Your search keyword '"Hjellnes, Helene"' showing total 4 results

1. ABCC9-related Intellectual disability Myopathy Syndrome is a KATP channelopathy with loss-of-function mutations in ABCC9

Author

Smeland, Marie F., McClenaghan, Conor, Roessler, Helen I., Savelberg, Sanne, Hansen, Geir Åsmund Myge, Hjellnes, Helene, Arntzen, Kjell Arne, Müller, Kai Ivar, Dybesland, Andreas Rosenberger, Harter, Theresa, Sala-Rabanal, Monica, Emfinger, Chris H., Huang, Yan, Singareddy, Soma S., Gunn, Jamie, Wozniak, David F., Kovacs, Attila, Massink, Maarten, Tessadori, Federico, Kamel, Sarah M., Bakkers, Jeroen, Remedi, Maria S., Van Ghelue, Marijke, Nichols, Colin G., and van Haaften, Gijs

Published

2019

2. Segregation analysis in families with Charcot-Marie-Tooth disease allows reclassification of putative disease causing mutations.

Author

Østern, Rune, Fagerheim, Toril, Hjellnes, Helene, Nygård, Bjørn, Mellgren, Svein Ivar, and Nilssen, Øivind

Subjects

CHARCOT-Marie-Tooth disease, SPINAL muscular atrophy, GENETIC disorders, PHENOTYPES, PERONEAL nerve diseases

Abstract

Background The identification of disease causing, or putative disease causing, mutations in index patients with Charcot-Marie-Tooth disease (CMT) allows for genetic testing of family members. Relevant variants identified in index patients are of either definite, likely or uncertain pathogenicity. The main objective of this study was to make an evaluation of the family investigations performed as part of the assessment of genetic variants of unknown clinical significance (VUS). Methods Between 2004 and 2010 molecular genetic family investigations were requested for 87 family members from 41 families harbouring PMP22dup or genetic variants in GJB1, MPZ, MFN2 and NEFL. Relatives were tested for the family mutation and data from the requisitions were evaluated by means of statistical tools. Results The results within each indication category are presented and discussed in detail. Twenty-two relatives (9 affected) from eight families were included in the segregation analyses, which invoked reclassification of three MFN2 mutations, two of which were de novo substitutions (c.2146_2148dup, c.692C > T). One MFN2 substitution was downgraded due to nonsegregation (c.1709 A > G), and a MPZ substitution (c.103 G > A) upgraded due to segregation with the phenotype in the family. Conclusions The results allow for the evaluation of the patient phenotypes ascertained in families, as opposed to the phenotypic descriptions of index patients. They indicate that de novo MFN2 mutations are regularly found in patients with a classical CMT2 phenotype. They also demonstrate the importance of a precise clinical and neurophysiologic diagnosis of affected family members. This particularly applies for the examination of variants of uncertain clinical significance. Finally, the fact that 14,6 % of affected relatives tested for (probable or certain) pathogenic mutations were mutation negative, demonstrates that clinical evaluation alone is not always sufficient in order to determine their diagnosis. We believe that the results will aid in the estimation and planning of resources required for the various aspects of family evaluations in CMT. [ABSTRACT FROM AUTHOR]

Published

2014

3. Diagnostic laboratory testing for Charcot Marie Tooth disease (CMT): the spectrum of gene defects in Norwegian patients with CMT and its implications for future genetic test strategies.

Author

Østern, Rune, Fagerheim, Toril, Hjellnes, Helene, Nygård, Bjørn, Mellgren, Svein I, and Nilssen, Øivind

Subjects

GENETIC research, ALTERNATIVE medicine, GENES, REFERRAL centers (Information services), GENETIC mutation

Abstract

Background: Current genetic test algorithms for Charcot Marie Tooth (CMT) disease are based on family details and comprehensive clinical and neurophysiological data gathered under ideal conditions for clinical assessment. However, in a diagnostic laboratory setting relying on external test requisitions and patient samples, such conditions are not always met. Our objective was therefore to perform a retrospective evaluation of the data given in laboratory request forms and to assess their quality and applicability with regard to the recommended algorithms for CMT diagnostics. As we are the main test centre for CMT in Norway our results also provide an overview of the spectrum of gene defects in the Norwegian CMT population. Methods: Genetic testing was performed according to polyneuropathy type; demyelinating/mixed: PMP22 duplication, MPZ, EGR2, LITAF, NEFL, PMP22, GJB1, axonal: MFN2, MPZ, NEFL, and GJB1. Results: Diagnostic testing of index patients was requested in 435 of the 549 cases. Seventy-two (16.6%) positive molecular genetic findings were made. The majority (94.6%) of mutation positive cases showed disease onset before 50 years of age. PMP22 (duplication), MPZ, GJB1 and MFN2 mutations constituted 95.8% of the positive findings. Within the nerve conduction study groups, mutation detection rates were; demyelinating 33.8%; mixed 29.0%; axonal 8.8%; unspecified 16.5%. Conclusion: We suggest a simplified algorithm intended for referral centres, dealing with DNA/blood samples, which involves the assessment of age at onset and neurophysiological data followed by testing of four genes; PMP22 (duplication), MPZ, GJB1 and MFN2. Patients negative for mutations in those four genes should be subjected to evaluation at an interdisciplinary inherited neuropathy clinic with the capacity for extended molecular genetic analysis by next generation sequencing. [ABSTRACT FROM AUTHOR]

Published

2013

4. ABCC9-related Intellectual disability Myopathy Syndrome is a KATP channelopathy with loss-of-function mutations in ABCC9.

Author

Smeland, Marie F., McClenaghan, Conor, Roessler, Helen I., Savelberg, Sanne, Hansen, Geir Åsmund Myge, Hjellnes, Helene, Arntzen, Kjell Arne, Müller, Kai Ivar, Dybesland, Andreas Rosenberger, Harter, Theresa, Sala-Rabanal, Monica, Emfinger, Chris H., Huang, Yan, Singareddy, Soma S., Gunn, Jamie, Wozniak, David F., Kovacs, Attila, Massink, Maarten, Tessadori, Federico, and Kamel, Sarah M.

Subjects

INTELLECTUAL disabilities, DISABILITIES, MUSCLE diseases, RECESSIVE genes, SYNDROMES, GAIN-of-function mutations, ZEBRA danio

Abstract

Mutations in genes encoding KATP channel subunits have been reported for pancreatic disorders and Cantú syndrome. Here, we report a syndrome in six patients from two families with a consistent phenotype of mild intellectual disability, similar facies, myopathy, and cerebral white matter hyperintensities, with cardiac systolic dysfunction present in the two oldest patients. Patients are homozygous for a splice-site mutation in ABCC9 (c.1320 + 1 G > A), which encodes the sulfonylurea receptor 2 (SUR2) subunit of KATP channels. This mutation results in an in-frame deletion of exon 8, which results in non-functional KATP channels in recombinant assays. SUR2 loss-of-function causes fatigability and cardiac dysfunction in mice, and reduced activity, cardiac dysfunction and ventricular enlargement in zebrafish. We term this channelopathy resulting from loss-of-function of SUR2-containing KATP channels ABCC9-related Intellectual disability Myopathy Syndrome (AIMS). The phenotype differs from Cantú syndrome, which is caused by gain-of-function ABCC9 mutations, reflecting the opposing consequences of KATP loss- versus gain-of-function. ABCC9 encodes the SUR2 subunit of KATP channels and dominant genetic variants in ABCC9 have been associated with cardiac phenotypes. Here, the authors report recessive ABCC9 mutations in individuals with mild intellectual disability, myopathy and cardiac systolic dysfunction which is associated with loss of KATP channel function. [ABSTRACT FROM AUTHOR]

Published

2019