16p13.11 microdeletion uncovers loss‐of‐function of a <i>MYH11</i> missense variant in a patient with megacystis‐microcolon‐intestinal‐hypoperistalsis syndrome

Kloth, Katja; Renner, Sina; Burmester, Gunter; Steinemann, Doris; Pabst, Brigitte; Lorenz, Birgit; Simon, Ronald; Kolbe, Verena; Hempel, Maja; Rosenberger, Georg

doi:10.1111/cge.13557

Cited by 24 publications

(28 citation statements)

References 32 publications

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“…In addition to the association with TAAD/PDA, four individuals with MYH11 mutations have been reported with MMIHS, a recessive disease characterized by impaired intestinal motility likely caused by smooth muscle degeneration through a loss‐of‐function mechanism (MIM# 155310). MYH11 mutations from this cohort include one homozygous nonsense variant, two compound heterozygous frameshift variants, a compound heterozygous missense variant and 1.3 Mb deletion in 16p13.11 that includes MYH11 , and a compound heterozygous missense variant and indel (Gauthier et al, 2015; Kloth et al, 2019; Q. Wang et al, 2019; Yetman & Starr, 2018). Mutations in ACTG2, MYL9, LMOD1 , and MYLK , which encode other smooth muscle proteins, have also been implicated in MMIHS disease pathogenesis (Halim, Brosens, et al, 2017; Halim, Wilson, et al, 2017; Moreno et al, 2018; Thorson et al, 2014; Wangler et al, 2014).…”

Section: Discussionmentioning

confidence: 99%

Protein‐elongating mutations inMYH11are implicated in a dominantly inherited smooth muscle dysmotility syndrome with severe esophageal, gastric, and intestinal disease

et al. 2020

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Gastrointestinal motility disorders include a spectrum of mild to severe clinical phenotypes that are caused by smooth muscle dysfunction. We investigated the genetic etiology of severe esophageal, gastric, and colonic dysmotility in two unrelated families with autosomal dominant disease presentation. Using exome sequencing, we identified a 2 base pair insertion at the end of the myosin heavy chain 11 (MYH11) gene in all affected members of Family 1 [NM_001040113:c. 5819_5820insCA(p.Gln1941Asnfs*91)] and a 1 base pair deletion at the same genetic locus in Proband 2 [NM_001040113:c.5819del(p.Pro1940Hisfs*91)]. Both variants are predicted to result in a similarly elongated protein product. Heterozygous dominant negative MYH11 pathogenic variants have been associated with thoracic aortic aneurysm and dissection while biallelic null alleles have been associated with megacystis microcolon intestinal hypoperistalsis syndrome. This report highlights heterozygous protein-elongating MYH11 variants affecting the SM2 isoforms of MYH11 as a cause for severe gastrointestinal dysmotility, and we hypothesize that the mechanistic pathogenesis of this disease, dominant hypercontractile loss-of-function, is distinct from those implicated in other diseases involving MYH11 dysfunction. K E Y W O R D S dysmotility, gastroparesis, hiatal hernia, MYH11, pseudo-obstruction

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Section: Discussionmentioning

confidence: 99%

Protein‐elongating mutations inMYH11are implicated in a dominantly inherited smooth muscle dysmotility syndrome with severe esophageal, gastric, and intestinal disease

et al. 2020

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“…The variant locates at the end of the protein and elongates the protein. Although recessive genotypes in MYH11 were reported in three separated case (one homozygotes and two compound‐heterozygotes) as a cause of megacystis‐microcolon‐intestinal hypoperistalsis syndrome (Supplementary Figure 1), heterozygous MYH11 pathogenic variants have not been previously reported in CIPO. Heterozygous pathogenic MYH11 variants were reported for Thoracic Aortic Aneurysm and/or aortic Dissection (TAAD) and Patent Ductus Arteriosus .…”

Section: Discussionmentioning

confidence: 99%

“…It is one of the contractile apparatus components and pathogenic variants in the protein impair its polymerization and result in the reduced cellular contractility . Additionally, homozygous mutations in MYLK , MYH11 , LMOD1 , MYL9 , and RAD21 and X‐linked mutation in FLNA have been found in a small number of cases. Moreover, compound‐heterozygous mutations in MYH11 have also been reported in two CIPO families .…”

Section: Introductionmentioning

confidence: 99%

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Identification of a dominant MYH11 causal variant in chronic intestinal pseudo‐obstruction: Results of whole‐exome sequencing

et al. 2019

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Chronic Intestinal Pseudo‐Obstruction (CIPO) is a rare gastrointestinal disorder, which affects the smooth muscle contractions of the gastrointestinal tract. Dominant mutations in the smooth muscle actin gene, ACTG2, accounts for 44%‐50% of CIPO patients. Other recessive or X‐linked genes, including MYLK, LMOD1, RAD21, MYH11, MYL9, and FLNA were reported in single cases. In this study, we used Whole‐Exome Sequencing (WES) to study 23 independent CIPO families including one extended family with 13 affected members. A dominantly inherited rare mutation, c.5819delC (p.Pro1940HisfsTer91), in the smooth muscle myosin gene, MYH11, was found in the extended family, shared by 7 affected family members but not by 3 unaffected family members with available DNA, suggesting a high probability of genetic linkage. Gene burden analysis indicates that additional genes, COL4A1, FBLN1 and HK2, may be associated with the disease. This study expanded our understanding of CIPO etiology and provided additional genetic evidence to physicians and genetic counselors for CIPO diagnosis.

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“…Several genetic studies identified heterozygous pathogenic missense variations in the enteric smooth muscle Actin γ‐2 gene ( ACTG2 , MIM#102545), 4‐12 as the major genetic cause of MMIHS. Recently, homozygous or compound heterozygous variants have been identified, respectively in the smooth muscle myosin heavy chain gene ( MYH11 , MIM#160745), 13‐16 the Leiomodin1 gene ( LMOD1 , MIM#602715), 17 and in the myosin light chain kinase gene ( MYLK , MIM#600922) 18 . In addition, a homozygous deletion of exon 4 of MYL9 (MIM#609905) has been reported 19 .…”

Section: Introductionmentioning

confidence: 99%

Fetal megacystis‐microcolon: Genetic mutational spectrum and identification of PDCL3 as a novel candidate gene

et al. 2020

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Megacystis‐microcolon‐intestinal‐hypoperistalsis syndrome (MMIHS) is a severe congenital visceral myopathy characterized by an abdominal distension due to a large non‐obstructed urinary bladder, a microcolon and intestinal hypo‐ or aperistalsis. Most of the patients described to date carry a sporadic heterozygous variant in ACTG2. More recently, recessive forms have been reported and mutations in MYH11, LMOD1, MYLK and MYL9 have been described at the molecular level. In the present report, we describe five patients carrying a recurrent heterozygous variant in ACTG2. Exome sequencing performed in four families allowed us to identify the genetic cause in three. In two families, we identified variants in MMIHS causal genes, respectively a nonsense homozygous variant in MYH11 and a previously described homozygous deletion in MYL9. Finally, we identified compound heterozygous variants in a novel candidate gene, PDCL3, c.[143_144del];[380G>A], p.[(Tyr48Ter)];[(Cys127Tyr)]. After cDNA analysis, a complete absence of PDLC3 expression was observed in affected individuals, indicating that both mutated transcripts were unstable and prone to mediated mRNA decay. PDCL3 encodes a protein involved in the folding of actin, a key step in thin filament formation. Presumably, loss‐of‐function of this protein affects the contractility of smooth muscle tissues, making PDCL3 an excellent candidate gene for autosomal recessive forms of MMIHS.

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16p13.11 microdeletion uncovers loss‐of‐function of a MYH11 missense variant in a patient with megacystis‐microcolon‐intestinal‐hypoperistalsis syndrome

Cited by 24 publications

References 32 publications

Protein‐elongating mutations inMYH11are implicated in a dominantly inherited smooth muscle dysmotility syndrome with severe esophageal, gastric, and intestinal disease

Protein‐elongating mutations inMYH11are implicated in a dominantly inherited smooth muscle dysmotility syndrome with severe esophageal, gastric, and intestinal disease

Identification of a dominant MYH11 causal variant in chronic intestinal pseudo‐obstruction: Results of whole‐exome sequencing

Fetal megacystis‐microcolon: Genetic mutational spectrum and identification of PDCL3 as a novel candidate gene

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