X-linked myotubular myopathy
X-linked myotubular myopathy |
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Classification and external resources |
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OMIM |
310400 |
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X-linked myotubular myopathy (MTM) is a form of centronuclear myopathy (CNM) associated with myotubularin 1.
Genetically inherited traits and conditions are often referred to based upon whether they are located on the "sex chromosomes" (the X or Y chromosomes) versus whether they are located on "autosomal" chromosomes (chromosomes other than the X or Y). Thus, genetically inherited conditions are categorized as being sex-linked (e.g., X-linked) or autosomal. Females have two X-chromosomes while males only have a single X chromosome, and a genetic abnormality located on the X chromosome is much more likely to cause clinical disease in a male (who lacks the possibility of having the normal gene present on any other chromosome) than in a female (who is able to compensate for the one abnormal X chromosome).
The X-linked form of MTM/CNM is the most commonly diagnosed type. Almost all cases of X-linked MTM occurs in males. Females can be "carriers" for an X-linked genetic abnormality, but usually they will not be clinically affected themselves. Two exceptions for a female with a X-linked recessive abnormality to have clinical symptoms: one is a manifesting carrier and the other is X-inactivation. A manifesting carrier usually has no noticeable problems at birth; symptoms show up later in life. In X-inactivation, the female (who would otherwise be a carrier, without any symptoms), actually presents with full-blown X-linked MTM. Thus, she congenitally presents (is born with) MTM.[1]
Thus, researchers point out that although MTM1 mutations most commonly cause problems in boys, these mutations can also can clinical myopathy in girls, for the reasons noted above. Thus, experts recommend that girls with myopathy and a muscle biopsy showing a centronuclear pattern be tested for MTM1 mutations.[1]
Many clinicians and researchers use the abbreviations XL-MTM, XLMTM or X-MTM to emphasize that the genetic abnormality for myotubular myopathy (MTM) is X-linked (XL), having been identified as occurring on the X chromosome. The specific gene on the X chromosome is referred to as MTM-1. It is theoretically possible that some cases of CNM may be caused by an abnormality on the X chromosome, but located at a different site than the gene MTM1, but currently MTM1 is the only X-linked genetic mutation site identified for myotubular or centronuclear myopathy. Clinical suspicion for X-linked inheritance would be a disease affecting multiple boys (but no girls) and a pedigree chart showing inheritance only through the maternal (mother’s) side of each generation. To date, the only X-linked mutation site causing centronuclear myopathy is the MTM1 gene.
External links
References
- ↑ 1.0 1.1 Jungbluth H, Sewry C, Buj-Bello A, Kristiansen M, Ørstavik K, Kelsey A, Manzur A, Mercuri E, Wallgren-Pettersson C, Muntoni F (2003). "Early and severe presentation of X-linked myotubular myopathy in a girl with skewed X-inactivation". Neuromuscul Disord 13 (1): 55–9. doi:10.1016/S0960-8966(02)00194-3. PMID 12467733.
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| Neuromuscular- junction disease | |
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| Myopathy/ congenital myopathy | |
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| Description |
- Anatomy
- head
- neck
- arms
- chest and back
- diaphragm
- abdomen
- genital area
- legs
- Muscle tissue
- Physiology
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| Disease |
- Myopathy
- Soft tissue
- Connective tissue
- Congenital
- abdomen
- muscular dystrophy
- Neoplasms and cancer
- Injury
- Symptoms and signs
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| Treatment |
- Procedures
- Drugs
- anti-inflammatory
- muscle relaxants
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Deficiencies of intracellular signaling peptides and proteins |
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| GTP-binding protein regulators | |
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| G protein | |
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| MAP kinase | |
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| Other kinase/phosphatase | |
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| Signal transducing adaptor proteins | |
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| Other | |
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| See also intracellular signaling peptides and proteins Index of cells |
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| Description |
- Structure
- Organelles
- peroxisome
- cytoskeleton
- centrosome
- epithelia
- cilia
- mitochondria
- Membranes
- Membrane transport
- ion channels
- vesicular transport
- solute carrier
- ABC transporters
- ATPase
- oxidoreduction-driven
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| Disease |
- Structural
- peroxisome
- cytoskeleton
- cilia
- mitochondria
- nucleus
- scleroprotein
- Membrane
- channelopathy
- solute carrier
- ATPase
- ABC transporters
- other
- extracellular ligands
- cell surface receptors
- intracellular signalling
- Vesicular transport
- Pore-forming toxins
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