Whole-exome sequencing reveals a likely pathogenic LMNA variant causing hypertrophic cardiomyopathy.

OBJECTIVE: We studied the clinical and molecular features of a family with hypertrophic cardiomyopathy (HCM). BACKGROUND: A very heterogeneous disease affecting the heart muscle, HCM is mostly caused by variants in the proteins of sarcomeres. The detection of HCM pathogenic variants can affect the handling of patients and their families. METHODS: Whole-exome sequencing (WES) was performed to assess the genetic cause(s) of HCM in a consanguineous Iranian family. RESULTS: Missense likely pathogenic variant c.1279C>T (p.Arg427Cys) within exon 7 of the LMNA gene (NM_170707) was found. The segregations were confirmed by polymerase chain reaction-based Sanger sequencing. CONCLUSIONS: Variant c.1279C>T (p.Arg427Cys) in the LMNA gene seemed to have been the cause of HCM in the family. A few LMNA gene variants related to HCM phenotypes have been recognized so far. Identifying HCM genetic basis confers significant opportunities to understand how the disease can develop and, by extension, how this progression can be arrested. Our study supports WES effectiveness for first-tier variant screening of HCM in a clinical setting.

A novel heterozygous missense MYH7 mutation potentially causes an autosomal dominant form of myosin storage myopathy with dilated cardiomyopathy.

BACKGROUND: The MYH7 gene, which encodes the slow/ß-cardiac myosin heavy chain, is mutated in myosin storage myopathy (MSM). The clinical spectrum of MSM is quite heterogeneous in that it ranges from cardiomyopathies to skeletal myopathies or a combination of both, depending on the affected region. In this study, we performed clinical and molecular examinations of the proband of an Iranian family with MSM in an autosomal dominant condition exhibiting proximal muscle weakness and dilated cardiomyopathy. METHODS: Following thorough clinical and paraclinical examinations, whole-exome sequencing `was performed on the proband (II-5). Pathogenicity prediction of the candidate variant was performed through in-silico analysis. Co-segregation analysis of the WES data among the family members was carried out by PCR-based Sanger sequencing. RESULTS: A novel heterozygous missense variant, MYH7 (NM_000257): c.C1888A: p.Pro630Thr, was found in the DNA of the proband and his children and confirmed by Sanger sequencing. The in-silico analysis revealed that p.Pro630Thr substitution was deleterious. The novel sequence variant fell within a highly conserved region of the head domain. Our findings expand the spectrum of MYH7 mutations. CONCLUSIONS: This finding could improve genetic counseling and prenatal diagnosis in families with clinical manifestations associated with MYH7-related myopathy.

Whole-Exome Sequencing Revealed a Pathogenic Nonsense Variant in the SLC19A2 Gene in an Iranian Family with Thiamine-Responsive Megaloblastic Anemia.

OBJECTIVE: Solute carrier family 19 member 2 (SLC19A2, OMIM *603941) encodes thiamine human transporter 1 (THTR-1), which contributes to bringing thiamine (vitamin B1) into cells. Mutations in SLC19A2 lead to a rare recessive genetic disorder termed thiamine-responsive megaloblastic anemia (TRMA) syndrome. METHODS: An Iranian family with TRMA was investigated by whole-exome sequencing (WES) to determine the genetic cause(s) of the disease. Accordingly, SLC19A2 genetic variants were gathered through literature analysis. RESULTS: WES recognized a known pathogenic variant, c.697C > T (p. Q233X), within exon 2 of SLC19A2 (NM_006996). Subsequently, the proband's parents and sister were confirmed as heterozygous carriers of the identified variant. CONCLUSION: The diagnostic utility and affordability of WES were confirmed as the first approach for the genetic testing of TRMA to verify the diagnosis. This analysis can be used to guide future prenatal diagnoses and determine the consequences in the other family members.

Chromosome 9 Inversion: Pathogenic or Benign? A Comprehensive Systematic Review of all Clinical Reports.

BACKGROUND: Inversion of chromosome 9 (inv[9]) is known as one of the most common structural balanced chromosomal variations. Chromosome 9 is highly susceptible to structural rearrangements, specifically to pericentric inversions. Various investigators have posited that inv(9) with different breakpoints could be the cause of several abnormal conditions in individuals, whereas others have considered it a benign variant. To our knowledge, a consensus regarding the effects of this inversion has yet to emerge. OBJECTIVE: This study aims to discuss the pathogenic/benign effects of inv(9) in all possible clinical conditions detected in the occurrence of this abnormality. METHODS: Studies on inv(9) were collected via PubMed, MalaCards, Google Scholar, and NORD, along with the search terms of inv(9), pericentric inv(9), and chromosome 9 variants. Additionally, the incidence of inv(9) and the karyotype and clinical findings of individuals reported with this variant were investigated. RESULTS: The collection of the studies reviewed shows that inv(9) is associated with various conditions such as congenital anomalies, growth retardation, infertility, recurrent pregnancy loss, and cancer. The clinical features associated with this variant in humans vary between growth stages. Further, there have been no shared clinical findings in a specific period. CONCLUSION: Although there is no conclusive evidence for the pathogenicity of this rearrangement, prenatal genetic counseling on inv(9) and further clinical and molecular studies would be helpful in chromosome 9-related problems.

The association between in vitro fertilization and intracytoplasmic sperm injection treatment and the risk of congenital heart defects.

OBJECTIVE: Assisted reproductive technology (ART), an effective treatment modality for infertility, is associated with a higher prevalence of congenital anomalies such as congenital heart defects (CHDs). The present study aimed to evaluate data linking CHDs in infants to pregnancies resulting from in vitro fertilization (IVF) and/or intracytoplasmic sperm injection (ICSI). METHODS: In this study, we conducted a systematic literature search on CHDs in infants following IVF/ICSI in Google Scholar, Embase, Scopus, MEDLINE, and PubMed databases from inception to February 2020. The search strategy used combinations of search keywords that included assisted reproductive technology/ART, in vitro fertilization/IVF, intracytoplasmic sperm injection/ICSI, birth defect, congenital malformation, and congenital heart defects. RESULTS: Fifty-six studies fulfilled the inclusion criteria and were selected in the current systematic review, which assessed the association between ART and the risk of CHDs. CONCLUSION: Children conceived by IVF/ICSI manifested an increased risk of CHDs compared with spontaneously conceived children. Further studies are needed to assess the long-term cardiovascular safety of these techniques, which is important for the counseling of patients before the use of ART.

Whole-exome sequencing identified compound heterozygous variants in the TTN gene causing Salih myopathy with dilated cardiomyopathy in an Iranian family.

BACKGROUND: Salih myopathy, characterised by both congenital myopathy and fatal dilated cardiomyopathy, is an inherited muscle disorder that affects skeletal and cardiac muscles. TTN has been identified as the main cause of this myopathy, the enormous size of this gene poses a formidable challenge to molecular genetic diagnostics. METHOD: In the present study, whole-exome sequencing, cardiac MRI, and metabolic parameter assessment were performed to investigate the genetic causes of Salih myopathy in a consanguineous Iranian family who presented with titinopathy involving both skeletal and heart muscles in an autosomal recessive inheritance pattern. RESULTS: Two missense variants of TTN gene (NM_001267550.2), namely c.61280A>C (p. Gln20427Pro) and c.54970G>A (p. Gly18324Ser), were detected and segregations were confirmed by polymerase chain reaction-based Sanger sequencing. CONCLUSIONS: The compound heterozygous variants, c.61280A>C, (p. Gln20427Pro) and c.54970G>A, (p. Gly18324Ser) in the TTN gene appear to be the cause of Salih myopathy and dilated cardiomyopathy in the family presented. Whole-exome sequencing is an effective molecular diagnostic tool to identify the causative genetic variants of large genes such as TTN.

In silico analysis of GATA4 variants demonstrates main contribution to congenital heart disease.

Introduction: Congenital heart disease (CHD) is the most common congenital abnormality and the main cause of infant mortality worldwide. Some of the mutations that occur in the GATA4 gene region may result in different types of CHD. Here, we report our in silico analysis of gene variants to determine the effects of the GATA4 gene on the development of CHD. Methods: Online 1000 Genomes Project, ExAC, gnomAD, GO-ESP, TOPMed, Iranome, GME, ClinVar, and HGMD databases were drawn upon to collect information on all the reported GATA4 variations.The functional importance of the genetic variants was assessed by using SIFT, MutationTaster, CADD,PolyPhen-2, PROVEAN, and GERP prediction tools. Thereafter, network analysis of the GATA4protein via STRING, normal/mutant protein structure prediction via HOPE and I-TASSER, and phylogenetic assessment of the GATA4 sequence alignment via ClustalW were performed. Results: The most frequent variant was c.874T>C (45.58%), which was reported in Germany.Ventricular septal defect was the most frequent type of CHD. Out of all the reported variants of GATA4,38 variants were pathogenic. A high level of pathogenicity was shown for p.Gly221Arg (CADD score=31), which was further analyzed. Conclusion: The GATA4 gene plays a significant role in CHD; we, therefore, suggest that it be accorded priority in CHD genetic screening.

Whole exome sequencing identifies both nuclear and mitochondrial variations in an Iranian family with non-syndromic hearing loss.

Genetic contributing factors to non-syndromic hearing loss (NSHL) are remarkably diverse spanning over autosomal to X-linked to mitochondrial inheritance patterns. Facing a quite unconventional pedigree, here we report implementation of whole exome sequencing (WES) to uncover mitochondrial pathogenic variant in a six-generation Iranian family with four cases affected with hereditary NSHL of variable severity. As a result, heteroplasmic transition of A to G at position 1555 of MT-RNR1 gene was identified in all affected individuals co-existing with nuclear c.28G > T (p.A10S) variant in the TRMU gene, only in some patients. The reliability of WES to infer nuclear as well as mitochondrial variants in hearing loss were discussed.