More than meets the eye: Expanding and reviewing the clinical and mutational spectrum of brittle cornea syndrome.

Brittle cornea syndrome (BCS) is a rare autosomal recessive disorder characterized by corneal thinning and fragility, leading to corneal rupture, the main hallmark of this disorder. Non-ocular symptoms include not only hearing loss but also signs of connective tissue fragility, placing it in the Ehlers-Danlos syndrome (EDS) spectrum. It is caused by biallelic pathogenic variants in ZNF469 or PRDM5, which presumably encode transcription factors for extracellular matrix components. We report the clinical and molecular features of nine novel BCS families, four of which harbor variants in ZNF469 and five in PRDM5. We also performed a genotype- and phenotype-oriented literature overview of all (n = 85) reported patients with ZNF469 (n = 53) and PRDM5 (n = 32) variants. Musculoskeletal findings may be the main reason for referral and often raise suspicion of another heritable connective tissue disorder, such as kyphoscoliotic EDS, osteogenesis imperfecta, or Marfan syndrome, especially when a corneal rupture has not yet occurred. Our findings highlight the multisystemic nature of BCS and validate its inclusion in the EDS classification. Importantly, gene panels for heritable connective tissue disorders should include ZNF469 and PRDM5 to allow for timely diagnosis and appropriate preventive measures for this rare condition.

Correction to: Expanding the genetic heterogeneity of intellectual disability.

Variant nomenclature discrepancy was identified in the article.

Inborn errors of metabolism in a cohort of pregnancies with non-immune hydrops fetalis: a single center experience.

OBJECTIVE: The purpose of this study was to determine the frequency of non-immune hydrops fetalis (NIHF) among all pregnancies referred for prenatal care at Sultan Qaboos University Hospital (SQUH) during the study period and to evaluate the underlying etiologies of NIH. STUDY DESIGN: All pregnancies referred to SQUH between February 2014 and December 2015 were identified, and all pregnancies meeting the diagnosis of NIHF were included in this study. All cases of NIHF referred to our center during this period underwent standard systematic diagnostic work-up that included biochemical and molecular studies in addition to the standard investigations for hydrops fetalis. Clinical characteristics and results of the diagnostic work-up were retrospectively reviewed. RESULTS: A total of 3234 pregnancies were referred for prenatal care at SQUH during the study period, and 12 pregnancies were affected by NIHF. An underlying diagnosis was established in nine cases, and the majority of cases (7/9) were caused by inborn errors of metabolism (IEM). These included a novel homozygous variant in the AARS2 gene (5/7) and two cases of galactosialidosis (2/7). CONCLUSION: IEM was a major cause of NIHF in this cohort. The AARS2 variant accounts for a significant number of cases with NIHF in this cohort of Omani patients.

Expanding the genetic heterogeneity of intellectual disability.

Intellectual disability (ID) is a common morbid condition with a wide range of etiologies. The list of monogenic forms of ID has increased rapidly in recent years thanks to the implementation of genomic sequencing techniques. In this study, we describe the phenotypic and genetic findings of 68 families (105 patients) all with novel ID-related variants. In addition to established ID genes, including ones for which we describe unusual mutational mechanism, some of these variants represent the first confirmatory disease-gene links following previous reports (TRAK1, GTF3C3, SPTBN4 and NKX6-2), some of which were based on single families. Furthermore, we describe novel variants in 14 genes that we propose as novel candidates (ANKHD1, ASTN2, ATP13A1, FMO4, MADD, MFSD11, NCKAP1, NFASC, PCDHGA10, PPP1R21, SLC12A2, SLK, STK32C and ZFAT). We highlight MADD and PCDHGA10 as particularly compelling candidates in which we identified biallelic likely deleterious variants in two independent ID families each. We also highlight NCKAP1 as another compelling candidate in a large family with autosomal dominant mild intellectual disability that fully segregates with a heterozygous truncating variant. The candidacy of NCKAP1 is further supported by its biological function, and our demonstration of relevant expression in human brain. Our study expands the locus and allelic heterogeneity of ID and demonstrates the power of positional mapping to reveal unusual mutational mechanisms.

The landscape of genetic diseases in Saudi Arabia based on the first 1000 diagnostic panels and exomes.

In this study, we report the experience of the only reference clinical next-generation sequencing lab in Saudi Arabia with the first 1000 families who span a wide-range of suspected Mendelian phenotypes. A total of 1019 tests were performed in the period of March 2016-December 2016 comprising 972 solo (index only), 14 duo (parents or affected siblings only), and 33 trio (index and parents). Multigene panels accounted for 672 tests, while whole exome sequencing (WES) represented the remaining 347 tests. Pathogenic or likely pathogenic variants that explain the clinical indications were identified in 34% (27% in panels and 43% in exomes), spanning 279 genes and including 165 novel variants. While recessive mutations dominated the landscape of solved cases (71% of mutations, and 97% of which are homozygous), a substantial minority (27%) were solved on the basis of dominant mutations. The highly consanguineous nature of the study population also facilitated homozygosity for many private mutations (only 32.5% of the recessive mutations are founder), as well as the first instances of recessive inheritance of previously assumed strictly dominant disorders (involving ITPR1, VAMP1, MCTP2, and TBP). Surprisingly, however, dual molecular diagnosis was only observed in 1.5% of cases. Finally, we have encountered candidate variants in 75 genes (ABHD6, ACY3, ADGRB2, ADGRG7, AGTPBP1, AHNAK2, AKAP6, ASB3, ATXN1L, C17orf62, CABP1, CCDC186, CCP110, CLSTN2, CNTN3, CNTN5, CTNNA2, CWC22, DMAP1, DMKN, DMXL1, DSCAM, DVL2, ECI1, EP400, EPB41L5, FBXL22, GAP43, GEMIN7, GIT1, GRIK4, GRSF1, GTRP1, HID1, IFNL1, KCNC4, LRRC52, MAP7D3, MCTP2, MED26, MPP7, MRPS35, MTDH, MTMR9, NECAP2, NPAT, NRAP, PAX7, PCNX, PLCH2, PLEKHF1, PTPN12, QKI, RILPL2, RIMKLA, RIMS2, RNF213, ROBO1, SEC16A, SIAH1, SIRT2, SLAIN2, SLC22A20, SMDT1, SRRT, SSTR1, ST20, SYT9, TSPAN6, UBR4, VAMP4, VPS36, WDR59, WDYHV1, and WHSC1) not previously linked to human phenotypes and these are presented to accelerate post-publication matchmaking. Two of these genes were independently mutated in more than one family with similar phenotypes, which substantiates their link to human disease (AKAP6 in intellectual disability and UBR4 in early dementia). If the novel candidate disease genes in this cohort are independently confirmed, the yield of WES will have increased to 83%, which suggests that most "negative" clinical exome tests are unsolved due to interpretation rather than technical limitations.

Whole exome sequencing identifies causative mutations in the majority of consanguineous or familial cases with childhood-onset increased renal echogenicity.

Chronically increased echogenicity on renal ultrasound is a sensitive early finding of chronic kidney disease that can be detected before manifestation of other symptoms. Increased echogenicity, however, is not specific for a certain etiology of chronic kidney disease. Here, we performed whole exome sequencing in 79 consanguineous or familial cases of suspected nephronophthisis in order to determine the underlying molecular disease cause. In 50 cases, there was a causative mutation in a known monogenic disease gene. In 32 of these cases whole exome sequencing confirmed the diagnosis of a nephronophthisis-related ciliopathy. In 8 cases it revealed the diagnosis of a renal tubulopathy. The remaining 10 cases were identified as Alport syndrome (4), autosomal-recessive polycystic kidney disease (2), congenital anomalies of the kidney and urinary tract (3), and APECED syndrome (1). In 5 families, in whom mutations in known monogenic genes were excluded, we applied homozygosity mapping for variant filtering and identified 5 novel candidate genes (RBM48, FAM186B, PIAS1, INCENP, and RCOR1) for renal ciliopathies. Thus, whole exome sequencing allows the detection of the causative mutation in 2/3 of affected individuals, thereby presenting the etiologic diagnosis, and allows identification of novel candidate genes.

Existing challenges associated with offering prenatal genetic diagnosis in an Arab society in the Sultanate of Oman.

The incidence of congenital anomalies and/or genetic disorders in the Omani population has reached figures greater than double the global statistics. Preference for consanguineous unions together with the fact that termination of pregnancy in Muslim communities are largely avoided, have been highlighted as contributing factors. This overview identifies a third significant aspect contributing to the elevated rate of genetic disorders in the Omani population. Namely, a lack of services that are able to offer termination of pregnancy for severe congenital anomalies, to requesting parents. In this report we select an unusual case of a family at risk for two distinct genetic disorders--6q micro-deletion and unbalanced products of conception attributed to a balanced parental translocation involving chromosome 3 and 13, to portray and examine the current situation faced by Omani couples interested in prenatal diagnosis for termination of pregnancy. Additional challenges and pitfalls to developing a prenatal diagnostic service as part of the genetic service in Oman are discussed.

Applying whole exome sequencing in a consanguineous population with autism spectrum disorder.

This study aimed to systematically assess the impact of clinical and demographic variables on the diagnostic yield of Whole Exome Sequencing (WES) when applied to children with Autism Spectrum Disorder (ASD) from a consanguineous population. Ninety-seven children were included in the analysis, 63% were male and 37% were females. 77.3% had a suspected syndromic aetiology of which 68% had co-existent central nervous system (CNS) clinical features, while 69% had other systems involved. The diagnostic yield of WES in our cohort with ASD was 34%. Children with seizures were more likely to have positive WES results (46% vs. 31%, p = 0.042). Probands with suspected syndromic ASD aetiology showed no significant differential impact on the diagnostic yield of WES.

A Biallelic Variant of the RNA Exosome Gene EXOSC4 Causes Translational Defects Associated with a Neurodevelopmental Disorder.

The RNA exosome is an evolutionarily conserved complex required for both precise RNA processing and decay. Mutations in EXOSC genes encoding structural subunits of the complex are linked to several autosomal recessive disorders. Here, we describe a missense allele of the EXOSC4 gene, which causes a collection of clinical features in two affected siblings. This missense mutation (NM_019037.3: exon3:c.560T>C), changes a leucine residue within a highly conserved region of EXOSC4 to proline (p.Leu187Pro). The two affected individuals presented with prenatal growth restriction, failure to thrive, global developmental delay, intracerebral and basal ganglia calcifications, and kidney failure. Homozygosity for the damaging variant was identified through exome sequencing and Sanger sequencing confirmed segregation. To explore the functional consequences of this amino acid change, we modeled EXOSC4-L187P in the corresponding budding yeast protein, Rrp41 (Rrp41-L187P). Cells that express Rrp41-L187P as the sole copy of the essential Rrp41 protein show significant growth defects. The steady-state level of both the Rrp41-L187P and the EXOSC4-L187P proteins is significantly decreased compared to control Rrp41/EXOSC4. Consistent with this observation, targets of the RNA exosome accumulate in rrp41-L187P cells, including the 7S precursor of 5.8S rRNA. Polysome profiles show a significant decrease in translation in rrp41-L187P cells as compared to control cells with apparent incorporation of 7S pre-rRNA into polysomes. Taken together, this work adds the EXOSC4 subunit of the RNA exosome to the structural subunits of this complex that have been linked to human disease and defines foundational molecular defects that could contribute to the adverse growth phenotypes caused by this novel EXOSC4 pathogenic variant.

Uptake of prenatal genetic diagnosis and termination of pregnancy by Omani Muslim families at risk of genetic disorders: experience over a 9-year period.

Studies on the acceptance of prenatal diagnosis and termination of pregnancy for single gene disorders within Islamic societies in the Middle East are limited. A few have examined the attitudes toward pregnancy termination for fetal indications, but a dearth of published data exists on actual behavior and uptake. This study reports on all prenatal diagnosis requests for single gene disorders, from the Sultanate of Oman, over 9 years. A retrospective study was conducted during which the medical records of all women who performed prenatal diagnoses for single gene disorders were reviewed. A total of 148 invasive procedures were performed for 114 families. The total number of yearly requests for prenatal diagnosis increased exponentially from three in 2012 to 21 in 2020. Sixty-four different diagnoses were tested for with the majority being autosomal recessive in nature. Seventy-one percent (28/39) of cases where an affected pregnancy was identified were terminated. Fifty-two of the 114 women (45.6%) repeated prenatal diagnosis in a future pregnancy. Seventy-two couples (63%) were consanguineous parents related as second cousins or closer. The majority of tests performed were for couples from Muscat (27%), Albatinah (27%), and Alsharqiya (20.3%) governorates in Oman. The findings of this study provide evidence that prenatal diagnosis is an acceptable reproductive option to prevent the occurrence of genetic disorders that meet termination eligibility criteria as outlined by the Islamic Jurisprudence (Fiqh) Council Fatwa, among Omani Muslim couples.

Microphthalmos-anophthalmos-coloboma (MAC) spectrum in two brothers with Renpenning syndrome due to a truncating mutation in the polyglutamine tract binding protein 1 (PQBP1) gene.

Background: Patients with intellectual disability syndromes frequently have coexisting abnormalities of ocular structures and the visual pathway system. The microphthalmos, anophthalmos, and coloboma (MAC) spectrum represent structural developmental eye defects that occur as part of a syndrome in one-third of cases. Ophthalmic examination may provide important diagnostic clues in identifying these syndromes.Purpose: To provide a detailed and comprehensive description of the microphthalmos, anophthalmos, and coloboma (MAC) spectrum in two brothers with intellectual disability and dysmorphism.Methods: The two brothers underwent a detailed ophthalmic and systemic evaluation. A family pedigree was obtained and exome sequencing was performed in the proband.Results: The two brothers aged 4 and 7 years had intellectual disability, microcephaly, short stature, and characteristic dysmorphic features. Ophthalmic evaluation revealed the presence of the MAC spectrum in both boys. Genetic testing led to the detection of an X-linked hemizygous truncating mutation in the nuclear polyglutamine-binding protein 1 (PQBP1) gene confirming the diagnosis of X-linked recessive Renpenning syndrome.Conclusion: The presence of X-linked intellectual disability and characteristic dysmorphism, in a patient with the MAC spectrum should raise the suspicion of Renpenning syndrome. PQBP1 mutation testing is confirmatory. A comprehensive systemic evaluation is mandatory in all patients with the MAC spectrum and intellectual disability.

De Novo Duplication of 7p21.1p22.2 in a Child with Autism Spectrum Disorder and Craniofacial Dysmorphism.

The duplication of the short arm of chromosome 7 as de novo is extremely rare. The phenotype spectrum varies depending on the region of duplication. We report a case of de novo duplication of chromosomal region 7p21.1p22.2 in a three-year-old male child with autism who presented to the Sultan Qaboos University Hospital in Muscat, Oman, in January 2012. The patient was diagnosed with craniofacial dysmorphism, global developmental delay, hypotonia and bilateral cryptorchidism. The duplication was detected by conventional G-banded karyotype analysis/fluorescence in situ hybridisation and confirmed by array comparative genomic hybridisation. To the best of the authors' knowledge, this is the first report of chromosomal region 7p21.1 involvement in an autistic patient showing features of a 7p duplication phenotype. Identifying genes in the duplicated region using molecular techniques is recommended to promote characterisation of the phenotype and associated condition. It may also reveal the possible role of these genes in autism spectrum disorder.

Diagnostic Yield of Chromosomal Microarray Analysis in a Cohort of Patients with Autism Spectrum Disorders from a Highly Consanguineous Population.

Autism Spectrum Disorders are a complicated group of disorders characterized with heterogeneous genetic etiologies. The genetic investigations for this group of disorders have expanded considerably over the past decade. In our study we designed a tired approach and studied the diagnostic yield of chromosomal microarray analysis on patients referred to the Genetic and Developmental Medicine clinic in Sultan Qaboos University in Oman for autism spectrum disorders in a highly consanguineous population. Copy number variants were seen in 27% of our studied cohort of patients and it was strongly associated with dysmorphic features and congenital anomalies.

A rare case of de novo mosaicism: Deletion 18p and isochromosome 18q syndrome.

Monosomy 18p syndrome is a rare chromosomal disorder with varying phenotypic and clinical manifestations. Dysmorphism, growth delay, delayed speech and mental retardation are a few of the commonest features observed. The cytogenetic findings also vary and may comprise a pure deletion of the entire 18p arm or a deletion of a part of the 18p arm, if involved in a translocation with other chromosomes. Monosomy 18p may either occur by itself or with a structural alteration of the remaining chromosome 18, as a ring or as an isochromosome. The clinical presentation of this syndrome often overlaps with other syndromes. Establishing a cytogenetic diagnosis and understanding the location of the breakpoints is crucial for precise management and follow-up. We present here a rare case with mosaicism for a de novo deletion of 18p with isochromosome 18q in a boy born to a consanguineous Omani couple.

Constitutional trisomy 8 mosaicism syndrome: case report and review.

Trisomy 8 mosaicism (Warkany syndrome) is a rare viable condition with variable phenotypes, ranging from mild dysmorphic features to severe malformations. Karyotyping and fluorescence in-situ hybridization potentially help detecting this low mosaic clone to confirm the diagnosis of patients with classical and unusual clinical presentations. This report reviews few previous cases to describe our case - a boy who had trisomy 8 mosaicism with severe dysmorphic features, born to a consanguineous Arabic couple. This study concludes that careful cytogenetic diagnoses of trisomy 8 mosaicism is essential for appropriate management and follow up of this rare disorder.

One in three: congenital bent bone disease and intermittent hyperthermia in three siblings with stuve-wiedemann syndrome.

Stuve-Wiedemann syndrome (STWS) is a rare disorder characterised by congenital bowing of the long bones, contractures of the joints, neonatal onset of respiratory distress, sucking and swallowing difficulties, dysautonomia presenting as episodic hyperthermia, and usually an early death. Three siblings from a consanguineous marriage presented with similar clinical features over 16 years. STWS was established with their last child at the beginning of 2012. All the children exhibited the onset of STWS in the neonatal period with fever and generalised hypotonia. Examinations of all the infants revealed camptodactyly, micrognathia, bent long bones with wide metaphyses, and hypotonia. Only the second affected child had myotonia, demonstrated by electromyography. Unusual pyrexia as a presenting feature in this syndrome needs early recognition so that extensive and elaborate investigations can be avoided. The disorder is usually caused by a mutation in the leukaemia inhibitory factor receptor gene.