myofibrillar components of striated muscle. Proc. Nat. Acad. Sci. USA 76, 3698-3702.[Abstract/Free Full Text]

Wang, S. M., Greaser, M. L., Schultz, E., Bulinski, J. C., Lin, J. J. and Lessard, J. L (1988). Studies on cardiac myofibrillogenesis with antibodies to titin, actin, tropomyosin, and myosin. J. Cell Biol 107, 1075-1083.[Abstract/Free Full Text]

Whiting, A., Wardale, J. and Trinick, J (1989). Does titin regulate the length of muscle thick filaments?. J. Mol. Biol 205, 263-268.[Medline]

Yates, L. and Greaser, M (1983). Quantitative determination of myosin and actin in rabbit skeletal muscle. J. Mol. Biol 168, 123-141.[Medline]

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				J. Peng, K. Raddatz, J. D. Molkentin, Y. Wu, S. Labeit, H. Granzier, and M. Gotthardt Cardiac Hypertrophy and Reduced Contractility in Hearts Deficient in the Titin Kinase Region Circulation, February 13, 2007; 115(6): 743 - 751. [Abstract] [Full Text] [PDF]

				M. Seeley, W. Huang, Z. Chen, W. O. Wolff, X. Lin, and X. Xu Depletion of Zebrafish Titin Reduces Cardiac Contractility by Disrupting the Assembly of Z-Discs and A-Bands Circ. Res., February 2, 2007; 100(2): 238 - 245. [Abstract] [Full Text] [PDF]

				S. Weinert, N. Bergmann, X. Luo, B. Erdmann, and M. Gotthardt M line-deficient titin causes cardiac lethality through impaired maturation of the sarcomere J. Cell Biol., May 22, 2006; 173(4): 559 - 570. [Abstract] [Full Text] [PDF]

				X. Peng, B. Chen, C. C. Lim, and D. B. Sawyer The Cardiotoxicology of Anthracycline Chemotherapeutics: TRANSLATING MOLECULAR MECHANISM INTO PREVENTATIVE MEDICINE Mol. Interv., June 1, 2005; 5(3): 163 - 171. [Abstract] [Full Text] [PDF]

				C. C. Lim, C. Zuppinger, X. Guo, G. M. Kuster, M. Helmes, H. M. Eppenberger, T. M. Suter, R. Liao, and D. B. Sawyer Anthracyclines Induce Calpain-dependent Titin Proteolysis and Necrosis in Cardiomyocytes J. Biol. Chem., February 27, 2004; 279(9): 8290 - 8299. [Abstract] [Full Text] [PDF]

				G. Miller, H. Musa, M. Gautel, and M. Peckham A targeted deletion of the C-terminal end of titin, including the titin kinase domain, impairs myofibrillogenesis J. Cell Sci., December 1, 2003; 116(23): 4811 - 4819. [Abstract] [Full Text] [PDF]

				T. Rankinen, T. Rice, A. Boudreau, A. S. Leon, J. S. Skinner, J. H. Wilmore, D. C. Rao, and C. Bouchard Titin is a candidate gene for stroke volume response to endurance training: the HERITAGE Family Study Physiol Genomics, September 29, 2003; 15(1): 27 - 33. [Abstract] [Full Text] [PDF]

				V. Pizon, A. Iakovenko, P. F. M. van der Ven, R. Kelly, C. Fatu, D. O. Furst, E. Karsenti, and M. Gautel Transient association of titin and myosin with microtubules in nascent myofibrils directed by the MURF2 RING-finger protein J. Cell Sci., January 12, 2002; 115(23): 4469 - 4482. [Abstract] [Full Text] [PDF]