Your search keyword '"Lancelot, Marie‐Elise"' showing total 28 results

1. Spectrum of Cav1.4 dysfunction in congenital stationary night blindness type 2

Author

Burtscher, Verena, Schicker, Klaus, Novikova, Elena, Pöhn, Birgit, Stockner, Thomas, Kugler, Christof, Singh, Anamika, Zeitz, Christina, Lancelot, Marie-Elise, Audo, Isabelle, Leroy, Bart Peter, Freissmuth, Michael, Herzig, Stefan, Matthes, Jan, and Koschak, Alexandra

Published

2014

2. Mosaic synaptopathy and functional defects in Cav1.4 heterozygous mice and human carriers of CSNB2

Author

Michalakis, Stylianos, Shaltiel, Lior, Sothilingam, Vithiyanjali, Koch, Susanne, Schludi, Verena, Krause, Stefanie, Zeitz, Christina, Audo, Isabelle, Lancelot, Marie-Elise, Hamel, Christian, Meunier, Isabelle, Preising, Markus N., Friedburg, Christoph, Lorenz, Birgit, Zabouri, Nawal, Haverkamp, Silke, Garrido, Marina Garcia, Tanimoto, Naoyuki, Seeliger, Mathias W., Biel, Martin, and Wahl-Schott, Christian A.

Published

2017

3. Mutations in IFT172 cause isolated retinal degeneration and Bardet–Biedl syndrome

Author

Bujakowska, Kinga M., Zhang, Qi, Siemiatkowska, Anna M., Liu, Qin, Place, Emily, Falk, Marni J., Consugar, Mark, Lancelot, Marie-Elise, Antonio, Aline, Lonjou, Christine, Carpentier, Wassila, Mohand-Saïd, Saddek, den Hollander, Anneke I., Cremers, Frans P.M., Leroy, Bart P., Gai, Xiaowu, Sahel, José-Alain, van den Born, L. Ingeborgh, Collin, Rob W.J., Zeitz, Christina, Audo, Isabelle, and Pierce, Eric A.

Published

2015

4. A mutation in SLC24A1 implicated in autosomal-recessive congenital stationary night blindness

Author

Riazuddin, S. Amer, Shahzadi, Amber, Zeitz, Christina, Ahmed, Zubair M., Ayyagari, Radha, Chavali, Venkata R.M., Ponferrada, Virgilio G., Audo, Isabelle, Michiels, Christelle, Lancelot, Marie-Elise, Nasir, Idrees A., Zafar, Ahmad U., Khan, Shaheen N., Husnain, Tayyab, Xiaodong Jiao, MacDonald, Ian M., Riazuddin, Sheikh, Sieving, Paul A., Katsanis, Nicholas, and Hejtmancik, J. Fielding

Subjects

Chromosome deletion -- Analysis, Gene mutations -- Analysis, Night blindness -- Genetic aspects, Nucleotide sequencing -- Usage, Biological sciences

Abstract

A genome-wide scan of individuals affected with autosomal-recessive congenital stationary night blindness (CSNB) is undertaken to identify the causative gene for the disorder. Results suggest that a 2 bp deletion mutation in the SLC24A1 gene located at chromosome 15q is associated with the cause of CSNB.

Published

2010

5. Mosaic synaptopathy and functional defects in Cav1.4 heterozygous mice and human carriers of CSNB2

Author

Michalakis, Stylianos, Shaltiel, Lior, Sothilingam, Vithiyanjali, Koch, Susanne, Schludi, Verena, Krause, Stefanie, Zeitz, Christina, Audo, Isabelle, Lancelot, Marie-Elise, Hamel, Christian, Meunier, Isabelle, Preising, Markus N., Friedburg, Christoph, Lorenz, Birgit, Zabouri, Nawal, Haverkamp, Silke, Garrido, Marina Garcia, Tanimoto, Naoyuki, Seeliger, Mathias W., Biel, Martin, and Wahl-Schott, Christian A.

Published

2014

6. Mutations in TRPM1 are a common cause of complete congenital stationary night blindness

Author

Audo, Isabelle, Kohl, Susanne, Leroy, Bart P., Munier, Francis L., Guillonneau, Xavier;, Mohand-Said, Saddek, Bujakowska, Kinga, Nandrot, Emeline F., Lorenz, Birgit, Preising, Markus, Kellner, Ulrich, Renner, Agnes B., Bernd, Antje, Antonio, Aline, Moskova-Doumanova, Veselina, Lancelot, Marie-Elise, Poloschek, Charlotte M., Drumare, Isabelle, Defoort-Dhellemmes, Sabine, Wissinger, Bernd, Leveillard, Thierry, Hamel, Christian P., Schorderet, Daniel F., De Baere, Elfride, Berger, Wolfgang, Jacobson, Samuel G., Zrenner, Eberhart, Sahel, Jose-Alain, Bhattacharya, Shomi S., and Zeitz, Christina

Subjects

Gene mutations -- Analysis, Night blindness -- Genetic aspects, Biological sciences

Abstract

Several analyses are conducted to determine the various genes that are mutated in the patients suffering from autosomal-recessive complete congenital stationary night blindness. The results demonstrate that TRPM1 is the most commonly mutated gene.

Published

2009

7. The familial dementia gene revisited: a missense mutation revealed by whole-exome sequencing identifies ITM2B as a candidate gene underlying a novel autosomal dominant retinal dystrophy in a large family

Author

Audo, Isabelle, Bujakowska, Kinga, Orhan, Elise, El Shamieh, Said, Sennlaub, Florian, Guillonneau, Xavier, Antonio, Aline, Michiels, Christelle, Lancelot, Marie-Elise, Letexier, Melanie, Saraiva, Jean-Paul, Nguyen, Hoan, Luu, Tien D., Léveillard, Thierry, Poch, Olivier, Dollfus, Hélène, Paques, Michel, Goureau, Olivier, Mohand-Saïd, Saddek, Bhattacharya, Shomi S., Sahel, José-Alain, and Zeitz, Christina

Published

2014

8. Retrospective Natural History Study of RPGR -Related Cone- and Cone-Rod Dystrophies While Expanding the Mutation Spectrum of the Disease.

Author

Nassisi, Marco, De Bartolo, Giuseppe, Mohand-Said, Saddek, Condroyer, Christel, Antonio, Aline, Lancelot, Marie-Elise, Bujakowska, Kinga, Smirnov, Vasily, Pugliese, Thomas, Neidhardt, John, Sahel, José-Alain, Zeitz, Christina, and Audo, Isabelle

Subjects

RETINAL degeneration, RETINITIS pigmentosa, PANEL analysis, REGULATOR genes, DISEASE progression, NEMALINE myopathy, NOMOGRAPHY (Mathematics)

Abstract

Variants in the X-linked retinitis pigmentosa GTPase regulator gene (RPGR) and, specifically, in its retinal opening reading frame-15 isoform (RPGRORF15) may cause rod-cone (RCD), cone, and cone-rod dystrophies (CDs and CRDs). While RPGR-related RCDs have been frequently evaluated, the characteristics and progression of RPGR-related CD/CRDs are largely unknown. Therefore, the goal of our work was to perform genotype–phenotype correlations specifically in RPGRORF15-related CD/CRDs. This retrospective longitudinal study included 34 index patients and two affected relatives with a molecular diagnosis of RPGR-related CD/CRDs. Patients were recruited at the "Quinze-Vingts" Hospital, Paris, France and screened for mutations in RPGRORF15 at the Institut de la Vision, Paris, France. We identified 29 distinct variants, of which 27 were truncating. All were located in the 3′ half of the RPGRORF15 transcript. Twenty of them were novel. Fifteen subjects were affected by CD, the remaining had CRD. When analyzing the longitudinal data, a progressive decline in visual acuity (VA) was noted, with more than 60% of the patients reaching VA ≥ 1 LogMar in the best eye after the fifth decade of life. To our knowledge, this is the largest described study of a cohort of CD/CRD patients affected by RPGRORF15 variants. Longitudinal data showed a rapidly progressive disease, possibly locating an optimal window of intervention for future therapies in younger ages. [ABSTRACT FROM AUTHOR]

Published

2022

9. CRB1 mutations in inherited retinal dystrophies

Author

Bujakowska, Kinga, Audo, Isabelle, Mohand-Saïd, Saddek, Lancelot, Marie-Elise, Antonio, Aline, Germain, Aurore, Léveillard, Thierry, Letexier, Mélanie, Saraiva, Jean-Paul, Lonjou, Christine, Carpentier, Wassila, Sahel, José-Alain, Bhattacharya, Shomi S., and Zeitz, Christina

Published

2012

10. Novel C2orf71 mutations account for ∽1% of cases in a large French arRP cohort

Author

Audo, Isabelle, Lancelot, Marie-Elise, Mohand-Saïd, Saddek, Antonio, Aline, Germain, Aurore, Sahel, José-Alain, Bhattacharya, Shomi S, and Zeitz, Christina

Published

2011

11. An Unusual Retinal Phenotype Associated With a Novel Mutation in RHO

Author

Audo, Isabelle, Friedrich, Anne, Mohand-Saïd, Saddek, Lancelot, Marie-Elise, Antonio, Aline, Moskova-Doumanova, Veselina, Poch, Olivier, Bhattacharya, Shomi, Sahel, José-Alain, and Zeitz, Christina

Published

2010

12. EYS Is a Major Gene for Rod-cone Dystrophies in France

Author

Audo, Isabelle, Sahel, José-Alain, Mohand-Saïd, Saddek, Lancelot, Marie-Elise, Antonio, Aline, Moskova-Doumanova, Veselina, Nandrot, Emeline F., Doumanov, Jordan, Barragan, Isabel, Antinolo, Guillermo, Bhattacharya, Shomi S., and Zeitz, Christina

Published

2010

13. Development and application of a next-generation-sequencing (NGS) approach to detect known and novel gene defects underlying retinal diseases

Author

Audo Isabelle, Bujakowska Kinga M, Léveillard Thierry, Mohand-Saïd Saddek, Lancelot Marie-Elise, Germain Aurore, Antonio Aline, Michiels Christelle, Saraiva Jean-Paul, Letexier Mélanie, Sahel José-Alain, Bhattacharya Shomi S, and Zeitz Christina

Subjects

NGS, retinal disorders, diagnostic tool., Medicine

Abstract

Abstract Background Inherited retinal disorders are clinically and genetically heterogeneous with more than 150 gene defects accounting for the diversity of disease phenotypes. So far, mutation detection was mainly performed by APEX technology and direct Sanger sequencing of known genes. However, these methods are time consuming, expensive and unable to provide a result if the patient carries a new gene mutation. In addition, multiplicity of phenotypes associated with the same gene defect may be overlooked. Methods To overcome these challenges, we designed an exon sequencing array to target 254 known and candidate genes using Agilent capture. Subsequently, 20 DNA samples from 17 different families, including four patients with known mutations were sequenced using Illumina Genome Analyzer IIx next-generation-sequencing (NGS) platform. Different filtering approaches were applied to identify the genetic defect. The most likely disease causing variants were analyzed by Sanger sequencing. Co-segregation and sequencing analysis of control samples validated the pathogenicity of the observed variants. Results The phenotype of the patients included retinitis pigmentosa, congenital stationary night blindness, Best disease, early-onset cone dystrophy and Stargardt disease. In three of four control samples with known genotypes NGS detected the expected mutations. Three known and five novel mutations were identified in NR2E3, PRPF3, EYS, PRPF8, CRB1, TRPM1 and CACNA1F. One of the control samples with a known genotype belongs to a family with two clinical phenotypes (Best and CSNB), where a novel mutation was identified for CSNB. In six families the disease associated mutations were not found, indicating that novel gene defects remain to be identified. Conclusions In summary, this unbiased and time-efficient NGS approach allowed mutation detection in 75% of control cases and in 57% of test cases. Furthermore, it has the possibility of associating known gene defects with novel phenotypes and mode of inheritance.

Published

2012

14. Prevalence and novelty of PRPF31 mutations in French autosomal dominant rod-cone dystrophy patients and a review of published reports

Author

Mohand-Saïd Saddek, Bujakowska Kinga, Audo Isabelle, Lancelot Marie-Elise, Moskova-Doumanova Veselina, Waseem Naushin H, Antonio Aline, Sahel José-Alain, Bhattacharya Shomi S, and Zeitz Christina

Subjects

Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Rod-cone dystrophies are heterogeneous group of inherited retinal disorders both clinically and genetically characterized by photoreceptor degeneration. The mode of inheritance can be autosomal dominant, autosomal recessive or X-linked. The purpose of this study was to identify mutations in one of the genes, PRPF31, in French patients with autosomal dominant RP, to perform genotype-phenotype correlations of those patients, to determine the prevalence of PRPF31 mutations in this cohort and to review previously identified PRPF31 mutations from other cohorts. Methods Detailed phenotypic characterization was performed including precise family history, best corrected visual acuity using the ETDRS chart, slit lamp examination, kinetic and static perimetry, full field and multifocal ERG, fundus autofluorescence imaging and optic coherence tomography. For genetic diagnosis, genomic DNA of ninety families was isolated by standard methods. The coding exons and flanking intronic regions of PRPF31 were PCR amplified, purified and sequenced in the index patient. Results We showed for the first time that 6.7% cases of a French adRP cohort have a PRPF31 mutation. We identified in total six mutations, which were all novel and not detected in ethnically matched controls. The mutation spectrum from our cohort comprises frameshift and splice site mutations. Co-segregation analysis in available family members revealed that each index patient and all affected family members showed a heterozygous mutation. In five families incomplete penetrance was observed. Most patients showed classical signs of RP with relatively preserved central vision and visual field. Conclusion Our studies extended the mutation spectrum of PRPF31 and as previously reported in other populations, it is a major cause of adRP in France.

Published

2010

15. CHM mutation spectrum and disease: An update at the time of human therapeutic trials.

Author

Zeitz, Christina, Nassisi, Marco, Laurent‐Coriat, Caroline, Andrieu, Camille, Boyard, Fiona, Condroyer, Christel, Démontant, Vanessa, Antonio, Aline, Lancelot, Marie‐Elise, Frederiksen, Helen, Kloeckener‐Gruissem, Barbara, El‐Shamieh, Said, Zanlonghi, Xavier, Meunier, Isabelle, Roux, Anne‐Françoise, Mohand‐Saïd, Saddek, Sahel, José‐Alain, and Audo, Isabelle

Abstract

Choroideremia is an X‐linked inherited retinal disorder (IRD) characterized by the degeneration of retinal pigment epithelium, photoreceptors, choriocapillaris and choroid affecting males with variable phenotypes in female carriers. Unlike other IRD, characterized by a large clinical and genetic heterogeneity, choroideremia shows a specific phenotype with causative mutations in only one gene, CHM. Ongoing gene replacement trials raise further interests in this disorder. We describe here the clinical and genetic data from a French cohort of 45 families, 25 of which carry novel variants, in the context of 822 previously reported choroideremia families. Most of the variants represent loss‐of‐function mutations with eleven families having large (i.e. ≥6 kb) genomic deletions, 18 small insertions, deletions or insertion deletions, six showing nonsense variants, eight splice site variants and two missense variants likely to affect splicing. Similarly, 822 previously published families carry mostly loss‐of‐function variants. Recurrent variants are observed worldwide, some of which linked to a common ancestor, others arisen independently in specific CHM regions prone to mutations. Since all exons of CHM may harbor variants, Sanger sequencing combined with quantitative polymerase chain reaction or multiplex ligation‐dependent probe amplification experiments are efficient to achieve the molecular diagnosis in patients with typical choroideremia features. [ABSTRACT FROM AUTHOR]

Published

2021

16. WDR34, a candidate gene for non‐syndromic rod‐cone dystrophy.

Author

Solaguren‐Beascoa, Maria, Bujakowska, Kinga M., Méjécase, Cécile, Emmenegger, Lisa, Orhan, Elise, Neuillé, Marion, Mohand‐Saïd, Saddek, Condroyer, Christel, Lancelot, Marie‐Elise, Michiels, Christelle, Demontant, Vanessa, Antonio, Aline, Letexier, Mélanie, Saraiva, Jean‐Paul, Lonjou, Christine, Carpentier, Wassila, Léveillard, Thierry, Pierce, Eric A., Dollfus, Hélène, and Sahel, José‐Alain

Subjects

HOMOZYGOSITY, DYSTROPHY, RETINITIS pigmentosa, RETINAL degeneration, GENES, CILIOPATHY

Abstract

Rod‐cone dystrophy (RCD), also called retinitis pigmentosa, is characterized by rod followed by cone photoreceptor degeneration, leading to gradual visual loss. Mutations in over 65 genes have been associated with non‐syndromic RCD explaining 60% to 70% of cases, with novel gene defects possibly accounting for the unsolved cases. Homozygosity mapping and whole‐exome sequencing applied to a case of autosomal recessive non‐syndromic RCD from a consanguineous union identified a homozygous variant in WDR34. Mutations in WDR34 have been previously associated with severe ciliopathy syndromes possibly associated with a retinal dystrophy. This is the first report of a homozygous mutation in WDR34 associated with non‐syndromic RCD. [ABSTRACT FROM AUTHOR]

Published

2021

17. Whole-Exome Sequencing Identifies KIZ as a Ciliary Gene Associated with Autosomal-Recessive Rod-Cone Dystrophy

Author

El Shamieh, Said, Neuillé, Marion, Terray, Angélique, Orhan, Elise, Condroyer, Christel, Démontant, Vanessa, Michiels, Christelle, Antonio, Aline, Boyard, Fiona, Lancelot, Marie-Elise, Letexier, Mélanie, Saraiva, Jean-Paul, Léveillard, Thierry, Mohand-Saïd, Saddek, Goureau, Olivier, Sahel, José-Alain, Zeitz, Christina, and Audo, Isabelle

Published

2014

18. Whole-Exome Sequencing Identifies LRIT3 Mutations as a Cause of Autosomal-Recessive Complete Congenital Stationary Night Blindness

Author

Zeitz, Christina, Jacobson, Samuel G., Hamel, Christian P., Bujakowska, Kinga, Neuillé, Marion, Orhan, Elise, Zanlonghi, Xavier, Lancelot, Marie-Elise, Michiels, Christelle, Schwartz, Sharon B., Bocquet, Béatrice, Antonio, Aline, Audier, Claire, Letexier, Mélanie, Saraiva, Jean-Paul, Luu, Tien D., Sennlaub, Florian, Nguyen, Hoan, Poch, Olivier, Dollfus, Hélène, Lecompte, Odile, Kohl, Susanne, Sahel, José-Alain, Bhattacharya, Shomi S., and Audo, Isabelle

Published

2013

19. Whole-Exome Sequencing Identifies Mutations in GPR179 Leading to Autosomal-Recessive Complete Congenital Stationary Night Blindness

Author

Audo, Isabelle, Bujakowska, Kinga, Orhan, Elise, Poloschek, Charlotte M., Defoort-Dhellemmes, Sabine, Drumare, Isabelle, Kohl, Susanne, Luu, Tien D., Lecompte, Odile, Zrenner, Eberhart, Lancelot, Marie-Elise, Antonio, Aline, Germain, Aurore, Michiels, Christelle, Audier, Claire, Letexier, Mélanie, Saraiva, Jean-Paul, Leroy, Bart P., Munier, Francis L., Mohand-Saïd, Saddek, Lorenz, Birgit, Friedburg, Christoph, Preising, Markus, Kellner, Ulrich, Renner, Agnes B., Moskova-Doumanova, Veselina, Berger, Wolfgang, Wissinger, Bernd, Hamel, Christian P., Schorderet, Daniel F., De Baere, Elfride, Sharon, Dror, Banin, Eyal, Jacobson, Samuel G., Bonneau, Dominique, Zanlonghi, Xavier, Le Meur, Guylene, Casteels, Ingele, Koenekoop, Robert, Long, Vernon W., Meire, Francoise, Prescott, Katrina, de Ravel, Thomy, Simmons, Ian, Nguyen, Hoan, Dollfus, Hélène, Poch, Olivier, Léveillard, Thierry, Nguyen-Ba-Charvet, Kim, Sahel, José-Alain, Bhattacharya, Shomi S., and Zeitz, Christina

Published

2012

20. TRPM1 Is Mutated in Patients with Autosomal-Recessive Complete Congenital Stationary Night Blindness

Author

Audo, Isabelle, Kohl, Susanne, Leroy, Bart P., Munier, Francis L., Guillonneau, Xavier, Mohand-Saïd, Saddek, Bujakowska, Kinga, Nandrot, Emeline F., Lorenz, Birgit, Preising, Markus, Kellner, Ulrich, Renner, Agnes B., Bernd, Antje, Antonio, Aline, Moskova-Doumanova, Veselina, Lancelot, Marie-Elise, Poloschek, Charlotte M., Drumare, Isabelle, Defoort-Dhellemmes, Sabine, Wissinger, Bernd, Léveillard, Thierry, Hamel, Christian P., Schorderet, Daniel F., De Baere, Elfride, Berger, Wolfgang, Jacobson, Samuel G., Zrenner, Eberhart, Sahel, José-Alain, Bhattacharya, Shomi S., and Zeitz, Christina

Published

2009

21. Targeted Next Generation Sequencing Identifies Novel Mutations in RP1 as a Relatively Common Cause of Autosomal Recessive Rod-Cone Dystrophy.

Author

El Shamieh, Said, Boulanger-Scemama, Elise, Lancelot, Marie-Elise, Antonio, Aline, Démontant, Vanessa, Condroyer, Christel, Letexier, Mélanie, Saraiva, Jean-Paul, Mohand-Saïd, Saddek, Sahel, José-Alain, Audo, Isabelle, and Zeitz, Christina

Subjects

OCULAR radiography, RETINITIS pigmentosa, DNA analysis, RESEARCH, AGE factors in disease, CHROMOSOME abnormalities, EYE examination, GENETIC polymorphisms, MEDICAL cooperation, GENETIC mutation, RESEARCH funding, PHENOTYPES, OPTICAL coherence tomography, DATA analysis software, DESCRIPTIVE statistics, SEQUENCE analysis, GENOTYPES, GENETICS

Abstract

We report ophthalmic and genetic findings in families with autosomal recessive rod-cone dystrophy (arRCD) and RP1 mutations. Detailed ophthalmic examination was performed in 242 sporadic and arRCD subjects. Genomic DNA was investigated using our customized next generation sequencing panel targeting up to 123 genes implicated in inherited retinal disorders. Stringent filtering coupled with Sanger sequencing and followed by cosegregation analysis was performed to confirm biallelism and the implication of the most likely disease causing variants. Sequencing identified 9 RP1 mutations in 7 index cases. Eight of the mutations were novel, and all cosegregated with severe arRCD phenotype, found associated with additional macular changes. Among the identified mutations, 4 belong to a region, previously associated with arRCD, and 5 others in a region previously associated with adRCD. Our prevalence studies showed that RP1 mutations account for up to 2.5% of arRCD. These results point out for the necessity of sequencing RP1 when genetically investigating sporadic and arRCD. It further highlights the interest of unbiased sequencing technique, which allows investigating the implication of the same gene in different modes of inheritance. Finally, it reports that different regions of RP1 can also lead to arRCD. [ABSTRACT FROM AUTHOR]

Published

2015

22. Lrit3 Deficient Mouse (nob6): A Novel Model of Complete Congenital Stationary Night Blindness (cCSNB).

Author

Neuillé, Marion, El Shamieh, Said, Orhan, Elise, Michiels, Christelle, Antonio, Aline, Lancelot, Marie-Elise, Condroyer, Christel, Bujakowska, Kinga, Poch, Olivier, Sahel, José-Alain, Audo, Isabelle, and Zeitz, Christina

Subjects

NIGHT blindness, LEUCINE, IMMUNOGLOBULINS, MEMBRANE proteins, LABORATORY mice, ALLELES, GENETIC code

Abstract

Mutations in LRIT3, coding for a Leucine-Rich Repeat, immunoglobulin-like and transmembrane domains 3 protein lead to autosomal recessive complete congenital stationary night blindness (cCSNB). The role of the corresponding protein in the ON-bipolar cell signaling cascade remains to be elucidated. Here we genetically and functionally characterize a commercially available Lrit3 knock-out mouse, a model to study the function and the pathogenic mechanism of LRIT3. We confirm that the insertion of a Bgeo/Puro cassette in the knock-out allele introduces a premature stop codon, which presumably codes for a non-functional protein. The mouse line does not harbor other mutations present in common laboratory mouse strains or in other known cCSNB genes. Lrit3 mutant mice exhibit a so-called no b-wave (nob) phenotype with lacking or severely reduced b-wave amplitudes in the scotopic and photopic electroretinogram (ERG), respectively. Optomotor tests reveal strongly decreased optomotor responses in scotopic conditions. No obvious fundus auto-fluorescence or histological retinal structure abnormalities are observed. However, spectral domain optical coherence tomography (SD-OCT) reveals thinned inner nuclear layer and part of the retina containing inner plexiform layer, ganglion cell layer and nerve fiber layer in these mice. To our knowledge, this is the first time that SD-OCT technology is used to characterize an animal model for CSNB. This phenotype is noted at 6 weeks and at 6 months. The stationary nob phenotype of mice lacking Lrit3, which we named nob6, confirms the findings previously reported in patients carrying LRIT3 mutations and is similar to other cCSNB mouse models. This novel mouse model will be useful for investigating the pathogenic mechanism(s) associated with LRIT3 mutations and clarifying the role of LRIT3 in the ON-bipolar cell signaling cascade. [ABSTRACT FROM AUTHOR]

Published

2014

23. Disease-Causing Mutations in BEST1 Gene Are Associated with Altered Sorting of Bestrophin-1 Protein.

Author

Doumanov, Jordan A., Zeitz, Christina, Gimenez, Paloma Dominguez, Audo, Isabelle, Krishna, Abhay, Alfano, Giovanna, Bellido Diaz, Maria Luz, Moskova-Doumanova, Veselina, Lancelot, Marie-Elise, Sahel, José-Alain, Nandrot, Emeline F., and Bhattacharya, Shomi S.

Subjects

PROTEIN genetics, DYSTROPHY, RETINAL degeneration, GENETIC mutation, CONFOCAL microscopy, TYROSINE derivatives, GENETICS

Abstract

Mutations in BEST1 gene, encoding the bestrophin-1 (Best1) protein are associated with macular dystrophies. Best1 is predominantly expressed in the retinal pigment epithelium (RPE), and is inserted in its basolateral membrane. We investigated the cellular localization in polarized MDCKII cells of disease-associated Best1 mutant proteins to study specific sorting motifs of Best1. Real-time PCR and western blots for endogenous expression of BEST1 in MDCK cells were performed. Best1 mutant constructs were generated using site-directed mutagenesis and transfected in MDCK cells. For protein sorting, confocal microscopy studies, biotinylation assays and statistical methods for quantification of mislocalization were used. Analysis of endogenous expression of BEST1 in MDCK cells revealed the presence of BEST1 transcript but no protein. Confocal microscopy and quantitative analyses indicate that transfected normal human Best1 displays a basolateral localization in MDCK cells, while cell sorting of several Best1 mutants (Y85H, Q96R, L100R, Y227N, Y227E) was altered. In contrast to constitutively active Y227E, constitutively inactive Y227F Best1 mutant localized basolaterally similar to the normal Best1 protein. Our data suggest that at least three basolateral sorting motifs might be implicated in proper Best1 basolateral localization. In addition, non-phosphorylated tyrosine 227 could play a role for basolateral delivery. [ABSTRACT FROM AUTHOR]

Published

2013

24. Novel C2orf71 mutations account for ∼1% of cases in a large French arRP cohort.

Author

Audo, Isabelle, Lancelot, Marie-Elise, Mohand-Saïd, Saddek, Antonio, Aline, Germain, Aurore, Sahel, José-Alain, Bhattacharya, Shomi S., and Zeitz, Christina

Subjects

GENETIC mutation, GENES, FRENCH people, RETINITIS pigmentosa, NUCLEOTIDE sequence

Abstract

The article discusses a study on the prevalence and nature of mutations of the C2orf71 gene in a cohort of French patients with autosomal-recessive retinitis pigmentosa (arRP). A total of 209 of the 345 subjects underwent direct sequencing of C2orf71. The pathogenicity of sequence variants was assessed by means of co-segregation analysis, chromosome screening and prediction programs. The study identified a single variant of likely pathogenicity and many novel putative non-disease causing variants.

Published

2011

25. Prevalence and novelty of PRPF31 mutations in French autosomal dominant rod-cone dystrophy patients and a review of published reports.

Author

Audo, Isabelle, Bujakowska, Kinga, Mohand-Saïd, Saddek, Lancelot, Marie-Elise, Moskova-Doumanova, Veselina, Waseem, Naushin H., Antonio, Aline, Sahel, José-Alain, Bhattacharya, Shomi S., and Zeitz, Christina

Subjects

VISUAL acuity, TOMOGRAPHY, GENETICS, GENES

Abstract

Background: Rod-cone dystrophies are heterogeneous group of inherited retinal disorders both clinically and genetically characterized by photoreceptor degeneration. The mode of inheritance can be autosomal dominant, autosomal recessive or X-linked. The purpose of this study was to identify mutations in one of the genes, PRPF31, in French patients with autosomal dominant RP, to perform genotype-phenotype correlations of those patients, to determine the prevalence of PRPF31 mutations in this cohort and to review previously identified PRPF31 mutations from other cohorts. Methods: Detailed phenotypic characterization was performed including precise family history, best corrected visual acuity using the ETDRS chart, slit lamp examination, kinetic and static perimetry, full field and multifocal ERG, fundus autofluorescence imaging and optic coherence tomography. For genetic diagnosis, genomic DNA of ninety families was isolated by standard methods. The coding exons and flanking intronic regions of PRPF31 were PCR amplified, purified and sequenced in the index patient. Results: We showed for the first time that 6.7% cases of a French adRP cohort have a PRPF31 mutation. We identified in total six mutations, which were all novel and not detected in ethnically matched controls. The mutation spectrum from our cohort comprises frameshift and splice site mutations. Co-segregation analysis in available family members revealed that each index patient and all affected family members showed a heterozygous mutation. In five families incomplete penetrance was observed. Most patients showed classical signs of RP with relatively preserved central vision and visual field. Conclusion: Our studies extended the mutation spectrum of PRPF31 and as previously reported in other populations, it is a major cause of adRP in France. [ABSTRACT FROM AUTHOR]

Published

2010

26. Molecular profiling of complete congenital stationary night blindness: a pilot study on an Indian cohort.

Author

Malaichamy S, Sen P, Sachidanandam R, Arokiasamy T, Lancelot ME, Audo I, Zeitz C, and Soumittra N

Subjects

Adolescent, Adult, Amino Acid Sequence, Base Sequence, Child, Electroretinography, Eye Diseases, Hereditary physiopathology, Family, Female, Genetic Association Studies, Genetic Diseases, X-Linked physiopathology, Genetic Predisposition to Disease, Genotype, Humans, India, Male, Middle Aged, Molecular Sequence Data, Myopia physiopathology, Night Blindness physiopathology, Pedigree, Pilot Projects, Young Adult, Eye Diseases, Hereditary genetics, Genetic Diseases, X-Linked genetics, Mutation genetics, Myopia genetics, Night Blindness genetics

Abstract

Purpose: Congenital stationary night blindness (CSNB) is a non-progressive retinal disorder that shows genetic and clinical heterogeneity. CSNB is inherited as an autosomal recessive, autosomal dominant, or X-linked recessive trait and shows a good genotype-phenotype correlation. Clinically, CSNB is classified as the Riggs type and the Schubert-Bornschein type. The latter form is further sub-classified into complete and incomplete forms based on specific waveforms on the electroretinogram (ERG). There are no molecular genetic data for CSNB in the Indian population. Therefore, we present for the first time molecular profiling of eight families with complete CSNB (cCSNB)., Methods: The index patients and their other affected family members were comprehensively evaluated for the phenotype, including complete ophthalmic evaluation, ERG, fundus autofluorescence, optical coherence tomography, and color vision test. The known gene defects for cCSNB, LRIT3, TRPM1, GRM6, GPR179, and NYX, were screened by PCR direct sequencing. Bioinformatic analyses were performed using SIFT and PolyPhen for the identified missense mutations., Results: All eight affected index patients and affected family members were identified as having cCSNB based on their ERG waveforms. Mutations in the TRPM1 gene were identified in six index patients. The two remaining index patients each carried a GPR179 and GRM6 mutation. Seven of the patients revealed homozygous mutations, while one patient showed a compound heterozygous mutation. Six of the eight mutations identified are novel., Conclusions: This is the first report on molecular profiling of candidate genes in CSNB in an Indian cohort. As shown for other cohorts, TRPM1 seems to be a major gene defect in patients with cCSNB in India.

Published

2014

27. A novel DFNB31 mutation associated with Usher type 2 syndrome showing variable degrees of auditory loss in a consanguineous Portuguese family.

Author

Audo I, Bujakowska K, Mohand-Saïd S, Tronche S, Lancelot ME, Antonio A, Germain A, Lonjou C, Carpentier W, Sahel JA, Bhattacharya S, and Zeitz C

Subjects

Adult, Age of Onset, Base Sequence, Chromosome Mapping, Consanguinity, DNA Mutational Analysis, Female, Genes, Recessive, Genotype, Hearing Loss pathology, Homozygote, Humans, Male, Membrane Proteins metabolism, Middle Aged, Molecular Sequence Data, Mutation, Missense, Oligonucleotide Array Sequence Analysis, Pedigree, Phenotype, Polymorphism, Single Nucleotide, Portugal, Retinitis Pigmentosa pathology, Severity of Illness Index, Usher Syndromes pathology, Vision Tests, Hearing Loss genetics, Membrane Proteins genetics, Retinitis Pigmentosa genetics, Usher Syndromes genetics

Abstract

Purpose: To identify the genetic defect of a consanguineous Portuguese family with rod-cone dystrophy and varying degrees of decreased audition., Methods: A detailed ophthalmic and auditory examination was performed on a Portuguese patient with severe autosomal recessive rod-cone dystrophy. Known genetic defects were excluded by performing autosomal recessive retinitis pigmentosa (arRP) genotyping microarray analysis and by Sanger sequencing of the coding exons and flanking intronic regions of eyes shut homolog-drosophila (EYS) and chromosome 2 open reading frame 71 (C2orf71). Subsequently, genome-wide homozygosity mapping was performed in DNA samples from available family members using a 700K single nucleotide polymorphism (SNP) microarray. Candidate genes present in the significantly large homozygous regions were screened for mutations using Sanger sequencing., Results: The largest homozygous region (~11 Mb) in the affected family members was mapped to chromosome 9, which harbors deafness, autosomal recessive 31 (DFNB31; a gene previously associated with Usher syndrome). Mutation analysis of DFNB31 in the index patient identified a novel one-base-pair deletion (c.737delC), which is predicted to lead to a truncated protein (p.Pro246HisfsX13) and co-segregated with the disease in the family. Ophthalmic examination of the index patient and the affected siblings showed severe rod-cone dystrophy. Pure tone audiometry revealed a moderate hearing loss in the index patient, whereas the affected siblings were reported with more profound and early onset hearing impairment., Conclusions: We report a novel truncating mutation in DFNB31 associated with severe rod-cone dystrophy and varying degrees of hearing impairment in a consanguineous family of Portuguese origin. This is the second report of DFNB31 implication in Usher type 2.

Published

2011

28. Spectrum of rhodopsin mutations in French autosomal dominant rod-cone dystrophy patients.

Author

Audo I, Manes G, Mohand-Saïd S, Friedrich A, Lancelot ME, Antonio A, Moskova-Doumanova V, Poch O, Zanlonghi X, Hamel CP, Sahel JA, Bhattacharya SS, and Zeitz C

Subjects

Adolescent, Adult, Child, DNA Mutational Analysis, Electroretinography, Female, Fluorescein Angiography, France epidemiology, Genes, Dominant, Genotype, Humans, Male, Middle Aged, Pedigree, Phenotype, Polymerase Chain Reaction, Prevalence, Retinitis Pigmentosa diagnosis, Tomography, Optical Coherence, Visual Acuity, Young Adult, Mutation, Photoreceptor Cells, Vertebrate pathology, Retinitis Pigmentosa genetics, Rhodopsin genetics, White People genetics

Abstract

Unlabelled: PURPOSE. To identify the prevalence of rhodopsin (RHO) mutations in French patients with autosomal dominant rod-cone dystrophies (adRPs). Methods. Detailed phenotypic characterization was performed, including precise family history, best corrected visual acuity with the ETDRS chart, slit lamp examination, kinetic and static perimetry, full-field and multifocal electroretinography (ERG), fundus autofluorescence imaging (FAF), and optical coherence tomography (OCT). For genetic diagnosis, genomic DNA of 79 families was isolated by standard, Methods: The coding exons and flanking intronic regions of RHO were PCR amplified, purified, and sequenced in the index patient. RESULTS. Of this French adRP sample, 16.5% carried an RHO mutation. Three different families showed a novel mutation (p. Leu88Pro, p.Met207Lys and p.Gln344Pro), while ten unrelated families showed recurrent, previously published mutations (p.Asn15Ser, p.Leu131Pro, p.Arg135Trp, p.Ser334GlyfsX21 and p.Pro347Leu). All mutations co-segregated with the phenotype within a family, and the novel mutations were not identified in control samples. CONCLUSIONS. This study revealed that the prevalence of RHO mutations in French adRP patients is in accordance with that in other studies from Europe. Most of the changes identified herein reflect recurrent mutations, within which p.Pro347Leu substitution is the most prevalent. Nevertheless, almost one fourth of the changes are novel, indicating that, although RHO is the first gene implicated and probably the most studied gene in RP, it is still important performing mutation analysis in RHO to detect novel changes. The detailed phenotype-genotype analyses in all available family members deliver the basis for therapeutic approaches in those families.

Published

2010