Präimplantationsdiagnostik in der Schweiz: Möglichkeiten und Probleme

Die durch das revidierte Fortpflanzungsmedizingesetz in der Schweiz erlaubte Präimplantationsgenetik ermöglicht es einerseits, eine bessere reproduktionsmedizinische Behandlung anzubieten. Andererseits tun sich auch Problem Felder auf, was die praktische Umsetzung betrifft

Genetische Diagnostik für die Betreuung von Patientinnen mit Brustkrebs: BRCA and beyond

Diese kurze Übersicht zur hereditären Brustkrebserkrankung soll illustrieren, wie wichtig es ist, Patienten mit erhöhtem Erkrankungsrisiko zu identifizieren und den Betroffenen, falls gewünscht, eine genetische Testung anzubieten, um den Patienten und auch deren Verwandten die bestmögliche individuelle Betreuung zu bieten. Ein Schritt Richtung personalisierter Medizin

Entwicklung der genetischen und genomischen Medizin in der Schweiz

Mit den rasanten technologischen Entwicklungen im medizinisch-genomischen Bereich und dem damit verbundenen exponentiellen Kenntniszuwachs hat der Bedarf an genetischer Expertise in praktisch allen medizinischen Disziplinen zugenommen. Die Schweizerische Gesellschaft für Medizinische Genetik (SGMG) sieht sich als Fachgesellschaft und Vertreterin einer transversalen medizinischen Disziplin besonders geeignet, die gegebene Situation zu evaluieren und zukünftige Konzepte zu entwickeln und zu begleiten

Deleterious ZNRF3 germline variants cause neurodevelopmental disorders with mirror brain phenotypes via domain-specific effects on Wnt/β-catenin signaling

Zinc and RING finger 3 (ZNRF3) is a negative-feedback regulator of Wnt/β-catenin signaling, which plays an important role in human brain development. Although somatically frequently mutated in cancer, germline variants in ZNRF3 have not been established as causative for neurodevelopmental disorders (NDDs). We identified 12 individuals with ZNRF3 variants and various phenotypes via GeneMatcher/Decipher and evaluated genotype-phenotype correlation. We performed structural modeling and representative deleterious and control variants were assessed using in vitro transcriptional reporter assays with and without Wnt-ligand Wnt3a and/or Wnt-potentiator R-spondin (RSPO). Eight individuals harbored de novo missense variants and presented with NDD. We found missense variants associated with macrocephalic NDD to cluster in the RING ligase domain. Structural modeling predicted disruption of the ubiquitin ligase function likely compromising Wnt receptor turnover. Accordingly, the functional assays showed enhanced Wnt/β-catenin signaling for these variants in a dominant negative manner. Contrarily, an individual with microcephalic NDD harbored a missense variant in the RSPO-binding domain predicted to disrupt binding affinity to RSPO and showed attenuated Wnt/β-catenin signaling in the same assays. Additionally, four individuals harbored de novo truncating or de novo or inherited large in-frame deletion variants with non-NDD phenotypes, including heart, adrenal, or nephrotic problems. In contrast to NDD-associated missense variants, the effects on Wnt/β-catenin signaling were comparable between the truncating variant and the empty vector and between benign variants and the wild type. In summary, we provide evidence for mirror brain size phenotypes caused by distinct pathomechanisms in Wnt/β-catenin signaling through protein domain-specific deleterious ZNRF3 germline missense variants

Elucidation of the phenotypic spectrum and genetic landscape in primary and secondary microcephaly

Purpose: Microcephaly is a sign of many genetic conditions but has been rarely systematically evaluated. We therefore comprehensively studied the clinical and genetic landscape of an unselected cohort of patients with microcephaly. Methods: We performed clinical assessment, high-resolution chromosomal microarray analysis, exome sequencing, and functional studies in 62 patients (58% with primary microcephaly [PM], 27% with secondary microcephaly [SM], and 15% of unknown onset). Results: We found severity of developmental delay/intellectual disability correlating with severity of microcephaly in PM, but not SM. We detected causative variants in 48.4% of patients and found divergent inheritance and variant pattern for PM (mainly recessive and likely gene-disrupting [LGD]) versus SM (all dominant de novo and evenly LGD or missense). While centrosome-related pathways were solely identified in PM, transcriptional regulation was the most frequently affected pathway in both SM and PM. Unexpectedly, we found causative variants in different mitochondria-related genes accounting for ~5% of patients, which emphasizes their role even in syndromic PM. Additionally, we delineated novel candidate genes involved in centrosome-related pathway (SPAG5, TEDC1), Wnt signaling (VPS26A, ZNRF3), and RNA trafficking (DDX1). Conclusion: Our findings enable improved evaluation and genetic counseling of PM and SM patients and further elucidate microcephaly pathways

Deleterious ZNRF3 germline variants cause neurodevelopmental disorders with mirror brain phenotypes via domain-specific effects on Wnt/β-catenin signaling

Zinc and RING finger 3 (ZNRF3) is a negative-feedback regulator of Wnt/β-catenin signaling, which plays an important role in human brain development. Although somatically frequently mutated in cancer, germline variants in ZNRF3 have not been established as causative for neurodevelopmental disorders (NDDs). We identified 12 individuals with ZNRF3 variants and various phenotypes via GeneMatcher/Decipher and evaluated genotype-phenotype correlation. We performed structural modeling and representative deleterious and control variants were assessed using in vitro transcriptional reporter assays with and without Wnt-ligand Wnt3a and/or Wnt-potentiator R-spondin (RSPO). Eight individuals harbored de novo missense variants and presented with NDD. We found missense variants associated with macrocephalic NDD to cluster in the RING ligase domain. Structural modeling predicted disruption of the ubiquitin ligase function likely compromising Wnt receptor turnover. Accordingly, the functional assays showed enhanced Wnt/β-catenin signaling for these variants in a dominant negative manner. Contrarily, an individual with microcephalic NDD harbored a missense variant in the RSPO-binding domain predicted to disrupt binding affinity to RSPO and showed attenuated Wnt/β-catenin signaling in the same assays. Additionally, four individuals harbored de novo truncating or de novo or inherited large in-frame deletion variants with non-NDD phenotypes, including heart, adrenal, or nephrotic problems. In contrast to NDD-associated missense variants, the effects on Wnt/β-catenin signaling were comparable between the truncating variant and the empty vector and between benign variants and the wild type. In summary, we provide evidence for mirror brain size phenotypes caused by distinct pathomechanisms in Wnt/β-catenin signaling through protein domain-specific deleterious ZNRF3 germline missense variants

Hochdurchsatz-Sequenzierung

Die rasante technische Entwicklung in der medizinischen Genetik in den vergangenen Jahren hat dazu geführt, dass mit der Hochdurchsatz-Sequenzierung mehrere Gene, das gesamte Exom oder sogar das gesamte Exom gleihzeitig sequenziert werden können

Ohne X geht nix

Dank der Arbeit der Gruppen im Human Genom Projekt konnte in den letzten Jahren immer mehr der Sequenz des menschlichen Genoms entziffert werden. Daraus ergeben sich einerseits interessante Rückschlüsse auf die Evolution des Menschen, aber auch neue Möglichkeiten in der heutigen Diagnostik der medizinischen Genetik und für die Zukunft interessante Ansätze in der Therapie genetisch bedingter Erkrankungen. Neben der Genetik an sich wird in Fachkreisen die Epigenetik zu einem immer wichtigeren Begriff, wobei dazu noch lange nicht alle Fragen beantwortet werden können. Ganz wichtig aber ist und bleibt, dass der Mensch als Individuum, Teil seiner Familie und Gesellschaft bei all den technischen Fortschritten nicht vergessen geht

Grundlagen der medizinischen Genetik

The human genome consists of 23 pairs of chromosomes that contain 20 000-25 000 genes. Genetic disorders can be caused by different mechanisms, and therefore the confirmation of a suspected diagnosis requires knowledge of the underlying defect, so that the correct test can be applied. Monogenic diseases are caused by disturbances in a single gene, and currently only targeted diagnostic testing is available following a specific clinical suspicion. Chromosomal disorders usually involve multiple genes, so that the symptoms are often less specific. Specialists in Medical Genetics FMH are trained in creating a clinical genetic differential diagnosis, requesting the according laboratory test, interpretating the results and providing expert genetic counseling in presymptomatic and prenatal diagnosis. In Switzerland, specific legal principles and ethical guidelines must be taken into account