Your search keyword '"Al-Younes B"' showing total 21 results

1. A novel syndrome of abnormal striatum and congenital cataract: evidence for linkage to chromosomes 11

Author

Al-Owain, M, Al-Zahrani, J, Al-Bakheet, A, Abudheim, N, Al-Younes, B, Aldhalaan, H, Al-Zaidan, H, Colak, D, Almohaileb, F, Abouzied, M E, Al-Fadhli, F, Meyer, B, and Kaya, N

Published

2013

2. Novel mutation in GLRB in a large family with hereditary hyperekplexia

Author

Al-Owain, M, Colak, D, Al-Bakheet, A, Al-Hashmi, N, Shuaib, T, Al-Hemidan, A, Aldhalaan, H, Rahbeeni, Z, Al-Sayed, M, Al-Younes, B, Ozand, P T, and Kaya, N

Published

2012

3. A novel syndrome of abnormal striatum and congenital cataract: evidence for linkage to chromosomes 11

Author

Al‐Owain, M, primary, Al‐Zahrani, J, additional, Al‐Bakheet, A, additional, Abudheim, N, additional, Al‐Younes, B, additional, Aldhalaan, H, additional, Al‐Zaidan, H, additional, Colak, D, additional, Almohaileb, F, additional, Abouzied, ME, additional, Al‐Fadhli, F, additional, Meyer, B, additional, and Kaya, N, additional

Published

2012

4. Novel mutation in GLRB in a large family with hereditary hyperekplexia

Author

Al-Owain, M, primary, Colak, D, additional, Al-Bakheet, A, additional, Al-Hashmi, N, additional, Shuaib, T, additional, Al-Hemidan, A, additional, Aldhalaan, H, additional, Rahbeeni, Z, additional, Al-Sayed, M, additional, Al-Younes, B, additional, Ozand, PT, additional, and Kaya, N, additional

Published

2011

5. Rett Syndrome, a Neurodevelopmental Disorder, Whole-Transcriptome, and Mitochondrial Genome Multiomics Analyses Identify Novel Variations and Disease Pathways.

Author

Aldosary M, Al-Bakheet A, Al-Dhalaan H, Almass R, Alsagob M, Al-Younes B, AlQuait L, Mustafa OM, Bulbul M, Rahbeeni Z, Alfadhel M, Chedrawi A, Al-Hassnan Z, AlDosari M, Al-Zaidan H, Al-Muhaizea MA, AlSayed MD, Salih MA, AlShammari M, Faiyaz-Ul-Haque M, Chishti MA, Al-Harazi O, Al-Odaib A, Kaya N, and Colak D

Subjects

Case-Control Studies, Child, Child, Preschool, DNA Copy Number Variations, Female, Forkhead Transcription Factors metabolism, Gene Expression Profiling, Gene Expression Regulation, Gene Ontology, Gene Regulatory Networks, Genome, Human, Humans, Male, Methyl-CpG-Binding Protein 2 metabolism, Mitochondria metabolism, Mitochondria pathology, Molecular Sequence Annotation, Mutation, Nerve Tissue Proteins metabolism, Protein Serine-Threonine Kinases metabolism, Rett Syndrome diagnosis, Rett Syndrome metabolism, Rett Syndrome physiopathology, Signal Transduction, Transcriptome, Forkhead Transcription Factors genetics, Genome, Mitochondrial, Methyl-CpG-Binding Protein 2 genetics, Nerve Tissue Proteins genetics, Protein Serine-Threonine Kinases genetics, Rett Syndrome genetics

Abstract

Rett syndrome (RTT) is a severe neurodevelopmental disorder reported worldwide in diverse populations. RTT is diagnosed primarily in females, with clinical findings manifesting early in life. Despite the variable rates across populations, RTT has an estimated prevalence of ∼1 in 10,000 live female births. Among 215 Saudi Arabian patients with neurodevelopmental and autism spectrum disorders, we identified 33 patients with RTT who were subsequently examined by genome-wide transcriptome and mitochondrial genome variations. To the best of our knowledge, this is the first in-depth molecular and multiomics analyses of a large cohort of Saudi RTT cases with a view to informing the underlying mechanisms of this disease that impact many patients and families worldwide. The patients were unrelated, except for 2 affected sisters, and comprised of 25 classic and eight atypical RTT cases. The cases were screened for methyl-CpG binding protein 2 ( MECP2 ), CDKL5 , FOXG1 , NTNG1, and mitochondrial DNA (mtDNA) variants, as well as copy number variations (CNVs) using a genome-wide experimental strategy. We found that 15 patients (13 classic and two atypical RTT) have MECP2 mutations, 2 of which were novel variants. Two patients had novel FOXG1 and CDKL5 variants (both atypical RTT). Whole mtDNA sequencing of the patients who were MECP2 negative revealed two novel mtDNA variants in two classic RTT patients. Importantly, the whole-transcriptome analysis of our RTT patients' blood and further comparison with previous expression profiling of brain tissue from patients with RTT revealed 77 significantly dysregulated genes. The gene ontology and interaction network analysis indicated potentially critical roles of MAPK9 , NDUFA5 , ATR , SMARCA5 , RPL23 , SRSF3 , and mitochondrial dysfunction, oxidative stress response and MAPK signaling pathways in the pathogenesis of RTT genes. This study expands our knowledge on RTT disease networks and pathways as well as presents novel mutations and mtDNA alterations in RTT in a population sample that was not previously studied.

Published

2020

6. Correction to: Recessive VARS2 mutation underlies a novel syndrome with epilepsy, mental retardation, short stature, growth hormone deficiency, and hypogonadism.

Author

Alsemari A, Al-Younes B, Goljan E, Jaroudi D, BinHumaid F, Meyer BF, Arold ST, and Monies D

Abstract

Correction: After publication of the article [1], it has been brought to our attention that there is a nomenclature issue with this article. At the time of acceptance, the VARS2 mutation was considered equivalent to the VARS2 mutation. However, this has changed so that VARS now only refers to shorter mitochondrial sequence of valyl-tRNA synthesase containing 1093 amino acids. "Therefore, in the context of this article, every usage of "VARS2" should be replaced with "VARS" when referring to the causative variant".

Published

2017

7. Recessive VARS2 mutation underlies a novel syndrome with epilepsy, mental retardation, short stature, growth hormone deficiency, and hypogonadism.

Author

Alsemari A, Al-Younes B, Goljan E, Jaroudi D, BinHumaid F, Meyer BF, Arold ST, and Monies D

Subjects

Body Height genetics, Chromosome Mapping, Exome, Female, Genes, Recessive, Growth Disorders genetics, HLA Antigens metabolism, Human Growth Hormone genetics, Humans, Male, Pedigree, Pregnancy, Syndrome, Valine-tRNA Ligase metabolism, Young Adult, Epilepsy genetics, HLA Antigens genetics, Human Growth Hormone deficiency, Hypogonadism genetics, Intellectual Disability genetics, Valine-tRNA Ligase genetics

Abstract

Background: Most mitochondrial and cytoplasmic aminoacyl-tRNA synthetases (aaRSs) are encoded by nuclear genes. Syndromic disorders resulting from mutation of aaRSs genes display significant phenotypic heterogeneity. We expand aaRSs-related phenotypes through characterization of the clinical and molecular basis of a novel autosomal-recessive syndrome manifesting severe mental retardation, ataxia, speech impairment, epilepsy, short stature, microcephaly, hypogonadism, and growth hormone deficiency., Results: A G>A variant in exon 29 of VARS2 (c.3650G>A) (NM_006295) was identified in the index case. This homozygous variant was confirmed by Sanger sequencing and segregated with disease in the family studied. The c.3650G>A change results in alteration of arginine to histidine at residue 1217 (R1217H) of the mature protein and is predicted to be pathogenic., Conclusions: These findings contribute to a growing list of aaRSs disorders, broadens the spectrum of phenotypes attributable to VARS2 mutations, and provides new insight into genotype-phenotype correlations among the mitochondrial synthetase genes.

Published

2017

8. Identification of a novel genetic locus underlying tremor and dystonia.

Author

Monies D, Abou Al-Shaar H, Goljan EA, Al-Younes B, Al-Breacan MMA, Al-Saif MM, Wakil SM, Meyer BF, Khabar KSA, and Bohlega S

Subjects

5' Untranslated Regions, Adolescent, Calcium-Binding Proteins metabolism, Child, Chromosomes, Human, Pair 17, Dystonia etiology, Female, Humans, Male, Mutation, Pedigree, Syndrome, Trans-Activators metabolism, Tremor etiology, Young Adult, Calcium-Binding Proteins genetics, Dystonia genetics, Trans-Activators genetics, Tremor genetics

Abstract

Background: Five affected individuals with syndromic tremulous dystonia, spasticity, and white matter disease from a consanguineous extended family covering a period of over 24 years are presented. A positional cloning approach utilizing genome-wide linkage, homozygozity mapping and whole exome sequencing was used for genetic characterization. The impact of a calmodulin-binding transcription activator 2, (CAMTA2) isoform 2, hypomorphic mutation on mRNA and protein abundance was studied using fluorescent reporter expression cassettes. Human brain sub-region cDNA libraries were used to study the expression pattern of CAMTA2 transcript variants., Results: Linkage analysis and homozygozity mapping localized the disease allele to a 2.1 Mb interval on chromosome 17 with a LOD score of 4.58. Whole exome sequencing identified a G>A change in the transcript variant 2 5'UTR of CAMTA2 that was only 6 bases upstream of the translation start site (c.-6G > A) (NM_001171166.1) and segregated with disease in an autosomal recessive manner. Transfection of wild type and mutant 5'UTR-linked fluorescent reporters showed no impact upon mRNA levels but a significant reduction in the protein fluorescent activity implying translation inhibition., Conclusions: Mutation of CAMTA2 resulting in post-transcriptional inhibition of its own gene activity likely underlies a novel syndromic tremulous dystonia.

Published

2017

9. Expanding the clinical, allelic, and locus heterogeneity of retinal dystrophies.

Author

Patel N, Aldahmesh MA, Alkuraya H, Anazi S, Alsharif H, Khan AO, Sunker A, Al-Mohsen S, Abboud EB, Nowilaty SR, Alowain M, Al-Zaidan H, Al-Saud B, Alasmari A, Abdel-Salam GM, Abouelhoda M, Abdulwahab FM, Ibrahim N, Naim E, Al-Younes B, E AlMostafa A, AlIssa A, Hashem M, Buzovetsky O, Xiong Y, Monies D, Altassan N, Shaheen R, Al-Hazzaa SA, and Alkuraya FS

Subjects

Female, Homozygote, Humans, Male, Mutation, Pedigree, Phenotype, Retina pathology, Retinal Dystrophies diagnosis, Retinal Dystrophies pathology, Exome Sequencing, Cadherins genetics, Carboxypeptidases genetics, Mitochondrial Membrane Transport Proteins genetics, Retinal Dystrophies genetics

Abstract

Purpose: Retinal dystrophies (RD) are heterogeneous hereditary disorders of the retina that are usually progressive in nature. The aim of this study was to clinically and molecularly characterize a large cohort of RD patients., Methods: We have developed a next-generation sequencing assay that allows known RD genes to be sequenced simultaneously. We also performed mapping studies and exome sequencing on familial and on syndromic RD patients who tested negative on the panel., Results: Our panel identified the likely causal mutation in >60% of the 292 RD families tested. Mapping studies on all 162 familial RD patients who tested negative on the panel identified two novel disease loci on Chr2:25,550,180-28,794,007 and Chr16:59,225,000-72,511,000. Whole-exome sequencing revealed the likely candidate as AGBL5 and CDH16, respectively. We also performed exome sequencing on negative syndromic RD cases and identified a novel homozygous truncating mutation in GNS in a family with the novel combination of mucopolysaccharidosis and RD. Moreover, we identified a homozygous truncating mutation in DNAJC17 in a family with an apparently novel syndrome of retinitis pigmentosa and hypogammaglobulinemia., Conclusion: Our study expands the clinical and allelic spectrum of known RD genes, and reveals AGBL5, CDH16, and DNAJC17 as novel disease candidates.Genet Med 18 6, 554-562.

Published

2016

10. Expanding phenotypic and allelic heterogeneity of tricho-hepato-enteric syndrome.

Author

Monies DM, Rahbeeni Z, Abouelhoda M, Naim EA, Al-Younes B, Meyer BF, and Al-Mehaidib A

Subjects

Adolescent, Adult, Alleles, Amino Acid Substitution, Child, Codon, Nonsense, Cohort Studies, Consanguinity, DNA Mutational Analysis, Facies, Family Health, Female, Gene Deletion, Humans, Male, Saudi Arabia, Young Adult, DNA Helicases genetics, Diarrhea, Infantile genetics, Diarrhea, Infantile physiopathology, Fetal Growth Retardation genetics, Fetal Growth Retardation physiopathology, Hair Diseases genetics, Hair Diseases physiopathology, Hyperpigmentation etiology, Mutation

Abstract

Molecular genetics studies are of increasing importance in the diagnosis and classification of congenital diarrheal disorders. We describe the molecular genetic basis of tricho-hepato-enteric syndrome in patients from Saudi Arabia with novel mutations of SKIV2L (c.3559_3579del, p.1187_1193del) and TTC37 (C4102T, p.Q1368X). Interestingly, the congenital presence of café-au-lait spots and their distribution in the pelvis and lower limbs were a unique and consistent clinical feature of these patients and may aid differential diagnosis of congenital diarrheal disorders. This study expands allelic and phenotypic heterogeneity of syndromic diarrhea/tricho-hepato-enteric syndrome.

Published

2015

11. Accelerating novel candidate gene discovery in neurogenetic disorders via whole-exome sequencing of prescreened multiplex consanguineous families.

Author

Alazami AM, Patel N, Shamseldin HE, Anazi S, Al-Dosari MS, Alzahrani F, Hijazi H, Alshammari M, Aldahmesh MA, Salih MA, Faqeih E, Alhashem A, Bashiri FA, Al-Owain M, Kentab AY, Sogaty S, Al Tala S, Temsah MH, Tulbah M, Aljelaify RF, Alshahwan SA, Seidahmed MZ, Alhadid AA, Aldhalaan H, AlQallaf F, Kurdi W, Alfadhel M, Babay Z, Alsogheer M, Kaya N, Al-Hassnan ZN, Abdel-Salam GM, Al-Sannaa N, Al Mutairi F, El Khashab HY, Bohlega S, Jia X, Nguyen HC, Hammami R, Adly N, Mohamed JY, Abdulwahab F, Ibrahim N, Naim EA, Al-Younes B, Meyer BF, Hashem M, Shaheen R, Xiong Y, Abouelhoda M, Aldeeri AA, Monies DM, and Alkuraya FS

Subjects

Central Nervous System Diseases pathology, Chromosome Mapping, Female, High-Throughput Nucleotide Sequencing, Homozygote, Humans, Male, Pedigree, Phenotype, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Central Nervous System Diseases genetics, Genetic Association Studies

Abstract

Our knowledge of disease genes in neurological disorders is incomplete. With the aim of closing this gap, we performed whole-exome sequencing on 143 multiplex consanguineous families in whom known disease genes had been excluded by autozygosity mapping and candidate gene analysis. This prescreening step led to the identification of 69 recessive genes not previously associated with disease, of which 33 are here described (SPDL1, TUBA3E, INO80, NID1, TSEN15, DMBX1, CLHC1, C12orf4, WDR93, ST7, MATN4, SEC24D, PCDHB4, PTPN23, TAF6, TBCK, FAM177A1, KIAA1109, MTSS1L, XIRP1, KCTD3, CHAF1B, ARV1, ISCA2, PTRH2, GEMIN4, MYOCD, PDPR, DPH1, NUP107, TMEM92, EPB41L4A, and FAM120AOS). We also encountered instances in which the phenotype departed significantly from the established clinical presentation of a known disease gene. Overall, a likely causal mutation was identified in >73% of our cases. This study contributes to the global effort toward a full compendium of disease genes affecting brain function., (Copyright © 2015 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2015

12. Association of a mutation in LACC1 with a monogenic form of systemic juvenile idiopathic arthritis.

Author

Wakil SM, Monies DM, Abouelhoda M, Al-Tassan N, Al-Dusery H, Naim EA, Al-Younes B, Shinwari J, Al-Mohanna FA, Meyer BF, and Al-Mayouf S

Subjects

Adolescent, Adult, Amino Acid Sequence, Child, Child, Preschool, Exome genetics, Female, Homozygote, Humans, Infant, Male, Molecular Sequence Data, Pedigree, Saudi Arabia, Young Adult, Arthritis, Juvenile genetics, Genetic Linkage genetics, Laccase genetics, Mutation, Missense genetics

Abstract

Objective: The pathologic basis of systemic juvenile idiopathic arthritis (JIA) is a subject of some controversy, with evidence for both autoimmune and autoinflammatory etiologies. Several monogenic autoinflammatory disorders have been described, but thus far, systemic JIA has only been attributed to a mutation of MEFV in rare cases and has been weakly associated with the HLA class II locus. This study was undertaken to identify the cause of an autosomal-recessive form of systemic JIA., Methods: We studied 13 patients with systemic JIA from 5 consanguineous families, all from the southern region of Saudi Arabia. We used linkage analysis, homozygosity mapping, and whole-exome sequencing to identify the disease-associated gene and mutation., Results: Linkage analysis localized systemic JIA to a region on chromosome 13 with a maximum logarithm of odds score of 11.33, representing the strongest linkage identified to date for this disorder. Homozygosity mapping reduced the critical interval to a 1.02-Mb region defined proximally by rs9533338 and distally by rs9595049. Whole-exome sequencing identified a homoallelic missense mutation in LACC1, which encodes the enzyme laccase (multicopper oxidoreductase) domain-containing 1. The mutation was confirmed by Sanger sequencing and segregated with disease in all 5 families based on an autosomal-recessive pattern of inheritance and complete penetrance., Conclusion: Our findings provide strong genetic evidence of an association of a mutation in LACC1 with systemic JIA in the families studied. Association of LACC1 with Crohn's disease and leprosy has been reported and justifies investigation of its role in autoinflammatory disorders., (Copyright © 2015 by the American College of Rheumatology.)

Published

2015

13. METTL23, a transcriptional partner of GABPA, is essential for human cognition.

Author

Reiff RE, Ali BR, Baron B, Yu TW, Ben-Salem S, Coulter ME, Schubert CR, Hill RS, Akawi NA, Al-Younes B, Kaya N, Evrony GD, Al-Saffar M, Felie JM, Partlow JN, Sunu CM, Schembri-Wismayer P, Alkuraya FS, Meyer BF, Walsh CA, Al-Gazali L, and Mochida GH

Subjects

Cell Nucleus metabolism, Cytoplasm metabolism, DNA Modification Methylases genetics, Female, GA-Binding Protein Transcription Factor genetics, Genotype, Humans, Immunoprecipitation, Male, Mitochondrial Proton-Translocating ATPases genetics, Mitochondrial Proton-Translocating ATPases metabolism, Polymorphism, Single Nucleotide genetics, Protein Binding, RNA, Small Interfering, Thrombopoietin genetics, Thrombopoietin metabolism, Two-Hybrid System Techniques, DNA Modification Methylases metabolism, GA-Binding Protein Transcription Factor metabolism

Abstract

Whereas many genes associated with intellectual disability (ID) encode synaptic proteins, transcriptional defects leading to ID are less well understood. We studied a large, consanguineous pedigree of Arab origin with seven members affected with ID and mild dysmorphic features. Homozygosity mapping and linkage analysis identified a candidate region on chromosome 17 with a maximum multipoint logarithm of odds score of 6.01. Targeted high-throughput sequencing of the exons in the candidate region identified a homozygous 4-bp deletion (c.169_172delCACT) in the METTL23 (methyltransferase like 23) gene, which is predicted to result in a frameshift and premature truncation (p.His57Valfs*11). Overexpressed METTL23 protein localized to both nucleus and cytoplasm, and physically interacted with GABPA (GA-binding protein transcription factor, alpha subunit). GABP, of which GABPA is a component, is known to regulate the expression of genes such as THPO (thrombopoietin) and ATP5B (ATP synthase, H+ transporting, mitochondrial F1 complex, beta polypeptide) and is implicated in a wide variety of important cellular functions. Overexpression of METTL23 resulted in increased transcriptional activity at the THPO promoter, whereas knockdown of METTL23 with siRNA resulted in decreased expression of ATP5B, thus revealing the importance of METTL23 as a regulator of GABPA function. The METTL23 mutation highlights a new transcriptional pathway underlying human intellectual function., (© The Author 2014. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2014

14. Clinical and pathological heterogeneity of a congenital disorder of glycosylation manifesting as a myasthenic/myopathic syndrome.

Author

Monies DM, Al-Hindi HN, Al-Muhaizea MA, Jaroudi DJ, Al-Younes B, Naim EA, Wakil SM, Meyer BF, and Bohlega S

Subjects

Adolescent, Adult, DNA Mutational Analysis, Diagnosis, Differential, Family, Female, Glycosylation, Humans, Male, Metabolism, Inborn Errors diagnosis, Metabolism, Inborn Errors genetics, Muscular Diseases diagnosis, Myasthenic Syndromes, Congenital diagnosis, Myofibrils pathology, Pedigree, Phenotype, Apoptosis Regulatory Proteins genetics, Calcium-Binding Proteins genetics, Metabolism, Inborn Errors pathology, Metabolism, Inborn Errors physiopathology, Mutation

Abstract

Congenital disorders of glycosylation are often associated with muscle weakness in apparent isolation or as part of a multi-systemic disorder. We report here the clinical and pathological features resulting from a homozygous mutation of ALG2 in an extended family. Phenotypic heterogeneity is observed among the small cohort of patients reported to date and is highlighted by our study. Linkage analysis, homozygozity mapping and whole exome sequencing followed clinical and pathological characterization of patients who presented with a congenital limb girdle pattern of weakness with no ocular or bulbar involvement. Nerve stimulation studies were consistent with a congenital myasthenic syndrome. Severity and progression of disease was variable. Muscle biopsies showed myopathic features, ragged red fibers and a sub-sarcolemmal accumulation of structurally normal mitochondria. Whole exome sequencing revealed an indel mutation c.214_224delGGGGACTGGCTdelinsAGTCCCCG, p.72_75delGDWLinsSPR in exon 1 of ALG2. Mutation of ALG2 manifested as a limb girdle pattern of muscle weakness with defects at both the neuromuscular junction and sarcomere. In addition the accumulation and distribution of mitochondria in the diseased muscle and the presence of ragged red fibers were supportive of a mitochondrial myopathy. ALG2 mutation results in a heterogeneous phenotype and care should be taken in categorization and treatment of these patients., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

15. Clinical and biochemical features associated with BCS1L mutation.

Author

Al-Owain M, Colak D, Albakheet A, Al-Younes B, Al-Humaidi Z, Al-Sayed M, Al-Hindi H, Al-Sugair A, Al-Muhaideb A, Rahbeeni Z, Al-Sehli A, Al-Fadhli F, Ozand PT, Taylor RW, and Kaya N

Subjects

ATPases Associated with Diverse Cellular Activities, Acidosis, Lactic metabolism, Adolescent, Adult, Child, Cholestasis genetics, Cholestasis metabolism, Electron Transport genetics, Electron Transport Complex III metabolism, Female, Fetal Growth Retardation genetics, Fetal Growth Retardation metabolism, Genetic Predisposition to Disease, Hair Diseases genetics, Hair Diseases metabolism, Hearing Loss, Sensorineural genetics, Hearing Loss, Sensorineural metabolism, Hemosiderosis genetics, Hemosiderosis metabolism, Homozygote, Humans, Male, Metabolism, Inborn Errors genetics, Metabolism, Inborn Errors metabolism, Mitochondrial Diseases congenital, Mitochondrial Diseases genetics, Mitochondrial Diseases metabolism, Phenotype, Renal Aminoacidurias genetics, Renal Aminoacidurias metabolism, Acidosis, Lactic genetics, Electron Transport Complex III genetics, Mutation

Abstract

Our study describes a novel phenotype in a series of nine Saudi patients with lactic acidosis, from four consanguineous families three of which are related. Detailed genetic studies including linkage, homozygosity mapping and targeted sequencing identified a causative mutation in the BCS1L gene. All affected members of the families have an identical mutation in this gene, mutations of which are recognized causes of Björnstad syndrome, GRACILE syndrome and a syndrome of neonatal tubulopathy, encephalopathy, and liver failure (MIM 606104) leading to isolated mitochondrial respiratory chain complex III deficiency. Here we report the appearance of a novel behavioral (five patients) and psychiatric (two patients) phenotype associated with a p.Gly129Arg BCS1L mutation, differing from the phenotype in a previously reported singleton patient with this mutation. The psychiatric symptoms emanated after childhood, initially as hypomania later evolving into intermittent psychosis. Neuroradiological findings included subtle white matter abnormalities, whilst muscle histopathology and respiratory chain studies confirmed respiratory chain dysfunction. The variable neuro-psychiatric manifestations and cortical visual dysfunction are most unusual and not reported associated with other BCS1L mutations. This report emphasizes the clinical heterogeneity associated with the mutation in BCS1L gene, even within the same family and we recommend that defects in this gene should be considered in the differential diagnosis of lactic acidosis with variable involvement of different organs.

Published

2013

16. Identification of a novel IVD mutation in a consanguineous family with isovaleric acidemia.

Author

Kaya N, Colak D, Al-Bakheet A, Al-Younes B, Tulbah S, Daghestani M, Al-Mutairi F, Al-Amoudi M, Al-Odaib A, and Al-Aqeel AI

Subjects

Adolescent, Arabs genetics, Consanguinity, Female, Humans, Isovaleryl-CoA Dehydrogenase chemistry, Isovaleryl-CoA Dehydrogenase deficiency, Isovaleryl-CoA Dehydrogenase metabolism, Male, Amino Acid Metabolism, Inborn Errors genetics, Isovaleryl-CoA Dehydrogenase genetics, Mutation

Abstract

Isovaleric acidemia (IVA) is a rare autosomal recessive disorder caused by a deficiency of isovaleryl-CoA dehydrogenase encoded by IVD gene. In this case study we report the first Saudi IVA patients from a consanguineous family with a novel transversion (p.G362V) and briefly discuss likely phenotype-genotype correlation of the disease in the Saudi population. We explored the functional consequences of the mutation by using various bioinformatics prediction algorithms and discussed the likely mechanism of the disease caused by the mutation., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

17. Novel V97G ASAH1 mutation found in Farber disease patients: unique appearance of the disease with an intermediate severity, and marked early involvement of central and peripheral nervous system.

Author

Chedrawi AK, Al-Hassnan ZN, Al-Muhaizea M, Colak D, Al-Younes B, Albakheet A, Tulba S, and Kaya N

Subjects

Brain pathology, Child, Preschool, Farber Lipogranulomatosis pathology, Female, Humans, Infant, Magnetic Resonance Imaging, Male, Phenotype, Severity of Illness Index, Siblings, Acid Ceramidase genetics, Farber Lipogranulomatosis genetics

Abstract

Farber disease is a rare inherited lysosomal storage disorder caused by ceramidase deficiency that leads to accumulation of ceramide in various tissues. Mutations within ASAH1 encoding for acid ceramidase are responsible for the disease. Here we report two siblings with Farber disease who carry a novel V97G with the parents and a sister being asymptomatic carriers. The mutation site was found to be highly conserved among different species using ClustalW2 alignment. Functional prediction tools indicated the mutation to be pathogenic. Electron microscopy based ultrastructural studies using skin biopsy showed inclusion of enlarged lysosomes and presence of the zebra bodies. The T1 weighted magnetic resonance images of the brain indicated diffuse loss of the deep white matter volume predominantly along the occipital horns of the lateral ventricle with subsequent facet dilatation of the supratentorial and infratentorial ventricular system. This is the first report of a detailed clinical and molecular analysis of cases with Farber disease from Saudi Arabia., (Copyright © 2011 The Japanese Society of Child Neurology. Published by Elsevier B.V. All rights reserved.)

Published

2012

18. A novel X-linked disorder with developmental delay and autistic features.

Author

Kaya N, Colak D, Albakheet A, Al-Owain M, Abu-Dheim N, Al-Younes B, Al-Zahrani J, Mukaddes NM, Dervent A, Al-Dosari N, Al-Odaib A, Kayaalp IV, Al-Sayed M, Al-Hassnan Z, Nester MJ, Al-Dosari M, Al-Dhalaan H, Chedrawi A, Gunoz H, Karakas B, Sakati N, Alkuraya FS, Gascon GG, and Ozand PT

Subjects

Abnormal Karyotype, Adult, Child, Child Development Disorders, Pervasive physiopathology, Child, Preschool, Developmental Disabilities physiopathology, Female, Gene Duplication, Genetic Diseases, X-Linked physiopathology, Humans, In Situ Hybridization, Fluorescence, Male, Oligonucleotide Array Sequence Analysis, Pedigree, Reverse Transcriptase Polymerase Chain Reaction, Child Development Disorders, Pervasive genetics, Chromosomes, Human, X genetics, Developmental Disabilities genetics, Genetic Diseases, X-Linked genetics

Abstract

Objective: Genomic duplications that lead to autism and other human diseases are interesting pathological lesions since the underlying mechanism almost certainly involves dosage sensitive genes. We aim to understand a novel genomic disorder with profound phenotypic consequences, most notably global developmental delay, autism, psychosis, and anorexia nervosa., Methods: We evaluated the affected individuals, all maternally related, using childhood autism rating scale (CARS) and Vineland Adaptive scales, magnetic resonance imaging (MRI) and magnetic resonance spectroscopy (MRS) brain, electroencephalography (EEG), electromyography (EMG), muscle biopsy, high-resolution molecular karyotype arrays, Giemsa banding (G-banding) and fluorescent in situ hybridization (FISH) experiments, mitochondrial DNA (mtDNA) sequencing, X-chromosome inactivation study, global gene expression analysis on Epstein-Barr virus (EBV)-transformed lymphoblasts, and quantitative reverse-transcription polymerase chain reaction (qRT-PCR)., Results: We have identified a novel Xq12-q13.3 duplication in an extended family. Clinically normal mothers were completely skewed in favor of the normal chromosome X. Global transcriptional profiling of affected individuals and controls revealed significant alterations of genes and pathways in a pattern consistent with previous microarray studies of autism spectrum disorder patients. Moreover, expression analysis revealed copy number-dependent increased messenger RNA (mRNA) levels in affected patients compared to control individuals. A subset of differentially expressed genes was validated using qRT-PCR., Interpretation: Xq12-q13.3 duplication is a novel global developmental delay and autism-predisposing chromosomal aberration; pathogenesis of which may be mediated by increased dosage of genes contained in the duplication, including NLGN3, OPHN1, AR, EFNB1, TAF1, GJB1, and MED12., (Copyright © 2011 American Neurological Association.)

Published

2012

19. Phenotypical spectrum of cerebellar ataxia associated with a novel mutation in the CA8 gene, encoding carbonic anhydrase (CA) VIII.

Author

Kaya N, Aldhalaan H, Al-Younes B, Colak D, Shuaib T, Al-Mohaileb F, Al-Sugair A, Nester M, Al-Yamani S, Al-Bakheet A, Al-Hashmi N, Al-Sayed M, Meyer B, Jungbluth H, and Al-Owain M

Subjects

Adolescent, Amino Acid Sequence, Base Sequence, Biomarkers, Tumor chemistry, Brain diagnostic imaging, Brain pathology, Cerebellar Ataxia diagnostic imaging, Cerebellar Ataxia pathology, Child, Child, Preschool, DNA Mutational Analysis, Female, Gene Regulatory Networks genetics, Humans, Infant, Infant, Newborn, Magnetic Resonance Imaging, Male, Molecular Sequence Data, Phenotype, Positron-Emission Tomography, Young Adult, Biomarkers, Tumor genetics, Cerebellar Ataxia enzymology, Cerebellar Ataxia genetics, Genetic Predisposition to Disease, Mutation genetics

Abstract

We define the neurological characteristics of familial cases from multiple branches of a large consanguineous family with cerebellar ataxia, mental retardation (MR), and dysequilibrium syndrome type 3 caused by a mutation in the recently cloned CA8 gene. The linkage analysis revealed a high logarithm of the odds (LOD) score region on 8q that harbors the CA8 in which a novel homozygous c.484G>A (p.G162R) mutation was identified in all seven affected members. The patients had variable cerebellar ataxia and mild cognitive impairment without quadrupedal gait. The brain MRI showed variable cerebellar volume loss and ill-defined peritrigonal white matter abnormalities. The Fluorodeoxyglucose Positron Emission Tomography (FDG PET) revealed hypometabolic cerebellar hemispheres, temporal lobes, and mesial cortex. This report expands the neurological and radiological phenotype associated with CA8 mutations. CA8 involvement should be considered in the differential diagnosis of other genetically unresolved autosomal recessive cerebellar ataxias., (Copyright © 2011 Wiley-Liss, Inc.)

Published

2011

20. A novel interstitial microdeletion of 7q22.1-7q22.3 detected by array comparative genomic hybridization.

Author

Al-Hassnan ZN, Al-Bakheet A, Abu-Dheim N, Al-Younes B, Colak D, and Kaya N

Subjects

Abnormalities, Multiple diagnosis, Abnormalities, Multiple genetics, Brain pathology, Child, Preschool, Chromosome Banding, Chromosome Disorders diagnosis, Comparative Genomic Hybridization, Developmental Disabilities diagnosis, Developmental Disabilities genetics, Humans, Magnetic Resonance Imaging, Male, Chromosome Deletion, Chromosome Disorders genetics, Chromosomes, Human, Pair 7

Published

2011

21. Genomic and transcriptomic analyses distinguish classic Rett and Rett-like syndrome and reveals shared altered pathways.

Author

Colak D, Al-Dhalaan H, Nester M, Albakheet A, Al-Younes B, Al-Hassnan Z, Al-Dosari M, Chedrawi A, Al-Owain M, Abudheim N, Al-Alwan L, Al-Odaib A, Ozand P, Inan MS, and Kaya N

Subjects

Diagnosis, Differential, Humans, Mutation, Phenotype, Gene Expression Profiling, Genomics, Rett Syndrome diagnosis, Rett Syndrome genetics, Signal Transduction

Abstract

Rett syndrome (RTT) is an X-linked neurodevelopmental disorder characterized by derangements in nervous system especially in cognition and behavior. The present study aims to understand the molecular underpinnings of two subtypes of RTT, classic RTT and Rett-like, and to elucidate common pathways giving rise to common RTT phenotype using genomic and transcriptomic approaches. Mutation screening on selected nuclear genes revealed only MECP2 mutations in a subset of classic RTT patients. MLPA assays and mtDNA screenings were all negative. Genome-wide copy number analysis indicated a novel duplication on X chromosome. Transcriptional profiling revealed blood gene signatures that clearly distinguish classic RTT and RTT-like patients, as well as shared altered pathways in interleukin-4 and NF-κB signaling pathways in both subtypes of the syndrome. To our knowledge, this is the first report on investigating common regulatory mechanisms/signaling pathways that may be relevant to the pathobiology of the "common RTT" phenotype., (Copyright © 2010 Elsevier Inc. All rights reserved.)

Published

2011