0000000000289508

AUTHOR

Uwe Kornak

showing 4 related works from this author

Variable pulmonary manifestations in Chitayat syndrome: Six additional affected individuals

2020

Hand hyperphalangism leading to shortened index fingers with ulnar deviation, hallux valgus, mild facial dysmorphism and respiratory compromise requiring assisted ventilation are the key features of Chitayat syndrome. This condition results from the recurrent heterozygous missense variant NM_006494.2:c.266A>G; p.(Tyr89Cys) in ERF on chromosome 19q13.2, encoding the ETS2 repressor factor (ERF) protein. The pathomechanism of Chitayat syndrome is unknown. To date, seven individuals with Chitayat syndrome and the recurrent pathogenic ERF variant have been reported in the literature. Here, we describe six additional individuals, among them only one presenting with a history of assisted ventil…

Adultbronchomalacia2716 Genetics (clinical)hyperphalangismPediatricsmedicine.medical_specialtyAdolescent10039 Institute of Medical Genetics610610 Medicine & healthChitayat syndromeFingersYoung Adult03 medical and health sciences1311 Geneticsrespiratory distressExome SequencingGeneticsmedicineHumansMissense mutationGenetic Predisposition to DiseaseHallux ValgusRespiratory systemChildGenetics (clinical)030304 developmental biologyCHITAYAT SYNDROME0303 health sciencesPierre Robin SyndromebiologyRespiratory distressbusiness.industry030305 genetics & heredityFaciesmedicine.diseasebiology.organism_classificationPhenotype3. Good healthRepressor ProteinsValgusERFChild Preschoolulnar deviation570 Life sciences; biologyFemaleUlnar deviationBronchomalaciabusinessAmerican Journal of Medical Genetics Part A
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Wnt1 is an Lrp5-independent bone-anabolic Wnt ligand.

2018

Wnt signaling is important for proper embryonic development, shaping cell fate and migration, stem cell renewal, and organ and tissue formation. Here, Luther et al. investigated the role of Wnt1 in osteoporosis. Patients with early-onset osteoporosis and with WNT1 mutations had low bone turnover and high fracture rates, and loss of Wnt1 activity caused fracture and osteoporosis in mice. Inducing Wnt1 in bone-forming cells increased bone mass in aged mice, and this process did not require Lrp5, a co-receptor involved in Wnt signaling. This study identifies Wnt1 as an anabolic (bone building) factor and suggests that it might be a therapeutic target for osteoporosis.WNT1 mutations in humans a…

0301 basic medicinemedicine.medical_specialtyAginganimal structuresAnabolismCellular differentiationOsteoporosis030209 endocrinology & metabolismMice TransgenicWnt1 ProteinLigandsBone and BonesBone remodeling03 medical and health sciencesFractures Bone0302 clinical medicineAnabolic AgentsOsteogenesisInternal medicineCortical BoneMedicineAnimalsHumansTransgenesOsteoblastsbusiness.industryIncidenceWnt signaling pathwayLRP5OsteoblastCell DifferentiationGeneral MedicineOrgan Sizemedicine.disease030104 developmental biologyEndocrinologymedicine.anatomical_structureLow Density Lipoprotein Receptor-Related Protein-5Osteogenesis imperfectaembryonic structuresMutationBone RemodelingbusinessScience translational medicine
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Key features and clinical variability of COG6-CDG

2015

The conserved oligomeric Golgi (COG) complex consists of eight subunits and plays a crucial role in Golgi trafficking and positioning of glycosylation enzymes. Mutations in all COG subunits, except subunit 3, have been detected in patients with congenital disorders of glycosylation (CDG) of variable severity. So far, 3 families with a total of 10 individuals with biallelic COG6 mutations have been described, showing a broad clinical spectrum. Here we present 7 additional patients with 4 novel COG6 mutations. In spite of clinical variability, we delineate the core features of COG6-CDG i.e. liver involvement (9/10), microcephaly (8/10), developmental disability (8/10), recurrent infections (7…

MaleMicrocephalyGlycosylationAdolescentEndocrinology Diabetes and MetabolismProtein subunitHyperkeratosisMolecular Sequence DataGolgi ApparatusCase ReportsResearch SupportBiochemistryConserved oligomeric Golgi complexYoung AdultEndocrinologyCogCongenital Disorders of GlycosylationGeneticsJournal ArticleMedicineHumansNon-U.S. Gov'tChildMolecular BiologyExome sequencingGenetic Association StudiesGeneticsbusiness.industryConserved oligomeric Golgi complexResearch Support Non-U.S. Gov'tHigh-Throughput Nucleotide SequencingInfantCongenital disorder of glycosylationmedicine.diseasePhenotypeAdaptor Proteins Vesicular TransportPhenotypeCOG6MutationMicrocephalyFemaleCDGbusinessCongenital disorder of glycosylation
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Sensory neuropathy with bone destruction due to a mutation in the membrane-shaping atlastin GTPase 3.

2014

Many neurodegenerative disorders present with sensory loss. In the group of hereditary sensory and autonomic neuropathies loss of nociception is one of the disease hallmarks. To determine underlying factors of sensory neurodegeneration we performed whole-exome sequencing in affected individuals with the disorder. In a family with sensory neuropathy with loss of pain perception and destruction of the pedal skeleton we report a missense mutation in a highly conserved amino acid residue of atlastin GTPase 3 (ATL3), an endoplasmic reticulum-shaping GTPase. The same mutation (p.Tyr192Cys) was identified in a second family with similar clinical outcome by screening a large cohort of 115 patients …

AtlastinAdultMaleIntracellular SpaceMutation MissenseSensory systemBiologymedicine.disease_causeEndoplasmic ReticulumGTP PhosphohydrolasesCohort StudiesFractures BoneYoung AdultmedicineMissense mutationHumansExomenociceptionAxonAge of OnsetHereditary Sensory and Autonomic NeuropathiesGenes DominantaxonGeneticsMutationEndoplasmic reticulumNeurodegenerationneurodegenerationmedicine.diseasePenetrancePedigreeHSANsensory neuronsmedicine.anatomical_structurePhenotypeCoughHaplotypesMutationGastroesophageal RefluxFemaleNeurology (clinical)Human medicineBone DiseasesNeuroscienceBrain : a journal of neurology
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