Your search keyword '"Smets, Katrien"' showing total 4 results

1. FAHN/SPG35: a narrow phenotypic spectrum across disease classifications.

Author

Rattay, Tim W, Lindig, Tobias, Baets, Jonathan, Smets, Katrien, Deconinck, Tine, Söhn, Anne S, Hörtnagel, Konstanze, Eckstein, Kathrin N, Wiethoff, Sarah, Reichbauer, Jennifer, Döbler-Neumann, Marion, Krägeloh-Mann, Ingeborg, Auer-Grumbach, Michaela, Plecko, Barbara, Münchau, Alexander, Wilken, Bernd, Janauschek, Marc, Giese, Anne-Katrin, Bleecker, Jan L De, and Ortibus, Els

Subjects

FAMILIAL spastic paraplegia, LEUKODYSTROPHY, NOSOLOGY, CORPUS callosum, MOVEMENT disorders, GLOBUS pallidus, CEREBELLAR ataxia

Abstract

The endoplasmic reticulum enzyme fatty acid 2-hydroxylase (FA2H) plays a major role in the formation of 2-hydroxy glycosphingolipids, main components of myelin. FA2H deficiency in mice leads to severe central demyelination and axon loss. In humans it has been associated with phenotypes from the neurodegeneration with brain iron accumulation (fatty acid hydroxylase-associated neurodegeneration, FAHN), hereditary spastic paraplegia (HSP type SPG35) and leukodystrophy (leukodystrophy with spasticity and dystonia) spectrum. We performed an in-depth clinical and retrospective neurophysiological and imaging study in a cohort of 19 cases with biallelic FA2H mutations. FAHN/SPG35 manifests with early childhood onset predominantly lower limb spastic tetraparesis and truncal instability, dysarthria, dysphagia, cerebellar ataxia, and cognitive deficits, often accompanied by exotropia and movement disorders. The disease is rapidly progressive with loss of ambulation after a median of 7 years after disease onset and demonstrates little interindividual variability. The hair of FAHN/SPG35 patients shows a bristle-like appearance; scanning electron microscopy of patient hair shafts reveals deformities (longitudinal grooves) as well as plaque-like adhesions to the hair, likely caused by an abnormal sebum composition also described in a mouse model of FA2H deficiency. Characteristic imaging features of FAHN/SPG35 can be summarized by the 'WHAT' acronym: white matter changes, hypointensity of the globus pallidus, ponto-cerebellar atrophy, and thin corpus callosum. At least three of four imaging features are present in 85% of FA2H mutation carriers. Here, we report the first systematic, large cohort study in FAHN/SPG35 and determine the phenotypic spectrum, define the disease course and identify clinical and imaging biomarkers. [ABSTRACT FROM AUTHOR]

Published

2019

2. Hereditary spastic paraplegia type 5: natural history, biomarkers and a randomized controlled trial.

Author

Schöls, Ludger, Rattay, Tim W., Martus, Peter, Meisner, Christoph, Baets, Jonathan, Fischer, Imma, Jägle, Christine, Fraidakis, Matthew J., Martinuzzi, Andrea, Saute, Jonas Alex, Scarlato, Marina, Antenora, Antonella, Stendel, Claudia, Höflinger, Philip, Lourenco, Charles Marques, Abreu, Lisa, Smets, Katrien, Paucar, Martin, Deconinck, Tine, and Bis, Dana M.

Subjects

PARAPLEGIA, BIOMARKERS, NEURODEGENERATION, HYDROXYLASES, OXYSTEROLS, CHOLESTEROL metabolism, ANTILIPEMIC agents, CELL physiology, COMPARATIVE studies, FAMILIES, GENEALOGY, GENETIC techniques, RESEARCH methodology, MEDICAL cooperation, GENETIC mutation, NEURONS, OXIDOREDUCTASES, RESEARCH, RESEARCH funding, STEM cells, EVALUATION research, RANDOMIZED controlled trials, CROSS-sectional method, BLIND experiment, SEVERITY of illness index, CASE-control method, DISEASE progression, FAMILIAL spastic paraplegia

Abstract

Spastic paraplegia type 5 (SPG5) is a rare subtype of hereditary spastic paraplegia, a highly heterogeneous group of neurodegenerative disorders defined by progressive neurodegeneration of the corticospinal tract motor neurons. SPG5 is caused by recessive mutations in the gene CYP7B1 encoding oxysterol-7α-hydroxylase. This enzyme is involved in the degradation of cholesterol into primary bile acids. CYP7B1 deficiency has been shown to lead to accumulation of neurotoxic oxysterols. In this multicentre study, we have performed detailed clinical and biochemical analysis in 34 genetically confirmed SPG5 cases from 28 families, studied dose-dependent neurotoxicity of oxysterols in human cortical neurons and performed a randomized placebo-controlled double blind interventional trial targeting oxysterol accumulation in serum of SPG5 patients. Clinically, SPG5 manifested in childhood or adolescence (median 13 years). Gait ataxia was a common feature. SPG5 patients lost the ability to walk independently after a median disease duration of 23 years and became wheelchair dependent after a median 33 years. The overall cross-sectional progression rate of 0.56 points on the Spastic Paraplegia Rating Scale per year was slightly lower than the longitudinal progression rate of 0.80 points per year. Biochemically, marked accumulation of CYP7B1 substrates including 27-hydroxycholesterol was confirmed in serum (n = 19) and cerebrospinal fluid (n = 17) of SPG5 patients. Moreover, 27-hydroxycholesterol levels in serum correlated with disease severity and disease duration. Oxysterols were found to impair metabolic activity and viability of human cortical neurons at concentrations found in SPG5 patients, indicating that elevated levels of oxysterols might be key pathogenic factors in SPG5. We thus performed a randomized placebo-controlled trial (EudraCT 2015-000978-35) with atorvastatin 40 mg/day for 9 weeks in 14 SPG5 patients with 27-hydroxycholesterol levels in serum as the primary outcome measure. Atorvastatin, but not placebo, reduced serum 27-hydroxycholesterol from 853 ng/ml [interquartile range (IQR) 683-1113] to 641 (IQR 507-694) (-31.5%, P = 0.001, Mann-Whitney U-test). Similarly, 25-hydroxycholesterol levels in serum were reduced. In cerebrospinal fluid 27-hydroxycholesterol was reduced by 8.4% but this did not significantly differ from placebo. As expected, no effects were seen on clinical outcome parameters in this short-term trial. In this study, we define the mutational and phenotypic spectrum of SPG5, examine the correlation of disease severity and progression with oxysterol concentrations, and demonstrate in a randomized controlled trial that atorvastatin treatment can effectively lower 27-hydroxycholesterol levels in serum of SPG5 patients. We thus demonstrate the first causal treatment strategy in hereditary spastic paraplegia. [ABSTRACT FROM AUTHOR]

Published

2017

3. Motor neuron degeneration in spastic paraplegia 11 mimics amyotrophic lateral sclerosis lesions.

Author

Denora, Paola S., Smets, Katrien, Zolfanelli, Federica, Ceuterick-de Groote, Chantal, Casali, Carlo, Deconinck, Tine, Sieben, Anne, Gonzales, Michael, Zuchner, Stephan, Darios, Frédéric, Peeters, Dirk, Brice, Alexis, Malandrini, Alessandro, De Jonghe, Peter, Santorelli, Filippo M., Stevanin, Giovanni, Martin, Jean-Jacques, and El Hachimi, Khalid H.

Abstract

The most common form of autosomal recessive hereditary spastic paraplegia is caused by mutations in the SPG11/KIAA1840 gene on chromosome 15q. The nature of the vast majority of SPG11 mutations found to date suggests a loss-of-function mechanism of the encoded protein, spatacsin. The SPG11 phenotype is, in most cases, characterized by a progressive spasticity with neuropathy, cognitive impairment and a thin corpus callosum on brain MRI. Full neuropathological characterization has not been reported to date despite the description of >100 SPG11 mutations. We describe here the clinical and pathological features observed in two unrelated females, members of genetically ascertained SPG11 families originating from Belgium and Italy, respectively. We confirm the presence of lesions of motor tracts in medulla oblongata and spinal cord associated with other lesions of the central nervous system. Interestingly, we report for the first time pathological hallmarks of SPG11 in neurons that include intracytoplasmic granular lysosome-like structures mainly in supratentorial areas, and others in subtentorial areas that are partially reminiscent of those observed in amyotrophic lateral sclerosis, such as ubiquitin and p62 aggregates, except that they are never labelled with anti-TDP-43 or anti-cystatin C. The neuropathological overlap with amyotrophic lateral sclerosis, associated with some shared clinical manifestations, opens up new fields of investigation in the physiopathological continuum of motor neuron degeneration. [ABSTRACT FROM AUTHOR]

Published

2016

4. SYNE1 ataxia is a common recessive ataxia with major non-cerebellar features: a large multi-centre study.

Author

Synofzik, Matthis, Smets, Katrien, Mallaret, Martial, Di Bella, Daniela, Gallenmüller, Constanze, Baets, Jonathan, Schulze, Martin, Magri, Stefania, Sarto, Elisa, Mustafa, Mona, Deconinck, Tine, Haack, Tobias, Züchner, Stephan, Gonzalez, Michael, Timmann, Dagmar, Stendel, Claudia, Klopstock, Thomas, Durr, Alexandra, Tranchant, Christine, and Sturm, Marc

Subjects

*ATAXIA, *CEREBELLUM degeneration, *NUCLEAR membranes, *POSTSYNAPTIC potential, *NEUROMUSCULAR diseases, *DIAGNOSIS, *GENETIC disorder diagnosis, *CEREBELLAR ataxia, *COMPARATIVE studies, *EVOKED potentials (Electrophysiology), *GENES, *GENETIC disorders, *MAGNETIC resonance imaging, *RESEARCH methodology, *MEDICAL cooperation, *MUSCLES, *GENETIC mutation, *NERVE tissue proteins, *NEURODEGENERATION, *NEURORADIOLOGY, *RESEARCH, *RESEARCH funding, *POSITRON emission tomography, *PHENOTYPES, *EVALUATION research, *NUCLEAR proteins, *SEQUENCE analysis, BRAIN metabolism

Abstract

Mutations in the synaptic nuclear envelope protein 1 (SYNE1) gene have been reported to cause a relatively pure, slowly progressive cerebellar recessive ataxia mostly identified in Quebec, Canada. Combining next-generation sequencing techniques and deep-phenotyping (clinics, magnetic resonance imaging, positron emission tomography, muscle histology), we here established the frequency, phenotypic spectrum and genetic spectrum of SYNE1 in a screening of 434 non-Canadian index patients from seven centres across Europe. Patients were screened by whole-exome sequencing or targeted panel sequencing, yielding 23 unrelated families with recessive truncating SYNE1 mutations (23/434 = 5.3%). In these families, 35 different mutations were identified, 34 of them not previously linked to human disease. While only 5/26 patients (19%) showed the classical SYNE1 phenotype of mildly progressive pure cerebellar ataxia, 21/26 (81%) exhibited additional complicating features, including motor neuron features in 15/26 (58%). In three patients, respiratory dysfunction was part of an early-onset multisystemic neuromuscular phenotype with mental retardation, leading to premature death at age 36 years in one of them. Positron emission tomography imaging confirmed hypometabolism in extra-cerebellar regions such as the brainstem. Muscle biopsy reliably showed severely reduced or absent SYNE1 staining, indicating its potential use as a non-genetic indicator for underlying SYNE1 mutations. Our findings, which present the largest systematic series of SYNE1 patients and mutations outside Canada, revise the view that SYNE1 ataxia causes mainly a relatively pure cerebellar recessive ataxia and that it is largely limited to Quebec. Instead, complex phenotypes with a wide range of extra-cerebellar neurological and non-neurological dysfunctions are frequent, including in particular motor neuron and brainstem dysfunction. The disease course in this multisystemic neurodegenerative disease can be fatal, including premature death due to respiratory dysfunction. With a relative frequency of ∼5%, SYNE1 is one of the more common recessive ataxias worldwide. [ABSTRACT FROM AUTHOR]

Published

2016