Congenital Heart Defect
Gene: MYH11
Exome sequencing of a family with PAD inherited in an AD manner (3 affected, 2 unaffected). A deletion of an intronic +1 splice donor site at exon 33 (c.4599+1delG) in MYH11 was found to segregate with available affected family members except one affected family member, (mother had a rubella infection while pregnant for this individual which is a known risk factor for PDA).
Dermal fibroblasts from one of the affected patients showed an in-frame deletion of exon 33 when compared to a control. Exon 33 encodes 71 amino acids of the coiled-coil domain of MYH11 that spans from amino acid 844 to 1934 and is important for protein function.
A French kindred presenting with TAAD/PDA showed two heterozygous mutations affecting the same allele. The first, a splice-donor site of intron 32 (IVS32+1G>T), the second a missense in exon 37 (G5361>A) resulting in a charged amino acid, arginine, being replaced by an uncharged amino acid, glutamine (R1758Q). Both mutations were identified in all subjects carrying the disease haplotype, but neither was found in 340 normal chromosomes. The splice site mutation were confirmed from the cultured fibroblasts of two affected subjects showing that exon 32 was missing, resulting in an in-frame deletion of 71 amino acids (L1456_N1526del) in the C-terminal region of the (MYH11 encoded) smooth muscle myosin heavy chain (SM-MHC).
In American kindred a 72-nucleotide deletion was detected within exon 28 of the MYH11 gene (3810_3881del) that was not detected in 340 normal chromosomes. This in-frame deletion corresponds to the loss of 24 amino acids (R1241_L1264del), also in the C-terminal region of SM-MHC.
A different study revealed an MYH11 in frame splice-site alteration in one out of two probands with TAA(D) associated with PDA but none in the series of 22 with non-syndromic TAAD.
Sequencing of MYH11 in 93 families with TAAD alone and three families with TAAD/PDA revealed MYH11 alterations in the probands from two of three TAAD/PDA families but none in families with TAAD alone. Two closely linked missense alterations, L1264P (3791T > C) and R1275L (3824G > T) co-segregated, in the coiled–coiled domain in the first family and the missense alteration R712Q (2153C > T), in the MYH11 ATPase head region in the second family. These alterations segregated with the TAAD/PDA phenotype in the families and were not present in 360 control chromosomes.
Two large Dutch kindreds with TAAD/PDA detected two different novel heterozygote MYH11 variants in the probands. These variants, a heterozygote missense variant (c. 232A>G, p. K78E) and a heterozygote in-frame deletion (3766-68delAAG), were predicted to have damaging effects on protein structure and function. However, these novel alterations did not segregate with the TAAD/PDA in 3 out of 11 cases in family 01 and in 2 out of 6 cases of family 02.
Lastly, a harmful MYH11 missense variant (c. T3728C, p. L1243P) co-segregated with the TAD/PDA phenotype in a family of four individuals. Histopathological examinations revealed the presence of fragmented, broken, and lessened elastic fibers in the median of aortic dissection. Immunofluorescence of labelled MYH11 protein in the tissue of the aortic dissection was weaker than that in the normal aorta.Created: 6 Nov 2023, 3:46 a.m. | Last Modified: 6 Nov 2023, 3:46 a.m.
Panel Version: 0.308
Mode of inheritance
MONOALLELIC, autosomal or pseudoautosomal, imprinted status unknown
Phenotypes
Patent Ductus Arteriosus (PDA)
Publications
Mode of pathogenicity
Other
gene: MYH11 was added gene: MYH11 was added to Congenital Heart Defect_VCGS. Sources: Expert Review Green,Victorian Clinical Genetics Services Mode of inheritance for gene: MYH11 was set to Unknown