Your search keyword '"Suk, John"' showing total 7 results

1. Long-Term Effects of Gene Therapy in a Novel Mouse Model of Human MFRP-Associated Retinopathy

Author

Chekuri, Anil, Sahu, Bhubanananda, Chavali, Venkata Ramana Murthy, Voronchikhina, Marina, Soto-Hermida, Angel, Suk, John J, Alapati, Akhila N, Bartsch, Dirk-Uwe, Ayala-Ramirez, Raul, Zenteno, Juan C, Dinculescu, Astra, Jablonski, Monica M, Borooah, Shyamanga, and Ayyagari, Radha

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Genetics, Neurosciences, Gene Therapy, Neurodegenerative, Eye Disease and Disorders of Vision, Aetiology, 2.1 Biological and endogenous factors, Eye, Animals, Biomarkers, Dependovirus, Disease Models, Animal, Electroretinography, Genetic Predisposition to Disease, Genetic Therapy, Genetic Vectors, Humans, Immunohistochemistry, Membrane Proteins, Mice, Mice, Knockout, Phenotype, Retinal Diseases, Retinal Pigment Epithelium, Tomography, Optical Coherence, Gene therapy, MFRP mouse model, retinal degeneration, RPE, AAV, Immunology, Medical biotechnology

Abstract

Patients harboring homozygous c.498_499insC mutations in MFRP demonstrate hyperopia, microphthalmia, retinitis pigmentosa, retinal pigment epithelial atrophy, variable degrees of foveal edema, and optic disc drusen. The disease phenotype is variable, however, with some patients maintaining good central vision and cone function till late in the disease. A knock-in mouse model with the c.498_499insC mutation in Mfrp (Mfrp KI/KI) was developed to understand the effects of these mutations in the retina. The model shares many of the features of human clinical disease, including reduced axial length, hyperopia, retinal degeneration, retinal pigment epithelial atrophy, and decreased electrophysiological responses. In addition, the eyes of these mice had a significantly greater refractive error (p

Published

2019

2. Identification of the genetic determinants responsible for retinal degeneration in families of Mexican descent

Author

Villanueva, Adda, Biswas, Pooja, Kishaba, Kameron, Suk, John, Tadimeti, Keerti, Raghavendra, Pongali B, Nadeau, Karine, Lamontagne, Bruno, Busque, Lambert, Geoffroy, Steve, Mongrain, Ian, Asselin, Géraldine, Provost, Sylvie, Dubé, Marie-Pierre, Nudleman, Eric, and Ayyagari, Radha

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Eye Disease and Disorders of Vision, Rare Diseases, Clinical Research, Genetics, Neurosciences, Genetic Testing, 2.1 Biological and endogenous factors, Aetiology, Eye, ATP-Binding Cassette Transporters, Adolescent, Adult, Aged, Child, Preschool, DNA Mutational Analysis, Extracellular Matrix Proteins, Eye Proteins, Female, Genetic Determinism, Genotyping Techniques, Humans, IMP Dehydrogenase, Male, Mexico, Middle Aged, Mutation, Pedigree, Phenotype, Retinal Degeneration, Exome Sequencing, cis-trans-Isomerases, Retinal degeneration, Mexican population, targeted sequencing, exome sequencing, ARRP, LCA, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeTo investigate the clinical characteristics and genetic basis of inherited retinal degeneration (IRD) in six unrelated pedigrees from Mexico.MethodsA complete ophthalmic evaluation including measurement of visual acuities, Goldman kinetic or Humphrey dynamic perimetry, Amsler test, fundus photography, and color vision testing was performed. Family history and blood samples were collected from available family members. DNA from members of two pedigrees was examined for known mutations using the APEX ARRP genotyping microarray and one pedigree using the APEX LCA genotyping microarray. The remaining three pedigrees were analyzed using a custom-designed targeted capture array covering the exons of 233 known retinal degeneration genes. Sequencing was performed on Illumina HiSeq. Reads were mapped against hg19, and variants were annotated using GATK and filtered by exomeSuite. Segregation and ethnicity-matched control sample analyses were performed by dideoxy sequencing.ResultsSix pedigrees with IRD were analyzed. Nine rare or novel, potentially pathogenic variants segregating with the phenotype were detected in IMPDH1, USH2A, RPE65, ABCA4, and FAM161A genes. Among these, six were known mutations while the remaining three changes in USH2A, RPE65, and FAM161A genes have not been previously reported to be associated with IRD. Analysis of 100 ethnicity-matched controls did not detect the presence of these three novel variants indicating, these are rare variants in the Mexican population.ConclusionsScreening patients diagnosed with IRD from Mexico identified six known mutations and three rare or novel potentially damaging variants in IMPDH1, USH2A, RPE65, ABCA4, and FAM161A genes that segregated with disease.

Published

2018

3. Correction: Gustafson et al., Whole Genome Sequencing Revealed Mutations in Two Independent Genes as the Underlying Cause of Retinal Degeneration in an Ashkenazi Jewish Pedigree. Genes 2017, 8, 210.

Author

Gustafson, Kevin, Duncan, Jacque L, Biswas, Pooja, Soto-Hermida, Angel, Matsui, Hiroko, Jakubosky, David, Suk, John, Telenti, Amalio, Frazer, Kelly A, and Ayyagari, Radha

Subjects

na, Biotechnology, Eye Disease and Disorders of Vision, Human Genome, Neurosciences, Genetics, Eye

Abstract

Following publication of our article [1], we identified discrepancies between the pedigree shown in Figure 1 and the rest of the text.[...].

Published

2017

4. Whole Genome Sequencing Revealed Mutations in Two Independent Genes as the Underlying Cause of Retinal Degeneration in an Ashkenazi Jewish Pedigree.

Author

Gustafson, Kevin, Duncan, Jacque L, Biswas, Pooja, Soto-Hermida, Angel, Matsui, Hiroko, Jakubosky, David, Suk, John, Telenti, Amalio, Frazer, Kelly A, and Ayyagari, Radha

Subjects

genetics, retina, retinitis pigmentosa, Rare Diseases, Biotechnology, Clinical Research, Eye Disease and Disorders of Vision, Human Genome, Neurosciences, Genetics, 2.1 Biological and endogenous factors, Eye

Abstract

Retinitis pigmentosa (RP) causes progressive photoreceptor loss resulting from mutations in over 80 genes. This study identified the genetic cause of RP in three members of a non-consanguineous pedigree. Detailed ophthalmic evaluation was performed in the three affected family members. Whole exome sequencing (WES) and whole genome sequencing (WGS) were performed in the three affected and the two unaffected family members and variants were filtered to detect rare, potentially deleterious variants segregating with disease. WES and WGS did not identify potentially pathogenic variants shared by all three affected members. However, WES identified a previously reported homozygous nonsense mutation in KIZ (c.226C>T, p.Arg76*) in two affected sisters, but not in their affected second cousin. WGS revealed a novel 1.135 kb homozygous deletion in a retina transcript of C21orf2 and a novel 30.651 kb heterozygous deletion in CACNA2D4 in the affected second cousin. The sisters with the KIZ mutation carried no copies of the C21orf2 or CACNA2D4 deletions, while the second cousin with the C21orf2 and CACNA2D4 deletions carried no copies of the KIZ mutation. This study identified two independent, homozygous mutations in genes previously reported in autosomal recessive RP in a non-consanguineous family, and demonstrated the value of WGS when WES fails to identify likely disease-causing mutations.

Published

2017

5. Presence of rd8 mutation does not alter the ocular phenotype of late-onset retinal degeneration mouse model.

Author

Sahu, Bhubanananda, Chavali, Venkata RM, Alapati, Akhila, Suk, John, Bartsch, Dirk-Uwe, Jablonski, Monica M, and Ayyagari, Radha

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Neurodegenerative, Genetics, Eye Disease and Disorders of Vision, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Eye, Aging, Animals, Base Sequence, Disease Models, Animal, Disease Progression, Frameshift Mutation, Genetic Predisposition to Disease, Heterozygote, Homozygote, Humans, Membrane Proteins, Mice, Mice, Inbred C57BL, Mice, Knockout, Molecular Sequence Data, Nerve Tissue Proteins, Optical Imaging, Phenotype, Retina, Retinal Degeneration, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry

Abstract

PurposeA spontaneous frameshift mutation, c.3481delC, in the Crb1 gene is the underlying cause of dysplasia and retinal degeneration in rd8 mice. The rd8 mutation is found in C57BL/6N but not in C57BL/6J mouse sub-strains. The development of ocular pathology in single knockout Ccl2-/-, Cx3cr1-/- and in double knockout Ccl2-/-, Cx3cr1-/- mice raised on a C57BL/6 background has been reported to depend on the presence of a rd8 mutation. In this study, we investigated the influence of the rd8 mutation on the retinal pathology that we previously described in the late-onset retinal degeneration (L-ORD) mouse model with a heterozygous S163R mutation in the C1q-tumor necrosis factor-related protein-5Ctrp5+/- gene that was generated on a C57BL/6J background.MethodsMouse lines carrying the Ctrp5 S163R and rd8 mutations (Ctrp5+/-;rd8/rd8), corresponding controls without the rd8 mutation (Ctrp5+/-;wt/wt), and wild-type mice with and without the rd8 mutation (Wtrd8/rd8 and Wtwt/wt, respectively) were generated by systematic breeding of mice in our L-ORD mouse colony. Genotyping the mice for the rd8 (del C at nt3481 in Crb1) and Ctrp5 S163R mutations was performed with allelic PCR or sequencing. Retinal morphology was studied with fundus imaging, histology, light microscopy, electron microscopy, and immunohistochemistry.ResultsGenotype analysis of the mice in L-ORD mouse colony detected the rd8 mutation in the homozygous and heterozygous state. Fundus imaging of wild-type mice without the rd8 mutation (Wtwt/wt) revealed no autofluorescence (AF) spots up to 6-8 months and few AF spots at 21 months. However, the accumulation of AF lesions accelerated with age in the Ctrp5+/- mice that lack the rd8 mutation (Ctrp5+/-;wt/wt). The number of AF lesions was significantly increased (p

Published

2015

6. Investigating the Molecular Basis of Retinal Degeneration in a Familial Cohort of Pakistani Decent by Exome Sequencing

Author

Maranhao, Bruno, Biswas, Pooja, Gottsch, Alexander DH, Navani, Mili, Naeem, Muhammad Asif, Suk, John, Chu, Justin, Khan, Sheen N, Poleman, Rachel, Akram, Javed, Riazuddin, Sheikh, Lee, Pauline, Riazuddin, S Amer, Hejtmancik, J Fielding, and Ayyagari, Radha

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Ophthalmology and Optometry, Clinical Research, Eye Disease and Disorders of Vision, Aetiology, 2.1 Biological and endogenous factors, Age of Onset, Consanguinity, Electroretinography, Ethnicity, Exome, Eye Proteins, Female, Fundus Oculi, Genes, Recessive, Genetic Association Studies, Genotype, Humans, Male, Mutation, Pakistan, Pedigree, Phenotype, Polymorphism, Single Nucleotide, RNA, Messenger, Retinal Degeneration, Sequence Alignment, Sequence Analysis, RNA, General Science & Technology

Abstract

PurposeTo define the molecular basis of retinal degeneration in consanguineous Pakistani pedigrees with early onset retinal degeneration.MethodsA cohort of 277 individuals representing 26 pedigrees from the Punjab province of Pakistan was analyzed. Exomes were captured with commercial kits and sequenced on an Illumina HiSeq 2500. Candidate variants were identified using standard tools and analyzed using exomeSuite to detect all potentially pathogenic changes in genes implicated in retinal degeneration. Segregation analysis was performed by dideoxy sequencing and novel variants were additionally investigated for their presence in ethnicity-matched controls.ResultsWe identified a total of nine causal mutations, including six novel variants in RPE65, LCA5, USH2A, CNGB1, FAM161A, CERKL and GUCY2D as the underlying cause of inherited retinal degenerations in 13 of 26 pedigrees. In addition to the causal variants, a total of 200 variants each observed in five or more unrelated pedigrees investigated in this study that were absent from the dbSNP, HapMap, 1000 Genomes, NHLBI ESP6500, and ExAC databases were identified, suggesting that they are common in, and unique to the Pakistani population.ConclusionsWe identified causal mutations associated with retinal degeneration in nearly half of the pedigrees investigated in this study through next generation whole exome sequencing. All novel variants detected in this study through exome sequencing have been cataloged providing a reference database of variants common in, and unique to the Pakistani population.

Published

2015

7. Molecular Diagnostic Testing by eyeGENE: Analysis of Patients With Hereditary Retinal Dystrophy Phenotypes Involving Central Vision LossMolecular Diagnostic Testing by eyeGENE

Author

Alapati, Akhila, Goetz, Kerry, Suk, John, Navani, Mili, Al-Tarouti, Amani, Jayasundera, Thiran, Tumminia, Santa J, Lee, Pauline, and Ayyagari, Radha

Subjects

Neurodegenerative, Clinical Research, Macular Degeneration, Genetics, Eye Disease and Disorders of Vision, Rare Diseases, 2.1 Biological and endogenous factors, Aetiology, Eye, Adult, Aged, Aged, 80 and over, Eye Diseases, Hereditary, Female, Genetic Association Studies, Genetic Research, Genetic Testing, Genetic Variation, Humans, Male, Middle Aged, Molecular Diagnostic Techniques, Mutation, Phenotype, Retinal Dystrophies, Vision Disorders, Visual Fields, genetic testing, eyeGENE, macular dystrophy, Biological Sciences, Medical and Health Sciences, Ophthalmology & Optometry

Abstract

PurposeTo analyze the genetic test results of probands referred to eyeGENE with a diagnosis of hereditary maculopathy.MethodsPatients with Best macular dystrophy (BMD), Doyne honeycomb retinal dystrophy (DHRD), Sorsby fundus dystrophy (SFD), or late-onset retinal degeneration (LORD) were screened for mutations in BEST1, EFEMP1, TIMP3, and CTRP5, respectively. Patients with pattern dystrophy (PD) were screened for mutations in PRPH2, BEST1, ELOVL4, CTRP5, and ABCA4; patients with cone-rod dystrophy (CRD) were screened for mutations in CRX, ABCA4, PRPH2, ELOVL4, and the c.2513G>A p.Arg838His variant in GUCY2D. Mutation analysis was performed by dideoxy sequencing. Impact of novel variants was evaluated using the computational tool PolyPhen.ResultsAmong the 213 unrelated patients, 38 had BMD, 26 DHRD, 74 PD, 8 SFD, 6 LORD, and 54 CRD; six had both PD and BMD, and one had no specific clinical diagnosis. BEST1 variants were identified in 25 BMD patients, five with novel variants of unknown significance (VUS). Among the five patients with VUS, one was diagnosed with both BMD and PD. A novel EFEMP1 variant was identified in one DHRD patient. TIMP3 novel variants were found in two SFD patients, PRPH2 variants in 14 PD patients, ABCA4 variants in four PD patients, and p.Arg838His GUCY2D mutation in six patients diagnosed with dominant CRD; one patient additionally had a CRX VUS. ABCA4 mutations were identified in 15 patients with recessive CRD.ConclusionsOf the 213 samples, 55 patients (26%) had known causative mutations, and 13 (6%) patients had a VUS that was possibly pathogenic. Overall, selective screening for mutations in BEST1, PRPH2, and ABCA4 would likely yield the highest success rate in identifying the genetic basis for macular dystrophy phenotypes. Because of the overlap in phenotypes between BMD and PD, it would be beneficial to screen genes associated with both diseases.

Published

2014