Similar colorectal cancer risk in patients with monoallelic and biallelic mutations in the MYH gene identified in a population with adenomatous polyposis

A large proportion of non-FAP non-HNPCC patients with multiple colorectal adenomas have been reported to carry germline mutations on the MYH gene. Although the number of adenomas appears to be dependent on the number of mutated MYH alleles present in a patient, little is known on the relation of this number with cancer risk. Four hundred fifty-three APC-negative patients with more than five colorectal adenomas were screened for mutations on the entire coding sequence of the MYH gene. Pathogenic mutations were initially found in 74 patients without extradigestive tumors (22.5%) and subsequently in 75 at-risk relatives. Polyposis was more severe in cases with biallelic mutations. However, mutation copy number was correlated neither with the age at diagnosis of adenomas or adenocarcinomas, nor with the presence of a family history of colorectal tumors. Heterozygous and homozygous MYH mutation carriers were both at high risk for synchronous cancers (24% in colorectum and 16% in the upper gastrointestinal tract), but did not demonstrate an increased risk for extradigestive tumors. MYH-associated polyposis is a frequent inherited colorectal cancer predisposition with a strong dominance component. From age 25-30, MYH mutation carriers should be proposed an early screening program, which includes endoscopies of the upper digestive tract and the colorectum every 2 years.     

Germline mutations in the MYH gene in Swedish familial and sporadic colorectal cancer

Biallelic germline mutations in the base excision repair gene MYH have been shown to predispose to a proportion of multiple colorectal adenomas and cancer. To evaluate the contribution of MYH mutations to non- FAP, non-HNPCC familial colorectal cancer, 84 unrelated Swedish individuals affected with colorectal cancer from such families were screened for germline mutations in the coding sequence of the gene. None of the cases was found to carry any pathogenic sequence change. We then determined the prevalence of the two most common pathogenic MYH mutations found in Caucasians, Y165C and G382D, in 450 Swedish sporadic colorectal cancer cases and 480 Swedish healthy controls. The frequency of both variants in Swedish cases and controls was similar to those previously reported. In addition, we found that previously unknown sequence variations at the position of amino acid 423 (R423Q, R423P, and R423R) appear to occur more frequently in cases than in controls (p = 0.02), a finding that warrants future studies.     

The thorough screening of the MUTYH gene in a large French cohort of sporadic colorectal cancers

The MUTYH gene encodes a key glycosylase of the base-excision repair system that is involved in maintaining genomic DNA stability against oxidative damage. Biallelic germline MUTYH mutations have been proved to greatly predispose to non-familial adenomatous polyposis (FAP) and non-hereditary non-polyposis colorectal cancer (HNPCC) familial recessive forms of colorectal cancer with multiple adenomas. To date, there is still much debate over the impact of monoallelic germline MUTYH mutations on colorectal carcinogenesis. To evaluate their role in the susceptibility to sporadic colon and rectum cancers, we screened 1024 French sporadic colorectal cancer cases and 1121 French healthy controls for Caucasian MUTYH-associated polyposis mutations, including already known mutations p.Gly382Asp and p.Tyr165Cys, and new mutation p.Val479Phe. We observed a nonstatistically significant association between these MUTYH mutations at a heterozygous state and an increase in colorectal cancer risk (odds ratio [OR] 1.26, 95% confidence interval [CI] 0.70-2.27). As a result, we conclude that heterozygous MUTYH mutations do not play a major role in sporadic colorectal carcinogenesis although a modest effect on this process cannot be ruled out.     

The first mutations in the MYH gene reported in Moroccan colon cancer patients

Background

Biallelic germline mutations in the MYH gene cause MYH-associated polyposis (MAP) disease, an autosomal recessive form of inherited colorectal cancer. People with MAP tend to develop attenuated multiple adenomatous colon polyps during their lifetime and will have an increased risk of colorectal cancer. Contrary to familial adenomatous polyposis, the number of adenomas is often lower in MAP (from 5 to 100), and even some patients have recently been reported with no identified adenomas.There have been many investigations into MAP that have been conducted in many different countries. Currently there is limited data on MAP in Morocco, and it is reasonable to think, that the prevalence of this form of genetic predisposition is as high as other autosomal recessive genetic diseases found in countries with high rates of consanguinity.The aim of this study is to examine the frequency of MYH mutations in colorectal cancer and/or attenuated polyposis in Moroccan patients.

Patients and methods

The study population consisted of 62 patients; 52 with colorectal cancer, three of them had attenuated polyposis (2 to 99 adenomatous polyps). 10 other patients were referred to our department for polyposis without colorectal cancer.We carried out DNA analysis in 62 patients to screen for the three recurrent mutations c.494A > G (p.Tyr165Cys), c.1145 G > A (p.Gly382Asp) and c.1185_1186dup, p.Glu396GlyfsX43, whereas 40 subjects were screened for germline MYH mutations in the whole coding sequence of the MYH gene by direct DNA sequencing. All these 40 patients, except two, had colorectal cancer without polyposis.

Results

Three patients with colorectal cancer and attenuated polyposis carried biallelic mutations in the MUTYH gene one with the c.494 A > G mutation, one with the c.1105delC mutation, one with the c.1145 G > A mutation. One patient with 25 adenomas without colorectal cancer carried the c.1145 G > A mutation at a homozygote state and one patient with 3 polyps was heterozygote for the mutation c.1145 G > A. No biallelic mutations of MYH gene were detected in colorectal cancer patients and in patients with small number (< 5) of polyps without colorectal cancer.

Conclusion

We report the first biallelic MYH mutations in four Moroccan patients with clinical criteria of MAP; three of them had colorectal cancer with attenuated polyposis. No MYH mutations were found in colorectal patients without polyposis.Despite the relatively small sample size of the current study, our findings suggest that the MAP is not a frequent cause of colon cancer in Morocco as we had expected, and the molecular analysis of MYH gene should be restricted to patients displaying the classical phenotype of MAP.     

Prevalence of the E1317Q variant of the APC gene in Italian patients with colorectal adenomas

Loss of APC is an initial, rate-limiting event in inherited and sporadic colorectal tumorigenesis. Rare germline APC mutations have been identified in patients with multiple colorectal adenomas. Recently, the E1317Q APC variant has been associated with a predisposition to the development of multiple colorectal adenomas. In this study, the prevalence of the E1317Q variant was examined in 182 patients with single or multiple colorectal adenomas, and in 235 controls. In all, E1317Q was identified in two of 182 patients with adenomatous polyps (1.1%) and in two of 235 controls (0.8%) (p = 0.59). The risk of harboring adenoma(s) among subjects bearing the E1317Q variant was 1.29 (95% CI 0.09-18.0). No difference in the prevalence of E1317Q between cases with single (2.0%) or multiple colorectal adenomas (0.7%) and controls (0.8%) was found. None of the subjects with a family history of colorectal cancer carried the E1317Q variant. In conclusion, our results confirm that only a very small fraction of colorectal adenomas may be associated with the presence of E1317Q.     

A low prevalence of MYH7/MYBPC3 mutations among Familial Hypertrophic Cardiomyopathy patients in India

Familial Hypertrophic Cardiomyopathy (FHC) is an autosomal dominant disorder affecting the cardiac muscle and exhibits varied clinical symptoms because of genetic heterogeneity. Several disease causing genes have been identified and most code for sarcomere proteins. In the current study, we have carried out clinical and molecular analysis of FHC patients from India. FHC was detected using echocardiography and by analysis of clinical symptoms and family history. Disease causing mutations in the β-cardiac myosin heavy chain (MYH7) and Myosin binding protein C3 (MYBPC3) genes were identified using Polymerase Chain Reaction-Deoxyribose Nucleic Acid (PCR-DNA) sequencing. Of the 55 patient samples screened, mutations were detected in only nineteen in the two genes; MYBPC3 mutations were identified in 12 patients while MYH7 mutations were identified in five, two patients exhibited double heterozygosity. All four MYH7 mutations were missense mutations, whereas only 3/9 MYPBC3 mutations were missense mutations. Four novel mutations in MYBPC3 viz. c.456delC, c.2128G>A (p.E710K), c.3641G>A (p.W1214X), and c.3656T>C (p.L1219P) and one in MYH7 viz. c.965C>T (p.S322F) were identified. A majority of missense mutations affected conserved amino acid residues and were predicted to alter the structure of the corresponding mutant proteins. The study has revealed a greater frequency of occurrence of MYBPC3 mutations when compared to MYH7 mutations.     

Late-onset Krabbe disease is predominant in Japan and its mutant precursor protein undergoes more effective processing than the infantile-onset form

Krabbe disease is an autosomal recessive leukodystrophy caused by the deficiency of the galactocerebrosidase (GALC) enzyme. It is pathologically characterized by demyelination of the central and peripheral nervous systems by accumulation of galactosylsphingosine. To date, more than 120 mutations in the GALC gene have been reported worldwide and genotype–phenotype correlations have been reported in some types of mutations. In this study, we analyzed 22 unreported Japanese patients with Krabbe disease and summarized a total of 51 Japanese patients, including 29 previously reported patients. To elucidate how GALC mutations impair enzymatic activity, multiple disease-causing mutations including common mutations and polymorphisms were investigated for enzymatic activity and precursor processing ability with transient expression system. We also performed 3-D enzyme structure analysis to determine the effect of each new mutation. Five novel mutations were detected including one deletion c.1808delT [p.L603X], one nonsense mutation c.1023C>G [p.Y341X], and three missense mutations c.209T>C [p.L70P], c.1054G>A [p.G352R], and c.1937G>C [p.G646A]. For the total of 51 patients, 59% had late-onset forms of Krabbe disease. Seven common mutations accounted for 58% of mutant alleles of patients with Krabbe disease in Japan. Infantile-onset mutations had almost no enzyme activity, while late-onset mutations had 4%–20% of normal enzyme activity. The processing rate of precursor GALC protein to mature form was slower for infantile-onset mutations. Heat stability of the mutant proteins revealed that p.G270D was more stable compared to the other mutations. The constructed 3D-model showed that the residues for Krabbe mutations were less solvent-accessible and located in the core region of GALC protein. In conclusion, we have demonstrated that the most common phenotype in Japan is the late-onset type, that the enzyme activity for GALC mutants is correlated with mutational severity, and that the most pathogenic factor is due to the processing rate from the precursor to the mature protein.     

Functional characterization of two human MutY homolog (hMYH) missense mutations (R227W and V232F) that lie within the putative hMSH6 binding domain and are associated with hMYH polyposis

The base excision repair DNA glycosylase MutY homolog (MYH) is responsible for removing adenines misincorporated into DNA opposite guanine or 7,8-dihydro-8-oxo-guanine (8-oxoG), thereby preventing G:C to T:A mutations. Biallelic germline mutations in the human MYH gene predispose individuals to multiple colorectal adenomas and carcinoma. We have recently demonstrated that hMYH interacts with the mismatch repair protein hMSH6, and that the hMSH2/hMSH6 (hMutSα) heterodimer stimulates hMYH activity. Here, we characterize the functional effect of two missense mutations (R227W and V232F) associated with hMYH polyposis that lie within, or adjacent to, the putative hMSH6 binding domain. Neither missense mutation affects the physical interaction between hMYH and hMSH6. However, hMYH(R227W) has a severe defect in A/8-oxoG binding and glycosylase activities, while hMYH(V232F) has reduced A/8-oxoG binding and glycosylase activities. The glycosylase activity of the V232F mutant can be partially stimulated by hMutSα but cannot be restored to the wild-type level. Both mutants also fail to complement mutY-deficiency in Escherichia coli. These data define the pathogenic mechanisms underlying two further hMYH polyposis-associated mutations.     

CpG island methylator phenotype and its association with malignancy in sporadic duodenal adenomas

CpG island methylator phenotype (CIMP) has been found in multiple precancerous and cancerous lesions, including colorectal adenomas, colorectal cancers, and duodenal adenocarcinomas. There are no reports in the literature of a relationship between CIMP status and clinicopathologic features of sporadic duodenal adenomas. This study sought to elucidate the role of methylation in duodenal adenomas and correlate it with KRAS and BRAF mutations. CIMP+ (with more than 2 markers methylated) was seen in 33.3% of duodenal adenomas; 61% of these CIMP+ adenomas were CIMP-high (with more than 3 markers methylated). Furthermore, CIMP+ status significantly correlated with older age of patients, larger size and villous type of tumor, coexistent dysplasia and periampullary location. MLH1 methylation was seen in 11.1% of duodenal adenomas and was significantly associated with CIMP+ tumors, while p16 methylation was an infrequent event. KRAS mutations were frequent and seen in 26.3% of adenomas; however, no BRAF mutations were detected. Furthermore, CIMP-high status was associated with larger size and villous type of tumor and race (non-white). These results suggest that CIMP+ duodenal adenomas may have a higher risk for developing malignancy and may require more aggressive management and surveillance.     

CpG island methylator phenotype and its association with malignancy in sporadic duodenal adenomas

CpG island methylator phenotype (CIMP) has been found in multiple precancerous and cancerous lesions, including colorectal adenomas, colorectal cancers, and duodenal adenocarcinomas. There are no reports in the literature of a relationship between CIMP status and clinicopathologic features of sporadic duodenal adenomas. This study sought to elucidate the role of methylation in duodenal adenomas and correlate it with KRAS and BRAF mutations. CIMP+ (with more than 2 markers methylated) was seen in 33.3% of duodenal adenomas; 61% of these CIMP+ adenomas were CIMP-high (with more than 3 markers methylated). Furthermore, CIMP+ status significantly correlated with older age of patients, larger size and villous type of tumor, coexistent dysplasia and periampullary location. MLH1 methylation was seen in 11.1% of duodenal adenomas and was significantly associated with CIMP+ tumors, while p16 methylation was an infrequent event. KRAS mutations were frequent and seen in 26.3% of adenomas; however, no BRAF mutations were detected. Furthermore, CIMP-high status was associated with larger size and villous type of tumor and race (non-white). These results suggest that CIMP+ duodenal adenomas may have a higher risk for developing malignancy and may require more aggressive management and surveillance.     

Mutation analysis of Korean patients with citrullinemia

Citrullinemia is an autosomal recessive disease due to the mutations in the argininosuccinate synthetase (ASS) gene. Mutation analysis was performed on three Korean patients with citrullinemia. All of the three patients had the splicing mutation previously reported as IVS6-2A>G mutation. Two had Gly324Ser mutation and the other patient had a 67-bp insertion mutation in exon 15. The IVS6-2A>G mutation was reported to be found frequently in Japanese patients with citrullinemia, but Caucasian patients showed the extreme mutational heterogeneity. Although a limited number of Korean patients were studied, the IVS6-2A>G mutation appears to be one of the most frequent mutant alleles in Korean patients with citrullinemia. The Gly324Ser mutation identified in two patients also suggests the possible high frequency of this mutation in Korean patients as well.     

NPC1 gene mutations in Japanese patients with Niemann-Pick disease type C

Complementary and genomic DNAs isolated from the fibroblasts of 10 Japanese (7 late infantile, 2 juvenile, and 1 adult form of the disease) and one Caucasian patient with Niemann-Pick disease type C were analyzed for mutations in the NPC1 gene. Fourteen novel mutations were found including small deletions and point mutations. A one-base deletion and a point mutation caused splicing errors. The mutations were not clustered in any particular region of the gene and were found both in and out of the transmembrane domains. Three patients were homozygous, five were compound heterozygous, and the remaining three were suspected of being compound hetrozygous with an unknown error in one of their NPC1 alleles. Of the 14 mutations, the G1553A substitution that caused a splicing error of exon 9 appeared to be relatively common in Japanese patients, because two patients were homozygous and one patient was compound heterozygous for this mutation. Electronic Publication     

Molecular characteristics in Japanese patients with lipidosis: Novel mutations in metachromatic leukodystrophy and Gaucher disease

The characterization of mutations in Japanese patients with lipidosis, particularly in metachromatic leukodystrophy (MLD) and Gaucher disease has been studied in detail. Metachromatic leukodystrophy is characterized by an accumulation of sulfatide in nervous tissues and kidney due to a deficiency of arylsulfatase A (ASA). We analyzed the presence of three known mutant arylsulfatase A alleles in Japanese patients with MLD. Among 10 patients of Japanese patients with MLD, we found that allele 445A mutation has moderately high incidence and also homozygosity of this mutation results in the late infantile form. Allele 2381T was not found in Japanese patients. Furthermore, we found novel mutation which is G- to A mutation at the 1070 nucleotide of the ASA gene (designated 1070 A) in Japanese patients with juvenile onset. This mutation results in a amino acid substitution of Gly245 by Arg and found in heterozygote form. Our studies of molecular analysis in 10 Japanese patients with MLD indicate that Japanese MLD patients have unique characteristics of ASA mutations compared with those of Caucasian patients. On the other hand, Gaucher disease is the most prevalent sphingolipidosis, characterized by an accumulation of glucocerebroside in macrophage derived cells due to a deficiency of lysosomal hydrolase glucocerebrosidase. To study the molecular basis of Gaucher disease in Japanese patients, we analyzed the presence of the two known mutations (6433C and 3548A) in the glucocerebrosidase gene of 15 patients with Gaucher disease. We found that the 6433C and 3548A mutations occur in all subtypes of Japanese patients with Gaucher disease. Most frequent mutations among them was the 6433C mutation, 40% of 30 chromosomes, whereas the novel mutation of the 3548A found in Japanese patients with neuronopathic Gaucher disease was found in 20% (6 out of 30 chromosomes). The characteristics of these mutations in Japanese patients with Gaucher disease is different from those of Caucasian populations reported previously.     

Mutational analysis of OGG1, MYH, MTH1 in FAP, HNPCC and sporadic colorectal cancer patients: R154H OGG1 polymorphism is associated with sporadic colorectal cancer patients

MYH, OGG1 and MTH1 are members of base excision repair (BER) families, and MYH germline mutations were recently identified in patients with multiple adenomas or familial adenomatous polyposis (FAP). A total of 20 APC-negative Korean FAP patients were analyzed for OGG1, MYH and MTH1 germline mutations. A total of 19 hereditary nonpolyposis colorectal cancer (HNPCC), 86 suspected HNPCC, and 246 sporadic colorectal cancer cases were investigated for OGG1 and MYH mutations. A total of 14 R154H OGG1 polymorphisms were identified in hereditary, sporadic colorectal cancers, and normal controls. For the case-control analysis of OGG1 R154H, a total of 625 hereditary or sporadic colorectal cancer patients and 527 normal controls were screened. R154H was a rare polymorphism associated with sporadic colorectal cancer patents (OR: 3.586, P= 0.053). R154H does not segregate with cancer phenotypes. Upon examining the possibility of recessive inheritance of R154H, we could not identify any complementary mutations in OGG1, MYH or MTH1. Samples with R154H were further screened for mutations of K-ras, -catenin, APC, p53, BRAF and the microsatellite instability (MSI) status. Eight somatic mutations were identified in these genes and G:C to T:A transversion mutations were not dominant in samples harboring R154H. This result raises the possibility that OGG1 R154H may function as a low/moderate-penetrance modifier for colorectal cancer development.I.-J. Kim and J.-L. Ku contributed equally to this work     

KRAS mutation and abnormal expression of Cripto-1 as two potential candidate biomarkers for detection of colorectal cancer development

Colorectal cancer (CRC), regardless of standard procedures of treatment and screening, is still considered one of the deadliest cancers in the Western world, and in economically developed Asian countries, especially Iran. The current study was undertaken to investigate whether changes in the level of Cripto-1 (CR-1) expression and KRAS mutations have a cumulative effect on the onset and progression of CRC. Fifty colorectal tissue samples, including 35 colorectal carcinomas with matching adjacent mucosa, and 15 colorectal adenomas, were chosen for analysis. Twenty-five CRC biopsies and 15 adenoma were analyzed for KRAS mutations by DNA sequencing (Sanger sequencing), and all 50 patients (35 CRCs and 15 adenomas) were evaluated by immunohistochemistry for the CR-1 protein expression. The inducible somatic KRAS mutation (G12D) was observed in nine (36%) of CRC patients, and in two (13.3%) of adenoma patients. The CR-1 expression level in both adenomas (P < .05) and carcinomas (P < .001), were significantly different, compared with the matching adjacent mucosa. The intensity of CR-1 staining in adenomas was less than the intensity of staining, detected in the CRCs (P < .001). The G12D KRAS mutation and CR-1 abnormalities are significantly associated as two signature biomarkers with potential clinical characteristics for the detection of CRC development.     

Novel mutations in sarcomeric protein genes in dilated cardiomyopathy

Mutations in sarcomeric protein genes have been reported to cause dilated cardiomyopathy (DCM). In order to detect novel mutations we screened the sarcomeric protein genes beta-myosin heavy chain (MYH7), myosin-binding protein C (MYBPC3), troponin T (TNNT2), and alpha-tropomyosin (TPM1) in 46 young patients with DCM. Mutation screening was done using single-strand conformation polymorphism (SSCP) analysis and DNA sequencing. The mutations in MYH7 were projected onto the protein data bank-structure (pdb) of myosin of striated muscle. In MYH7 two mutations (Ala223Thr and Ser642Leu) were found in two patients. Ser642Leu is part of the actin-myosin interface. Ala223Thr affects a buried residue near the ATP binding site. In MYBPC3 we found one missense mutation (Asn948Thr) in a male patient. None of the mutations were found in 88 healthy controls and in 136 patients with hypertrophic cardiomyopathy (HCM). Thus mutations in HCM causing genes are not rare in DCM and have potential for functional relevance.     

Fabry病在中国汉族肥厚型心肌病人群的患病率(英文)

目的:研究中国汉族肥厚型心肌病人群中α-Galactosidase A突变的患病率及其临床表现。方法:对439名肥厚型心肌病患者及156名健康对照GLA基因进行全外显子测序,及基因型及临床表型进行关联分析。结果:确定了2个致病性突变,包括1个错义突变E66Q和1个剪接位点的突变c.547+1GC。2个突变在156名健康人群未发现,在1000人基因组计划中未报道。确定中国汉族肥厚型心肌病人群中α-Galactosidase A突变0.45%的患病率。结论:Fabry病在中国汉族肥厚型心肌病人群中α-Galactosidase A突变的患病率较低。基因检测有助于Fabry病与肥厚型心肌病的鉴别诊断。     

Insight into the functional consequences of hMYH variants associated with colorectal cancer: distinct differences in the adenine glycosylase activity and the response to AP endonucleases of Y150C and G365D murine MYH

Escherichia coli MutY and its eukaryotic homologues play an important role in preventing mutations by removing adenine from 7,8-dihydro-8-oxo-2'-deoxyguanosine (OG):A mismatches. It has recently been demonstrated that inherited biallelic mutations in the genes encoding the human homologue of MutY (hMYH) are correlated with a genetic predisposition for multiple colorectal adenomas and carcinomas. The two most common hMYH variants found in patients with colorectal cancer are Y165C and G382D. In this study, we examined the equivalent variants in the murine MutY homologue (mMYH), Y150C and G365D. The Y150C mMYH enzyme showed a large decrease in the rate of adenine removal from both OG:A- and G:A-containing substrates, while G365D mMYH showed a decrease in the ability to catalyze adenine removal only with a G:A-containing substrate. Both mMYH variants exhibit a significantly decreased affinity for duplexes containing noncleavable 2'-deoxyadenosine analogues. In addition, the human apurinic/apyrimidinic endonuclease (Ape1) stimulated product formation by wild-type and G365D mMYH with an OG:A substrate under conditions of multiple-turnover ([E]<[S]). In contrast, the presence of Ape1 nearly completely inhibited adenine removal by Y150C mMYH from the OG:A mismatch substrate. The more deleterious effect of Ape1 on the glycosylase activity of Y150C relative to G365D mMYH correlated with the more compromised binding affinity of Y150C to substrate analogue duplexes. These results suggest that the equivalent hMYH variants may be significantly compromised in substrate targeting in vivo due to a decrease in binding to substrate DNA; moreover, competition with other DNA binding proteins may further reduce the effective adenine glycosylase activity in vivo.     

Mammalian MutY homolog (MYH or MUTYH) protects cells from oxidative DNA damage

MutY DNA glycosylase homologs (MYH or MUTYH) reduce G:C to T:A mutations by removing misincorporated adenines or 2-hydroxyadenines paired with guanine or 8-oxo-7,8-dihydroguanine (8-oxo-G). Mutations in the human MYH (hMYH) gene are associated with the colorectal cancer predisposition syndrome MYH-associated polyposis. To examine the function of MYH in human cells, we regulated MYH gene expression by knockdown or overproduction. MYH knockdown human HeLa cells are more sensitive to the killing effects of H₂O₂ than the control cells. In addition, hMYH knockdown cells have altered cell morphology, display enhanced susceptibility to apoptosis, and have altered DNA signaling activation in response to oxidative stress. The cell cycle progression of hMYH knockdown cells is also different from that of the control cells following oxidative stress. Moreover, hMYH knockdown cells contain higher levels of 8-oxo-G lesions than the control cells following H₂O₂ treatment. Although MYH does not directly remove 8-oxo-G, MYH may generate favorable substrates for other repair enzymes. Overexpression of mouse Myh (mMyh) in human mismatch repair defective HCT15 cells makes the cells more resistant to killing and refractory to apoptosis by oxidative stress than the cells transfected with vector. In conclusion, MYH is a vital DNA repair enzyme that protects cells from oxidative DNA damage and is critical for a proper cellular response to DNA damage.     

Ebstein’s anomaly may be caused by mutations in the sarcomere protein gene MYH7

Ebstein’s anomaly is a rare congenital heart malformation characterised by adherence of the septal and posterior leaflets of the tricuspid valve to the underlying myocardium. Associated abnormalities of left ventricular morphology and function including left ventricular noncompaction (LVNC) have been observed. An association between Ebstein’s anomaly with LVNC and mutations in the sarcomeric protein gene MYH7, encoding β-myosin heavy chain, has been shown by recent studies. This might represent a specific subtype of Ebstein’s anomaly with a Mendelian inheritance pattern. In this review we discuss the association of MYH7 mutations with Ebstein’s anomaly and LVNC and its implications for the clinical care for patients and their family members.