Your search keyword '"Juusola, J."' showing total 5 results

1. Discovery of over 200 new and expanded genetic conditions using GeneMatcher

Author

McWalter, K., primary, Torti, E., additional, Morrow, M., additional, Juusola, J., additional, and Retterer, K., additional

Published

2022

2. Functionally impaired RPL8 variants associated with Diamond-Blackfan anemia and a Diamond-Blackfan anemia-like phenotype.

Author

Lebaron S, O'Donohue MF, Smith SC, Engleman KL, Juusola J, Safina NP, Thiffault I, Saunders CJ, and Gleizes PE

Subjects

Humans, Mutation, Phenotype, Ribosomes genetics, Ribosomes metabolism, Ribosomes pathology, Anemia, Diamond-Blackfan genetics, Ribosomal Proteins genetics

Abstract

Diamond-Blackfan anemia is a rare genetic disease characterized by erythroblastopenia and a large spectrum of developmental anomalies. The vast majority of the cases genetically described are linked to heterozygous pathogenic variants in more than 20 ribosomal protein genes. Here we report an atypical clinical case of DBA associated with a missense variant in RPL8, which encodes RPL8/uL2, a protein of the 60S large ribosomal subunit. RPL8 has been previously implicated as a candidate disease gene in one patient with DBA bearing another type of missense variant; however, evidence for pathogenicity was limited to computational tools. Using functional studies in lymphoblastoid cells as well as yeast models, we show that the RPL8 variants detected in these two patients encode functionally deficient proteins that affect ribosome production and are therefore likely pathogenic. We propose to include RPL8 in the list of DBA-associated genes., (© 2021 Wiley Periodicals LLC.)

Published

2022

3. TAOK1 is associated with neurodevelopmental disorder and essential for neuronal maturation and cortical development.

Author

van Woerden GM, Bos M, de Konink C, Distel B, Avagliano Trezza R, Shur NE, Barañano K, Mahida S, Chassevent A, Schreiber A, Erwin AL, Gripp KW, Rehman F, Brulleman S, McCormack R, de Geus G, Kalsner L, Sorlin A, Bruel AL, Koolen DA, Gabriel MK, Rossi M, Fitzpatrick DR, Wilkie AOM, Calpena E, Johnson D, Brooks A, van Slegtenhorst M, Fleischer J, Groepper D, Lindstrom K, Innes AM, Goodwin A, Humberson J, Noyes A, Langley KG, Telegrafi A, Blevins A, Hoffman J, Guillen Sacoto MJ, Juusola J, Monaghan KG, Punj S, Simon M, Pfundt R, Elgersma Y, and Kleefstra T

Subjects

Amino Acids, Animals, Humans, MAP Kinase Signaling System, Mice, Muscle Hypotonia, Intellectual Disability genetics, Neurodevelopmental Disorders genetics

Abstract

Thousand and one amino-acid kinase 1 (TAOK1) is a MAP3K protein kinase, regulating different mitogen-activated protein kinase pathways, thereby modulating a multitude of processes in the cell. Given the recent finding of TAOK1 involvement in neurodevelopmental disorders (NDDs), we investigated the role of TAOK1 in neuronal function and collected a cohort of 23 individuals with mostly de novo variants in TAOK1 to further define the associated NDD. Here, we provide evidence for an important role for TAOK1 in neuronal function, showing that altered TAOK1 expression levels in the embryonic mouse brain affect neural migration in vivo, as well as neuronal maturation in vitro. The molecular spectrum of the identified TAOK1 variants comprises largely truncating and nonsense variants, but also missense variants, for which we provide evidence that they can have a loss of function or dominant-negative effect on TAOK1, expanding the potential underlying causative mechanisms resulting in NDD. Taken together, our data indicate that TAOK1 activity needs to be properly controlled for normal neuronal function and that TAOK1 dysregulation leads to a neurodevelopmental disorder mainly comprising similar facial features, developmental delay/intellectual disability and/or variable learning or behavioral problems, muscular hypotonia, infant feeding difficulties, and growth problems., (© 2021 The Authors. Human Mutation published by Wiley Periodicals LLC.)

Published

2021

4. Truncating variants in UBAP1 associated with childhood-onset nonsyndromic hereditary spastic paraplegia.

Author

Gu S, Chen CA, Rosenfeld JA, Cope H, Launay N, Flanigan KM, Waldrop MA, Schrader R, Juusola J, Goker-Alpan O, Milunsky A, Schlüter A, Troncoso M, Pujol A, Tan QK, Schaaf CP, and Meng L

Subjects

Age of Onset, Child, Female, Genetic Loci, Humans, Lymphocytes immunology, Lymphocytes metabolism, Male, Pedigree, Phenotype, Exome Sequencing, Carrier Proteins genetics, Genetic Association Studies methods, Genetic Predisposition to Disease, Mutation, Spastic Paraplegia, Hereditary diagnosis, Spastic Paraplegia, Hereditary genetics

Abstract

Hereditary spastic paraplegia (HSP) is a group of disorders with predominant symptoms of lower-extremity weakness and spasticity. Despite the delineation of numerous genetic causes of HSP, a significant portion of individuals with HSP remain molecularly undiagnosed. Through exome sequencing, we identified five unrelated families with childhood-onset nonsyndromic HSP, all presenting with progressive spastic gait, leg clonus, and toe walking starting from 7 to 8 years old. A recurrent two-base pair deletion (c.426_427delGA, p.K143Sfs*15) in the UBAP1 gene was found in four families, and a similar variant (c.475_476delTT, p.F159*) was detected in a fifth family. The variant was confirmed to be de novo in two families and inherited from an affected parent in two other families. RNA studies performed in lymphocytes from one patient with the de novo c.426_427delGA variant demonstrated escape of nonsense-mediated decay of the UBAP1 mutant transcript, suggesting the generation of a truncated protein. Both variants identified in this study are predicted to result in truncated proteins losing the capacity of binding to ubiquitinated proteins, hence appearing to exhibit a dominant-negative effect on the normal function of the endosome-specific endosomal sorting complexes required for the transport-I complex., (© 2019 Wiley Periodicals, Inc.)

Published

2020

5. SLC35A2-CDG: Functional characterization, expanded molecular, clinical, and biochemical phenotypes of 30 unreported Individuals.

Author

Ng BG, Sosicka P, Agadi S, Almannai M, Bacino CA, Barone R, Botto LD, Burton JE, Carlston C, Chung BH, Cohen JS, Coman D, Dipple KM, Dorrani N, Dobyns WB, Elias AF, Epstein L, Gahl WA, Garozzo D, Hammer TB, Haven J, Héron D, Herzog M, Hoganson GE, Hunter JM, Jain M, Juusola J, Lakhani S, Lee H, Lee J, Lewis K, Longo N, Lourenço CM, Mak CCY, McKnight D, Mendelsohn BA, Mignot C, Mirzaa G, Mitchell W, Muhle H, Nelson SF, Olczak M, Palmer CGS, Partikian A, Patterson MC, Pierson TM, Quinonez SC, Regan BM, Ross ME, Guillen Sacoto MJ, Scaglia F, Scheffer IE, Segal D, Singhal NS, Striano P, Sturiale L, Symonds JD, Tang S, Vilain E, Willis M, Wolfe LA, Yang H, Yano S, Powis Z, Suchy SF, Rosenfeld JA, Edmondson AC, Grunewald S, and Freeze HH

Subjects

Animals, Biopsy, CHO Cells, Cells, Cultured, Congenital Disorders of Glycosylation metabolism, Congenital Disorders of Glycosylation pathology, Cricetulus, Female, Humans, Male, Mutation, Congenital Disorders of Glycosylation genetics, Monosaccharide Transport Proteins genetics, Monosaccharide Transport Proteins metabolism, Uridine Diphosphate Galactose metabolism

Abstract

Pathogenic de novo variants in the X-linked gene SLC35A2 encoding the major Golgi-localized UDP-galactose transporter required for proper protein and lipid glycosylation cause a rare type of congenital disorder of glycosylation known as SLC35A2-congenital disorders of glycosylation (CDG; formerly CDG-IIm). To date, 29 unique de novo variants from 32 unrelated individuals have been described in the literature. The majority of affected individuals are primarily characterized by varying degrees of neurological impairments with or without skeletal abnormalities. Surprisingly, most affected individuals do not show abnormalities in serum transferrin N-glycosylation, a common biomarker for most types of CDG. Here we present data characterizing 30 individuals and add 26 new variants, the single largest study involving SLC35A2-CDG. The great majority of these individuals had normal transferrin glycosylation. In addition, expanding the molecular and clinical spectrum of this rare disorder, we developed a robust and reliable biochemical assay to assess SLC35A2-dependent UDP-galactose transport activity in primary fibroblasts. Finally, we show that transport activity is directly correlated to the ratio of wild-type to mutant alleles in fibroblasts from affected individuals., (© 2019 Wiley Periodicals, Inc.)

Published

2019