JSSM 2002 - 1, 103

REFERENCES

Allemeier, C. A., Fry, A. C., Johnson, P., Hikida, R. S., Hagerman, F. C. and Staron, R. S. (1994) Effects of sprint cycle training on human skeletal muscle. Journal of Applied Physiology 77, 2385-2390.

Allen, D. L., Sartorius, C. A., Sycuro, L. K. and Leinwand, L. A. (2001) Different pathways regulate expression of the skeletal myosin heavy chain genes. Journal of Biological Chemistry 276, 43524-43533.

Andersen, J. L., Klitgaard, H. and Saltin, B. (1994) Myosin heavy chain isoforms in single fibres from m. vastus lateralis of sprinters: influence of training. Acta Physiologica Scandinavica 151, 135-142.

Arnold, H. H. and Winter, B. (1998) Muscle differentiation: more complexity to the network of myogenic regulators. Current Opinion in Genetics & Development. 8, 539-544.

Aronson, D., Boppart, M. D., Dufresne, S. D., Fielding, R. A. and Goodyear, L. J. (1998) Exercise stimulates c-Jun NH2 kinase activity and c-Jun transcriptional activity in human skeletal muscle. Biochemical and Biophysical Research Communications 251, 106-110.

Bergeron, R., Ren, J. M., Cadman, K. S., Moore, I. K., Perret, P., Pypaert, M., Young, L. H., Semenkovich, C. F. and Shulman, G. I. (2001) Chronic activation of AMP kinase results in NRF-1 activation and mitochondrial biogenesis. American Journal of Physiology 281, E1340-E1346.

Bischoff, R. (1994) The satellite cell and muscle regeneration. In Myology, eds. Engel, A. G. and Franzini-Armstrong, C., pp. 97-118. McGraw-Hill.

Black, B. L. and Olson, E. N. (1998). Transcriptional control of muscle development by myocyte enhancer factor-2 (MEF2) proteins. Annual Review of Cell and Developmental Biology 14, 167-196.

Blair, A. S., Hajduch, E., Litherland, G. J. and Hundal, H. S. (1999) Regulation of glucose transport and glycogen synthesis in L6 muscle cells during oxidative stress. Evidence for cross-talk between the insulin and SAPK2/p38 mitogen-activated protein kinase signalling pathways. Journal of Biological Chemistry 274, 36293-36299.

Booth, F. W. and Gollnick, P. D. (1983) Effects of disuse on the structure and function of skeletal muscle. Med.Sci.Sports Exerc. 15, 415-420.

Boppart, M. D., Asp, S., Wojtaszewski, J. F., Fielding, R. A., Mohr, T. and Goodyear, L. J. (2000) Marathon running transiently increases c-Jun NH2-terminal kinase and p38 activities in human skeletal muscle. Journal of Physiology (London) 526 Pt 3, 663-669.

Brown, W. E., Salmons, S. and Whalen, R. G. (1985) Mechanisms underlying the asynchronous replacement of myosin light chain isoforms during stimulation-induced fibre-type transformation of skeletal muscle. FEBS Letters 192, 235-238.

Buckingham, M. (2001) Skeletal muscle formation in vertebrates. Current Opinion in Genetics & Development. 11, 440-448.

Buller, A. J., Eccles, J. C. and Eccles, R. (1960) Interactions between motoneurons and muscles in respect of the characteristic speeds of their responses. Journal of Physiology (London) 150, 417-439.

Campbell, W. G., Gordon, S. E., Carlson, C. J., Pattison, J. S., Hamilton, M. T. and Booth, F. W. (2001) Differential global gene expression in red and white skeletal muscle. American Journal of Physiology 280, C763-C768.

Canicio, J., Ruiz-Lozano, P., Carrasco, M., Palacin, M., Chien, K., Zorzano, A. and Kaliman, P. (2001) Nuclear factor kappa B-inducing kinase and Ikappa B kinase-alpha signal skeletal muscle cell differentiation. Journal of Biological Chemistry 276, 20228-20233.

Carson, J. A. and Wei, L. (2000) Integrin signalling's potential for mediating gene expression in hypertrophying skeletal muscle. Journal of Applied Physiology 88, 337-343.

Chi, M. M., Hintz, C. S., Henriksson, J., Salmons, S., Hellendahl, R. P., Park, J. L., Nemeth, P. M. and Lowry, O. H. (1986) Chronic stimulation of mammalian muscle: enzyme changes in individual fibres. American Journal of Physiology251, C633-C642.

Chin, E. R., Olson, E. N., Richardson, J. A., Yang, Q., Humphries, C., Shelton, J. M., Wu, H., Zhu, W., Bassel-Duby, R. and Williams, R. S. (1998) A calcineurin-dependent transcriptional pathway controls skeletal muscle fibre type. Genes & Development 12, 2499-2509.

Cleland, P. J., Appleby, G. J., Rattigan, S. and Clark, M. G. (1989) Exercise-induced translocation of protein kinase C and production of diacylglycerol and phosphatidic acid in rat skeletal muscle in vivo. Relationship to changes in glucose transport. Journal of Biological Chemistry 264, 17704-17711.

Cyert, M. S. (2001) Regulation of nuclear localization during signalling. Journal of Biological Chemistry 276, 20805-20808.

DiMario, J. X. (2001) Protein kinase C signalling controls skeletal muscle fibre types. Experimental Cell Research. 263, 23-32.

Donnelly, R., Reed, M. J., Azhar, S. and Reaven, G. M. (1994) Expression of the major isoenzyme of protein kinase-C in skeletal muscle, nPKC theta, varies with muscle type and in response to fructose- induced insulin resistance. Endocrinology 135, 2369-2374.

Ensembl human genome browser (release 6.28.1). Avaliable from URL: www.ensembl.org.

Falkenberg, M., Gaspari, M., Rantanen, A., Trifunovic, A., Larsson, N. G. and Gustafsson, C. M. (2002) Mitochondrial transcription factors B1 and B2 activate transcription of human mtDNA. Nature Genetics, in press

Feldman, J. L. and Stockdale, F. E. (1991) Skeletal muscle satellite cell diversity: satellite cells form fibres of different types in cell culture. Developmental Biology. 143, 320-334.

Ferrari, G., Cusella-De Angelis, G., Coletta, M., Paolucci, E., Stornaiuolo, A., Cossu, G. and Mavilio, F. (1998) Muscle regeneration by bone marrow-derived myogenic progenitors. Science 279, 1528-1530.

Fickett, J. W. (1996) Coordinate positioning of MEF2 and myogenin binding sites. Gene 172, GC19-GC32.

Goto, M., Terada, S., Kato, M., Katoh, M., Yokozeki, T., Tabata, I. and Shimokawa, T. (2000). cDNA Cloning and mRNA analysis of PGC-1 in epitrochlearis muscle in swimming-exercised rats. Biochemical and Biophysical Research Communications 274, 350-354.

Gordon, J. W., Rungi, A. A., Inagaki, H. and Hood, D. A. (2001) Effects of contractile activity on mitochondrial transcription factor A expression in skeletal muscle. Journal of Applied Physiology 90, 389-396.

Henriksson, J., Chi, M. M., Hintz, C. S., Young, D. A., Kaiser, K. K., Salmons, S. and Lowry, O. H. (1986) Chronic stimulation of mammalian muscle: changes in enzymes of six metabolic pathways. American Journal of Physiology 251, C614-C632.

Higginson, J., Wackerhage, H., Woods, N. M., Schjerling, P., Ratkevicius, A., Grunnet, N. and Quistorff, B. (2002) Blockades of mitogen activated protein kinase and calcineurin both change fibre type markers in skeletal muscle culture.
Pfluegers Archiv. In Press.

Hikida, R. S., Staron, R. S., Hagerman, F. C., Sherman, W. M. and Costill, D. L. (1983) Muscle fibre necrosis associated with human marathon runners. Journal of the Neurological Sciences 59, 185-203.

Hollander, J., Fiebig, R., Gore, M., Ookawara, T., Ohno, H. and Ji, L. L. (2001) Superoxide dismutase gene expression is activated by a single bout of exercise in rat skeletal muscle. Pfluegers Archiv. 442, 426-434.

Holloszy, J. O. and Coyle, E. F. (1984) Adaptations of skeletal muscle to endurance exercise and their metabolic consequences. Journal of Applied Physiology 56, 831-838.

Hood, D. A., Takahashi, M., Connor, M. K. and Freyssenet, D. (2000) Assembly of the cellular powerhouse: current issues in muscle mitochondrial biogenesis. Exercise and Sport Sciences Reviews 28, 68-73.

Hu, P., Zhang, K. M., Wright, L. D., Spratt, J. A. and Briggs, F. N. (1997). Correlations between MyoD, myogenin, SERCA1, SERCA2 and phospholamban transcripts during transformation of type-II to type-I skeletal muscle fibers. Pflugers Archiv 434, 209-211.

Hughes, S. M., Chi, M. M., Lowry, O. H. and Gundersen, K. (1999) Myogenin induces a shift of enzyme activity from glycolytic to oxidative metabolism in muscles of transgenic mice. Journal of Cell Biology 145, 633-642.

Jacobs-El, J., Zhou, M. Y. and Russell, B. (1995) MRF4, Myf-5, and myogenin mRNAs in the adaptive responses of mature rat muscle. American Journal of Physiology 268, C1045-C1052.

Kaliman, P., Canicio, J., Testar, X., Palacin, M. and Zorzano, A. (1999) Insulin-like growth factor-II, phosphatidylinositol 3-kinase, nuclear factor-kappaB and inducible nitric-oxide synthase define a common myogenic signalling pathway. Journal of Biological Chemistry 274, 17437-17444.

Kirk, S., Oldham, J., Kambadur, R., Sharma, M., Dobbie, P. and Bass, J. (2000) Myostatin regulation during skeletal muscle regeneration. Journal of Cellular Physiology 184, 356-363.

Larsson, N. G., Wang, J., Wilhelmsson, H., Oldfors, A., Rustin, P., Lewandoski, M., Barsh, G. S. and Clayton, D. A. (1998) Mitochondrial transcription factor A is necessary for mtDNA maintenance and embryogenesis in mice. Nature Genetics 18, 231-236.

Lehtinen, S. K., Rahkila, P., Helenius, M., Korhonen, P. and Salminen, A. (1996) Down-regulation of transcription factors AP-1, Sp-1, and NF-kappa B precedes myocyte differentiation. Biochemical and Biophysical Research Communications 229, 36-43.

Levings, P. P. and Bungert, J. (2002) The human beta-globin locus control region. European Journal of Biochemistry 269, 1589-1599.

Li, Y. P. and Reid, M. B. (2000) NF-kappaB mediates the protein loss induced by TNF-alpha in differentiated skeletal muscle myotubes. American Journal of Physiology 279, R1165-R1170.

Lin, J., Wu, H., Tarr, P. T., Zhang, C. Y., Wu, Z., Boss, O., Michael, L. F., Puigserver, P., Isotani, E., Olson, E. N., Lowell, B. B., Bassel-Duby, R. and Spiegelman, B. M. (2002). Transcriptional co-activator PGC-1alpha drives the formation of slow-twitch muscle fibres. Nature 418, 797-801.

Ma, K., Mallidis, C., Artaza, J., Taylor, W., Gonzalez-Cadavid, N. and Bhasin, S. (2001) Characterization of 5'-regulatory region of human myostatin gene: regulation by dexamethasone in vitro. American Journal of Physiology 281, E1128-E1136.

Mauro, A. (1961) Satellite cell of skeletal muscle fibres. Journal of Biophysical and Biochemical Cytology 9, 493-495.

McKinsey, T. A., Zhang, C. L., Lu, J. and Olson, E. N. (2000) Signal-dependent nuclear export of a histone deacetylase regulates muscle differentiation. Nature 408, 106-111.

McKinsey, T. A., Zhang, C. L. and Olson, E. N. (2001) Control of muscle development by dueling HATs and HDACs. Current Opinion in Genetics & Development. 11, 497-504.

McKinsey, T. A., Zhang, C. L. and Olson, E. N. (2002) MEF2: a calcium-dependent regulator of cell division, differentiation and death. Trends in Biochemical Sciences. 27, 40-47.

McPherron, A. C., Lawler, A. M. and Lee, S. J. (1997) Regulation of skeletal muscle mass in mice by a new TGF-beta superfamily member. Nature 387, 83-90.

Means, A. R., Ribar, T. J., Kane, C. D., Hook, S. S. and Anderson, K. A. (1997) Regulation and properties of the rat Ca2+/calmodulin-dependent protein kinase IV gene and its protein products. Recent Progress in Hormone Research 52, 389-406.

Meissner, J. D., Gros, G., Scheibe, R. J., Scholz, M. and Kubis, H. P. (2001) Calcineurin regulates slow myosin, but not fast myosin or metabolic enzymes, during fast-to-slow transformation in rabbit skeletal muscle cell culture. Journal of Physiology (London) 533, 215-226.

Mendler, L., Zador, E., Ver, H. M., Dux, L. and Wuytack, F. (2000) Myostatin levels in regenerating rat muscles and in myogenic cell cultures. Journal of Muscle Research and Cell Motility. 21, 551-563.

Molkentin, J. D., Black, B. L., Martin, J. F. and Olson, E. N. (1995) Cooperative activation of muscle gene expression by MEF2 and myogenic bHLH proteins. Cell 83, 1125-1136.

Molkentin, J. D. and Dorn II, G. W. (2001) Cytoplasmic signalling pathways that regulate cardiac hypertrophy. Annual Review of Physiology 63, 391-426.

Murgia, M., Serrano, A. L., Calabria, E., Pallafacchina, G., Lomo, T. and Schiaffino, S. (2000) Ras is involved in nerve-activity-dependent regulation of muscle genes. Nature Cell Biology 2, 142-147.

Osada, S., Mizuno, K., Saido, T. C., Suzuki, K., Kuroki, T. and Ohno, S. (1992) A new member of the protein kinase C family, nPKC theta, predominantly expressed in skeletal muscle. Journal of Cell Biology 12, 3930-3938.

Parisi, M. A. and Clayton, D. A. (1991) Similarity of human mitochondrial transcription factor 1 to high mobility group proteins. Science 252, 965-969.

Perry, R. L., Parker, M. H. and Rudnicki, M. A. (2001) Activated MEK1 binds the nuclear MyoD transcriptional complex to repress transactivation. Moecular Cell 8, 291-301.

Pette, D. and Vrbova, G. (1999) What does chronic electrical stimulation teach us about muscle plasticity? Muscle Nerve 22, 666-677.

Podhorska-Okolow, M., Sandri, M., Zampieri, S., Brun, B., Rossini, K. and Carraro, U. (1998) Apoptosis of myofibres and satellite cells: exercise-induced damage in skeletal muscle of the mouse. Neuropathology and Applied Neurobiology 24, 518-531.

Poyton, R. O. and McEwen, J. E. (1996) Crosstalk between nuclear and mitochondrial genomes. Annual Review of Biochemistry 65, 563-607.

Ptashne, M. and Gann, A. (2002) Genes and Signals. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, New York.

Reardon, K. A., Davis, J., Kapsa, R. M., Choong, P. and Byrne, E. (2001) Myostatin, insulin-like growth factor-1, and leukemia inhibitory factor mRNAs are upregulated in chronic human disuse muscle atrophy. Muscle Nerve 24, 893-899.

Richter, E. A., Cleland, P. J., Rattigan, S. and Clark, M. G. (1987) Contraction-associated translocation of protein kinase C in rat skeletal muscle. FEBS Letters 217, 232-236.

Rommel, C., Bodine, S. C., Clarke, B. A., Rossman, R., Nunez, L., Stitt, T. N., Yancopoulos, G. D. and Glass, D. J. (2001) Mediation of IGF-1-induced skeletal myotube hypertrophy by PI(3)K/Akt/ mTOR and PI(3)K/Akt/GSK3 pathways. Journal of Cell Biology 3, 1009-1013.

Rosenblatt, J. D., Parry, D. J. and Partridge, T. A. (1996) Phenotype of adult mouse muscle myoblasts reflects their fibre type of origin. Differentiation 60, 39-45.

Rosenblatt, J. D., Yong, D. and Parry, D. J. (1994) Satellite cell activity is required for hypertrophy of overloaded adult rat muscle. Muscle & Nerve 17, 608-613.

Salmons, S. and Henriksson, J. (1981) The adaptive response of skeletal muscle to increased use. Muscle & Nerve 4, 94-105.

Saltin, B. and Gollnick, P. D. (1983) Skeletal muscle adaptatbility: Significance for metabolism and performance. In Skeletal Muscle, eds. Peachey, L. D., Adrian, R. H., and Geiger, S. R., American Physiological Society, Bethesda, MD. pp. 555-631.

�Scarpulla, R. C. (1997) Nuclear control of respiratory chain expression in mammalian cells. Journal of .Bioenergectics and Biomembranes. 29, 109-119.

Semsarian, C., Wu, M. J., Ju, Y. K., Marciniec, T., Yeoh, T., Allen, D. G., Harvey, R. P. and Graham, R. M. (1999) Skeletal muscle hypertrophy is mediated by a Ca2+-dependent calcineurin signalling pathway. Nature 400, 576-581.

Storz, P., Doppler, H., Wernig, A., Pfizenmaier, K. and Muller, G. (1999) Cross-talk mechanisms in the development of insulin resistance of skeletal muscle cells palmitate rather than tumour necrosis factor inhibits insulin-dependent protein kinase B (PKB)/Akt stimulation and glucose uptake. European Journal of Biochemistry 266, 17-25.

Swoap, S. J., Hunter, R. B., Stevenson, E. J., Felton, H. M., Kansagra, N. V., Lang, J. M., Esser, K. A. and Kandarian, S. C. (2000) The calcineurin-NFAT pathway and muscle fibre-type gene expression. American Journal of Physiology 279, C915-C924.

Takahashi, M., Miyamura, H., Eguchi, S. and Homma, S. (1993) The effect of bupivacaine hydrochloride on skeletal muscle fibre type transformation by low frequency electrical stimulation. Neuroscience Letters 155, 191-194.

Talmadge, R. J., Roy, R. R., Bodine-Fowler, S. C., Pierotti, D. J. and Edgerton, V. R. (1995) Adaptations in myosin heavy chain profile in chronically unloaded muscles. Basic Applied Myology 5, 17-137.

Terada, S., Goto, M., Kato, M., Kawanaka, K., Shimokawa, T. and Tabata, I. (2002). Effects of low-intensity prolonged exercise on PGC-1 mRNA expression in rat epitrochlearis muscle. Biochemical and Biophysical Research Communications 296, 350-354.

Tesch, P. A. (1988) Skeletal muscle adaptations consequent to long-term heavy resistance exercise. Medicine and Science in Sports and Exercise 20, S132-S134.

Thomas, M., Langley, B., Berry, C., Sharma, M., Kirk, S., Bass, J., and Kambadur, R. (2000) Myostatin, a negative regulator of muscle growth, functions by inhibiting myoblast proliferation. Journal of Biological Chemistry 275, 40235-40243.

Voytik, S. L., Przyborski, M., Badylak, S. F. and Konieczny, S. F. (1993). Differential expression of muscle regulatory factor genes in normal and denervated adult rat hindlimb muscles. Developmental Dynamics 198, 214-224.

Walters, E. H., Stickland, N. C. and Loughna, P. T. (2000) The expression of the myogenic regulatory factors in denervated and normal muscles of different phenotypes. J.Muscle Res.Cell Motil. 21, 647-653.

Weiss, A., McDonough, D., Wertman, B., Acakpo-Satchivi, L., Montgomery, K., Kucherlapati, R., Leinwand, L. and Krauter, K. (1999) Organization of human and mouse skeletal myosin heavy chain gene clusters is highly conserved. Proceedings of the National Academy of Sciences of the U.S.A 96, 2958-2963.

Widegren, U., Wretman, C., Lionikas, A., Hedin, G. and Henriksson, J. (2000) Influence of exercise intensity on ERK/MAP kinase signalling in human skeletal muscle. Pfluegers Archiv 441, 317-322.

Winder, W. W. (2001) Energy-sensing and signalling by AMP-activated protein kinase in skeletal muscle. Journal of Applied Physiology 91, 1017-1028.

Wu, H., Kanatous, S. B., Thurmond, F. A., Gallardo, T., Isotani, E., Bassel-Duby, R. and Williams, R. S. (2002). Regulation of Mitochondrial Biogenesis in Skeletal Muscle by CaMK. Science 296, 349-352.

Wu, H., Naya, F. J., McKinsey, T. A., Mercer, B., Shelton, J. M., Chin, E. R., Simard, A. R., Michel, R. N., Bassel-Duby, R., Olson, E. N. and Williams, R. S. (2000) MEF2 responds to multiple calcium-regulated signals in the control of skeletal muscle fibre type. EMBO Journal 19, 1963-1973.

Wu, H., Rothermel, B., Kanatous, S., Rosenberg, P., Naya, F. J., Shelton, J. M., Hutcheson, K. A., DiMaio, J. M., Olson, E. N., Bassel-Duby, R., and Williams, R. S. (2001). Activation of MEF2 by muscle activity is mediated through a calcineurin- dependent pathway. EMBO Journal 20, 6414-6423.

Winder, W. W. & Hardie, D. G. (1996). Inactivation of acetyl-CoA carboxylase and activation of AMP-activated protein kinase in muscle during exercise. American Journal of Physiology 270, E299-E304.

Wu, Z., Puigserver, P., Andersson, U., Zhang, C., Adelmant, G., Mootha, V., Troy, A., Cinti, S., Lowell, B., Scarpulla, R. C. and Spiegelman, B. M. (1999) Mechanisms controlling mitochondrial biogenesis and respiration through the thermogenic coactivator PGC-1. Cell 98, 115-124.

Yan, Z. (2000) Skeletal muscle adaptation and cell cycle regulation. Exercise and Sport Sciences Reviews. 28, 24-26.

Yang, C. C., Ornatsky, O. I., McDermott, J. C., Cruz, T. F. and Prody, C. A. (1998) Interaction of myocyte enhancer factor 2 (MEF2) with a mitogen- activated protein kinase, ERK5/BMK1. Nucleic Acids Research 26, 4771-4777.

Yu, M., Blomstrand, E., Chibalin, A. V., Krook, A. and Zierath, J. R. (2001) Marathon running increases ERK1/2 and p38 MAP kinase signalling to downstream targets in human skeletal muscle. Journal of Physiology 536, 273-282.

Zetser, A., Gredinger, E. and Bengal, E. (1999) p38 mitogen-activated protein kinase pathway promotes skeletal muscle differentiation. Participation of the Mef2c transcription factor. Journal of Biological Chemistry 274, 5193-5200.

Zheng, D., MacLean, P. S., Pohnert, S. C., Knight, J. B., Olson, A. L., Winder, W. W. and Dohm, G. L. (2001) Regulation of muscle GLUT-4 transcription by AMP-activated protein kinase. Journal of Applied Physiology 91, 1073-1083.