Diederik W.D. Kuster scite author profile

Rationale High-myofilament Ca2+-sensitivity has been proposed as trigger of disease pathogenesis in familial hypertrophic cardiomyopathy (HCM) based on in vitro and transgenic mice studies. However, myofilament Ca2+-sensitivity depends on protein phosphorylation and muscle length, and at present, data in human are scarce. Objective To investigate whether high-myofilament Ca2+-sensitivity and perturbed length-dependent activation are characteristics for human HCM with mutations in thick- and thin-filament proteins. Methods and Results Cardiac samples from patients with HCM harboring mutations in genes encoding thick (MYH7, MYBPC3) and thin (TNNT2, TNNI3, TPM1) filament proteins were compared with sarcomere mutation-negative HCM and nonfailing donors. Cardiomyocyte force measurements showed higher myofilament Ca2+-sensitivity in all HCM samples and low phosphorylation of protein kinase A (PKA)-targets compared with donors. After exogenous PKA treatment, myofilament Ca2+-sensitivity was either similar (MYBPC3mut, TPM1mut, sarcomere mutation-negative HCM), higher (MYH7mut, TNNT2mut), or even significantly lower (TNNI3mut) compared with donors. Length-dependent activation was significantly smaller in all HCM than in donor samples. PKA treatment increased phosphorylation of PKA-targets in HCM myocardium and normalized length-dependent activation to donor values in sarcomere mutation-negative HCM and HCM with truncating MYBPC3 mutations, but not in HCM with missense mutations. Replacement of mutant by wild-type troponin in TNNT2mut and TNNI3mut corrected length-dependent activation to donor values. Conclusions High-myofilament Ca2+-sensitivity is a common characteristic of human HCM and partly reflects hypophosphorylation of PKA-targets compared with donors. Length-dependent sarcomere activation is perturbed by missense mutations, possibly via post-translational modifications other than PKA-hypophosphorylation or altered protein–protein interactions, and represents a common pathomechanism in HCM.

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Cardiac Microvascular Endothelial Enhancement of Cardiomyocyte Function Is Impaired by Inflammation and Restored by Empagliflozin

Juni

Kuster

Goebel

et al. 2019

JACC: Basic to Translational Science

151

137

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Proteomic and Functional Studies Reveal Detyrosinated Tubulin as Treatment Target in Sarcomere Mutation-Induced Hypertrophic Cardiomyopathy

Schuldt

Pei

Harakaľová

et al. 2021

Circ: Heart Failure

109

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Background: Hypertrophic cardiomyopathy (HCM) is the most common genetic heart disease. While ≈50% of patients with HCM carry a sarcomere gene mutation (sarcomere mutation-positive, HCM SMP ), the genetic background is unknown in the other half of the patients (sarcomere mutation-negative, HCM SMN ). Genotype-specific differences have been reported in cardiac function. Moreover, HCM SMN patients have later disease onset and a better prognosis than HCM SMP patients. To define if genotype-specific derailments at the protein level may explain the heterogeneity in disease development, we performed a proteomic analysis in cardiac tissue from a clinically well-phenotyped HCM patient group. Methods: A proteomics screen was performed in cardiac tissue from 39 HCM SMP patients, 11HCM SMN patients, and 8 nonfailing controls. Patients with HCM had obstructive cardiomyopathy with left ventricular outflow tract obstruction and diastolic dysfunction. A novel MYBPC3 2373insG mouse model was used to confirm functional relevance of our proteomic findings. Results: In all HCM patient samples, we found lower levels of metabolic pathway proteins and higher levels of extracellular matrix proteins. Levels of total and detyrosinated α-tubulin were markedly higher in HCM SMP than in HCM SMN and controls. Higher tubulin detyrosination was also found in 2 unrelated MYBPC3 mouse models and its inhibition with parthenolide normalized contraction and relaxation time of isolated cardiomyocytes. Conclusions: Our findings indicate that microtubules and especially its detyrosination contribute to the pathomechanism of patients with HCM SMP . This is of clinical importance since it represents a potential treatment target to improve cardiac function in patients with HCM SMP , whereas a beneficial effect may be limited in patients with HCM SMN .

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