α-Actinin-3 is a fast fibre Z-line protein that interacts with a wide array of structural, metabo... more α-Actinin-3 is a fast fibre Z-line protein that interacts with a wide array of structural, metabolic and signalling proteins. A common ACTN3 null polymorphism (R577X) is the most widely studied and best replicated genetic variant known to influence the skeletal muscle performance. ACTN3 genotype contributes ~2.5% of the variance in human muscle strength and exercise training response, is a risk factor for falling in the elderly and a genetic modifier of muscle disorders such as Duchenne muscular dystrophy
ABSTRACTDuchenne muscular dystrophy is caused by the absence of the protein dystrophin from skele... more ABSTRACTDuchenne muscular dystrophy is caused by the absence of the protein dystrophin from skeletal muscle and is characterized by progressive cycles of necrosis/regeneration. Using the dystrophin deficient mdx mouse model we studied the morphological and contractile chronology of dystrophic skeletal muscle pathology in fast twitch EDL muscles from animals 4-22 months of age containing 100% regenerated muscle fibers. Catastrophically, the older age groups lost ∼80% of their maximum force after one eccentric contraction of 20% strain, with the greatest loss ∼93% recorded in senescent 22 month old mdx mice. In old age groups there was minimal force recovery ∼24% after 120 minutes, correlated with a dramatic increase in the number and complexity of branched fibers. This data supports our two-stage model where a “tipping point” is reached when branched fibers rupture irrevocably on eccentric contraction. These findings have important implications for pre-clinical drug studies and genet...
American Journal of Physiology-Cell Physiology, 2021
Duchenne muscular dystrophy (DMD) is the second most common fatal genetic disease in humans and i... more Duchenne muscular dystrophy (DMD) is the second most common fatal genetic disease in humans and is characterized by the absence of a functional copy of the protein dystrophin from skeletal muscle. In dystrophin-negative humans and rodents, regenerated skeletal muscle fibers show abnormal branching. The number of fibers with branches and the complexity of branching increases with each cycle of degeneration/regeneration. Previously, using the mdx mouse model of DMD, we have proposed that once the number and complexity of branched fibers present in dystrophic fast-twitch EDL muscle surpasses a stable level, we term the “tipping point,” the branches, in and of themselves, mechanically weaken the muscle by rupturing when subjected to high forces during eccentric contractions. Here, we use the slow-twitch soleus muscle from the dystrophic mdx mouse to study prediseased “periambulatory” dystrophy at 2–3 wk, the peak regenerative “adult” phase at 6–9 wk, and “old” at 58–112 wk. Using isolat...
NEW FINDINGS Central question: What are the early effects of dystrophin deficiency on SR Ca2+ han... more NEW FINDINGS Central question: What are the early effects of dystrophin deficiency on SR Ca2+ handling in the mdx mouse? MAIN FINDING In the mdx mouse, Ca2+ handling by the SR is little affected by the absence of dystrophin when looking at fibres without branches that have just regenerated following massive myonecrosis. This has important implications for our understanding of Ca2+ pathology in the mdx mouse. ABSTRACT There is a variety of results in the literature regarding the effects of dystrophin deficiency on the Ca2+ -handling properties of the SR in mdx mice, an animal model of Duchenne muscular dystrophy. One possible source of variation is the presence of branched fibres. Fibre branching, a consequence of degenerative-regenerative processes such as muscular dystrophy, has in itself a significant influence on the function of the SR. In our present study we attempt to detect early effects of dystrophin deficiency on SR Ca2+ handling by using unbranched fibres from the immediate post-necrotic stage in mdx mice (just regenerated following massive necrosis). Using kinetically-corrected Fura-2 fluorescence signals measured during twitch and tetanus, we analysed the amplitude, rise time and decay time of Δ[Ca2+ ]i in unfatigued and fatigued fibres. Decay was also resolved into SR pump and SR leak components. Fibres from mdx mice were similar in all respects to fibres from wt littermates apart from: (i) a smaller amplitude of the initial spike of Δ[Ca2+ ]i during a tetanus; and (ii) a mitigation of the fall in Δ[Ca2+ ]i amplitude during the course of fatigue. Our findings suggest that the early effects of a loss of dystrophin on SR Ca2+ handling in mdx mice are subtle, and emphasise the importance of distinguishing between Ca2+ pathology that is due to lack of dystrophin and Ca2+ pathology that is due to muscle degeneration. This article is protected by copyright. All rights reserved.
Duchenne muscular dystrophy (DMD) is caused by the absence of a functional transcript of the prot... more Duchenne muscular dystrophy (DMD) is caused by the absence of a functional transcript of the protein dystrophin. DMD is associated with a range of cognitive deficits that are thought to result from a lack of the protein dystrophin in brain structures involved in cognitive functions. The CNS involvement extends to an impairment of cognitive abilities, with many DMD boys having significant reduction in IQ. In the cerebellum, dystrophin is normally localized at the postsynaptic membrane of GABAergic synapses on Purkinje cells. Here, we investigate the effect of an absence of dystrophin on the number of GABA(A) channels located at the synapse in cerebellar Purkinje cells of the dystrophin-deficient mdx mouse. Whole-cell patch-clamp recordings of spontaneous miniature inhibitory postsynaptic currents (mIPSCs) were performed in cerebellar slices from mdx and littermate control mice. Our results showed that the number of receptors at GABAergic synapses in the cerebellar Purkinje cell was significantly reduced in mdx mice (38.38 ± 2.95) compared to littermate controls (53.03 ± 4.11). Furthermore, when gaboxadol was added to the bath, the change in holding current in mdx mice was significantly enhanced (65.01 ± 5.89pA) compared to littermate controls (37.36 ± 3.82pA). The single channel unitary conductance and the rise and decay time of mIPSCs were not significantly different in these two groups of mice, indicating that those GABA(A) channels located at the postsynaptic sites in the mdx mice function normally. There is a reduction in the number of functional receptors localized at GABAergic synapses in the cerebellar Purkinje cells of dystrophin-deficient mdx mice and an increase in a gaboxadol induced holding current, which is evidence for an increase in extrasynaptic GABA(A) receptors in mdx mice. We hypothesize that the absence of dystrophin, from mdx Purkinje cells, reduces the number of post-synaptic GABA(A) receptors and as a result there is an increase in extrasynaptic receptors. If similar changes occur in the CNS in boys with DMD, it will impact on the function of neural networks and may contribute to some of the motor, behavioral and cognitive impairment apparent in many boys with DMD.
ABSTRACTThe common null polymorphism (R577X) in the ACTN3 gene is present in over 1.5 billion peo... more ABSTRACTThe common null polymorphism (R577X) in the ACTN3 gene is present in over 1.5 billion people worldwide and results in the absence of the protein α-actinin-3 from the Z-discs of fast-twitch skeletal muscle fibres. We have previously reported that this polymorphism is a modifier of dystrophin deficient Duchenne Muscular Dystrophy. To investigate the mechanism underlying this we use a double knockout (dk)Actn3KO/mdx (dKO) mouse model which lacks both dystrophin and sarcomere α-actinin-3. We used dKO mice and mdx dystrophic mice at 12 months (aged) to investigate the correlation between morphological changes to the fast-twitch dKO EDL and the reduction in force deficit produced by an in vitro eccentric contraction protocol. In the aged dKO mouse we found a marked reduction in fibre branching complexity that correlated with protection from eccentric contraction induced force deficit. Complex branches in the aged dKO EDL fibres (28%) were substantially reduced compared to aged mdx...
Introduction: It has been proposed that an increased susceptivity to oxidative stress caused by t... more Introduction: It has been proposed that an increased susceptivity to oxidative stress caused by the absence of the protein dystrophin from the inner surface of the sarcolemma is a trigger of skeletal muscle necrosis in the destructive dystrophin deficient muscular dystrophies. Here we use the mdx mouse model of human Duchenne Muscular Dystrophy to test the hypothesis that adding the antioxidant NAC at 2% to drinking water for six weeks will treat the inflammatory phase of the dystrophic process and reduce pathological muscle fiber branching and splitting resulting in a reduction of mass in mdx fast-twitch EDL muscles.Methods: Animal weight and water intake was recorded during the six weeks when 2% NAC was added to the drinking water. Post NAC treatment animals were euthanised and the EDL muscles dissected out and placed in an organ bath where the muscle was attached to a force transducer to measure contractile properties and susceptibility to force loss from eccentric contractions. ...
Minocycline, a tetracycline-class of antibiotic, has been tested with mixed effectiveness on neur... more Minocycline, a tetracycline-class of antibiotic, has been tested with mixed effectiveness on neuromuscular disorders such as amyotrophic lateral sclerosis, autoimmune neuritis and muscular dystrophy. The independent effect of minocycline on skeletal muscle force production and signalling remain poorly understood. Our aim here is to investigate the effects of minocycline on muscle mass, force production, myosin heavy chain abundance and protein synthesis. Mice were injected with minocycline (40 mg/kg i.p.) daily for 5 days and sacrificed at day six. Fast-twitch EDL, TA muscles and slow-twitch soleus muscles were dissected out, the TA muscle was snap-frozen and the remaining muscles were attached to force transducer whilst maintained in an organ bath. In C2C12 myotubes, minocycline was applied to the media at a final concentration of 10 μg/mL for 48 h. In minocycline treated mice absolute maximal force was lower in fast-twitch EDL while in slow-twitch soleus there was an increase in t...
Supplementary figure 1: A) A scatter plot of the maximum force corrected by muscle mass generated... more Supplementary figure 1: A) A scatter plot of the maximum force corrected by muscle mass generated by the soleus from test groups AND Supplementary figure 2: Representative 100Hz tetanic force <br><br>
α-Actinin-3 is a fast fibre Z-line protein that interacts with a wide array of structural, metabo... more α-Actinin-3 is a fast fibre Z-line protein that interacts with a wide array of structural, metabolic and signalling proteins. A common ACTN3 null polymorphism (R577X) is the most widely studied and best replicated genetic variant known to influence the skeletal muscle performance. ACTN3 genotype contributes ~2.5% of the variance in human muscle strength and exercise training response, is a risk factor for falling in the elderly and a genetic modifier of muscle disorders such as Duchenne muscular dystrophy
ABSTRACTDuchenne muscular dystrophy is caused by the absence of the protein dystrophin from skele... more ABSTRACTDuchenne muscular dystrophy is caused by the absence of the protein dystrophin from skeletal muscle and is characterized by progressive cycles of necrosis/regeneration. Using the dystrophin deficient mdx mouse model we studied the morphological and contractile chronology of dystrophic skeletal muscle pathology in fast twitch EDL muscles from animals 4-22 months of age containing 100% regenerated muscle fibers. Catastrophically, the older age groups lost ∼80% of their maximum force after one eccentric contraction of 20% strain, with the greatest loss ∼93% recorded in senescent 22 month old mdx mice. In old age groups there was minimal force recovery ∼24% after 120 minutes, correlated with a dramatic increase in the number and complexity of branched fibers. This data supports our two-stage model where a “tipping point” is reached when branched fibers rupture irrevocably on eccentric contraction. These findings have important implications for pre-clinical drug studies and genet...
American Journal of Physiology-Cell Physiology, 2021
Duchenne muscular dystrophy (DMD) is the second most common fatal genetic disease in humans and i... more Duchenne muscular dystrophy (DMD) is the second most common fatal genetic disease in humans and is characterized by the absence of a functional copy of the protein dystrophin from skeletal muscle. In dystrophin-negative humans and rodents, regenerated skeletal muscle fibers show abnormal branching. The number of fibers with branches and the complexity of branching increases with each cycle of degeneration/regeneration. Previously, using the mdx mouse model of DMD, we have proposed that once the number and complexity of branched fibers present in dystrophic fast-twitch EDL muscle surpasses a stable level, we term the “tipping point,” the branches, in and of themselves, mechanically weaken the muscle by rupturing when subjected to high forces during eccentric contractions. Here, we use the slow-twitch soleus muscle from the dystrophic mdx mouse to study prediseased “periambulatory” dystrophy at 2–3 wk, the peak regenerative “adult” phase at 6–9 wk, and “old” at 58–112 wk. Using isolat...
NEW FINDINGS Central question: What are the early effects of dystrophin deficiency on SR Ca2+ han... more NEW FINDINGS Central question: What are the early effects of dystrophin deficiency on SR Ca2+ handling in the mdx mouse? MAIN FINDING In the mdx mouse, Ca2+ handling by the SR is little affected by the absence of dystrophin when looking at fibres without branches that have just regenerated following massive myonecrosis. This has important implications for our understanding of Ca2+ pathology in the mdx mouse. ABSTRACT There is a variety of results in the literature regarding the effects of dystrophin deficiency on the Ca2+ -handling properties of the SR in mdx mice, an animal model of Duchenne muscular dystrophy. One possible source of variation is the presence of branched fibres. Fibre branching, a consequence of degenerative-regenerative processes such as muscular dystrophy, has in itself a significant influence on the function of the SR. In our present study we attempt to detect early effects of dystrophin deficiency on SR Ca2+ handling by using unbranched fibres from the immediate post-necrotic stage in mdx mice (just regenerated following massive necrosis). Using kinetically-corrected Fura-2 fluorescence signals measured during twitch and tetanus, we analysed the amplitude, rise time and decay time of Δ[Ca2+ ]i in unfatigued and fatigued fibres. Decay was also resolved into SR pump and SR leak components. Fibres from mdx mice were similar in all respects to fibres from wt littermates apart from: (i) a smaller amplitude of the initial spike of Δ[Ca2+ ]i during a tetanus; and (ii) a mitigation of the fall in Δ[Ca2+ ]i amplitude during the course of fatigue. Our findings suggest that the early effects of a loss of dystrophin on SR Ca2+ handling in mdx mice are subtle, and emphasise the importance of distinguishing between Ca2+ pathology that is due to lack of dystrophin and Ca2+ pathology that is due to muscle degeneration. This article is protected by copyright. All rights reserved.
Duchenne muscular dystrophy (DMD) is caused by the absence of a functional transcript of the prot... more Duchenne muscular dystrophy (DMD) is caused by the absence of a functional transcript of the protein dystrophin. DMD is associated with a range of cognitive deficits that are thought to result from a lack of the protein dystrophin in brain structures involved in cognitive functions. The CNS involvement extends to an impairment of cognitive abilities, with many DMD boys having significant reduction in IQ. In the cerebellum, dystrophin is normally localized at the postsynaptic membrane of GABAergic synapses on Purkinje cells. Here, we investigate the effect of an absence of dystrophin on the number of GABA(A) channels located at the synapse in cerebellar Purkinje cells of the dystrophin-deficient mdx mouse. Whole-cell patch-clamp recordings of spontaneous miniature inhibitory postsynaptic currents (mIPSCs) were performed in cerebellar slices from mdx and littermate control mice. Our results showed that the number of receptors at GABAergic synapses in the cerebellar Purkinje cell was significantly reduced in mdx mice (38.38 ± 2.95) compared to littermate controls (53.03 ± 4.11). Furthermore, when gaboxadol was added to the bath, the change in holding current in mdx mice was significantly enhanced (65.01 ± 5.89pA) compared to littermate controls (37.36 ± 3.82pA). The single channel unitary conductance and the rise and decay time of mIPSCs were not significantly different in these two groups of mice, indicating that those GABA(A) channels located at the postsynaptic sites in the mdx mice function normally. There is a reduction in the number of functional receptors localized at GABAergic synapses in the cerebellar Purkinje cells of dystrophin-deficient mdx mice and an increase in a gaboxadol induced holding current, which is evidence for an increase in extrasynaptic GABA(A) receptors in mdx mice. We hypothesize that the absence of dystrophin, from mdx Purkinje cells, reduces the number of post-synaptic GABA(A) receptors and as a result there is an increase in extrasynaptic receptors. If similar changes occur in the CNS in boys with DMD, it will impact on the function of neural networks and may contribute to some of the motor, behavioral and cognitive impairment apparent in many boys with DMD.
ABSTRACTThe common null polymorphism (R577X) in the ACTN3 gene is present in over 1.5 billion peo... more ABSTRACTThe common null polymorphism (R577X) in the ACTN3 gene is present in over 1.5 billion people worldwide and results in the absence of the protein α-actinin-3 from the Z-discs of fast-twitch skeletal muscle fibres. We have previously reported that this polymorphism is a modifier of dystrophin deficient Duchenne Muscular Dystrophy. To investigate the mechanism underlying this we use a double knockout (dk)Actn3KO/mdx (dKO) mouse model which lacks both dystrophin and sarcomere α-actinin-3. We used dKO mice and mdx dystrophic mice at 12 months (aged) to investigate the correlation between morphological changes to the fast-twitch dKO EDL and the reduction in force deficit produced by an in vitro eccentric contraction protocol. In the aged dKO mouse we found a marked reduction in fibre branching complexity that correlated with protection from eccentric contraction induced force deficit. Complex branches in the aged dKO EDL fibres (28%) were substantially reduced compared to aged mdx...
Introduction: It has been proposed that an increased susceptivity to oxidative stress caused by t... more Introduction: It has been proposed that an increased susceptivity to oxidative stress caused by the absence of the protein dystrophin from the inner surface of the sarcolemma is a trigger of skeletal muscle necrosis in the destructive dystrophin deficient muscular dystrophies. Here we use the mdx mouse model of human Duchenne Muscular Dystrophy to test the hypothesis that adding the antioxidant NAC at 2% to drinking water for six weeks will treat the inflammatory phase of the dystrophic process and reduce pathological muscle fiber branching and splitting resulting in a reduction of mass in mdx fast-twitch EDL muscles.Methods: Animal weight and water intake was recorded during the six weeks when 2% NAC was added to the drinking water. Post NAC treatment animals were euthanised and the EDL muscles dissected out and placed in an organ bath where the muscle was attached to a force transducer to measure contractile properties and susceptibility to force loss from eccentric contractions. ...
Minocycline, a tetracycline-class of antibiotic, has been tested with mixed effectiveness on neur... more Minocycline, a tetracycline-class of antibiotic, has been tested with mixed effectiveness on neuromuscular disorders such as amyotrophic lateral sclerosis, autoimmune neuritis and muscular dystrophy. The independent effect of minocycline on skeletal muscle force production and signalling remain poorly understood. Our aim here is to investigate the effects of minocycline on muscle mass, force production, myosin heavy chain abundance and protein synthesis. Mice were injected with minocycline (40 mg/kg i.p.) daily for 5 days and sacrificed at day six. Fast-twitch EDL, TA muscles and slow-twitch soleus muscles were dissected out, the TA muscle was snap-frozen and the remaining muscles were attached to force transducer whilst maintained in an organ bath. In C2C12 myotubes, minocycline was applied to the media at a final concentration of 10 μg/mL for 48 h. In minocycline treated mice absolute maximal force was lower in fast-twitch EDL while in slow-twitch soleus there was an increase in t...
Supplementary figure 1: A) A scatter plot of the maximum force corrected by muscle mass generated... more Supplementary figure 1: A) A scatter plot of the maximum force corrected by muscle mass generated by the soleus from test groups AND Supplementary figure 2: Representative 100Hz tetanic force <br><br>
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