Your search keyword '"Streiter, Gertraud"' showing total 4 results

1. Investigation of a nonsense mutation located in the complex KIV-2 copy number variation region of apolipoprotein(a) in 10,910 individuals

Author

Di Maio, Silvia, Grüneis, Rebecca, Streiter, Gertraud, Lamina, Claudia, Maglione, Manuel, Schoenherr, Sebastian, Öfner, Dietmar, Thorand, Barbara, Peters, Annette, Eckardt, Kai-Uwe, Köttgen, Anna, Kronenberg, Florian, and Coassin, Stefan

Subjects

Male, Genotype, lcsh:QH426-470, lcsh:Medicine, Apoprotein(a), Polymorphism, Single Nucleotide, Linkage Disequilibrium, White People, Asian People, Humans, ddc:610, Alleles, Genetic Association Studies, Aged, Molecular Epidemiology, Research, lcsh:R, Middle Aged, lcsh:Genetics, Genetics, Population, Phenotype, Haplotypes, Codon, Nonsense, Female, RNA Splice Sites, Biomarkers

Abstract

Background The concentrations of the highly atherogenic lipoprotein(a) [Lp(a)] are mainly genetically determined by the LPA gene locus. However, up to 70% of the coding sequence is located in the complex so-called kringle IV type 2 (KIV-2) copy number variation, a region hardly accessible by common genotyping and sequencing technologies. Despite its size, little is known about genetic variants in this complex region. The R21X variant is a functional variant located in this region, but it has never been analyzed in large cohorts. Methods We typed R21X in 10,910 individuals from three European populations using a newly developed high-throughput allele-specific qPCR assay. R21X allelic location was determined by separating the LPA alleles using pulsed-field gel electrophoresis (PFGE) and typing them separately. Using GWAS data, we identified a proxy SNP located outside of the KIV-2. Linkage disequilibrium was determined both statistically and by long-range haplotyping using PFGE. Worldwide frequencies were determined by reanalyzing the sequencing data of the 1000 Genomes Project with a dedicated pipeline. Results R21X carriers (frequency 0.016–0.021) showed significantly lower mean Lp(a) concentrations (− 11.7 mg/dL [− 15.5; − 7.82], p = 3.39e−32). The variant is located mostly on medium-sized LPA alleles. In the 1000 Genome data, R21X mostly occurs in Europeans and South Asians, is absent in Africans, and shows varying frequencies in South American populations (0 to 0.022). Of note, the best proxy SNP was another LPA null mutation (rs41272114, D′ = 0.958, R 2 = 0.281). D′ was very high in all 1000G populations (0.986–0.996), although rs41272114 frequency varies considerably (0–0.182). Co-localization of both null mutations on the same allele was confirmed by PFGE-based long-range haplotyping. Conclusions We performed the largest epidemiological study on an LPA KIV-2 variant so far, showing that it is possible to assess LPA KIV-2 mutations on a large scale. Surprisingly, in all analyzed populations, R21X was located on the same haplotype as the splice mutation rs41272114, creating “double-null” LPA alleles. Despite being a nonsense variant, the R21X status does not provide additional information beyond the rs41272114 genotype. This has important implications for studies using LPA loss-of-function mutations as genetic instruments and emphasizes the complexity of LPA genetics.

Published

2020

2. When the genome bluffs: a tandem duplication event during generation of a novel Agmo knockout mouse model fools routine genotyping

Author

Sailer, Sabrina, Coassin, Stefan, Lackner, Katharina, Fischer, Caroline, McNeill, Eileen, Streiter, Gertraud, Kremser, Christian, Maglione, Manuel, Green, Catherine M., Moralli, Daniela, Moschen, Alexander R., Keller, Markus A., Golderer, Georg, Werner-Felmayer, Gabriele, Tegeder, Irmgard, Channon, Keith M., Davies, Benjamin, Werner, Ernst R., and Watschinger, Katrin

Subjects

lcsh:Biochemistry, Genomic structural variation, Alkylglycerol monooxygenase, lcsh:Biology (General), Research, lcsh:Biotechnology, lcsh:TP248.13-248.65, Ether lipid metabolism, lcsh:QD415-436, Homologous recombination, Mouse models, lcsh:QH301-705.5

Abstract

Background Genome editing in mice using either classical approaches like homologous recombination or CRISPR/Cas9 has been reported to harbor off target effects (insertion/deletion, frame shifts or gene segment duplications) that lead to mutations not only in close proximity to the target site but also outside. Only the genomes of few engineered mouse strains have been sequenced. Since the role of the ether-lipid cleaving enzyme alkylglycerol monooxygenase (AGMO) in physiology and pathophysiology remains enigmatic, we created a knockout mouse model for AGMO using EUCOMM stem cells but unforeseen genotyping issues that did not agree with Mendelian distribution and enzyme activity data prompted an in-depth genomic validation of the mouse model. Results We report a gene segment tandem duplication event that occurred during the generation of an Agmo knockout-first allele by homologous recombination. Only low homology was seen between the breakpoints. While a single copy of the recombinant 18 kb cassette was integrated correctly around exon 2 of the Agmo gene, whole genome nanopore sequencing revealed a 94 kb duplication in the Agmo locus that contains Agmo wild-type exons 1–3. The duplication fooled genotyping by routine PCR, but could be resolved using qPCR-based genotyping, targeted locus amplification sequencing and nanopore sequencing. Despite this event, this Agmo knockout mouse model lacks AGMO enzyme activity and can therefore be used to study its physiological role. Conclusions A duplication event occurred at the exact locus of the homologous recombination and was not detected by conventional quality control filters such as FISH or long-range PCR over the recombination sites. Nanopore sequencing provides a cost convenient method to detect such underrated off-target effects, suggesting its use for additional quality assessment of gene editing in mice and also other model organisms.

Published

2021

3. Frequent LPA KIV-2 Variants Lower Lipoprotein(a) Concentrations and Protect Against Coronary Artery Disease

Author

Schachtl-Riess, Johanna F., Kheirkhah, Azin, Grüneis, Rebecca, Di Maio, Silvia, Schoenherr, Sebastian, Streiter, Gertraud, Losso, Jamie Lee, Paulweber, Bernhard, Eckardt, Kai-Uwe, Köttgen, Anna, Lamina, Claudia, Kronenberg, Florian, Coassin, Stefan, For The GCKD Investigators, Meiselbach, Heike, Schneider, Markus P., Schiffer, Mario, Prokosch, Hans-Ulrich, Bärthlein, Barbara, Beck, Andreas, Reis, André, Ekici, Arif B., Becker, Susanne, Becker-Grosspitsch, Dinah, Alberth-Schmidt, Ulrike, Hausknecht, Birgit, Weigel, Anke, Walz, Gerd, Schultheiß, Ulla T., Kotsis, Fruzsina, Meder, Simone, Mitsch, Erna, Reinhard, Ursula, Floege, Jürgen, Saritas, Turgay, Schaeffner, Elke, Baid-Agrawal, Seema, Theisen, Kerstin, Haller, Hermann, Menne, Jan, Zeier, Martin, Sommerer, Claudia, Theilinger, Johanna, Wolf, Gunter, Busch, Martin, Paul, Rainer, Sitter, Thomas, Wanner, Christoph, Krane, Vera, Börner-Klein, Antje, Bauer, Britta, Raschenberger, Julia, Kollerits, Barbara, Forer, Lukas, Schönherr, Sebastian, Weissensteiner, Hansi, Oefner, Peter J., Gronwald, Wolfram, Schmid, Matthias, and Nadal, Jennifer

Subjects

medicine.medical_specialty, 610 Medizin, Coronary Artery Disease, Mendelian randomization, cardiovascular disease, cohort study, copy number variation, genetic variability, lipoprotein(a), Coronary artery disease, Kringles, Internal medicine, Medicine, Humans, Copy-number variation, Genetic variability, Prospective Studies, Risk factor, ddc:610, biology, business.industry, Genetic Variation, Lipoprotein(a), medicine.disease, biology.protein, Cardiology, lipids (amino acids, peptides, and proteins), biological phenomena, cell phenomena, and immunity, Cardiology and Cardiovascular Medicine, business, Lipoprotein, Cohort study

Abstract

Background: Lipoprotein(a) (Lp(a)) concentrations are a major independent risk factor for coronary artery disease (CAD) and are mainly determined by variation in LPA. Up to 70% of the LPA coding sequence is located in the hypervariable kringle IV type 2 (KIV-2) region. It is hardly accessible by conventional technologies, but may contain functional variants. Objectives: This study sought to investigate the new, very frequent splicing variant KIV-2 4733G>A on Lp(a) and CAD. Methods: We genotyped 4733G>A in the GCKD (German Chronic Kidney Disease) study (n = 4,673) by allele-specific polymerase chain reaction, performed minigene assays, identified proxy single nucleotide polymorphisms and used them to characterize its effect on CAD by survival analysis in UK Biobank (n = 440,234). Frequencies in ethnic groups were assessed in the 1000 Genomes Project. Results: The 4733G>A variant (38.2% carrier frequency) was found in most isoform sizes. It reduces allelic expression without abolishing protein production, lowers Lp(a) by 13.6 mg/dL (95% CI: 12.5-14.7; P < 0.0001) and is the strongest variance-explaining factor after the smaller isoform. Splicing of minigenes was modified. Compound heterozygosity (4.6% of the population) for 4733G>A and 4925G>A, another KIV-2 splicing mutation, reduces Lp(a) by 31.8 mg/dL and most importantly narrows the interquartile range by 9-fold (from 42.1 to 4.6 mg/dL) when compared to the wild type. In UK Biobank 4733G>A alone and compound heterozygosity with 4925G>A reduced HR for CAD by 9% (95% CI: 7%-11%) and 12% (95% CI: 7%-16%) (both P < 0.001). Frequencies in ethnicities differ notably. Conclusions: Functional variants in the previously inaccessible LPA KIV-2 region cooperate in determining Lp(a) variance and CAD risk. Even a moderate but lifelong genetic Lp(a) reduction translates to a noticeable CAD risk reduction.

Published

2021

4. Additional file 1 of When the genome bluffs: a tandem duplication event during generation of a novel Agmo knockout mouse model fools routine genotyping

Author

Sailer, Sabrina, Coassin, Stefan, Lackner, Katharina, Fischer, Caroline, McNeill, Eileen, Streiter, Gertraud, Kremser, Christian, Maglione, Manuel, Green, Catherine M., Moralli, Daniela, Moschen, Alexander R., Keller, Markus A., Golderer, Georg, Werner-Felmayer, Gabriele, Tegeder, Irmgard, Channon, Keith M., Davies, Benjamin, Werner, Ernst R., and Watschinger, Katrin

Subjects

Data_FILES

Abstract

Additional file 1. Additional figures and tables.

Published

2021