Compound Heterozygous Variants Research Articles

Genetic variants in patients with multiple arterial aneurysms

PurposeThe aim of this study was to identify causal genetic variants in patients with multiple arterial aneurysms.MethodsFrom a total cohort of 3107 patients diagnosed with an arterial aneurysm from 2006 to 2016, patients with known hereditary connective tissue diseases, vasculitis, or other arterial pathologies (n = 918) were excluded. Of the remaining cohort (n = 2189), patients with at least 4 aneurysms at different arterial locations (n = 143) were included. Nine blood samples of respective patients were available and derived from the institutional vascular biomaterial bank, and analyzed by whole exome sequencing (WES). Possible candidate variants were selected based on in silico predictions: (I) Truncating variants or (II) Variants that were classified as likely pathogenic (SIFT score < 0.05 or PolyPhen score > 0.9) and with low (< 0.001) or unknown gnomAD allele frequency. The human genome databases GeneCards and MalaCards were used to correlate the variants with regard to possible associations with vascular diseases.ResultsA total of 24 variants in 23 different genes associated with vascular diseases were detected in the cohort. One patient with eight aneurysms was heterozygous for a variant in SMAD3, for which pathogenic variants are phenotypically associated with Loeys-Dietz syndrome 3. A heterozygous variant in TNXB was found in a patient with five aneurysms. Homozygous or compound heterozygous pathogenic variants in this gene are associated with Ehlers-Danlos syndrome (classical-like). Another patient with six aneurysms carried two heterozygous TET2 variants together with a heterozygous PPM1D variant. Pathogenic variants in these genes are associated with clonal hematopoiesis of indeterminate potential (CHIP), a known risk factor for cardiovascular disease.ConclusionAll nine patients in this study carried variants in genes associated with vascular diseases. Current knowledge of the specific variants is insufficient to classify them as pathogenic at the present time, underlining the need for a better understanding of the consequences of genetic variants. WES should be considered for patients with multiple arterial aneurysms to detect germline variants and to improve clinical management for the individual and family members.

Shwachman-Diamond syndrome due to biallelic EFL1 variants with complex and fatal clinical course in early infancy.

Shwachman-Diamond syndrome represents a clinically and genetically heterogeneous disorder. We report on an infant with a very severe, fatal clinical course caused by biallelic EFL1 variants: c.89A>G, p.(His30Arg), and c.2599A>G, p.(Asn867Asp). Functional analysis of patient-derived B-lymphoblastoid and SV40-transformed fibroblast cell lines suggests that the compound heterozygous EFL1 variants impaired mature ribosome formation leading to compromised protein synthesis, ultimately resulting in a severe form of Shwachman-Diamond syndrome.

Cost-saving approach with screening of selected variants in genetic diagnosis in Turkish pediatric familial Mediterranean fever patients: a single center longitudinal study.

The aim of this study was to investigate whether a short exon screening consisting of selected variants could confirm the diagnosis in patients with a preliminary diagnosis of familial Mediterranean fever (FMF), thus providing a cost-saving alternative to a comprehensive MEditerranean FeVer (MEFV) gene sequence analysis test. This observational study on pediatric patients focused on clinically suspected FMF cases without prior genetic analysis. Participants met the Turkish pediatric FMF criteria. They underwent short exon screening for M694V, M680I, V726A, and E148Q variants. Those who were heterozygous or negative on short exon screening received further MEFV gene sequence analysis. The study involved 1557 patients. Pathogenic variants in both alleles of the MEFV gene were found in 611 patients (39.2%), and a high-penetrance variant in heterozygosity or an E148Q variant on the other allele was found in 643 patients (41.3%). A further 189 patients (12.1%) had one or two E148Q variants. Short-exon screening was negative in 114 patients (7.6%). Of the 876 patients who underwent MEFV gene sequence analysis, additional variants were found in 72 of the 762 initially heterozygous patients. Of the 114 initially negative patients, 34 had homozygous or compound heterozygous variants, and 74 had heterozygous variants. Ultimately, only 6 patients yielded negative results in the MEFV gene sequence analysis. The short exon screening for common MEFV mutations offers a practical and cost-saving alternative to comprehensive MEFV gene sequence analysis in populations with a high prevalence of FMF.

Biallelic and monoallelic variants in EFEMP1 can cause a severe and distinct subtype of heritable connective tissue disorder.

Variants in EFEMP1, encoding Fibulin-3, were previously reported as a rare cause of heritable connective tissue disorder (HCTD) with recurrent hernias and joint hypermobility. We report three new cases with biallelic or monoallelic EFEMP1 variants and severe hernia phenotypes. Two male siblings of 10 and 13 years old presented with marfanoid habitus, recurrent inguinal and umbilical hernias, generalized joint hypermobility, and scoliosis. Parents and halfsiblings reported joint hypermobility and umbilical hernias. The eldest boy died at age 16 from incarcerated gastrointestinal herniation complicated by gastric and bowel necrosis with perforation. Autopsy revealed widespread intestinal diverticula. Immunohistochemistry of skin and fascia tissue did not reveal any abnormalities, including normal staining of elastic fibers. Both siblings harbored compound heterozygous likely pathogenic EFEMP1 variants (c.1320 + 2T > A, p.? and c.698G > A, p.Gly233Asp). An unrelated 58-year-old male had marfanoid features, high myopia, recurrent diaphragmatic and inguinal hernias, and chronic gastrointestinal dilatation with severe malabsorption. Both his dizygotic twin-brother and mother had recurrent hernias and high myopia. This man died at 59 years of age, and autopsy showed extensive diaphragmatic herniation, bowel diverticula, and pulmonary emphysema. A heterozygous EFEMP1 splice-variant (c.81 + 1G > A, p.?) was identified, causing exon skipping leading to a start-loss. Targeted genome reanalysis nor RNA-sequencing revealed a second variant at the other allele. The reported individuals expand the clinical and pathological phenotypes of EFEMP1-related disease, a distinct entity within the spectrum of HCTD. The severe and recurrent hernias, gastrointestinal dilatation, and diverticulosis result in an increased risk for life-threatening complications, demanding early recognition and close monitoring.

7704 Generating pituitary cells from iPSCs of patients with child onset congenital hypopituitarism harboring PROP1 pathogenic allelic variants

Abstract Disclosure: J.M. Marques: None. F. Fattahi: None. L.R. Carvalho: None. Introduction: Reduced or absent levels of pituitary hormones due to genetic or organic causes is known as combined pituitary hormone deficiency (CPHD) and PROP1 is the most frequent cause of CPHD, but more than 85% of the cases are without molecular diagnosis. Novel Techniques such as induced pluripotent stem cells (iPSC), can be used to generate patient’s specific pituitary cells for disease modeling. Aim: To generate iPSC from CO-CH patients’ peripheral blood mononuclear cells (PBMC) and differentiate them into pituitary cells. Methods: Peripheral blood was collected from 2 siblings (HC1 and HC2) harboring compound heterozygous PROP1 allelic variants and their parents (HC3 and HC4). PBMCs were isolated and expanded with MNC medium prior to nucleoporation and transfection with plasmids containing pluripotency genes (OCT4 and SOX2; cMYC and KLF). After 48h, transfected cells were transferred to Geltrex coated plates and fed with E8, NaB and βFGF until pluripotent colonies were formed. iPSCs were differentiated into cranial placode cells using pituitary placode conditioned medium (PPCM) until day 15. For pituitary cell maturation, pituitary conditioned medium (PPCM without SB431542) was used until day 30. qPCR and flow cytometry using the Kit BD Stemflow - Human Pluripotent Stem Cell Transcription Factor Analysis (BD Biosciences) for stem cells and the eBioscience™ Foxp3 / Transcription Factor Fixation/Permeabilization (Thermo Fisher Scientific) for the placode and pituitary markers were used. Pituitary hormonal levels from cell supernatant were measured at the Laboratory of Hormones and Molecular Genetics - HCFMUSP. Results: we generated iPSCs from patient and control blood cells. iPSCs were more than 90% positive for the pluripotency markers SOX2, NANOG, OCT3/4. Pituitary cells were generated with positivity for the placode marker SIX1 (58%) and pituitary markers, as LHX3 (56%) and PROP1 (59%), at day 15. Control cell lineages expressed higher levels of pituitary hormones at days 15 and 30 at RNA and protein levels while patient cells failed to induce hormone-producing cells properly. Pituitary hormonal release was impaired in patients pituitary cells. Conclusion: CO-CH patients’ PBMC were dedifferentiated to a pluripotent state, being able to generate pituitary hormone producing cells. Patient cells were able to mimic human phenotype. These cells can be used, in the future, to study CO-CH basis in patients specific background, to develop pituitary disease modeling as well as test possible new treatments. Presentation: 6/3/2024

DYNC2H1 splicing variants causing severe prenatal short-rib polydactyly syndrome and postnatal orofaciodigital syndrome.

The DYNC2H1 gene has been associated with short-rib polydactyly syndrome (SRPS), among other skeletal ciliopathies. Two cases are presented of distinctive phenotypes resulting from splicing variants in DYNC2H1. The first is a 14-week-old fetus with enlarged nuchal translucency, oral hamartoma, malformed uvula, bifid epiglottis, short ribs, micromelia, long bone agenesis, polysyndactyly, heart defect, pancreatic cysts, multicystic dysplastic kidney, megabladder and trident acetabulum. A ciliopathies NGS panel revealed two compound heterozygous variants in DYNC2H1: c.7840-18T>G r.7841_7964del p.Gly2614Aspfs*5 and c.11070G>A r.11044_11116del p.Ile3682Aspfs*2. Both variants were initially classified as variants of uncertain significance but were reclassified as likely pathogenic after PCR-based RNA testing. The second is an 11-year-old overweight male with multiple accessory oral frenula, median cleft lip and alveolar ridge, polysyndactyly, brachydactyly, normal rib length, and hypogonadism. Exome sequencing revealed two compound heterozygous variants in DYNC2H1: c.6315del p.(Thr2106Glnfs*7), classified as likely pathogenic, and c.3303-16A>G p.(?), classified as a variant of uncertain significance. PCR-based RNA testing suggested that c.3303-16A>G induces an in-frame deletion: r.3303_3458del p.Asp1102_Arg1153del, although the normal transcript is still produced. These results are consistent with both SRPS type I/III in the first case and orofaciodigital syndrome in the second, an unprecedented description. This work thus improves the clinical and molecular knowledge of the phenotypes associated with splicing variants in the DYNC2H1 gene.

Clinical and genetic insights into ABCA12 variants in three Chinese families with ichthyosis: Genotype-phenotype correlation.

Autosomal recessive congenital ichthyosis (ARCI) comprises a series of non-syndromic ichthyoses. Pathogenic variants in several genes associated with ARCI have so far been identified. Notably, the variants in ABCA12 play a pivotal role in the pathology of ARCI. In this study, we report three Chinese families with compound heterozygous variants in the ABCA12 gene, including two novel variants and four reported variants. Clinical and genetic analyses were conducted to explore the genotype-phenotype correlation among the patients. Immunohistochemistry and transcriptome sequencing were utilized to assess the impact of pathogenic ABCA12 variants on skin homeostasis, revealing decreased levels of ABCA12 and claudin-1, alongside increased levels of involucrin and S100A8. In conclusion, our findings contribute to updating the genotype-phenotypic correlation and provide additional evidence for the long-term use of retinoic acid drugs in patients with causative ABCA12 variants.

Intrafamilial neurological phenotypic variability due to either biallelic or monoallelic pathogenic variants in CACNA1A.

Pathogenic heterozygous variants in CACNA1A are associated with familial hemiplegic migraine, episodic ataxia type 2 and spinocerebellar ataxia type 6, and more recently, neurodevelopmental disorders. We describe a severe, early-onset phenotype including severe muscular hypotonia, early-onset epileptic seizures, apnoea, optic atrophy and dysphagia in three siblings carrying compound heterozygous frameshift variants in CACNA1A. Two male patients died at the age of 5 or 14 months of suspected SIDS or severe developmental epileptic encephalopathy (DEE) with refractory seizures and apnoea. A male child (index patient) developed severe early-onset DEE including seizures and ictal apnoea at the age of 4 weeks. Another male child developed generalized epilepsy and mild intellectual impairment in late infancy, and his mother and his maternal uncle were identified as carriers of a known CACNA1A pathogenic variant [c.2602delG heterozygous, p. (Ala868Profs*24)] with a diagnosis of episodic ataxia type 2. This maternal pathogenic variant c.2602delG was detected in the index patient and child 2. Trio-Exome sequencing identified an additional heterozygous pathogenic variant in the CACNA1A gene, c.5476delC, p.(His1826Thrfs*30) in the index patient and child 2, which was inherited from the asymptomatic father. In conclusion, the novel compound heterozygosity for two frameshift pathogenic variants, maternally [c.2602delG, p.(Ala868Profs*24)] and paternally [c.5476delC, p.(His1826Thrfs*3)] is associated with a severe phenotype of early-onset DEE. This observation highlights the necessity of additional analyses to clarify unusual phenotypes even if a pathogenic variant has already been identified, and expands the clinical spectrum of CACNA1A-related disorders.

Prevalence and Mutation Analysis of Short-Chain acyl-CoA Dehydrogenase Deficiency Detected by Newborn Screening in Hefei, China.

Short-chain acyl-CoA dehydrogenase deficiency (SCADD) is an autosomal recessive inborn error of mitochondrial fatty acid oxidation with highly variable biochemical and genetic characteristics. The present study aimed to estimate the prevalence and genetic characteristics of SCADD in newborns identified through screening. A total of 782,930 newborns were screened for SCADD in Hefei Neonatal Screening Center from January 2016 to December 2023. The blood samples from newborns were measured by tandem mass spectrometry (MS/MS). The suspected SCADD neonates were rechecked using next-generation gene sequencing for diagnosis. Sanger sequencing was used to verify the mutation site for patients with SCADD and their parents. A total of 21 SCADD cases were confirmed, with an incidence rate of 1/37,282. Genetic mutations were identified in all 21 cases, including 15 cases of compound heterozygous variation and 6 cases of homozygous variation. Twenty-one different mutation types and forty-two mutation sites were discovered, with the most frequent mutation being c.1031A>G, accounting for 21.43% (9/42), followed by c.1130C>T, accounting for 16.67% (7/42). Our findings expand the SCADD mutational spectra. c. 1031A>G and c.1130C>T are the common mutation sites for SCADD genes in newborns. SCADD diagnosed through NBS is primarily a benign condition, and early diagnosis is not necessarily essential.

MCM9 compound heterozygosity in an adolescent with premature ovarian insufficiency.

Delayed puberty in girls is often related to late maturation but is occasionally the first sign of premature ovarian insufficiency (POI). POI is a condition that affects ovarian function and fertility, and its etiology is unknown in most cases. Genetic factors have recently been identified in 20-25% of women with POI, involving genes that regulate various aspects of ovarian development and maintenance. We report a case of delayed puberty due to POI in an adolescent from a non-consanguineous family who carried two variants in the MCM9 gene. MCM9 is essential for DNA replication and repair, and its dysfunction can lead to chromosomal instability and ovarian failure. Our case highlights the importance of targeted gene panel analysis, particularly in POI patients with negative autoimmunity screening, and evidence of ovarian or uterine dysgenesis on pelvic imaging. Delayed puberty in girls is often self-limiting, but it can also indicate underlying conditions with lifelong implications, such as premature ovarian insufficiency (POI). Patients with POI, negative autoimmune screening, a normal karyotype, and no FMR premutation should undergo further genetic testing, preferably through targeted gene panels. Compound heterozygous variants in MCM9 can cause POI, presenting with delayed puberty and primary amenorrhea in girls without a consanguineous family.

LSM7 variants involving key amino acids for LSM complex function cause a neurodevelopmental disorder with leukodystrophy and cerebellar atrophy

Cerebellar atrophy and hypoplasia are usually identified on MRI performed on children presenting signs of cerebellar ataxias, developmental delay and intellectual disability. These signs can be associated with hypo- or de-myelinating leukodystrophies. A recent study reported two cases: one child diagnosed with leukodystrophy and cerebellar atrophy, harboring a homozygous variant in LSM7 and another one who died in utero, presumed to have another homozygous variant in LSM7, based on parents' genotype. LSM7 encodes a subunit of the LSM complex, involved in pre-RNA maturation and mRNA degradation. Consequently, it has been suggested as a strong candidate disease gene. This hypothesis was supported by functional investigations of the variants. Presently, we report a patient with neurodevelopmental defects, leukodystrophy and cerebellar atrophy, harboring compound heterozygous missense variants in the LSM7 gene. One of these variants is the same as the one carried by the first case previously reported. The other one is at the same position as the variant potentially carried by the second case previously reported. Based on comparable neuroimaging, clinical features and the involvement of the same amino-acids previously demonstrated as key for LSM complex function, we confirm that LSM7 disruption causes a neurodevelopmental disorder characterized by leukodystrophy and cerebellar atrophy.

Carrier frequency and incidence estimation of deficiency of adenosine deaminase 2 in the Chinese population based on massive exome sequencing data.

Deficiency of adenosine deaminase 2 (DADA2) is an autosomal recessive autoinflammatory disease characterised by early onset stroke, recurrent fever, and diverse vascular pathologies, caused by loss-of-function homozygous or compound heterozygous variants of ADA2. This research aimed to determine the carrier frequency and expected incidence of DADA2 in China, using massive exome sequencing (ES) data. A total of 50 likely pathogenic/pathogenic variants (LP/PVs) were identified among 69,413 Chinese individuals, including 20 novel and rare variants (<0.0022% allele frequency), expanding the known spectrum of PVs in ADA2. The overall carrier frequency in the Chinese population was 1.05% (732/69,413) and the estimated incidence of DADA2 was approximately one in 92,251 individuals. The present study provides an accurate estimation of the prevalence of DADA2 in China, supporting genetic counseling, early diagnosis treatment, and prognostic evaluation.

Novel pathogenic variant in the LCAT gene in a compound heterozygous patient with fish-eye disease and a mild phenotype

Background and ObjectiveLow HDL-cholesterol and corneal opacity are associated with fish-eye disease (FED), familial LCAT deficiency (FLD), ApoAI deficiency, and Tangier disease. The differential diagnosis is made by clinical and biochemical tests. Measuring the LCAT activity is the ideal way to distinguish conditions caused by LCAT gene variants (FED and FLD) from the other two diseases. However, this is not accessible from all clinics. The CE/TC ratio, which is below the reference range in most cases with LCAT gene variants, has been proposed as an alternative. We report a case of compound heterozygous FED with a CE/TC ratio within the reference range. MethodsLCAT activity assays and genetic analyses were performed using patients’ blood samples. Identified LCAT gene variants were examined by an in vitro expression assay. ResultsThe proband showed approximately 20% LCAT α-activity relative to the normolipidemic controls, whereas a patient with a typical FED-causing variant (p.Thr147Ile) showed only 3% activity. We identified compound heterozygous variants (c.101C>T/c.460A>G) resulting in a p.Pro34Leu/p.Asn154Asp amino acid residue substitution in the LCAT gene of the proband. The former variant has been reported previously, but the latter was newly identified. An in vitro expression assay demonstrated that the LCAT α-activity of the p.Asn154Asp variant significantly decreased regarding the wild type, but it was relatively well preserved compared to the typical FED-causing variants (p.Pro34Leu and p.Thr147Ile). ConclusionThese results suggest that the residual 20% LCAT α-activity is sufficient to normalize CE/TC, but not sufficient to prevent the development of corneal opacity in FED.

Refractory Epilepsy in Adult Patient With COQ8A Variant Improves With CoQ10 Supplementation: A Case for Exome Sequencing in the ICU.

Describe a case of stroke-like episodes and refractory status epilepticus diagnosed with primary CoQ10 deficiency-4 (COQ10D4) using whole-exome sequencing in the intensive care unit (ICU), with treatment implications. A patient presented to the emergency department with 1 month of progressively worsening focal motor status epilepticus and stroke-like imaging abnormalities. Multiple seizure medications, ketogenic diet, and elective intubation for anesthetic drips failed to achieve sustained seizure freedom. Genetic testing was pursued for prognostic information and identified potential treatment. Whole-exome sequencing revealed compound heterozygous variants of COQ8A, including 1 allele not previously described as pathogenic. The patient's history, imaging, and genetic testing supported a diagnosis of COQ10D4. High-dose coenzyme Q10 supplementation was started with gradual clinical improvement. Whole-exome sequencing is a fast and cost-effective means to diagnose rare neurologic disease in critically ill patients and can uncover treatment options. While primarily used in the neonatal ICU, appropriately selected adult patients may also benefit.

Detecting Alu Element Insertion Variant in RP1 Gene Using Whole Genome Sequencing in Patients with Retinitis Pigmentosa.

Background/Objectives:Alu element insertion in the exon 4 of the RP1 gene was newly identified through whole genome sequencing (WGS). This was not detected in previous next-generation sequencing (NGS) analysis. We report three cases of Korean retinitis pigmentosa (RP) patients with compound heterozygous variants including Alu element insertion in the RP1 gene, indicating that Alu element insertion could be a cause of RP; Methods: Among patients diagnosed with RP having variants in the RP1 gene in the Asan Medical Center, WGS was additionally performed for genetically unsolved cases in previous NGS analysis to detect any presence of Alu element insertion. For cases detected to have Alu element insertion in the exon 4 of the RP1 gene, genetic and clinical characteristics were analyzed; Results: Among 16 patients with RP, 3 patients were detected to have Alu element insertion in the RP1 gene. Alu element insertion in the RP1 gene was also detected using WGS. It was revealed to be a pathogenic variant. Therefore, RP1 gene mutation was the confirmed genetic cause of RP for these three cases and genetic counseling was enabled for them; Conclusions: Alu element insertion in the RP1 gene could be a genetic cause of autosomal recessive RP patients with compound heterozygous variants. Through WGS, the identification of this pathogenic variant was possible. Confirmation is needed to check the presence of Alu element insertion in patients with compound heterozygous variants in the RP1 gene.

The High Diagnostic Yield of Prenatal Exome Sequencing Followed by 3400 Gene Panel Analysis in 629 Ongoing Pregnancies With Ultrasound Anomalies.

The aim of this study was to evaluate the diagnostic yield of routine exome sequencing (ES) in fetuses with ultrasound anomalies. We performed a retrospective analysis of the ES results of 629 fetuses with isolated or multiple anomalies referred in 2019-2022. Variants in a gene panel consisting of approximately 3400 genes associated with multiple congenital anomalies and/or intellectual disability were analyzed. We used trio analysis and filtering for de novo variants, compound heterozygous variants, homozygous variants, X-linked variants, variants in imprinted genes, and known pathogenic variants. Pathogenic and likely pathogenic variants (class five and four, respectively) were identified in 14.0% (88/629, 95% CI 11.5%-16.9%) of cases. In the current cohort, the probability of detecting a monogenetic disorder was ∼1:7 (88/629, 95% CI 1:8.7-1:5.9), ranging from 1:9 (49/424) in cases with one major anomaly to 1:5 (32/147) in cases with multiple system anomalies. Our results indicate that a notable number of fetuses (1:7) with ultrasound anomalies and a normal chromosomal microarray have a (likely) pathogenic variant that can be detected through prenatal ES. These results warrant implementation of exome sequencing in selected cases, including those with an isolated anomaly on prenatal ultrasound.

Imerslund-Gräsbeck syndrome in a child with a novel compound heterozygous mutations in the AMN gene: a case report

BackgroundImerslund-Gräsbeck syndrome (IGS) is an autosomal recessive disorder characterized by selective vitamin B12 malabsorption, resulting in vitamin B12 deficiency and impaired reabsorption of proximal tubular proteins.This case highlights a previously unidentified compound heterozygous variant in the Amnionless (AMN) gene that causes IGS syndrome and underscores the importance of long-term oral vitamin B12 replacement therapy in managing the condition.Case presentationIn this retrospective analysis, we present the clinical data of a 3-year and 6-month-old female child diagnosed with IGS at Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, China, in November 2018. The child was admitted to the hospital due to a history of anemia persisting for over a month. There was no previous significant medical history. The admission examination revealed megaloblastic anemia with proteinuria. Serum vitamin B12 levels were decreased, while folic acid and renal function were normal. The patient was diagnosed with megaloblastic anemia and started long-term oral vitamin B12 replacement therapy. Throughout the follow-up period, blood tests consistently showed normal results, while proteinuria persisted. In November 2019, the child and her parents underwent whole exome sequencing analysis, which revealed a novel compound heterozygous variant in the AMN gene: c.162 + 1G > A and c.922 C > T (p.Q308X) in the child, c.162 + 1G > A in the father, and c.922 C > T (p.Q308X) in the mother. Therefore, this child was further diagnosed with IGS.ConclusionsIn this case, whole exome sequencing proves to be highly practical in daily healthcare for diagnosing and refining rare or ultra-rare diseases with ambiguous phenotypes or genetic diversity. It is also valuable for prognostic evaluation and personalized management. Additionally, the oral vitamin B12 treatment demonstrated positive clinical effects for the child, offering a new option for patients unable to undergo intramuscular vitamin B12 replacement therapy.

Validating the splicing effect of rare variants in the SLC26A4 gene using minigene assay

BackgroundThe SLC26A4 gene is the second most common cause of hereditary hearing loss in human. The aim of this study was to utilize the minigene assay in order to identify pathogenic variants of SLC26A4 associated with enlarged vestibular aqueduct (EVA) and hearing loss (HL) in two patients.MethodsThe patients were subjected to multiplex PCR amplification and next-generation sequencing of common deafness genes (including GJB2, SLC26A4, and MT-RNR1), then bioinformatics analysis was performed on the sequencing data to identify candidate pathogenic variants. Minigene experiments were conducted to determine the potential impact of the variants on splicing.ResultsGenetic testing revealed that the first patient carried compound heterozygous variants c.[1149 + 1G > A]; [919–2 A > G] in the SLC26A4 gene, while the second patient carried compound heterozygous variants c.[2089 + 3 A > T]; [919–2 A > G] in the same gene. Minigene experiments demonstrated that both c.1149 + 1G > A and c.2089 + 3 A > T affected mRNA splicing. According to the ACMG guidelines and the recommendations of the ClinGen Hearing Loss Expert Panel for ACMG variant interpretation, these variants were classified as “likely pathogenic”.ConclusionsThis study identified the molecular etiology of hearing loss in two patients with EVA and elucidated the impact of rare variants on splicing, thus contributing to the mutational spectrum of pathogenic variants in the SLC26A4 gene.

A case report of glycogen storage disease caused by compound heterozygous variants in the G6PC gene

A case report of glycogen storage disease caused by compound heterozygous variants in the G6PC gene

Differential inclusion of NEB exons 143 and 144 provides insight into NEB-related myopathy variant interpretation and disease manifestation

Biallelic pathogenic variants in the gene encoding nebulin (NEB) are a known cause of congenital myopathy. We present two brothers with congenital myopathy and compound heterozygous variants (NC_000002.12:g.151692086G>T; NM_001271208.2: c.2079C>A; p.(Cys693Ter) and NC_000002.12:g.151533439T>C; NM_001271208.2:c.21522+3A>G ) in NEB. Transcriptomic sequencing on affected individual muscle revealed that the extended splice variant c.21522+3A>G causes exon 144 skipping. Nebulin isoforms containing exon 144 are known to be mutually exclusive with isoforms containing exon 143, and these isoforms are differentially expressed during development and in adult skeletal muscles. Affected individuals MRI patterns of muscle involvement were compared to the known pattern of relative abundance of these two isoforms in muscle. We propose that the pattern of muscle involvement in these affected individuals better fits the distribution of exon 144-containing isoforms in muscle than with previously published MRI findings in NEB-related disease due to other variants. Our report introduces disease pathogenesis and manifestation as a result of alteration of isoform distributions in muscle.