2020
DOI: 10.1093/europace/euaa093
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Dysferlin links excitation–contraction coupling to structure and maintenance of the cardiac transverse–axial tubule system

Abstract: Abstract Aims The multi-C2 domain protein dysferlin localizes to the T-Tubule system of skeletal and heart muscles. In skeletal muscle, dysferlin is known to play a role in membrane repair and in T-tubule biogenesis and maintenance. Dysferlin deficiency manifests as muscular dystrophy of proximal and distal muscles. Cardiomyopathies have been also reported, and some dysferlinopathy mouse mode… Show more

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Cited by 16 publications
(17 citation statements)
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“…Ptpn23 deletion results in a decrease in transverse T-tubules and an increase in longitudinal T-tubules, which is similar to that observed in dysferlin knockout cardiomyocytes. 16 Because both Ptpn23 and dysferlin are involved in membrane remodeling, the similarity in T-tubule patterning after their disruption may reflect a defect in general membrane remodeling, which remains to be determined.…”
Section: Ptpn23 Is Required For T-tubule Maintenance In Adult Cardiom...mentioning
confidence: 99%
See 1 more Smart Citation
“…Ptpn23 deletion results in a decrease in transverse T-tubules and an increase in longitudinal T-tubules, which is similar to that observed in dysferlin knockout cardiomyocytes. 16 Because both Ptpn23 and dysferlin are involved in membrane remodeling, the similarity in T-tubule patterning after their disruption may reflect a defect in general membrane remodeling, which remains to be determined.…”
Section: Ptpn23 Is Required For T-tubule Maintenance In Adult Cardiom...mentioning
confidence: 99%
“…[1][2][3][4][5][6][7] A variety of membrane scaffolding proteins are involved in T-tubule biogenesis and maintenance, 2,8 including Bin1 (bridging integrator 1), 9 Jph2 (junctophilin-2), [10][11][12][13] nexilin, 14 Cav3 (caveolin 3), 15 and dysferlin. 16 However, it remains unclear how the organized T-tubules are formed along the Z-discs in cardiomyocytes.…”
mentioning
confidence: 99%
“…The mechanisms that drive cardiac t‐tubule remodelling are not properly understood. However, recent evidence indicates that dysferlin associates with cardiac t‐tubules (Hofhuis et al., 2020), suggesting a similar relationship between dysferlin and the t‐tubule network may exist in both striated muscle types. Whilst there is a lack of evidence for cardiac sarcolemmal damage under physiological conditions, damage to the sarcolemma has been observed in specific cardiomyopathies (Clarke et al., 1995; Kostin et al., 2003).…”
Section: Introductionmentioning
confidence: 99%
“…Cardiomyopathy is usually absent or mild in dysferlin‐null animals, at least in young individuals under laboratory conditions (Chase et al., 2009; Hofhuis et al., 2020; Wei et al., 2015; Wenzel et al., 2007). Most reports show little to no evidence of cardiac hypertrophy or contractility in hearts or isolated cardiac myocytes from young dysferlin‐deficient mice compared to controls (Chase et al., 2009; Hofhuis et al., 2020; Wei et al., 2015; Wenzel et al., 2007).…”
Section: Introductionmentioning
confidence: 99%
“…Dysferlin is a membrane repair protein that can generate tubules, de novo, in non-cardiac cell lines(Hofhuis et al, 2017) and is known to regulate t-tubules and EC coupling in skeletal myocytes(Klinge et al, 2007;Kerr et al, 2013). It is now emerging that dysferlin may regulate t-tubules and Ca 2+ handling in the heart(Hofhuis et al, 2020), but these mechanisms are poorly understood. Aims I)To investigate whether dysferlin regulates the structure of the mouse cardiac t-tubule network and whether dysferlin can prevent t-tubules from acute damage.…”
mentioning
confidence: 99%