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11. Absence of the Z-disc Protein α-actinin-3 Impairs the Mechanical Stability of Actn3KO Mouse Fast- twitch Muscle Fibres without Altering their Contractile Properties or Twitch Kinetics

Author

Haug, Michael, primary, Reischl, Barbara, additional, Nübler, Stefanie, additional, Kiriaev, Leonit, additional, Mázala, Davi A.G., additional, Houweling, Peter J., additional, North, Kathryn N., additional, Friedrich, Oliver, additional, and Head, Stewart I., additional

Published
2021
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29. The Effect of ACTN3 Gene Doping on Skeletal Muscle Performance

Author

Garton, Fleur C., primary, Houweling, Peter J., additional, Vukcevic, Damjan, additional, Meehan, Lyra R., additional, Lee, Fiona X.Z., additional, Lek, Monkol, additional, Roeszler, Kelly N., additional, Hogarth, Marshall W., additional, Tiong, Chrystal F., additional, Zannino, Diana, additional, Yang, Nan, additional, Leslie, Stephen, additional, Gregorevic, Paul, additional, Head, Stewart I., additional, Seto, Jane T., additional, and North, Kathryn N., additional

Published
2018
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30. Analysis of theACTN3heterozygous genotype suggests that α-actinin-3 controls sarcomeric composition and muscle function in a dose-dependent fashion

Author

Hogarth, Marshall W., primary, Garton, Fleur C., additional, Houweling, Peter J., additional, Tukiainen, Taru, additional, Lek, Monkol, additional, Macarthur, Daniel G., additional, Seto, Jane T., additional, Quinlan, Kate G.R., additional, Yang, Nan, additional, Head, Stewart I., additional, and North, Kathryn N., additional

Published
2015
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33. RhoA/ROCK Signaling and Pleiotropic α1A-Adrenergic Receptor Regulation of Cardiac Contractility

Author

Yu, Ze-Yan, primary, Tan, Ju-Chiat, additional, McMahon, Aisling C., additional, Iismaa, Siiri E., additional, Xiao, Xiao-Hui, additional, Kesteven, Scott H., additional, Reichelt, Melissa E., additional, Mohl, Marion C., additional, Smith, Nicola J., additional, Fatkin, Diane, additional, Allen, David, additional, Head, Stewart I., additional, Graham, Robert M., additional, and Feneley, Michael P., additional

Published
2014
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36. Membrane Injury and Repair in the Muscular Dystrophies.

Author

Cooper, Sandra T. and Head, Stewart I.

Subjects
*MUSCULAR dystrophy, *WOUNDS & injuries, *DYSTROPHY, *NEUROMUSCULAR diseases, *ACCIDENTS
Abstract

Muscle cells have an elaborate plasma membrane and t-tubule system that has been evolutionarily refined to maximize electrical conductivity for synchronous muscle contraction. However, this elaborate plasma membrane network has intrinsic vulnerabilities to stretch-induced membrane injury, and thus requires ongoing maintenance and repair. Herein we discuss the types of membrane injuries encountered by myofibers in healthy muscle and in muscular dystrophy. We review the different mechanisms by which muscle fibers in patients with muscular dystrophy are rendered more susceptible to injury, and we summarize the latest developments in our understanding of how the muscular dystrophy protein dysferlin mediates satellite-cell independent membrane repair. [ABSTRACT FROM AUTHOR]

Published
2015
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42. Altered Ca2+ Kinetics Associated with α-Actinin-3 Deficiency May Explain Positive Selection for ACTN3 Null Allele in Human Evolution.

Author

Head, Stewart I., Chan, Stephen, Houweling, Peter J., Quinlan, Kate G. R., Murphy, Robyn, Wagner, Sören, Friedrich, Oliver, and North, Kathryn N.

Subjects
*MAMMAL adaptation, *BIOLOGICAL evolution, *GENETICS, *ACTININ, *LABORATORY mice, *SKELETAL muscle
Abstract

Over 1.5 billion people lack the skeletal muscle fast-twitch fibre protein α-actinin-3 due to homozygosity for a common null polymorphism (R577X) in the ACTN3 gene. α-Actinin-3 deficiency is detrimental to sprint performance in elite athletes and beneficial to endurance activities. In the human genome, it is very difficult to find single-gene loss-of-function variants that bear signatures of positive selection, yet intriguingly, the ACTN3 null variant has undergone strong positive selection during recent evolution, appearing to provide a survival advantage where food resources are scarce and climate is cold. We have previously demonstrated that α-actinin-3 deficiency in the Actn3 KO mouse results in a shift in fast-twitch fibres towards oxidative metabolism, which would be more “energy efficient” in famine, and beneficial to endurance performance. Prolonged exposure to cold can also induce changes in skeletal muscle similar to those observed with endurance training, and changes in Ca2+ handling by the sarcoplasmic reticulum (SR) are a key factor underlying these adaptations. On this basis, we explored the effects of α-actinin-3 deficiency on Ca2+ kinetics in single flexor digitorum brevis muscle fibres from Actn3 KO mice, using the Ca2+-sensitive dye fura-2. Compared to wild-type, fibres of Actn3 KO mice showed: (i) an increased rate of decay of the twitch transient; (ii) a fourfold increase in the rate of SR Ca2+ leak; (iii) a threefold increase in the rate of SR Ca2+ pumping; and (iv) enhanced maintenance of tetanic Ca2+ during fatigue. The SR Ca2+ pump, SERCA1, and the Ca2+-binding proteins, calsequestrin and sarcalumenin, showed markedly increased expression in muscles of KO mice. Together, these changes in Ca2+ handling in the absence of α-actinin-3 are consistent with cold acclimatisation and thermogenesis, and offer an additional explanation for the positive selection of the ACTN3 577X null allele in populations living in cold environments during recent evolution. [ABSTRACT FROM AUTHOR]

Published
2015
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