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3. Posterior microphthalmia and nanophthalmia in Tunisia caused by a founder c.1059_1066insC mutation of the PRSS56 gene

Author

Ben Said, Mariem, Chouchene, Ebtissem, Ben Salem, Salma, Daoud, Kods, Largueche, Leila, Bouassida, Walid, Benzina, Zeineb, Ayadi, Hammadi, Söderkvist, Peter, Matri, Leila, Hmani-Aifa, Mounira, Ben Said, Mariem, Chouchene, Ebtissem, Ben Salem, Salma, Daoud, Kods, Largueche, Leila, Bouassida, Walid, Benzina, Zeineb, Ayadi, Hammadi, Söderkvist, Peter, Matri, Leila, and Hmani-Aifa, Mounira

Abstract

Congenital microphthalmia (CMIC) is a common developmental ocular disorder characterized by a small, and sometimes malformed, eye. Posterior microphthalmia (PM) and nanophthalmia are two rare subtypes of isolated CMIC characterized by extreme hyperopia due to short axial length and elevated lens/eye volume ratio. While nanophthalmia is associated with a reduced size in both anterior and posterior segments, PM involves a normal-size anterior chamber but a small posterior segment. less thanbrgreater than less thanbrgreater thanSeveral genes encoding transcription and non-transcription regulators have been identified in different forms of CMIC. MFRP gene mutations have, for instance, been associated with nanophthalmia, and mutations in the recently identified PRSS56 gene have been linked to PM. So far, these two forms of CMIC have been associated with 9 mutations in PRSS56. Of particular interest, a c.1059_1066insC mutation has recently been reported in four Tunisian families with isolated PM and one Tunisian family with nanophthalmia. Here, we performed a genome-wide scan using a high density single nucleotide polymorphism (SNP) array 50 K in a large consanguineous Tunisian family (PM7) affected with PM and identified the same causative disease mutation. A total of 24 polymorphic markers spanning the PRSS56 gene in 6 families originating from different regions of Tunisia were analyzed to investigate the origin of the c.1059_1066insC mutation and to determine whether it arose in a common ancestor. A highly significant disease-associated haplotype, spanning across the 146 kb of the 2q37.1 chromosome, was conserved in those families, suggesting that c.1059_1066insC arose from a common founder. The age of the mutation in this haplotype was estimated to be around 1850 years. The identification of such founder effects may greatly simplify diagnostic genetic screening and lead to better prognostic counseling., Funding Agencies|Tunisian Ministry of Higher Education, Scientific Research and Technology||Tunisian Ministry of Women||MENA Project||VR/SIDA|348-2005-6336

Published
2013
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4. Alteration of the serine protease PRSS56 causes angle-closure glaucoma in mice and posterior microphthalmia in humans and mice

Author

Saidas Nair, K, Hmani-Aifa, Mounira, Ali, Zain, Kearney, Alison L, Ben Salem, Salma, Macalinao, Danilo G, Cosma, Ioan M, Bouassida, Walid, Hakim, Bochra, Benzina, Zeineb, Soto, Ileana, Söderkvist, Peter, Howell, Gareth R, Smith, Richard S, Ayadi, Hammadi, John, Simon W M, Saidas Nair, K, Hmani-Aifa, Mounira, Ali, Zain, Kearney, Alison L, Ben Salem, Salma, Macalinao, Danilo G, Cosma, Ioan M, Bouassida, Walid, Hakim, Bochra, Benzina, Zeineb, Soto, Ileana, Söderkvist, Peter, Howell, Gareth R, Smith, Richard S, Ayadi, Hammadi, and John, Simon W M

Abstract

Angle-closure glaucoma (ACG) is a subset of glaucoma affecting 16 million people(1-3). Although 4 million people are bilaterally blind from ACG(4,5), the causative molecular mechanisms of ACG remain to be defined. High intraocular pressure induces glaucoma in ACG. High intraocular pressure traditionally was suggested to result from the iris blocking or closing the angle of the eye, thereby limiting aqueous humor drainage. Eyes from individuals with ACG often have a modestly decreased axial length, shallow anterior chamber and relatively large lens, features that predispose to angle closure(6). Here we show that genetic alteration of a previously unidentified serine protease (PRSS56) alters axial length and causes a mouse phenotype resembling ACG. Mutations affecting this protease also cause a severe decrease of axial length in individuals with posterior microphthalmia. Together, these data suggest that alterations of this serine protease may contribute to a spectrum of human ocular conditions including reduced ocular size and ACG.

Published
2011
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5. Identification of candidate regions for a novel Usher syndrome type II locus.

Author

UCL - MD/BICL - Département de biochimie et de biologie cellulaire, Ben Rebeh, Imen, Benzina, Zeineb, Dhouib, Houria, Hadjamor, Imen, Amyere, Mustapha, Ayadi, Leila, Turki, Khalil, Hammami, Bouthaina, Kmiha, Noureddine, Kammoun, Hassen, Hakim, Bochra, Charfedine, Ilhem, Vikkula, Miikka, Ghorbel, Abdelmonem, Ayadi, Hammadi, Masmoudi, Saber, UCL - MD/BICL - Département de biochimie et de biologie cellulaire, Ben Rebeh, Imen, Benzina, Zeineb, Dhouib, Houria, Hadjamor, Imen, Amyere, Mustapha, Ayadi, Leila, Turki, Khalil, Hammami, Bouthaina, Kmiha, Noureddine, Kammoun, Hassen, Hakim, Bochra, Charfedine, Ilhem, Vikkula, Miikka, Ghorbel, Abdelmonem, Ayadi, Hammadi, and Masmoudi, Saber

Abstract

PURPOSE: Chronic diseases affecting the inner ear and the retina cause severe impairments to our communication systems. In more than half of the cases, Usher syndrome (USH) is the origin of these double defects. Patients with USH type II (USH2) have retinitis pigmentosa (RP) that develops during puberty, moderate to severe hearing impairment with downsloping pure-tone audiogram, and normal vestibular function. Four loci and three genes are known for USH2. In this study, we proposed to localize the gene responsible for USH2 in a consanguineous family of Tunisian origin. METHODS: Affected members underwent detailed ocular and audiologic characterization. One Tunisian family with USH2 and 45 healthy controls unrelated to the family were recruited. Two affected and six unaffected family members attended our study. DNA samples of eight family members were genotyped with polymorphic markers. Two-point and multipoint LOD scores were calculated using Genehunter software v2.1. Sequencing was used to investigate candidate genes. RESULTS: Haplotype analysis showed no significant linkage to any known USH gene or locus. A genome-wide screen, using microsatellite markers, was performed, allowing the identification of three homozygous regions in chromosomes 2, 4, and 15. We further confirmed and refined these three regions using microsatellite and single-nucleotide polymorphisms. With recessive mode of inheritance, the highest multipoint LOD score of 1.765 was identified for the candidate regions on chromosomes 4 and 15. The chromosome 15 locus is large (55 Mb), underscoring the limited number of meioses in the consanguineous pedigree. Moreover, the linked, homozygous chromosome 15q alleles, unlike those of the chromosome 2 and 4 loci, are infrequent in the local population. Thus, the data strongly suggest that the novel locus for USH2 is likely to reside on 15q. CONCLUSIONS: Our data provide a basis for the localization and the identification of a novel gene implicated in USH2, m

Published
2008

8. Identification of two new mutations in the GPR98 and the PDE6B genes segregating in a Tunisian family.

Author

Hmani-Aifa, Mounira, Benzina, Zeineb, Zulfiqar, Fareeha, Dhouib, Houria, Shahzadi, Amber, Ghorbel, Abdelmonem, Rebaï, Ahmed, Söderkvist, Peter, Riazuddin, Sheikh, Kimberling, William J., and Ayadi, Hammadi

Subjects
*GENETIC mutation, *USHER'S syndrome, *RETINITIS pigmentosa, *RETINAL degeneration, *GENETICS of deafness, *HETEROGENEITY
Abstract

Autosomal recessive retinitis pigmentosa (ARRP) is a genetically heterogeneous disorder. ARRP could be associated with extraocular manifestations that define specific syndromes such as Usher syndrome (USH) characterized by retinal degeneration and congenital hearing loss (HL). The USH type II (USH2) associates RP and mild-to-moderate HL with preserved vestibular function. At least three genes USH2A, the very large G-protein-coupled receptor, GPR98, and DFNB31 are responsible for USH2 syndrome. Here, we report on the segregation of non-syndromic ARRP and USH2 syndrome in a consanguineous Tunisian family, which was previously used to define USH2B locus. With regard to the co-occurrence of these two different pathologies, clinical and genetic reanalysis of the extended family showed (i) phenotypic heterogeneity within USH2 patients and (ii) excluded linkage to USH2B locus. Indeed, linkage analysis disclosed the cosegregation of the USH2 phenotype with the USH2C locus markers, D5S428 and D5S618, whereas the ARRP perfectly segregates with PDE6B flanking markers D4S3360 and D4S2930. Molecular analysis revealed two new missense mutations, p.Y6044C and p.W807R, occurring in GPR98 and PDE6B genes, respectively. In conclusion, our results show that the USH2B locus at chromosome 3p23–24.2 does not exist, and we therefore withdraw this locus designation. The combination of molecular findings for GPR98 and PDE6B genes enable us to explain the phenotypic heterogeneity and particularly the severe ocular affection first observed in one USH2 patient. This report presents an illustration of how consanguinity could increase familial clustering of multiple hereditary diseases within the same family.European Journal of Human Genetics (2009) 17, 474–482; doi:10.1038/ejhg.2008.167; published online 15 October 2008 [ABSTRACT FROM AUTHOR]

Published
2009
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9. Posterior microphthalmia and nanophthalmia in Tunisia caused by a founder c.1059-1066insC mutation of the PRSS56 gene.

Author

Said, Mariem Ben, Chouchène, Ebtissem, Salem, Salma Ben, Daoud, Kods, Largueche, Leila, Bouassida, Walid, Benzina, Zeineb, Ayadi, Hammadi, Söderkvist, Peter, Matri, Leila, and Hmani-Aifa, Mounira

Subjects
*MICROPHTHALMIA, *GENETIC mutation, *EYE diseases, *EYE anatomy, *GENE expression, *SINGLE nucleotide polymorphisms
Abstract

Congenital microphthalmia (CMIC) is a common developmental ocular disorder characterized by a small, and sometimes malformed, eye. Posterior microphthalmia (PM) and nanophthalmia are two rare subtypes of isolated CMIC characterized by extreme hyperopia due to short axial length and elevated lens/eye volume ratio. While nanophthalmia is associated with a reduced size in both anterior and posterior segments, PM involves a normal-size anterior chamber but a small posterior segment. Several genes encoding transcription and non-transcription regulators have been identified in different forms of CMIC. MFRP gene mutations have, for instance, been associated with nanophthalmia, and mutations in the recently identified PRSS56 gene have been linked to PM. So far, these two forms of CMIC have been associated with 9 mutations in PRSS56. Of particular interest, a c.1059_1066insC mutation has recently been reported in four Tunisian families with isolated PM and one Tunisian family with nanophthalmia. Here, we performed a genome-wide scan using a high density single nucleotide polymorphism (SNP) array 50 K in a large consanguineous Tunisian family (PM7) affected with PM and identified the same causative disease mutation. A total of 24 polymorphic markers spanning the PRSS56 gene in 6 families originating from different regions of Tunisia were analyzed to investigate the origin of the c.1059_1066insC mutation and to determine whether it arose in a common ancestor. A highly significant disease-associated haplotype, spanning across the 146kb of the 2q37.1 chromosome, was conserved in those families, suggesting that c.1059_1066insC arose from a common founder. The age of the mutation in this haplotype was estimated to be around 1850years. The identification of such ‘founder effects’ may greatly simplify diagnostic genetic screening and lead to better prognostic counseling. [ABSTRACT FROM AUTHOR]

Published
2013
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10. Reinforcement of a minor alternative splicing event in MYO7A due to a missense mutation results in a mild form of retinopathy and deafness.

Author

Ben Rebeh I, Morinière M, Ayadi L, Benzina Z, Charfedine I, Feki J, Ayadi H, Ghorbel A, Baklouti F, and Masmoudi S

Subjects
Adolescent, Adult, Aged, Amino Acid Substitution genetics, Child, Chromosome Segregation genetics, DNA Mutational Analysis, Exons genetics, Family, Female, Genes, Recessive genetics, Genetic Heterogeneity, Genotype, HeLa Cells, Humans, Male, Microsatellite Repeats genetics, Middle Aged, Myosin VIIa, Pedigree, RNA Splice Sites genetics, Structural Homology, Protein, Alternative Splicing genetics, Deafness complications, Deafness genetics, Mutation, Missense genetics, Myosins genetics, Retinal Diseases complications, Retinal Diseases genetics
Abstract

Purpose: Recessive mutations of the myosin VIIA (MYO7A) gene are reported to be responsible for both a deaf-blindness syndrome (Usher type 1B [USH1B] and atypical Usher syndrome) and nonsyndromic hearing loss (HL; Deafness, Neurosensory, Autosomal Recessive 2 [DFNB2]). The existence of DFNB2 is controversial, and often there is no relationship between the type and location of the MYO7A mutations corresponding to the USH1B and DFNB2 phenotype. We investigated the molecular determinant of a mild form of retinopathy in association with a subtle splicing modulation of MYO7A mRNA., Methods: Affected members underwent detailed audiologic and ocular characterization. DNA samples from family members were genotyped with polymorphic microsatellite markers. Sequencing of MYO7A was performed. Endogenous lymphoid RNA analysis and a splicing minigene assay were used to study the effect of the c.1935G>A mutation., Results: Funduscopy showed mild retinitis pigmentosa in adults with HL. Microsatellite analysis showed linkage to markers in the region on chromosome 11q13.5. Sequencing of MYO7A revealed a mutation in the last nucleotide of exon 16 (c.1935G>A), which corresponds to a substitution of a methionine to an isoleucine residue at amino acid 645 of the myosin VIIA. However, structural prediction of the molecular model of myosin VIIA shows that this amino acid replacement induces only minor structural changes in the immediate environment of the mutation and thus does not alter the overall native structure. We found that, although predominantly included in mature mRNA, exon 16 is in fact alternatively spliced in control cells and that the mutation at the very last position is associated with a switch toward a predominant exclusion of that exon. This observation was further supported using a splicing minigene transfection assay; the c.1935G>A mutation was found to trigger a partial impairment of the adjacent donor splice site, suggesting that the unique change at the last position of the exon is responsible for the enhanced exon exclusion in this family., Conclusions: This study shows how an exonic mutation that weakens the 5' splice site enhances a minor alternative splicing without abolishing a complete exclusion of the exon and therefore causes a less severe retinitis pigmentosa than the USH1B-associated alleles. It would be interesting to examine a possible correlation between intrafamilial phenotypic variability and the subtle variation in exon 16 inclusion, probably related to genetic background specificities.

Published
2010

11. Identification of candidate regions for a novel Usher syndrome type II locus.

Author

Ben Rebeh I, Benzina Z, Dhouib H, Hadjamor I, Amyere M, Ayadi L, Turki K, Hammami B, Kmiha N, Kammoun H, Hakim B, Charfedine I, Vikkula M, Ghorbel A, Ayadi H, and Masmoudi S

Subjects
Adolescent, Adult, Aged, Chromosome Segregation, Electroretinography, Family, Female, Genetic Testing, Genome, Human genetics, Haplotypes, Hearing Loss, Sensorineural genetics, Homozygote, Humans, Lod Score, Male, Microsatellite Repeats genetics, Middle Aged, Pedigree, Tunisia, Usher Syndromes physiopathology, Visual Fields, Usher Syndromes genetics
Abstract

Purpose: Chronic diseases affecting the inner ear and the retina cause severe impairments to our communication systems. In more than half of the cases, Usher syndrome (USH) is the origin of these double defects. Patients with USH type II (USH2) have retinitis pigmentosa (RP) that develops during puberty, moderate to severe hearing impairment with downsloping pure-tone audiogram, and normal vestibular function. Four loci and three genes are known for USH2. In this study, we proposed to localize the gene responsible for USH2 in a consanguineous family of Tunisian origin., Methods: Affected members underwent detailed ocular and audiologic characterization. One Tunisian family with USH2 and 45 healthy controls unrelated to the family were recruited. Two affected and six unaffected family members attended our study. DNA samples of eight family members were genotyped with polymorphic markers. Two-point and multipoint LOD scores were calculated using Genehunter software v2.1. Sequencing was used to investigate candidate genes., Results: Haplotype analysis showed no significant linkage to any known USH gene or locus. A genome-wide screen, using microsatellite markers, was performed, allowing the identification of three homozygous regions in chromosomes 2, 4, and 15. We further confirmed and refined these three regions using microsatellite and single-nucleotide polymorphisms. With recessive mode of inheritance, the highest multipoint LOD score of 1.765 was identified for the candidate regions on chromosomes 4 and 15. The chromosome 15 locus is large (55 Mb), underscoring the limited number of meioses in the consanguineous pedigree. Moreover, the linked, homozygous chromosome 15q alleles, unlike those of the chromosome 2 and 4 loci, are infrequent in the local population. Thus, the data strongly suggest that the novel locus for USH2 is likely to reside on 15q., Conclusions: Our data provide a basis for the localization and the identification of a novel gene implicated in USH2, most likely localized on 15q.

Published
2008

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