Inborn errors of energy metabolism associated with myopathies

doi:10.1155/2010/340849

Review

. 2010:2010:340849.

doi: 10.1155/2010/340849. Epub 2010 May 26.

Inborn errors of energy metabolism associated with myopathies

Anibh M Das¹, Ulrike Steuerwald, Sabine Illsinger

Affiliations

Affiliation

¹ Department of Paediatric Kidney-, Liver- and Metabolic Diseases, Hannover Medical School, Carl Neuberg Street 1, 30625 Hannover, Germany. das.anibh@mh-hannover.de

PMID: 20589068
PMCID: PMC2877206
DOI: 10.1155/2010/340849

Review

Inborn errors of energy metabolism associated with myopathies

Anibh M Das et al. J Biomed Biotechnol. 2010.

. 2010:2010:340849.

doi: 10.1155/2010/340849. Epub 2010 May 26.

Authors

Anibh M Das¹, Ulrike Steuerwald, Sabine Illsinger

Affiliation

¹ Department of Paediatric Kidney-, Liver- and Metabolic Diseases, Hannover Medical School, Carl Neuberg Street 1, 30625 Hannover, Germany. das.anibh@mh-hannover.de

PMID: 20589068
PMCID: PMC2877206
DOI: 10.1155/2010/340849

Abstract

Inherited neuromuscular disorders affect approximately one in 3,500 children. Structural muscular defects are most common; however functional impairment of skeletal and cardiac muscle in both children and adults may be caused by inborn errors of energy metabolism as well. Patients suffering from metabolic myopathies due to compromised energy metabolism may present with exercise intolerance, muscle pain, reversible or progressive muscle weakness, and myoglobinuria. In this review, the physiology of energy metabolism in muscle is described, followed by the presentation of distinct disorders affecting skeletal and cardiac muscle: glycogen storage diseases types III, V, VII, fatty acid oxidation defects, and respiratory chain defects (i.e., mitochondriopathies). The diagnostic work-up and therapeutic options in these disorders are discussed.

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Figures

**Figure 1**
Mitochondrial biochemical pathways involved in energy production: including fatty acid oxidation, the respiratory chain, and TCA-cycle (Krebs-cycle) CPT1: Carnitine-Palmitoyltransferase 1; CPT2: Carnitine-Palmitoyltransferase 2; CAT: Carnitine-/Acylcarnitine-Transferase; LC: Long-chain; TCA: Tricarboxylic acid cycle.

**Figure 2**
llustration of biochemical interactions: the carnitine shuttle, fatty acid oxidation, and glycolysis. The mitochondrial membrane is not permeable to long-chain fatty acids. The carnitine shuttle has to be used to transfer long-chain fatty acids to the mitochondrial matrix space. Once in the mitochondrial matrix space, long-chain acylcarnitines are converted back to long-chain acyl-coenzyme A derivatives and free carnitine via CPT2. Free carnitine is released and the acyl-coenzyme A derivatives will enter the beta-oxidation pathway. CPT1: Carnitine-Palmitoyltransferase 1; CPT2: Carnitine-Palmitoyltransferase 2; CAT: Carnitine-/Acylcarnitine-Transferase; LC: Long-chain; TCA: Tricarboxylic acid cycle; PC: Pyruvate Carcoxylase; PDH: Pyruvate Dehydrogenase.

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References

1. Wagenmakers AJ. Muscle amino acid metabolism at rest and during exercise: role in human physiology and metabolism. Exercise and Sport Sciences Reviews. 1998;26:287–314. - PubMed
1. Blomstrand E, Essén-Gustavsson B. Changes in amino acid concentration in plasma and type I and type II fibres during resistance exercise and recovery in human subjects. Amino Acids. 2008;37(4):629–636. - PubMed
1. McGarry JD, Brown NF. The mitochondrial carnitine palmitoyltransferase system. From concept to molecular analysis. European Journal of Biochemistry. 1997;244(1):1–14. - PubMed
1. Jeukendrup AE, Saris WH, Wagenmakers AJ. Fat metabolism during exercise: a review—part II: regulation of metabolism and the effects of training. International Journal of Sports Medicine. 1998;19(5):293–302. - PubMed
1. Wanders RJA, Vreken P, Den Boer MEJ, Wijburg FA, Van Gennip AH, IJlst L. Disorders of mitochondrial fatty acyl-CoA β-oxidation. Journal of Inherited Metabolic Disease. 1999;22(4):442–487. - PubMed

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[1] Wagenmakers AJ. Muscle amino acid metabolism at rest and during exercise: role in human physiology and metabolism. Exercise and Sport Sciences Reviews. 1998;26:287–314. - PubMed

[2] Wagenmakers AJ. Muscle amino acid metabolism at rest and during exercise: role in human physiology and metabolism. Exercise and Sport Sciences Reviews. 1998;26:287–314. - PubMed

[3] Blomstrand E, Essén-Gustavsson B. Changes in amino acid concentration in plasma and type I and type II fibres during resistance exercise and recovery in human subjects. Amino Acids. 2008;37(4):629–636. - PubMed

[4] Blomstrand E, Essén-Gustavsson B. Changes in amino acid concentration in plasma and type I and type II fibres during resistance exercise and recovery in human subjects. Amino Acids. 2008;37(4):629–636. - PubMed

[5] McGarry JD, Brown NF. The mitochondrial carnitine palmitoyltransferase system. From concept to molecular analysis. European Journal of Biochemistry. 1997;244(1):1–14. - PubMed

[6] McGarry JD, Brown NF. The mitochondrial carnitine palmitoyltransferase system. From concept to molecular analysis. European Journal of Biochemistry. 1997;244(1):1–14. - PubMed

[7] Jeukendrup AE, Saris WH, Wagenmakers AJ. Fat metabolism during exercise: a review—part II: regulation of metabolism and the effects of training. International Journal of Sports Medicine. 1998;19(5):293–302. - PubMed

[8] Jeukendrup AE, Saris WH, Wagenmakers AJ. Fat metabolism during exercise: a review—part II: regulation of metabolism and the effects of training. International Journal of Sports Medicine. 1998;19(5):293–302. - PubMed

[9] Wanders RJA, Vreken P, Den Boer MEJ, Wijburg FA, Van Gennip AH, IJlst L. Disorders of mitochondrial fatty acyl-CoA β-oxidation. Journal of Inherited Metabolic Disease. 1999;22(4):442–487. - PubMed

[10] Wanders RJA, Vreken P, Den Boer MEJ, Wijburg FA, Van Gennip AH, IJlst L. Disorders of mitochondrial fatty acyl-CoA β-oxidation. Journal of Inherited Metabolic Disease. 1999;22(4):442–487. - PubMed

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Inborn errors of energy metabolism associated with myopathies

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Inborn errors of energy metabolism associated with myopathies

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