Familial Dilated Cardiomyopathy Associated With a Novel Combination of Compound Heterozygous TNNC1 Variants

Landim-Vieira, Maicon; Johnston, Jamie R.; Ji, Weizhen; Mis, Emily K; Tijerino, Joshua; Spencer‐Manzon, Michele; Jeffries, Lauren; Hall, E. Kevin; Panisello‐Manterola, David; Khokha, Mustafa K.; Deniz, Engin; Chase, P. Bryant; Lakhani, Saquib A.; Pinto, José R.

doi:10.3389/fphys.2019.01612

Cited by 22 publications

(24 citation statements)

References 59 publications

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“…Steady-state isometric force data were analyzed and fit using a two-or three-parameter sigmoidal Hill equation as previously described. 19,36,37 Rate of Tension Redevelopment (k TR ): Briefly, after force levels reached a steady state at different Ca 2+ activation levels, measurements of the rate of tension redevelopment were obtained by shortening a CMP by 20% of its original length (L 0 ), followed by a rapid 25% restretch, and shortened back to L 0 . 36−38 The CMP lengths were controlled using a high-speed servomotor model 322C from Aurora Scientific.…”

Section: ■ Methodsmentioning

confidence: 99%

“…All experiments were performed at room temperature (21 °C). Steady-state isometric force data were analyzed and fit using a two- or three-parameter sigmoidal Hill equation as previously described. ,, …”

Section: Methodsmentioning

confidence: 99%

“…The SS data were analyzed using R Studio Fast Fourier transform, and the values were reported in units of megapascals. The data were fit using a four-parameter sigmoidal Hill equation as previously described. ,, Statistical analyses between groups was done with the unpaired Student’s t -test with SigmaPlot v12 (Systat Software, Inc.).…”

Section: Methodsmentioning

confidence: 99%

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Eliminating the First Inactive State and Stabilizing the Active State of the Cardiac Regulatory System Alters Behavior in Solution and in Ordered Systems

et al. 2020

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Calcium binding to troponin C (TnC) is insufficient for full activation of myosin ATPase activity by actin-tropomyosin-troponin. Previous attempts to investigate full activation utilized ATP-free myosin or chemically modified myosin to stabilize the active state of regulated actin. We utilized the Δ14-TnT and the A8V-TnC mutants to stabilize the activated state at saturating Ca2+ and to eliminate one of the inactive states at low Ca2+. The observed effects differed in solution studies and in the more ordered in vitro motility assay and in skinned cardiac muscle preparations. At saturating Ca2+, full activation with Δ14-TnT·A8V-TnC decreased the apparent K M for actin-activated ATPase activity compared to bare actin filaments. Rates of in vitro motility increased at both high and low Ca2+ with Δ14-TnT; the maximum shortening speed at high Ca2+ increased 1.8-fold. Cardiac muscle preparations exhibited increased Ca2+ sensitivity and large increases in resting force with either Δ14-TnT or Δ14-TnT·A8V-TnC. We also observed a significant increase in the maximal rate of tension redevelopment. The results of full activation with Ca2+ and Δ14-TnT·A8V-TnC confirmed and extended several earlier observations using other means of reaching full activation. Furthermore, at low Ca2+, elimination of the first inactive state led to partial activation. This work also confirms, in three distinct experimental systems, that troponin is able to stabilize the active state of actin-tropomyosin-troponin without the need for high-affinity myosin binding. The results are relevant to the reason for two inactive states and for the role of force producing myosin in regulation.

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Section: ■ Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Eliminating the First Inactive State and Stabilizing the Active State of the Cardiac Regulatory System Alters Behavior in Solution and in Ordered Systems

et al. 2020

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“…The double compound heterozygous DCM variant (E59D/D75Y) has also been shown to decrease myofilament Ca 2+ sensitivity and reduce strong actin–myosin binding [ 135 , 136 ]. A recent study by Landim-Vieira et al, 2019 on the missense compound heterozygous DCM-causing variants (D132N and D145E) demonstrated no significant changes in contractile parameters, indicating to the potential involvement of other pathological mechanisms beyond myofilament dysfunction [ 137 ].…”

Section: Cardiomyopathy Causative Mutations In Sarcomeric Proteinsmentioning

confidence: 99%

Cardiomyocyte Dysfunction in Inherited Cardiomyopathies

Hassoun

Budde

Mügge

et al. 2021

IJMS

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Inherited cardiomyopathies form a heterogenous group of disorders that affect the structure and function of the heart. Defects in the genes encoding sarcomeric proteins are associated with various perturbations that induce contractile dysfunction and promote disease development. In this review we aimed to outline the functional consequences of the major inherited cardiomyopathies in terms of myocardial contraction and kinetics, and to highlight the structural and functional alterations in some sarcomeric variants that have been demonstrated to be involved in the pathogenesis of the inherited cardiomyopathies. A particular focus was made on mutation-induced alterations in cardiomyocyte mechanics. Since no disease-specific treatments for familial cardiomyopathies exist, several novel agents have been developed to modulate sarcomere contractility. Understanding the molecular basis of the disease opens new avenues for the development of new therapies. Furthermore, the earlier the awareness of the genetic defect, the better the clinical prognostication would be for patients and the better the prevention of development of the disease.

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“…The emphasis should be on accurate quantification of defective phenotypes as they arise in the developing embryo and study of genes whose human orthologs are implicated in congenital disease. X. tropicalis knock-outs have already been used as part of large, multi-species studies that confirm disease causality for candidate genes identified through patient genome sequencing [13,88,89]. The real challenge is to move beyond functional-nulls and to replicate the actual missense mutations found in patients, which are likely to encode far subtler hypomorphic changes to protein activity.…”

Section: Laevis and X Tropicalis Are Suited To Different Types Of Gene Editing Projects (At The Moment)mentioning

confidence: 99%

How to increase precision in Xenopus gene editing and base editing experiments

Smith¹

2021

Preprint

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Familial Dilated Cardiomyopathy Associated With a Novel Combination of Compound Heterozygous TNNC1 Variants

Cited by 22 publications

References 59 publications

Eliminating the First Inactive State and Stabilizing the Active State of the Cardiac Regulatory System Alters Behavior in Solution and in Ordered Systems

Eliminating the First Inactive State and Stabilizing the Active State of the Cardiac Regulatory System Alters Behavior in Solution and in Ordered Systems

Cardiomyocyte Dysfunction in Inherited Cardiomyopathies

How to increase precision in Xenopus gene editing and base editing experiments

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