Your search keyword '"Eaton, Alison"' showing total 2 results

1. Biallelic ADAM22 pathogenic variants cause progressive encephalopathy and infantile-onset refractory epilepsy.

Author

Knoop, Marieke M van der, Maroofian, Reza, Fukata, Yuko, Ierland, Yvette van, Karimiani, Ehsan G, Lehesjoki, Anna Elina, Muona, Mikko, Paetau, Anders, Miyazaki, Yuri, Hirano, Yoko, Selim, Laila, França, Marina de, Fock, Rodrigo Ambrosio, Beetz, Christian, Ruivenkamp, Claudia A L, Eaton, Alison J, Morneau-Jacob, Francois D, Sagi-Dain, Lena, Shemer-Meiri, Lilach, and Peleg, Amir

Subjects

RESEARCH, NERVE tissue proteins, BRAIN diseases, RESEARCH methodology, SIGNAL peptides, EVALUATION research, ATROPHY, COMPARATIVE studies, GLYCOPROTEINS, RESEARCH funding

Abstract

Pathogenic variants in A Disintegrin And Metalloproteinase (ADAM) 22, the postsynaptic cell membrane receptor for the glycoprotein leucine-rich repeat glioma-inactivated protein 1 (LGI1), have been recently associated with recessive developmental and epileptic encephalopathy. However, so far, only two affected individuals have been described and many features of this disorder are unknown. We refine the phenotype and report 19 additional individuals harbouring compound heterozygous or homozygous inactivating ADAM22 variants, of whom 18 had clinical data available. Additionally, we provide follow-up data from two previously reported cases. All affected individuals exhibited infantile-onset, treatment-resistant epilepsy. Additional clinical features included moderate to profound global developmental delay/intellectual disability (20/20), hypotonia (12/20) and delayed motor development (19/20). Brain MRI findings included cerebral atrophy (13/20), supported by post-mortem histological examination in patient-derived brain tissue, cerebellar vermis atrophy (5/20), and callosal hypoplasia (4/20). Functional studies in transfected cell lines confirmed the deleteriousness of all identified variants and indicated at least three distinct pathological mechanisms: (i) defective cell membrane expression; (ii) impaired LGI1-binding; and/or (iii) impaired interaction with the postsynaptic density protein PSD-95. We reveal novel clinical and molecular hallmarks of ADAM22 deficiency and provide knowledge that might inform clinical management and early diagnostics. [ABSTRACT FROM AUTHOR]

Published

2022

2. PDXK mutations cause polyneuropathy responsive to pyridoxal 5'-phosphate supplementation.

Author

Chelban, Viorica, Wilson, Matthew P., Warman Chardon, Jodi, Vandrovcova, Jana, Zanetti, M. Natalia, Zamba‐Papanicolaou, Eleni, Efthymiou, Stephanie, Pope, Simon, Conte, Maria R., Abis, Giancarlo, Liu, Yo‐Tsen, Tribollet, Eloise, Haridy, Nourelhoda A., Botía, Juan A., Ryten, Mina, Nicolaou, Paschalis, Minaidou, Anna, Christodoulou, Kyproula, Kernohan, Kristin D., and Eaton, Alison

Subjects

LEBER'S hereditary optic atrophy, RECESSIVE genes, ISOTHERMAL titration calorimetry, NATURAL history, COFACTORS (Biochemistry), MASS spectrometry, ETIOLOGY of diseases, CIRCULAR dichroism, RESEARCH, GENETIC mutation, RESEARCH methodology, EVALUATION research, MEDICAL cooperation, VITAMIN B complex, DIETARY supplements, TREATMENT effectiveness, COMPARATIVE studies, POLYNEUROPATHIES, TRANSFERASES, MOLECULAR structure

Abstract

Objective: To identify disease-causing variants in autosomal recessive axonal polyneuropathy with optic atrophy and provide targeted replacement therapy.Methods: We performed genome-wide sequencing, homozygosity mapping, and segregation analysis for novel disease-causing gene discovery. We used circular dichroism to show secondary structure changes and isothermal titration calorimetry to investigate the impact of variants on adenosine triphosphate (ATP) binding. Pathogenicity was further supported by enzymatic assays and mass spectroscopy on recombinant protein, patient-derived fibroblasts, plasma, and erythrocytes. Response to supplementation was measured with clinical validated rating scales, electrophysiology, and biochemical quantification.Results: We identified biallelic mutations in PDXK in 5 individuals from 2 unrelated families with primary axonal polyneuropathy and optic atrophy. The natural history of this disorder suggests that untreated, affected individuals become wheelchair-bound and blind. We identified conformational rearrangement in the mutant enzyme around the ATP-binding pocket. Low PDXK ATP binding resulted in decreased erythrocyte PDXK activity and low pyridoxal 5'-phosphate (PLP) concentrations. We rescued the clinical and biochemical profile with PLP supplementation in 1 family, improvement in power, pain, and fatigue contributing to patients regaining their ability to walk independently during the first year of PLP normalization.Interpretation: We show that mutations in PDXK cause autosomal recessive axonal peripheral polyneuropathy leading to disease via reduced PDXK enzymatic activity and low PLP. We show that the biochemical profile can be rescued with PLP supplementation associated with clinical improvement. As B6 is a cofactor in diverse essential biological pathways, our findings may have direct implications for neuropathies of unknown etiology characterized by reduced PLP levels. ANN NEUROL 2019;86:225-240. [ABSTRACT FROM AUTHOR]

Published

2019