2020
DOI: 10.1101/2020.05.04.20087726
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Protein haploinsufficiency drivers identifyMYBPC3mutations that cause hypertrophic cardiomyopathy

Abstract: Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiac disease. Mutations in MYBPC3, the gene encoding cardiac myosin-binding protein C (cMyBP-C), are a leading cause of HCM. However, it remains challenging to define whether specific gene variants found in patients are pathogenic or not, limiting the reach of cardiovascular genetics in the management of HCM. Here, we have examined cMyBP-C haploinsufficiency drivers in 68 clinically annotated non-truncating variants of MYBPC3. We find that 45% o… Show more

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Cited by 6 publications
(15 citation statements)
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“…The variants are located in exon 17 of the MYBPC3 gene, which together with exon 16 codifies for the C3 domain of cMyBP-C (Supplementary Text S1; Figure ). Many HCM missense mutations cluster in C3, , but no protein interactors have been described for this domain, as expected from its location far from the anchoring points of cMyBP-C to actomyosin filaments. , Hence, mutations targeting C3 are arguably not predicted to affect cMyBP-C interactions, which is in agreement with the normal sarcomere localization of missense mutant cMyBP-C proteins in HCM myocardium. , In addition, the high-resolution structure of C3 is known, which can help interpret the effects of the mutations (Figure ). We first verified that the pathogenic mutations do not induce RNA splicing defects or extensive protein structural destabilization, two classical protein haploinsufficiency drivers linked to pathogenicity in 45% of cMyBP-C missense mutations …”
Section: Resultsmentioning
confidence: 79%
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“…The variants are located in exon 17 of the MYBPC3 gene, which together with exon 16 codifies for the C3 domain of cMyBP-C (Supplementary Text S1; Figure ). Many HCM missense mutations cluster in C3, , but no protein interactors have been described for this domain, as expected from its location far from the anchoring points of cMyBP-C to actomyosin filaments. , Hence, mutations targeting C3 are arguably not predicted to affect cMyBP-C interactions, which is in agreement with the normal sarcomere localization of missense mutant cMyBP-C proteins in HCM myocardium. , In addition, the high-resolution structure of C3 is known, which can help interpret the effects of the mutations (Figure ). We first verified that the pathogenic mutations do not induce RNA splicing defects or extensive protein structural destabilization, two classical protein haploinsufficiency drivers linked to pathogenicity in 45% of cMyBP-C missense mutations …”
Section: Resultsmentioning
confidence: 79%
“…All mutations retain close-to-WT thermal stability (Supplementary File S1; Supplementary Figure S4b). The maximum drop in T m was 5.3 °C for mutant R502Q; however, this limited decrease in thermal stability can also be found in nonpathogenic missense variants targeting C3 and therefore cannot explain the pathogenicity of the mutation …”
Section: Resultsmentioning
confidence: 93%
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“…Moreover, the correct classification of novel variants needs functional evidence, conferred by studies often complicated to perform and requiring specific laboratory competences [ 148 , 149 ]. Conversely, in silico evaluations, using several bioinformatics tools, are used to predict the likelihood of pathogenicity of missense and splicing variants.…”
Section: Molecular Analysis Of Mitochondrial Cardiomyopathiesmentioning
confidence: 99%