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Dysferlin

From Wikipedia, the free encyclopedia
DYSF
Available structures
PDBOrtholog search: PDBe RCSB
Identifiers
AliasesDYSF, FER1L1, LGMD2B, MMD1, dysferlin, LGMDR2
External IDsOMIM: 603009; MGI: 1349385; HomoloGene: 20748; GeneCards: DYSF; OMA:DYSF - orthologs
Orthologs
SpeciesHumanMouse
Entrez
Ensembl
UniProt
RefSeq (mRNA)

NM_001077694
NM_021469
NM_001310152

RefSeq (protein)
Location (UCSC)Chr 2: 71.45 – 71.69 MbChr 6: 83.99 – 84.19 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Dysferlin also known as dystrophy-associated fer-1-like protein is a protein that in humans is encoded by the DYSF gene.[5] Dysferlin is linked with plasma membrane repair.,[6] stabilization of calcium signaling[7][8][9] and the development of the T-tubule system of the muscle[10] A defect in the DYSF gene, located on chromosome 2p12-14, results in several types of muscular dystrophy; including Miyoshi myopathy (MM), Limb-girdle muscular dystrophy type 2B (LGMD2B) and Distal Myopathy (DM). A reduction or absence of dysferlin, termed dysferlinopathy, usually becomes apparent in the third or fourth decade of life and is characterised by weakness and wasting of various voluntary skeletal muscles.[11] Pathogenic mutations leading to dysferlinopathy can occur throughout the DYSF gene.

Structure

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Ferlin family
Identifiers
SymbolDysferlin
OPM superfamily452
OPM protein4cah
Membranome205

The human dysferlin protein is a 237 kilodalton type-II transmembrane protein.[12][13][14][15][16] It contains a large intracellular cytoplasmic N-terminal domain, an extreme C-terminal transmembrane domain, and a short C-terminal extracellular domain. The cytosolic domain of dysferlin is composed of seven highly conserved C2 domains (C2A-G) which are conserved across several proteins within the ferlin family, including dysferlin homolog myoferlin.[17][18][13] In fact, the C2 domain at any given position is more similar to the C2 domain at the corresponding position within other ferlin family members than the adjacent C2 domain within the same protein. This suggests that each individual C2 domain may in fact play a specific role in dysferlin function and each has in fact been shown to be required for two of dysferlin's roles stabilization of calcium signaling and membrane repair.[19] Mutations in each of these domains can cause dysferlinopathy. A crystal structure of the C2A domain of human dysferlin has been solved, and reveals that the C2A domain changes conformation when interacting with calcium ions,[13] which is consistent with a growing body of evidence suggesting that the C2A domain plays a role in calcium-dependent lipid binding.[20] Its ability to stabilize calcium signaling in the intact dysferlin protein depends on its calcium binding activity.[21] In addition to the C2 domains, dysferlin also contains "FerA" and "DysF" domains. Mutations in both FerA[22] and DysF[23] can cause muscular dystrophies. DysF domain has an interesting structure as in contains one DysF domain within another DysF domain, a result of gene duplication; however, the function of this domain is currently unknown.[23] FerA domain is conserved among all members of ferlin protein family. FerA domain is a four helix bundle and it can interact with membrane, usually in a calcium-dependent manner.[22]

Function

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The most intensively studied role for dysferlin is in a cellular process called membrane repair. Membrane repair is a critical mechanism by which cells are able to seal dramatic wounds to the plasma membrane. Muscle is thought to be particularly prone to membrane wounds given that muscle cells transmit high force and undergo cycles of contraction. Dysferlin is highly expressed in muscle, and is homologous to the ferlin family of proteins, which are thought to regulate membrane fusion across a wide variety of species and cell types.[24] Several lines of evidence suggest that dysferlin may be involved in membrane repair in muscle. First, dysferlin-deficient muscle fibers show accumulation of vesicles (which are critical for membrane repair in non-muscle cell types) near membrane lesions, indicating that dysferlin may be required for fusion of repair vesicles with the plasma membrane. Further, dysferlin-deficient muscle fibers take up extracellular dyes to a greater extent than wild-type muscle fibers following laser-induced wounding in-vitro.[25] Dysferlin is also markedly enriched at membrane lesions with several additional proteins thought to be involved in membrane resealing, including annexin and MG53.[26] Exactly how dysferlin contributes to membrane resealing is not clear, but biochemical evidence indicates that dysferlin may bind lipids in a calcium-dependent manner, consistent with a role for dysferlin in regulating fusion of repair vesicles with the sarcolemma during membrane repair.[27] Furthermore, live-cell imaging of dysferlin-eGFP expressing myotubes indicates that dysferlin localizes to a cellular compartment that responds to injury by forming large dysferlin-containing vesicles, and formation of these vesicles may contribute to wound repair.[28] Dysferlin may also be involved in Alzheimer's disease pathogenesis.[29]

Another well studied role for dysferlin is in stabilization of calcium signaling, especially following a mild injury. This approach was based on two observations: that muscle lacking dysferlin that is injured by eccentric contractions can repair its plasma membrane, or sarcolemma, as efficiently as healthy muscle can,[30] and that most of the dysferlin in healthy muscle is concentrated in the transverse tubules at triad junctions,[31][32] where calcium release is regulated. Destabilization of signaling in dysferlinopathic muscle can result in the generation of calcium waves,[33] which can contribute to the disease pathology. Nearly every change in dysferlin that affects membrane repair also destabilizes calcium signaling,[34] suggesting that these two activities are closely linked. Remarkably, however, membrane repair requires calcium ions, whereas calcium ions contribute to the destabilization of signaling when dysferlin is absent or mutated.[35] These paradoxical results have yet to be reconciled.

Interactions

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Dysferlin has been shown to bind to itself, to form dimers and perhaps larger oligomers.[36] It can also has been shown to interact with Caveolin 3 in skeletal muscle,[37] and this interaction is thought to retain dysferlin within the plasma membrane.[38] Dysferlin also interacts with MG53, and a functional interaction between dysferlin, caveolin-3 and MG53 is thought to be critical for membrane repair in skeletal muscle.[39]

References

[edit]
  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000135636Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000033788Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Passos-Bueno MR, Richard I, Vainzof M, Fougerousse F, Weissenbach J, Broux O, Cohen D, Akiyama J, Marie SK, Carvalho AA (May 1993). "Evidence of genetic heterogeneity in the autosomal recessive adult forms of limb-girdle muscular dystrophy following linkage analysis with 15q probes in Brazilian families". Journal of Medical Genetics. 30 (5): 385–7. doi:10.1136/jmg.30.5.385. PMC 1016373. PMID 8320700.
  6. ^ "Entrez Gene: DYSF dysferlin, limb girdle muscular dystrophy 2B (autosomal recessive)".
  7. ^ Kerr JP, Ziman AP, Mueller AL, et al. (December 2013). "Dysferlin Stabilizes Stress-induced Ca2+ Signaling in the Transverse Tubule Membrane". Proc. Natl. Acad. Sci. USA. 110 (51): 20831–20836. Bibcode:2013PNAS..11020831K. doi:10.1073/pnas.1307960110. PMC 3870721. PMID 24302765.
  8. ^ Kerr JP, Ward CW, Bloch RJ (March 2014). "Dysferlin at Transverse Tubules Regulates Ca2+ Homeostasis in Skeletal Muscle". Frontiers in Physiology. 5: 89. doi:10.3389/fphys.2014.00089. PMC 3944681. PMID 24639655.
  9. ^ Lukyanenko V, Muriel JM, Bloch RJ (August 2017). "Coupling of Excitation to Ca2+ Release is Modulated by Dysferlin". J. Physiol. 595 (15): 5191–5207. doi:10.1113/JP274515. PMC 5538227. PMID 8568606.
  10. ^ Hofhuis J, Bersch K, Wagner S, Molina C, Fakuade FE, Iyer LM, Streckfuss-Bömeke K, Toischer K, Zelarayán LC, Voigt N, Nikolaev VO, Maier LS, Klinge L, Thoms S (July 2020). "Dysferlin links excitation-contraction coupling to structure and maintenance of the cardiac transverse-axial tubule system". Europace. 22 (7): 1119–1131. doi:10.1093/europace/euaa093. PMID 32572487.
  11. ^ Leiden University Medical Center, Center for Human and Clinical Genetics - Dysferlin Retrieved 21 June 2007.
  12. ^ Kawahara G, Serafini PR, Myers JA, Alexander MS, Kunkel LM (September 2011). "Characterization of zebrafish dysferlin by morpholino knockdown". Biochemical and Biophysical Research Communications. 413 (2): 358–363. doi:10.1016/j.bbrc.2011.08.105. PMC 4526276. PMID 21893049.
  13. ^ a b c Fuson K, Rice A, Mahling R, Snow A, Nayak K, Shanbhogue P, et al. (January 2014). "Alternate splicing of dysferlin C2A confers Ca²⁺-dependent and Ca²⁺-independent binding for membrane repair". Structure. 22 (1): 104–115. doi:10.1016/j.str.2013.10.001. PMC 5993433. PMID 24239457.
  14. ^ Demonbreun AR, Allen MV, Warner JL, Barefield DY, Krishnan S, Swanson KE, et al. (June 2016). "Enhanced Muscular Dystrophy from Loss of Dysferlin Is Accompanied by Impaired Annexin A6 Translocation after Sarcolemmal Disruption". The American Journal of Pathology. 186 (6): 1610–1622. doi:10.1016/j.ajpath.2016.02.005. PMC 4901136. PMID 27070822.
  15. ^ Cacciottolo M, Numitone G, Aurino S, Caserta IR, Fanin M, Politano L, et al. (September 2011). "Muscular dystrophy with marked Dysferlin deficiency is consistently caused by primary dysferlin gene mutations". European Journal of Human Genetics. 19 (9): 974–980. doi:10.1038/ejhg.2011.70. PMC 3179367. PMID 21522182.
  16. ^ Matsuda C, Kiyosue K, Nishino I, Goto Y, Hayashi YK (October 2015). "Dysferlinopathy Fibroblasts Are Defective in Plasma Membrane Repair". PLOS Currents. 7. doi:10.1371/currents.md.5865add2d766f39a0e0411d38a7ba09c. PMC 4639325. PMID 26579332.
  17. ^ Vafiadaki E, Reis A, Keers S, Harrison R, Anderson LV, Raffelsberger T, et al. (March 2001). "Cloning of the mouse dysferlin gene and genomic characterization of the SJL-Dysf mutation". NeuroReport. 12 (3): 625–629. doi:10.1097/00001756-200103050-00039. PMID 11234777. S2CID 22800606.
  18. ^ Abdullah N, Padmanarayana M, Marty NJ, Johnson CP (January 2014). "Quantitation of the calcium and membrane binding properties of the C2 domains of dysferlin". Biophysical Journal. 106 (2): 382–389. Bibcode:2014BpJ...106..382A. doi:10.1016/j.bpj.2013.11.4492. PMC 3907215. PMID 24461013.
  19. ^ Muriel J, Lukyanenko V, Kwiatkowski T, Bhattacharya S, Garman D, Weisleder N, Bloch RJ (April 2022). "The C2 domains of dysferlin: roles in membrane localization, Ca2+ signalling and sarcolemmal repair". The Journal of Physiology. 600 (8): 1953–1968. doi:10.1113/JP282648. PMC 9285653. PMID 35156706.
  20. ^ Therrien C, Di Fulvio S, Pickles S, Sinnreich M (March 2009). "Characterization of lipid binding specificities of dysferlin C2 domains reveals novel interactions with phosphoinositides". Biochemistry. 48 (11): 2377–2384. doi:10.1021/bi802242r. PMID 19253956.
  21. ^ Lukyanenko V, Muriel J, Garman D, Breydo L, Bloch RJ (November 2022). "Elevated Ca2+ at the triad junction underlies dysregulation of Ca2+ signaling in dysferlin-null skeletal muscle". Frontiers in Physiology. 13: 1032447. doi:10.3389/fphys.2022.1032447. PMC 9669649. PMID 36406982.
  22. ^ a b Harsini FM, Chebrolu S, Fuson KL, White MA, Rice AM, Sutton RB (July 2018). "FerA is a Membrane-Associating Four-Helix Bundle Domain in the Ferlin Family of Membrane-Fusion Proteins". Scientific Reports. 8 (1): 10949. Bibcode:2018NatSR...810949H. doi:10.1038/s41598-018-29184-1. PMC 6053371. PMID 30026467.
  23. ^ a b Sula A, Cole AR, Yeats C, Orengo C, Keep NH (January 2014). "Crystal structures of the human Dysferlin inner DysF domain". BMC Structural Biology. 14: 3. doi:10.1186/1472-6807-14-3. PMC 3898210. PMID 24438169.
  24. ^ Bashir R, Britton S, Strachan T, Keers S, Vafiadaki E, Lako M, Richard I, Marchand S, Bourg N, Argov Z, Sadeh M, Mahjneh I, Marconi G, Passos-Bueno MR, Moreira Ede S, Zatz M, Beckmann JS, Bushby K (1998). "A gene related to Caenorhabditis elegans spermatogenesis factor fer-1 is mutated in limb-girdle muscular dystrophy type 2B". Nat. Genet. 20 (1): 37–42. doi:10.1038/1689. PMID 9731527. S2CID 24234676.
  25. ^ Bansal D, Miyake K, Vogel SS, Groh S, Chen CC, Williamson R, McNeil PL, Campbell KP (2003). "Defective membrane repair in dysferlin-deficient muscular dystrophy". Nature. 423 (6936): 168–72. Bibcode:2003Natur.423..168B. doi:10.1038/nature01573. PMID 12736685. S2CID 4402938.
  26. ^ Roostalu U, Strähle U (2012). "In vivo imaging of molecular interactions at damaged sarcolemma". Dev. Cell. 22 (3): 515–29. doi:10.1016/j.devcel.2011.12.008. PMID 22421042.
  27. ^ Abdullah N, Padmanarayana M, Marty NJ, Johnson CP (2014). "Quantitation of the calcium and membrane binding properties of the C2 domains of dysferlin". Biophys. J. 106 (2): 382–9. Bibcode:2014BpJ...106..382A. doi:10.1016/j.bpj.2013.11.4492. PMC 3907215. PMID 24461013.
  28. ^ McDade JR, Michele DE (2014). "Membrane damage-induced vesicle-vesicle fusion of dysferlin-containing vesicles in muscle cells requires microtubules and kinesin". Hum. Mol. Genet. 23 (7): 1677–86. doi:10.1093/hmg/ddt557. PMC 3943514. PMID 24203699.
  29. ^ Chen JA, Wang Q, Davis-Turak J, et al. (April 2015). "A multiancestral genome-wide exome array study of Alzheimer disease, frontotemporal dementia, and progressive supranuclear palsy". JAMA Neurology. 72 (4): 414–22. doi:10.1001/jamaneurol.2014.4040. PMC 4397175. PMID 25706306.
  30. ^ Roche JA, Lovering RM, Vanapalli R, et al. (Feb 2010). "Extensive Mononuclear Infiltration and Myogenesis Characterize the Recovery of Dysferlin-Null Skeletal Muscle from Contraction-Induced Injuries". Am. J. Physiol. Cell Physiol. 298 (2): C298–C312. doi:10.1152/ajpcell.00122.2009. PMC 2822489. PMID 9923419.
  31. ^ Kerr JP, Ziman AP, Mueller AL, et al. (December 2013). "Dysferlin Stabilizes Stress-induced Ca2+ Signaling in the Transverse Tubule Membrane". Proc. Natl. Acad. Sci. USA. 110 (51): 20831–20836. Bibcode:2013PNAS..11020831K. doi:10.1073/pnas.1307960110. PMC 3870721. PMID 24302765.
  32. ^ Roche JA, Lovering RM, Vanapalli R, et al. (Feb 2010). "Extensive Mononuclear Infiltration and Myogenesis Characterize the Recovery of Dysferlin-Null Skeletal Muscle from Contraction-Induced Injuries". Am. J. Physiol. Cell Physiol. 298 (2): C298–C312. doi:10.1152/ajpcell.00122.2009. PMC 2822489. PMID 9923419.
  33. ^ Lukyanenko V, Muriel J, Bloch RJ (August 2017). "Coupling of Excitation to Ca2+ Release is Modulated by Dysferlin". J. Physiol. 595 (15): 5191–5207. doi:10.1113/JP274515. PMC 5538227. PMID 8568606.
  34. ^ Muriel J, Lukyanenko V, Kwiatkowski T, et al. (Apr 2022). "The C2 Domains of Dysferlin: Roles in Membrane Localization, Stabilization of Ca2+ Signaling, and Membrane Repair". J. Physiol. 600 (8): 1953–1968. doi:10.1113/JP282648. PMC 9285653. PMID 35156706.
  35. ^ Muriel J, Lukyanenko V, Kwiatkowski T, et al. (Apr 2022). "The C2 Domains of Dysferlin: Roles in Membrane Localization, Stabilization of Ca2+ Signaling, and Membrane Repair". J. Physiol. 600 (8): 1953–1968. doi:10.1113/JP282648. PMC 9285653. PMID 35156706.
  36. ^ Roche JA, Ru L, ONeill A, et al. (Nov 2011). "Unmasking Potential Intracellular Roles for Dysferlin through Improved Immunolabeling Methods". Journal of Histochemistry & Cytochemistry. 59 (11): 964–975. doi:10.1369/0022155411423274. PMC 3261626. PMID 22043020.
  37. ^ Matsuda C, Hayashi YK, Ogawa M, Aoki M, Murayama K, Nishino I, Nonaka I, Arahata K, Brown RH (August 2001). "The sarcolemmal proteins dysferlin and caveolin-3 interact in skeletal muscle". Hum. Mol. Genet. 10 (17): 1761–6. doi:10.1093/hmg/10.17.1761. PMID 11532985.
  38. ^ Hernández-Deviez DJ, Howes MT, Laval SH, Bushby K, Hancock JF, Parton RG (2008). "Caveolin regulates endocytosis of the muscle repair protein, dysferlin" (PDF). J. Biol. Chem. 283 (10): 6476–88. doi:10.1074/jbc.M708776200. PMID 18096699. S2CID 8337318.
  39. ^ Cai C, Weisleder N, Ko JK, Komazaki S, Sunada Y, Nishi M, Takeshima H, Ma J (2009). "Membrane repair defects in muscular dystrophy are linked to altered interaction between MG53, caveolin-3, and dysferlin". J. Biol. Chem. 284 (23): 15894–902. doi:10.1074/jbc.M109.009589. PMC 2708885. PMID 19380584.

Further reading

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