Your search keyword '"De Bruyne M"' showing total 6 results

1. Dubbele Tweede Kamer of Kamerloos moment?

Author

de Bruyne, M., primary and Leertouwer, G., additional

Published

2024

2. DIAGNOSTIC YIELD OF AN INHERITED RETINAL DISEASE GENE PANEL IN RETINOPATHY OF UNKNOWN ORIGIN.

Author

Abramowicz S, Meunier A, Postelmans L, Caspers L, Corazza F, De Bruyne M, Van de Sompele S, De Baere E, Leroy BP, Willermain F, and Draganova D

Subjects

Humans, Female, Retrospective Studies, Male, Middle Aged, Adult, Aged, Young Adult, Genetic Testing methods, Mutation, Eye Proteins genetics, Retinal Diseases genetics, Retinal Diseases diagnosis

Abstract

Purpose: Evaluating the presence of class 3, 4, and 5 genetic variants in inherited retinal disease (IRD) genes in patients with retinopathy of unknown origin (RUO)., Methods: Multicentric retrospective study of RUO cases diagnosed between January 2012 and February 2022. General and ophthalmologic history, complete ophthalmologic examination, antiretinal antibodies, and IRD gene panel results were analyzed in every patient. Four RUO categories were defined: nonparaneoplastic autoimmune retinopathy, unilateral pigmentary retinopathy, asymmetrical pigmentary retinopathy, and acute zonal occult outer retinopathy., Results: The authors included 12 patients (9 females) across these four RUO categories. Mean age at inclusion was 45.6 years (20-68 years). Seven patients demonstrated class 3 variants in IRD genes. Of these, two also demonstrated class 5 variants in other IRD genes. The remaining five patients had negative panel results. IRD gene panel analysis allowed diagnosis refinement in 1 (8.3%) nonparaneoplastic autoimmune retinopathy patient in the RUO cohort. When considering the nonparaneoplastic autoimmune retinopathy subpopulation only, a higher diagnostic yield of 20% (1/5 patients) was achieved., Conclusion: Every suspected nonparaneoplastic autoimmune retinopathy patient should benefit from gene panel testing to not overlook undiagnosed IRDs. By contrast, unilateral pigmentary retinopathy, asymmetrical pigmentary retinopathy, and acute zonal occult outer retinopathy subpopulations did not benefit from genetic testing in this study.

Published

2024

3. Expanding the genetic landscape of Usher syndrome type IV caused by pathogenic ARSG variants.

Author

Bauwens M, De Man V, Audo I, Balikova I, Zein WM, Smirnov V, Held S, Vermeer S, Loos E, Jacob J, Casteels I, Désir J, Depasse F, Van de Sompele S, Van Heetvelde M, De Bruyne M, Andrieu C, Condroyer C, Antonio A, Hufnagel R, Carvalho AL, Marques JP, Zeitz C, De Baere E, and Damme M

Abstract

Usher syndrome (USH) is the most common cause of deafblindness. USH is autosomal recessively inherited and characterized by rod-cone dystrophy or retinitis pigmentosa (RP), often accompanied by sensorineural hearing loss. Variants in >15 genes have been identified as causative for clinically and genetically distinct subtypes. Among the ultra-rare and recently discovered genes is ARSG, coding for the lysosomal sulfatase Arylsulfatase G. This subtype was assigned as "USH IV" with a late onset of RP and usually late-onset progressive SNHL without vestibular involvement. Here, we describe nine new subjects and the clinical description of four cases with the USH IV phenotype bearing seven novel and two known pathogenic variants. Functional experiments indicated the complete loss of sulfatase enzymatic activity upon ectopic expression of mutated ARSG cDNA. Interestingly, we identified a homozygous missense variant, p.(Arg99His), previously described in dogs with neuronal ceroid lipofuscinosis. Our study expands the genetic landscape of ARSG-USH IV and the number of known subjects by more than 30%. These findings highlight that USH IV likely has been underdiagnosed and emphasize the need to test molecularly unresolved subjects with deafblindness syndrome. Finally, testing of ARSG should be considered for the genetic work-up of apparent isolated inherited retinal diseases., (© 2024 The Author(s). Clinical Genetics published by John Wiley & Sons Ltd.)

Published

2024

4. OPENPichia: licence-free Komagataella phaffii chassis strains and toolkit for protein expression.

Author

Claes K, Van Herpe D, Vanluchene R, Roels C, Van Moer B, Wyseure E, Vandewalle K, Eeckhaut H, Yilmaz S, Vanmarcke S, Çıtak E, Fijalkowska D, Grootaert H, Lonigro C, Meuris L, Michielsen G, Naessens J, van Schie L, De Rycke R, De Bruyne M, Borghgraef P, and Callewaert N

Subjects

Humans, Food, Recombinant Proteins genetics, Cell Wall, Microbiota, Saccharomycetales

Abstract

The industrial yeast Komagataella phaffii (formerly named Pichia pastoris) is commonly used to synthesize recombinant proteins, many of which are used as human therapeutics or in food. However, the basic strain, named NRRL Y-11430, from which all commercial hosts are derived, is not available without restrictions on its use. Comparative genome sequencing leaves little doubt that NRRL Y-11430 is derived from a K. phaffii type strain deposited in the UC Davis Phaff Yeast Strain Collection in 1954. We analysed four equivalent type strains in several culture collections and identified the NCYC 2543 strain, from which we started to develop an open-access Pichia chassis strain that anyone can use to produce recombinant proteins to industry standards. NRRL Y-11430 is readily transformable, which we found to be due to a HOC1 open-reading-frame truncation that alters cell-wall mannan. We introduced the HOC1 open-reading-frame truncation into NCYC 2543, which increased the transformability and improved secretion of some but not all of our tested proteins. We provide our genome-sequenced type strain, the hoc1 tr derivative that we named OPENPichia as well as a synthetic, modular expression vector toolkit under liberal end-user distribution licences as an unencumbered OPENPichia resource for the microbial biotechnology community., (© 2024. The Author(s).)

Published

2024

5. Visualisation of microalgal lipid bodies through electron microscopy.

Author

Verwee E, Van de Walle D, De Bruyne M, Mienis E, Sekulic M, Chaerle P, Vyverman W, Foubert I, and Dewettinck K

Subjects

Lipid Droplets, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Cryoelectron Microscopy methods, Microalgae

Abstract

In this study, transmission electron microscopy (TEM) and cryo-scanning electron microscopy (cryo-SEM) were evaluated for their ability to detect lipid bodies in microalgae. To do so, Phaeodactylum tricornutum and Nannochloropsis oculata cells were harvested in both the mid-exponential and early stationary growth phase. Two different cryo-SEM cutting methods were compared: cryo-planing and freeze-fracturing. The results showed that, despite the longer preparation time, TEM visualisation preceded by cryo-immobilisation allows a clear detection of lipid bodies and is preferable to cryo-SEM. Using freeze-fracturing, lipid bodies were rarely detected. This was only feasible if crystalline layers in the internal structure, most likely related to sterol esters or di-saturated triacylglycerols, were revealed. Furthermore, lipid bodies could not be detected using cryo-planing. Cryo-SEM is also not the preferred technique to recognise other organelles besides lipid bodies, yet it did reveal chloroplasts in both species and filament-containing organelles in cryo-planed Nannochloropsis oculata samples., (© 2023 Royal Microscopical Society.)

Published

2024

6. Combining a prioritization strategy and functional studies nominates 5'UTR variants underlying inherited retinal disease.

Author

Dueñas Rey A, Del Pozo Valero M, Bouckaert M, Wood KA, Van den Broeck F, Daich Varela M, Thomas HB, Van Heetvelde M, De Bruyne M, Van de Sompele S, Bauwens M, Lenaerts H, Mahieu Q, Josifova D, Rivolta C, O'Keefe RT, Ellingford J, Webster AR, Arno G, Ayuso C, De Zaeytijd J, Leroy BP, De Baere E, and Coppieters F

Subjects

Humans, 5' Untranslated Regions, c-Mer Tyrosine Kinase, Retina, Protein Isoforms, Alcohol Oxidoreductases, Retinal Diseases genetics, Nicotinamide-Nucleotide Adenylyltransferase

Abstract

Background: 5' untranslated regions (5'UTRs) are essential modulators of protein translation. Predicting the impact of 5'UTR variants is challenging and rarely performed in routine diagnostics. Here, we present a combined approach of a comprehensive prioritization strategy and functional assays to evaluate 5'UTR variation in two large cohorts of patients with inherited retinal diseases (IRDs)., Methods: We performed an isoform-level re-analysis of retinal RNA-seq data to identify the protein-coding transcripts of 378 IRD genes with highest expression in retina. We evaluated the coverage of their 5'UTRs by different whole exome sequencing (WES) kits. The selected 5'UTRs were analyzed in whole genome sequencing (WGS) and WES data from IRD sub-cohorts from the 100,000 Genomes Project (n = 2397 WGS) and an in-house database (n = 1682 WES), respectively. Identified variants were annotated for 5'UTR-relevant features and classified into seven categories based on their predicted functional consequence. We developed a variant prioritization strategy by integrating population frequency, specific criteria for each category, and family and phenotypic data. A selection of candidate variants underwent functional validation using diverse approaches., Results: Isoform-level re-quantification of retinal gene expression revealed 76 IRD genes with a non-canonical retina-enriched isoform, of which 20 display a fully distinct 5'UTR compared to that of their canonical isoform. Depending on the probe design, 3-20% of IRD genes have 5'UTRs fully captured by WES. After analyzing these regions in both cohorts, we prioritized 11 (likely) pathogenic variants in 10 genes (ARL3, MERTK, NDP, NMNAT1, NPHP4, PAX6, PRPF31, PRPF4, RDH12, RD3), of which 7 were novel. Functional analyses further supported the pathogenicity of three variants. Mis-splicing was demonstrated for the PRPF31:c.-9+1G>T variant. The MERTK:c.-125G>A variant, overlapping a transcriptional start site, was shown to significantly reduce both luciferase mRNA levels and activity. The RDH12:c.-123C>T variant was found in cis with the hypomorphic RDH12:c.701G>A (p.Arg234His) variant in 11 patients. This 5'UTR variant, predicted to introduce an upstream open reading frame, was shown to result in reduced RDH12 protein but unaltered mRNA levels., Conclusions: This study demonstrates the importance of 5'UTR variants implicated in IRDs and provides a systematic approach for 5'UTR annotation and validation that is applicable to other inherited diseases., (© 2024. The Author(s).)

Published

2024