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2. The α2B-adrenergic receptor is mutant in cortical myoclonus and epilepsy

Author

De Fusco, M, Vago, R, Striano, Pasquale, Di Bonaventura, C, Zara, F, Mei, D, Kim, Ms, Muallem, S, Chen, Y, Wang, Q, Guerrini, R, Casari, G., De Fusco, M, Vago, R, Striano, P, Di Bonaventura, C, Zara, F, Mei, D, Kim, M, Muallem, S, Chen, Y, Wang, Q, Guerrini, R, and Casari, GIORGIO NEVIO

Subjects
Male, Molecular Sequence Data, Epilepsies, Myoclonic, Article, Pedigree, Xenopus laevis, Receptors, Adrenergic, alpha-2, Evoked Potentials, Somatosensory, COS Cells, Chlorocebus aethiops, Mutation, Animals, Humans, Female, Amino Acid Sequence, HeLa Cells
Abstract

Autosomal dominant cortical myoclonus and epilepsy (ADCME) is characterized by distal, fairly rhythmic myoclonus and epilepsy with variable severity. We have previously mapped the disease locus on chromosome 2p11.1-q12.2 by genome-wide linkage analysis. Additional pedigrees affected by similar forms of epilepsy have been associated with chromosomes 8q, 5p, and 3q, but none of the causing genes has been identified. We aim to identify the mutant gene responsible for this form of epilepsy.Genes included in the ADCME critical region were directly sequenced. Coimmunoprecipitation, immunofluorescent, and electrophysiologic approaches to transfected human cells have been utilized for testing the functional significance of the identified mutation.Here we show that mutation in the α2 -adrenergic receptor subtype B (α2B -AR) is associated with ADCME by identifying a novel in-frame insertion/deletion in 2 Italian families. The mutation alters several conserved residues of the third intracellular loop, hampering neither the α2B -AR plasma membrane localization nor the arrestin-mediated internalization capacity, but altering the binding with the scaffolding protein spinophilin upon neurotransmitter activation. Spinophilin, in turn, regulates interaction of G protein coupled receptors with regulator of G protein signaling proteins. Accordingly, the mutant α2B -AR increases the epinephrine-stimulated calcium signaling.The identified mutation is responsible for ADCME, as the loss of α2B -AR/spinophilin interaction causes a gain of function effect. This work implicates for the first time the α-adrenergic system in human epilepsy and opens new ways of understanding the molecular pathway of epileptogenesis, widening the spectrum of possible therapeutic targets.

Published
2012

7. Familial hemiplegic migraine type 2 is linked to 0.9Mb region on chromosome 1q23

Author

MARCONI R, DE FUSCO M, ARIDON P, PLEWNIA K, ROSSI M, CARAPELLI S, MORGANTE L, MUSOLINO R, MICIELI G, CASARI G., BALLABIO, ANDREA, DE MICHELE, GIUSEPPE, Marconi, R, DE FUSCO, M, Aridon, P, Plewnia, K, Rossi, M, Carapelli, S, Ballabio, Andrea, Morgante, L, Musolino, R, Micieli, G, DE MICHELE, Giuseppe, and Casari, G.

Published
2003

8. Familial Hemiplegic Migraine type 2 is linked to 0.9 Mb region on chromosome 1q23

Author

MARCONI R, DE FUSCO M, ARIDON P, PLEWNIA K, ROSSI M, CARAPELLI S, MORGANTE L, MUSOLINO R, EPIFANIO A, MICIELI G, DE MICHELE, GIUSEPPE, AND CASARI G., BALLABIO, ANDREA, Marconi, R, DE FUSCO, M, Aridon, P, Plewnia, K, Rossi, M, Carapelli, S, Ballabio, Andrea, Morgante, L, Musolino, R, Epifanio, A, Micieli, G, DE MICHELE, Giuseppe, and AND CASARI, G.

Published
2003

11. The functional properties of the human ether-a-go-go-like (HELK2) K+ channel

Author

BECCHETTI, ANDREA, LECCHI, MARZIA MARIA, WANKE, ENZO, De Fusco, M, Crociani, O, Cherubini, A, Restano Cassulini, R, Masi, A, Arcangeli, A, Casari, G, Becchetti, A, De Fusco, M, Crociani, O, Cherubini, A, Restano Cassulini, R, Lecchi, M, Masi, A, Arcangeli, A, Casari, GIORGIO NEVIO, Wanke, E., Casari, G, and Wanke, E

Subjects
BIO/09 - FISIOLOGIA, Eag, Elk2, Erg, excitability, Herg, neuronal firing, Cs+, Way, dofetilide, haloperidol, astemizole, terfenadine, astrocytoma
Abstract

The voltage-dependent K+ channels belonging to the ether-a-go-go family (eag, erg, elk ) are widely expressed in the mammalian CNS. Their neuronal function, however, is poorly understood. Among the elk clones, elk2 is the most abundantly expressed in the brain. We have characterized the human ELK2 channel (HELK2) expressed in mammalian cell lines. Moreover, we have detected helk2 mRNA and ELK2-like currents in freshly dissociated human astrocytoma cells. HELK2 was inhibited by Cs+ in a voltage-dependent way (K-d was 0.7 mm, at -120 mV). It was not affected by Way 123398 (5 mum), dofetilide (10 mum), quinidine (10 mum), verapamil (20 mum), haloperidol (2 mum), astemizole (1 mum), terfenadine (1 mum) and hydroxyzine (30 mum), compounds known to inhibit the biophysically related HERG channel. The crossover of the activation and inactivation curves produced a steady state 'window' current with a peak around -20 mV and considerably broader than it usually is in voltage-dependent channels, including HERG. Similar features were observed in the ELK2 clone from rat, in the same experimental conditions. Thus, ELK2 channels are active within a wide range of membrane potentials, both sub- and suprathreshold. Moreover, the kinetics of channel deactivation and removal of inactivation was about one order of magnitude quicker in HELK2, compared to HERG. Overall, these properties suggest that ELK2 channels are very effective at dampening the neuronal excitability, but less so at producing adaptation of action potential firing frequency. In addition, we suggest experimental ways to recognize HELK2 currents in vivo and raise the issue of the possible function of these channels in astrocytoma.

Published
2002

12. The nicotinic receptor beta2 subunit is mutant in nocturnal frontal lobe epilepsy

Author

Patrignani A, Enzo Wanke, Antonio Gambardella, De Fusco M, Giorgio Casari, Andrea Becchetti, Aldo Quattrone, Grazia Annesi, Andrea Ballabio, FUSCO M., D, Becchetti, A, Patrignani, A, Annesi, G, Gambardella, A, Quattrone, A, Ballabio, Andrea, Wanke, E, Casari, G., De Fusco, M, Ballabio, A, Casari, GIORGIO NEVIO, and Casari, G

Subjects
Male, Candidate gene, medicine.medical_specialty, Nicotine, Protein subunit, nAChR, sleep-related epilepsy, patch-clamp, HEK293, Mutation, Missense, Autosomal dominant nocturnal frontal lobe epilepsy, Nerve Tissue Proteins, Biology, Receptors, Nicotinic, Gene product, Genetic Heterogeneity, Mice, Mice, Neurologic Mutants, Structure-Activity Relationship, BIO/09 - FISIOLOGIA, Internal medicine, Genetics, medicine, Animals, Humans, Receptor, ENFL3, CHRNB2, V287L, M2, Genes, Dominant, Ion Transport, Exons, medicine.disease, Circadian Rhythm, Frontal Lobe, Pedigree, Nicotinic acetylcholine receptor, Protein Subunits, Nicotinic agonist, Endocrinology, Phenotype, Frontal lobe, Amino Acid Substitution, Female, Epilepsies, Partial, Ion Channel Gating
Abstract

Clustered attacks of epileptic episodes originating from the frontal lobe during sleep are the main symptoms of autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE, MIM 600513). Despite the clinical homogeneity, three forms of ADNFLE have been associated with chromosomes 20 (ENFL1; ref. 1), 15 (ENFL2; ref. 2) and 1 (ENFL3; ref. 3). Mutations of the gene encoding the neuronal nicotinic acetylcholine receptor alpha 4 subunit (CHRNA4 ) have been found in ADNFLE-ENFL1 families, but these mutations account for only a small proportion of ADNFLE cases. The newly identified locus associated with ENFL3 harbours several candidate genes, including CHRNB2 (ref. 8), whose gene product, the beta 2 nicotinic acetylcholine receptor (nAChR) subunit, co-assembles with the alpha 4 nAChR subunit to form the active receptor.

Published
2000

13. A new locus for autosomal dominant nocturnal frontal lobe epilepsy maps to chromosome 1

Author

GAMBARDELLA A, ANNESI G, DE FUSCO M, PATRIGNANI A, AGUGLIA U, ANNESI F, PASQUA A. A, SPADAFORA P, OLIVERI R. L, VALENTINO P, ZAPPIA M, CASARI G, QUATTRONE A., BALLABIO, ANDREA, Gambardella, A, Annesi, G, DE FUSCO, M, Patrignani, A, Aguglia, U, Annesi, F, Pasqua, A. A., Spadafora, P, Oliveri, R. L., Valentino, P, Zappia, M, Ballabio, Andrea, Casari, G, and Quattrone, A.

Published
2000

18. The nicotinic receptor beta2 subunit is mutant in nocturnal frontal lobe epilepsy

Author

De Fusco, M, Becchetti, A, Patrignani, A, Annesi, G, Gambardella, A, Quattrone, A, Ballabio, A, Wanke, E, Casari, G, BECCHETTI, ANDREA, WANKE, ENZO, Casari, G., De Fusco, M, Becchetti, A, Patrignani, A, Annesi, G, Gambardella, A, Quattrone, A, Ballabio, A, Wanke, E, Casari, G, BECCHETTI, ANDREA, WANKE, ENZO, and Casari, G.

Published
2000

19. A new locus for autosomal dominant nocturnal frontal lobe epilepsy maps to chromosome 1

Author

Gambardella, A., primary, Annesi, G., additional, De Fusco, M., additional, Patrignani, A., additional, Aguglia, U., additional, Annesi, F., additional, Pasqua, A. A., additional, Spadafora, P., additional, Oliveri, R. L., additional, Valentino, P., additional, Zappia, M., additional, Ballabio, A., additional, Casari, G., additional, and Quattrone, A., additional

Published
2000
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23. Autosomal recessive rolandic epilepsy with paroxysmal exercise-induced dystonia and writer's cramp: delineation of the syndrome and gene mapping to chromosome 16p12-11.2.

Author

Guerrini, Renzo, Bonanni, Paolo, Nardocci, Nardo, Parmeggiani, Lucio, Piccirilli, Massimo, De Fusco, Maurizio, Aridon, Paolo, Ballabio, Andrea, Carrozzo, Romeo, Casari, Giorgio, Guerrini, R, Bonanni, P, Nardocci, N, Parmeggiani, L, Piccirilli, M, De Fusco, M, Aridon, P, Ballabio, A, Carrozzo, R, and Casari, G

Published
1999
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24. Clinical and pharmacokinetic study of oral NK611, a new podophyllotoxin derivative.

Author

Pagani, O., Zucchetti, M., Sessa, C., de Jong, J., D'Incalci, M., Fusco, M. De, Kaeser-Fröhlich, A., Hanauske, A., Cavalli, F., De Fusco, M, and Kaeser-Fröhlich, A

Abstract

NK611 is a novel water-soluble podophyllotoxin derivative that has comparable antitumour activity but higher potency and better bioavailability in animals as compared with etoposide. The primary objectives of this study were to determine, after both oral and intravenous administration in the same patient, the bioavailability and the pharmacokinetic profile of NK611. Secondary objectives involved evaluation of the toxicity and the antitumor activity. Patients were randomly assigned to receive oral or intravenous (30-min infusion) doses of 5, 10, and 20 mg/m2 on day 1, when pharmacokinetic studies were performed. A daily oral dose of 20 mg/m2 was then given from day 4 through day 7 for respective total doses of 85, 90, and 100 mg/m2. NK611 and its metabolites were determined in plasma and urine by two different high-performance liquid chromatography (HPLC) methods with UV detection. A total of 21 adult patients entered the study and received the complete first cycle and at least the 1st day of cycle 2; 17 of them received at least 2 complete cycles of treatment. After intravenous administration, the plasma decay curve of NK611 followed a two-exponential model, and after oral administration it declined monoexponentially in most cases. At all dose levels, bioavailability values were around 100%. At concentrations between 10 and 20 mg/m2 after both routes of administration, the pharmacokinetics were nonlinear; the terminal half-life, plasma clearance, and volume of distribution were significantly different; and the area under the plasma concentration-time curve was not correlated to the dose. The urinary excretion of NK611 corresponded to 10-15% of the dose after administration by both routes, whereas that of N-demethyl NK611 and its picroform was highly variable. The features of neutropenia were comparable with those noted for etoposide involving a high degree of interpatient variability and recovery within 1 month after treatment. A daily dose of 20 mg/m2 for 5 consecutive days every 4 weeks is the recommended regimen for phase II studies in patients who have never been treated or have undergone previous chemotherapy only once. [ABSTRACT FROM AUTHOR]

Published
1996
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25. Changes in doxorubicin distribution and toxicity in mice pretreated with the cyclosporin analogue SDZ PSC 833.

Author

Gonzalez, Odalys, Colombo, Tina, Fusco, Maurizio, Imperatori, Luigi, Zucchetti, Massimo, D'Incalci, Maurizio, Gonzalez, O, Colombo, T, De Fusco, M, Imperatori, L, Zucchetti, M, and D'Incalci, M

Subjects
ADRENAL glands, ANIMAL experimentation, BODY weight, COMPARATIVE studies, DOXORUBICIN, DRUG resistance, GLYCOPROTEINS, HIGH performance liquid chromatography, INTESTINES, KIDNEYS, LIVER, RESEARCH methodology, MEDICAL cooperation, MICE, RESEARCH, EVALUATION research, CYCLOSPORINS
Abstract

SDZ PSC 833 (PSC 833) is a cyclosporin A analogue that is under clinical investigation in combination with doxorubicin (Dx) or other anticancer agents as a type-1 multidrug resistance (MDR-1)-reversing agent. The present study was focused on the effects of PSC 833 on the distribution and toxicity of Dx in non-tumor-bearing CDF1 male mice. Mice were given PSC 833 i.p. at 30 min before i.v. Dx treatment. Dx levels were determined by a high-performance liquid chromatography (HPLC) assay at different times during a 72-h period following Dx treatment in the serum, heart, intestine, liver, kidney, and adrenals of mice. In all tissues, Dx area under the concentration-time curve (AUC) values were much greater in mice receiving 10 mg/kg Dx in combination with 12.5 or 25 mg/kg PSC 833 than in mice receiving Dx alone. The highest increase in Dx concentrations was found in the intestine, liver, kidney, and adrenals. Lower, albeit significant, differences were found in the heart. PSC 833 did not appear to influence either urinary or fecal Dx elimination or Dx metabolism to a great extent. Doses of PSC 833 devoid of any toxicity potentiated the acute and delayed toxicity of Dx dramatically. The mechanism responsible for this enhanced toxicity has not yet been elucidated but is likely to be related to an increased tissue retention of Dx due to inhibition of the P-glycoprotein (Pgp) pump by PSC 833, as has recently been proposed for cyclosporin A. [ABSTRACT FROM AUTHOR]

Published
1995
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26. Autosomal dominant hereditary spastic paraplegia: report of a large italian family with R581X spastin mutation

Author

G. Savettieri, Paolo Ragonese, M. De Fusco, Giorgio Casari, D. Lo Coco, Giuseppe Salemi, Paolo Aridon, ARIDON P, RAGONESE P, DE FUSCO M, LO COCO D, SALEMI G, CASARI G, SAVETTIERI G, Aridon, P, Ragonese, P, De Fusco, M, Lo Coco, D, Salemi, G, Casari, GIORGIO NEVIO, Savettieri, G., Aridon P., Ragonese P, Melone, M, and Casari, G

Subjects
Adult, Male, Spastin, Genotype, Sequence analysis, Hereditary spastic paraplegia, DNA Mutational Analysis, Nonsense mutation, Locus (genetics), Dermatology, Biology, Arginine, Exon, Hereditary spastic paraplegia Spastin Neurological disease, medicine, Humans, Gene, Aged, Adenosine Triphosphatases, Family Health, Genetics, Spastic Paraplegia, Hereditary, General Medicine, Middle Aged, medicine.disease, Molecular biology, Penetrance, Psychiatry and Mental health, Italy, Mutation, Female, Neurology (clinical), Lod Score
Abstract

We describe a large kindred with a typical pure form of autosomal dominant hereditary spastic paraplegia (ADHSP). On the basis of maximum LOD score of 1.94 at theta (max)=0 with marker D2S367, we obtained suggestive evidence for linkage of ADHSP to SPG4 locus. Denaturing high-performance liquid chromatography (DHPLC) and direct sequence analysis allowed us to identify a nonsense mutation (1741* C > T) in exon 17 of the Spastin gene. This transition, carried by all the affected family members and two apparently healthy individuals, lead to truncation of the last 36 amino acids in the C-terminus of the protein. These results confirm the existence of mutation in the SPG4 gene with a reduced penetrance, indicating that other genetic or environmental factors are required to trigger full-blown disease.

Published
2007

27. No evidence of ATP1A2 involvement in 12 multiplex Italian families with benign familial infantile seizures

Author

Giorgio Casari, Renzo Guerrini, Filippo Martinelli Boneschi, Federico Zara, Paolo Aridon, Giancarlo Comi, Carla Marini, Maurizio De Fusco, MARTINELLI BONESCHI F, ARIDON P, ZARA F, GUERRINI R, MARINI C, DE FUSCO M, COMI G, CASARI G, Boneschi, Fm, Aridon, P, Zara, F, Guerrini, R, Marini, C, De Fusco, M, Comi, G, and Casari, G

Subjects
Proband, Benign Neonatal, Migraine Disorders, Mutation, Missense, Benign familial infantile convulsions, Biology, medicine.disease_cause, Denaturing high performance liquid chromatography, Epilepsy, Familial hemiplegic migraine, Genetics, Epilepsy, Benign Neonatal, Exons, Family Health, Humans, Infant, Introns, Italy, Sodium-Potassium-Exchanging ATPase, Exon, ATP1A2, medicine, Missense mutation, Gene, Mutation, General Neuroscience, medicine.disease, Benign familial infantile convulsion, Missense
Abstract

A missense mutation in the gene encoding the alpha(2) Subunit of the Na+,K+ ATPase pump (ATP1A2) was found in a family with both familial hemiplegic migraine (FHM) and Benign Familial Infantile Seizures (BFIC). As it is still unclear whether ATP1A2 is responsible for pure BFIC syndromes, we checked mutations of the ATP1A2 gene in probands of 12 Italian multiplex families with pure BFIC, who were negative for mutations in the SCN2A gene. We screened the ATP1A2 gene by denaturing high performance liquid chromatography (D-HPLC) and direct sequencing of DNA fragments showing an aberrant elution pattern. We found one exonic variant and five intronic variants, none leading to significant amino acid changes or causing a modification of the physiological mRNA maturation. The ATP1A2 gene does not appear to be involved in the ethiopathogenesis of pure BFIC syndromes, at least in the explored Italian multiplex families. It could be either responsible of a minority of cases, or of complex syndromes where BFIC and FHM co-occur. (C) 2005 Elsevier Ireland Ltd. All rights reserved.

Published
2005

28. Linkage mapping of a nonspecific form of X-linked mental retardation (MRX53) in a large Pakistani family

Author

Brunella Franco, Paolo Aridon, Andrea Ballabio, Wasim Ahmad, M. Maqbool Ahmad, Sara Noci, Mohammad Faiyaz ul Haque, Tiziana Sarno, Muhammad Amin-ud-din, Giorgio Casari, Maurizio De Fusco, Muhammad Rafiq, Saeed ul Haque, Ahmad, W, Noci, S, Haque, Mfu, Sarno, T, Aridon, P, Ahmad, Mm, Amin ud din, M, Rafiq, Ma, Haque, Su, De Fusco, M, Ballabio, A, Franco, B, Casari, GIORGIO NEVIO, UL HAQUE, M. F., Ahmad, M. M., Aminuddin, M, ARSHAD RAFIQ, M, UL HAQUE, S, DE FUSCO, M, Ballabio, Andrea, Franco, Brunella, and Casari, G.

Subjects
Male, X Chromosome, Genotype, Genetic Linkage, Locus (genetics), Biology, Gene mapping, Genetic linkage, Intellectual Disability, medicine, Humans, Pakistan, Genotyping, Genetics (clinical), X chromosome, Family Health, Genetics, Genetic heterogeneity, Chromosome Mapping, DNA, medicine.disease, Pedigree, Developmental disorder, Female, Lod Score, Microsatellite Repeats
Abstract

Nonspecific X-linked mental retardation is a nonprogressive, genetically heterogeneous condition that affects cognitive function in the absence of other distinctive clinical manifestations. We report here linkage data on a large Pakistani family affected by a form of X-linked nonspecific mental retardation. X chromosome genotyping of family members and linkage analysis allowed the identification of a new disease locus, MRX53. The defined critical region spans approximately 15 cM between DXS1210 and DXS1047 in Xq22.2-26. A LOD score value of 3.34 at no recombination was obtained with markers DXS1072 and DXS8081.

Published
2001

29. Spastic Paraplegia and OXPHOS Impairment Caused by Mutations in Paraplegin, a Nuclear-Encoded Mitochondrial Metalloprotease

Author

Massimo Zeviani, Roberto Marconi, Patricio Fernandez, Alessandro Filla, Alexandre Dürr, Bertrand Fontaine, Andrea Ballabio, Marina Mora, Sonia Ciarmatori, Sergio Cocozza, Giorgio Casari, Maurizio De Fusco, Giuseppe De Michele, G., Casari, M. D., Fusco, S., Ciarmatori, M., Zeviani, M., Mora, P., Fernandez, DE MICHELE, Giuseppe, Filla, Alessandro, Cocozza, Sergio, R., Marconi, A., Dürr, B., Fontaine, Ballabio, Andrea, Casari, GIORGIO NEVIO, De Fusco, M, Ciarmatori, S, Zeviani, M, Mora, M, Fernandez, P, De Michele, G, Filla, A, Cocozza, S, Marconi, R, Durr, A, Fontaine, B, Ballabio, A., Casari, G, and DE FUSCO, M

Subjects
Male, pathology, Oxidative Phosphorylation, Pedigree, RNA, Messenger, Sequence Homology, Mitochondrion, Adult, Amino Acid Sequence, Cell Nucleu, Spastin, Molecular, DNA, Oxidative Phosphorylation, Yeasts, Complementary, genetics, Female, Fetus, Frameshift Mutation, Spastic Paraplegia, Cloning, Molecular, Frameshift Mutation, Inner mitochondrial membrane, Genetics, Paraplegin, Neurodegeneration, Metalloendopeptidases, Amino Acid, Spastic Paraplegia, Skeletal, Mitochondria, Pedigree, genetics, Cloning, Amino Acid, Hereditary, Italy, Muscle, Female, Chromosome Deletion, DNA, Sequence Homology, Sequence Analysis, Human, enzymology/genetics/pathology, Yeast, Adult, DNA, Complementary, genetics, Chromosome Deletion, Chromosome, Hereditary spastic paraplegia, enzymology, Molecular Sequence Data, Biology, Chromosomes, General Biochemistry, Genetics and Molecular Biology, Frameshift mutation, Fetus, medicine, Humans, RNA, Messenger, Amino Acid Sequence, Muscle, Skeletal, Gene, Cell Nucleus, Sequence Homology, Amino Acid, Spastic Paraplegia, Hereditary, Pair 16, Biochemistry, Genetics and Molecular Biology(all), Molecular, enzymology, Molecular Sequence Data, Muscle, Sequence Analysis, DNA, DNA, genetics, Mitochondria, medicine.disease, Molecular biology, genetics, Humans, Italy, Male, Metalloendopeptidase, analysis, Sequence Analysi, ATPases Associated with Diverse Cellular Activities, RNA, Chromosomes, Human, Pair 16, Cloning
Abstract

Hereditary spastic paraplegia (HSP) is characterized by progressive weakness and spasticity of the lower limbs due to degeneration of corticospinal axons. We found that patients from a chromosome 16q24.3–linked HSP family are homozygous for a 9.5 kb deletion involving a gene encoding a novel protein, named Paraplegin. Two additional Paraplegin mutations, both resulting in a frameshift, were found in a complicated and in a pure form of HSP. Paraplegin is highly homologous to the yeast mitochondrial ATPases, AFG3, RCA1, and YME1, which have both proteolytic and chaperon-like activities at the inner mitochondrial membrane. Immunofluorescence analysis and import experiments showed that Paraplegin localizes to mitochondria. Analysis of muscle biopsies from two patients carrying Paraplegin mutations showed typical signs of mitochondrial OXPHOS defects, thus suggesting a mechanism for neurodegeneration in HSP-type disorders.

Published
1998
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30. Increased Susceptibility to Cortical Spreading Depression in the Mouse Model of Familial Hemiplegic Migraine Type 2

Author

Tommaso Pizzorusso, Maurizio De Fusco, Loredana Leo, Lisa Gherardini, Virginia Barone, Giorgio Casari, Daniela Pietrobon, Leo, L, Gherardini, L, Barone, V, De Fusco, M, Pietrobon, D, Pizzorusso, T, Casari, GIORGIO NEVIO, Leo, L., Gherardini, L., Barone, V., De Fusco, M., Pietrobon, D., Pizzorusso, T., and Casari, G.

Subjects
Male, Cancer Research, Mouse, corteccia cerebrale, Migraine with Aura, Endoplasmic Reticulum, Synaptic Transmission, Mice, 0302 clinical medicine, ATP1A2, Gene Knock-In Techniques, elettrofisiolgia, Genetics (clinical), Familial hemiplegic migraine, Genetics, 0303 health sciences, Reverse Transcriptase Polymerase Chain Reaction, Cortical Spreading Depression, Glutamate receptor, Animal Models, 3. Good health, Protein Transport, Phenotype, Neurology, Cortical spreading depression, Medicine, Female, medicine.symptom, Sodium-Potassium-Exchanging ATPase, Research Article, medicine.medical_specialty, Synaptic cleft, lcsh:QH426-470, FHM, Glutamic Acid, Mice, Transgenic, Neurotransmission, Biology, Transfection, 03 medical and health sciences, Model Organisms, Internal medicine, medicine, Animals, Humans, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Migraine, 030304 developmental biology, malattie genetiche, medicine.disease, Migraine with aura, lcsh:Genetics, Disease Models, Animal, Mutagenesis, Insertional, Endocrinology, Astrocytes, 030217 neurology & neurosurgery, HeLa Cells
Abstract

Familial hemiplegic migraine type 2 (FHM2) is an autosomal dominant form of migraine with aura that is caused by mutations of the α2-subunit of the Na,K-ATPase, an isoform almost exclusively expressed in astrocytes in the adult brain. We generated the first FHM2 knock-in mouse model carrying the human W887R mutation in the Atp1a2 orthologous gene. Homozygous Atp1a2R887/R887 mutants died just after birth, while heterozygous Atp1a2+/R887 mice showed no apparent clinical phenotype. The mutant α2 Na,K-ATPase protein was barely detectable in the brain of homozygous mutants and strongly reduced in the brain of heterozygous mutants, likely as a consequence of endoplasmic reticulum retention and subsequent proteasomal degradation, as we demonstrate in transfected cells. In vivo analysis of cortical spreading depression (CSD), the phenomenon underlying migraine aura, revealed a decreased induction threshold and an increased velocity of propagation in the heterozygous FHM2 mouse. Since several lines of evidence involve a specific role of the glial α2 Na,K pump in active reuptake of glutamate from the synaptic cleft, we hypothesize that CSD facilitation in the FHM2 mouse model is sustained by inefficient glutamate clearance by astrocytes and consequent increased cortical excitatory neurotransmission. The demonstration that FHM2 and FHM1 mutations share the ability to facilitate induction and propagation of CSD in mouse models further support the role of CSD as a key migraine trigger., Author Summary We previously reported that mutations of the α2 subunit of the Na,K-ATPase cause familial hemiplegic migraine type 2 (FHM2), a dominant form of migraine with aura. This paper describes the first animal model of FHM2 and represents the further proceeding in this disease investigation. Homozygous knock-in mutant mice die just after birth, while heterozygous mice show no apparent clinical phenotype. However, in vivo analysis revealed a marked facilitation of cortical spreading depression (CSD), the phenomenon underlying migraine aura. Given the evidence for specific functional coupling between the glial α2 Na,K pump and glutamate transporters, we hypothesize that CSD facilitation in the FHM2 mouse model is sustained by inefficient glutamate clearance by astrocytes and consequent increased cortical excitatory neurotransmission. We finally propose this FHM2 mouse as a valuable in vivo model to investigate migraine mechanisms and, possibly, treatments.

Published
2011

31. Further evidence of genetic heterogeneity in familial essential tremor

Author

Giuseppe Salemi, Paolo Aridon, Maurizio De Fusco, Giorgio Casari, Giovanni Savettieri, Paolo Ragonese, ARIDON, P, RAGONESE, P, DE FUSCO, M, SALEMI, G, CASARI, G, SAVETTIERI, G, Aridon, P, Ragonese, P, De Fusco, M, Salemi, G, Casari, GIORGIO NEVIO, and Savettleri, G.

Subjects
Adult, Male, Genetic Linkage, Locus (genetics), Disease, Biology, Genetic analysis, Genetic Heterogeneity, Genetic linkage, medicine, Humans, Age of Onset, Aged, Genetics, Essential tremor, Genetic heterogeneity, Middle Aged, medicine.disease, Phenotype, Pedigree, Neurology, Settore MED/03 - Genetica Medica, Disease Progression, Female, Settore MED/26 - Neurologia, Neurology (clinical), Geriatrics and Gerontology, Age of onset, Linkage analysi, Neurological disease
Abstract

Familial essential tremor (FET) is a common hereditary movement disorder with phenotypic variability and genetic heterogeneity. To date, linkage analyses revealed three loci associated to essential tremor (ET) (ETM1 on 3q13, ETM2 on 2p22-25, and a locus on 6p23). We performed a genetic analysis of these candidate chromosomal regions in a fifth-generation Italian kindred with autosomal-dominant ET. Of the 22 clinically evaluated family members, nine were affected by ET. The genetic study indicates that the ET in this family is not associated to any of the known ET loci. These findings support evidence of further genetic heterogeneity for such disease. (C) 2007 Elsevier Ltd. All rights reserved.

Published
2008

32. Increased sensitivity of the alpha-2 neuronal nicotinic receptor causes familial epilepsy with nocturnal wandering and ictal fear

Author

Marini, C., Aridon, P., Di Resta, C., Brilli, E., Fusco, M., Politi, F., Parrini, E., Manfredi, I., Pisano, T., Pruna, D., Giulia Curia, Cianchetti, C., Pasqualetti, M., Becchetti, A., Guerrini, R., Casari, G., MARINI C, ARIDON P, DI RESTA C, BRILLI E, DE FUSCO M, POLITI, PARRINI E, MANFREDI I, PISANO T, PRUNA, CURIA G, CIANCHETTI C, PASQUALETTI M, BECCHETTI A, GUERRINI R, CASARI G, Marini, C, Aridon, P, DI RESTA, Chiara, Brilli, E, De Fusco, M, Politi, F, Parrini, E, Manfredi, I, Pisano, T, Pruna, D, Curia, G, Cianchetti, C, Pasqualetti, M, Becchetti, A, Guerrini, R, and Casari, GIORGIO NEVIO

Subjects
nicotinic receptor
Published
2006

33. Increased sensitivity of the neuronal nicotinic receptor alpha-2 subunit causes familial epilepsy with nocturnal wandering and ictal fear

Author

Giorgio Casari, Carla Marini, Fausta Politi, Paolo Aridon, Irene Manfredi, Andrea Becchetti, Elena Parrini, Dario Pruna, Carlo Cianchetti, Elisa Brilli, Giulia Curia, Massimo Pasqualetti, Tiziana Pisano, Chiara Di Resta, Maurizio De Fusco, Renzo Guerrini, Aridon, P, Marini, C, DI RESTA, C, Brilli, E, De Fusco, M, Politi, F, Parrini, E, Manfredi, I, Pisano, T, Pruna, D, Curia, G, Cianchetti, C, Pasqualetti, M, Becchetti, A, Guerrini, R, Casari, G, DI RESTA, Chiara, Casari, GIORGIO NEVIO, DE FUSCO, M, Ciachetti, C, ARIDON, P, MARINI, C, BRILLI, E, POLITI, F, PARRINI, E, MANFREDI, I, PISANO, T, PRUNA, D, CURIA, G, CIANCHETTI, C, PASQUALETTI, M, BECCHETTI, A, GUERRINI, R, and CASARI, G

Subjects
Adult, Male, medicine.medical_specialty, Adolescent, Somnambulism, Molecular Sequence Data, Mutation, Missense, Autosomal dominant nocturnal frontal lobe epilepsy, Receptors, Nicotinic, Biology, medicine.disease_cause, Ligands, Nicotinic, Article, Epilepsy, BIO/09 - FISIOLOGIA, Internal medicine, Acetylcholine, Aged, Aged, 80 and over, Amino Acid Sequence, Female, Humans, Neurons, Pedigree, Fear, Receptors, medicine, 80 and over, Genetics, Ictal, Genetics(clinical), Genetics (clinical), Acetylcholine receptor, Mutation, Seizure types, medicine.disease, Nicotinic acetylcholine receptor, Nicotinic agonist, Endocrinology, nAChR, patch-clamp, ADNFLE, sleep-related epilepsy, M1, TM1, ACh, nicotine, Settore MED/26 - Neurologia, Missense
Abstract

Sleep has traditionally been recognized as a precipitating factor for some forms of epilepsy, although differential diagnosis between some seizure types and parasomnias may be difficult. Autosomal dominant frontal lobe epilepsy is characterized by nocturnal seizures with hyperkinetic automatisms and poorly organized stereotyped movements and has been associated with mutations of the α4 and β2 subunits of the neuronal nicotinic acetylcholine receptor. We performed a clinical and molecular genetic study of a large pedigree segregating sleep-related epilepsy in which seizures are associated with fear sensation, tongue movements, and nocturnal wandering, closely resembling nightmares and sleep walking. We identified a new genetic locus for familial sleep-related focal epilepsy on chromosome 8p12.3-8q12.3. By sequencing the positional candidate neuronal cholinergic receptor α2 subunit gene (CHRNA2), we detected a heterozygous missense mutation, I279N, in the first transmembrane domain that is crucial for receptor function. Whole-cell recordings of transiently transfected HEK293 cells expressing either the mutant or the wild-type receptor showed that the new CHRNA2 mutation markedly increases the receptor sensitivity to acetylcholine, therefore indicating that the nicotinic α2 subunit alteration is the underlying cause. CHRNA2 is the third neuronal cholinergic receptor gene to be associated with familial sleep-related epilepsies. Compared with the CHRNA4 and CHRNB2 mutations reported elsewhere, CHRNA2 mutations cause a more complex and finalized ictal behavior. © 2006 by The American Society of Human Genetics. All rights reserved.

Published
2006

34. A new benign adult familial myoclonic epilepsy (BAFME) pedigree suggesting linkage to chromosome 2p11.1-q12.2

Author

Maria Paola Canevini, Maurizio Elia, Maurizio De Fusco, Salvatore Striano, Rosanna Chifari, Renzo Guerrini, Pasquale Striano, Giorgio Casari, Striano, P, Chifari, R, Striano, Salvatore, DE FUSCO, M, Elia, M, Guerrini, R, Casari, G, Canevini, Mp, P., Striano, R., Chifari, M. d., Fusco, M., Elia, R., Guerrini, G., Casari, M. P., Canevini, Striano, S, de Fusco, M, and Casari, GIORGIO NEVIO

Subjects
Adult, Male, Benign adult familial myoclonic epilepsy, classification/genetics, Genetic Linkage, Adult, Aged, Chromosomes, Human, Pair 2, Epilepsies, Myoclonic, classification/genetics, Family Health, Female, Genetic Linkage, Humans, Male, Pedigree, Phenotype, Epilepsies, Myoclonic, Epilepsies, Biology, Chromosomes, Epilepsy, Genetic linkage, medicine, Humans, Aged, Genetics, Linkage (software), Family Health, Pair 2, Epilepsie, Genetic heterogeneity, Chromosome, Adult, Aged, Chromosome, medicine.disease, Phenotype, Pedigree, Neurology, Chromosomes, Human, Pair 2, Pair 2, Myoclonic epilepsy, Female, Neurology (clinical)
Abstract

Summary: Benign adult familial myoclonic epilepsy (BAFME) is an autosomal dominant condition characterized by cortical tremor and generalized seizures, mapped on chromosome 8q24 by Japanese authors. Recently the same phenotype also was reported in European families, with linkage on chromosome 2. We present a new family with suggestion of linkage to chromosome 2p11.1-2q12.2 (lod score value, 1.55). This observation would confirm that BAFME is a worldwide, genetically heterogeneous condition, probably with Japanese families linked to 8q24 and European families to 2p11.1-q12.2.

Published
2004

35. α-Gal A missense variants associated with Fabry disease can lead to ER stress and induction of the unfolded protein response

Author

Francesco Consolato, Maurizio De Fusco, Céline Schaeffer, Federico Pieruzzi, Francesco Scolari, Maurizio Gallieni, Chiara Lanzani, Sandro Feriozzi, Luca Rampoldi, Consolato, F, De Fusco, M, Schaeffer, C, Pieruzzi, F, Scolari, F, Gallieni, M, Lanzani, C, Feriozzi, S, and Rampoldi, L

Subjects
Settore MED/14 - Nefrologia, Unfolded protein response, Fabry disease, Endocrinology, ER stress, missense mutations, unfolded protein response, α-galactosidase A, Settore MED/03 - Genetica Medica, Genetics, ER stre, Missense mutation, Molecular Biology
Abstract

Anderson-Fabry Disease (FD) is an X-linked lysosomal disorder caused by mutations in GLA, the gene encoding the lysosomal hydrolase α-galactosidase A (α-Gal A), leading to accumulation of glycosphingolipids in the lysosomes. FD is a multisystemic disorder leading to progressive cardiovascular, cerebrovascular and kidney dysfunction. Phenotypes are divided in two main classes, classic or non-classic, depending on substrate accumulation, age at onset, disease manifestation, severity and progression. The more severe classical phenotype is generally associated with mutations leading to absent or strongly reduced α-Gal A activity, while mutations with higher residual activity generally lead to the non-classical one. Approximately 70% of the over 1,000 Fabry disease-associated mutations are missense mutations, some leading to endoplasmic reticulum (ER) retention of mutant protein. We hypothesized that such mutations could be associated, besides the well-known absence of α-Gal A function/activity, to a possible gain of function effect due to production of a misfolded protein. We hence expressed α-Gal A missense mutations in HEK293 GLA−/− cells and investigated the localization of mutant protein and induction of ER stress and of the unfolded protein response (UPR). We selected a panel of 7 missense mutations, including mutants shown to have residual or no activity in vitro. Immunofluorescence analysis showed that mutants with residual activity have decreased lysosomal localization compared with wild type, and partial retention in the ER, while missense mutants with no residual activity are fully retained in the ER. UPR (ATF6 branch) was significantly induced by all but two mutants, with clear correlation with the extent of ER retention and the predicted mutation structural effect. These data identify a new molecular pathway, associated with gain of function effect, possibly involved in pathogenesis of FD.

Published
2022

36. Linkage mapping of a new syndromic form of X-linked mental retardation, MRXS7, associated with obesity

Author

Mahmud Ahmad, Sayed ul Haque, Muhammad Faiyaz Ul Haque, Tiziana Sarno, Muhammad Sohail, Wasim Ahmad, Brunella Franco, Maurizio De Fusco, Paolo Aridon, Giorgio Casari, Andrea Ballabio, Ahmad, W, DE FUSCO, M, FAIYAZ UL HAQUE, M, Aridon, P, Sarno, T, Sohail, M, UL HAQUE, S, Ahmad, M, Ballabio, Andrea, Franco, Brunella, Casari, G., De Fusco, M, ul Haque, Mf, ul Haque, S, Ballabio, A, Franco, B, and Casari, GIORGIO NEVIO

Subjects
Adult, Male, X Chromosome, Adolescent, Genetic Linkage, Biology, Genetic linkage, Intellectual Disability, Centromere, Genetics, medicine, Humans, Obesity, Genetics (clinical), X chromosome, Lod score, Linkage (software), Chromosome Mapping, Syndrome, Middle Aged, medicine.disease, Pedigree, Microsatellite, Female, Lod Score
Abstract

A new syndromic form of X-linked mental retardation associated to obesity, MRXS7, has been localised to Xp11.3-Xq23 in a large Pakistani family. The ten affected males show clinical manifestations of mental retardation, obesity and hypogonadism. The family was genotyped by a set of microsatellite markers spaced at approximately 10 cM intervals on the X chromosome. Linkage to five adjacent microsatellite markers, mapping in the pericentromeric area, was established and a maximum two-point lod score of 3.86 was reached at zero recombination with marker DXS1106. Reduced recombination events around the centromere prevented precise mapping of the gene.

Published
1999

37. Autosomal recessive rolandic epilepsy with paroxysmal exercise-induced dystonia and writer's cramp: delineation of the syndrome and gene mapping to chromosome 16p12-11.2

Author

Renzo Guerrini, Paolo Aridon, Andrea Ballabio, Massimo Piccirilli, Lucio Parmeggiani, Giorgio Casari, Nardo Nardocci, Maurizio De Fusco, Romeo Carrozzo, Paolo Bonanni, Guerrini, R, Bonanni, P, Nardocci, N, Parmeggiani, L, Piccirilli, M, DE FUSCO, M, Aridon, P, Ballabio, Andrea, Carrozzo, R, Casari, G., De Fusco, M, Ballabio, A, and Casari, GIORGIO NEVIO

Subjects
Adult, Male, Handwriting, Paroxysmal nonkinesigenic dyskinesia, Genetic Linkage, Paroxysmal exercise-induced dystonia, Neuropsychological Tests, Epilepsy, Autosomal recessive trait, Evoked Potentials, Somatosensory, medicine, Humans, Child, Muscle Cramp, Dystonia, Genetics, Blinking, Electromyography, Writer's cramp, Chromosome Mapping, Electroencephalography, Syndrome, medicine.disease, Epilepsy, Rolandic, Pedigree, Rolandic epilepsy, Neurology, Paroxysmal dystonia, Anticonvulsants, Female, Neurology (clinical), Psychology, Neuroscience, Chromosomes, Human, Pair 16
Abstract

We describe a pedigree in which 3 members in the same generation are affected by Rolandic epilepsy (RE), paroxysmal exercise-induced dystonia (PED), and writer's cramp (WC), Both the seizures and paroxysmal dystonia had a strong age-related expression that peaked during childhood, whereas the WC, also appearing in childhood has been stable since diagnosis. Genome-wide linkage analysis performed under the assumption of recessive inheritance identified a common homozygous haplotype in a critical region spanning 6 cM between markers D16S3133 and D16S3131 on chromosome 1.6,. cosegregating with the affected phenotype and producing a multipoint LOD score value of 3.68. Although its features are unique, this syndrome presents striking analogies with the autosomal dominant infantile convulsions and paroxysmal coreoathetosis (ICCA) syndrome, linked to a 10 cM region between D16S401 and D16S517, which entirely includes the 6 cM of the RE-PED-WC critical region. The same gene map be responsible for both RE-PED-WC and ICCA, with specific mutations explaining each of these Mendelian disorders. This report shows that idiopathic focal disorders such as epilepsy and dystonia, can. be caused by: the same genetic abnormality, may have a transient expression, and may be inherited as an autosomal recessive trait.

Published
1999

38. Novel molecular variants of the Na-Cl cotransporter gene are responsible for Gitelman syndrome

Author

Mastroianni, N., Bettinelli, A., Bianchetti, M., Colussi, G., Fusco, M., Sereni, F., Ballabio, A., Giorgio CASARI, Mastroianni, N, Bettinelli, A, Bianchetti, M, Colussi, G, DE FUSCO, M, Sereni, F, Ballabio, Andrea, Casari, G., De Fusco, M, Ballabio, A, and Casari, GIORGIO NEVIO

Subjects
Adult, Male, Sodium-Potassium-Chloride Symporters, Molecular Sequence Data, Alkalosis, Hypokalemia, Exons, Syndrome, Pedigree, Mutation, Humans, Calcium, Female, Magnesium, Carrier Proteins, Magnesium Deficiency, Biomarkers, Research Article, DNA Primers
Abstract

A hereditary defect of the distal tubule accounts for the clinical features of Gitelman syndrome (GS), an autosomal recessive disease characterized by hypokalemia, hypomagnesemia, metabolic alkalosis, and hypocalciuria. Recently, we cloned the cDNA coding for the human Na-Cl thiazide-sensitive cotransporter (TSC; also known as ¿NCCT¿ or ¿SLC12A3¿) as a possible candidate for GS, and Simon et al., independently, described mutations in patients with GS. Now, we show 12 additional mutations consistent with a loss of function of the Na-Cl cotransporter in GS. Two missense replacements, R209W and P349L, are common to both studies and could represent ancient mutations. The other mutations include three deletions, two insertions, and six missense mutations. When all mutations from both studies are considered, missense mutations seem to be more frequently localized within the intracellular domains of the molecule, rather than in transmembrane or extracellular domains. One family, previously reported as a GS form with dominant inheritance, has proved to be recessive, with the affected child being a compound heterozygote. A highly informative intragenic tetranucleotide marker, useful for molecular diagnostic studies, has been identified at the acceptor splice site of exon 9.

Published
1996

39. TBC1D24-TLDc-related epilepsy exercise-induced dystonia: rescue by antioxidants in a disease model

Author

Baptiste Fischer, Inge A. Meijer, Renzo Guerrini, Naomi Lubarr, Paolo Aridon, Nils Schoovaerts, Maurizio De Fusco, Elena Parrini, Jef Swerts, Giorgio Casari, Patrik Verstreken, Katherine M. Mackenzie, Wim Versées, Wang-Tso Lee, Jone Paesmans, Davide Cittaro, Davide Mei, Kevin Lüthy, Lüthy, Kevin, Mei, Davide, Fischer, Baptiste, De Fusco, Maurizio, Swerts, Jef, Paesmans, Jone, Parrini, Elena, Lubarr, Naomi, Meijer, Inge A, Mackenzie, Katherine M, Lee, Wang-Tso, Cittaro, Davide, Aridon, Paolo, Schoovaerts, Nil, Versées, Wim, Verstreken, Patrik, Casari, Giorgio, Guerrini, Renzo, Luthy K., Mei D., Fischer B., De Fusco M., Swerts J., Paesmans J., Parrini E., Lubarr N., Meijer I.A., Mackenzie K.M., Lee W.-T., Cittaro D., Aridon P., Schoovaerts N., Versees W., Verstreken P., Casari G., and Guerrini R.

Subjects
Male, Models, Molecular, 0301 basic medicine, Protein Conformation, Amino Acid Motifs, alpha-Tocopherol, Mutant, Crystallography, X-Ray, PHENOTYPE, Compound heterozygosity, Antioxidants, Animals, Genetically Modified, Epilepsy, 0302 clinical medicine, Catalytic Domain, Drosophila Proteins, Missense mutation, oxidative stress, Child, TLDC DOMAIN, VITAMIN-E, Exome sequencing, Sequence Deletion, Neurons, Dystonia, Genetics, exercise-induced dystonia, TBC1D24, GTPase-Activating Proteins, ANNOTATIONS, Epilepsy, Rolandic, Phenotype, Recombinant Proteins, Pedigree, 3. Good health, Rolandic epilepsy, Drosophila melanogaster, Child, Preschool, Female, Settore MED/26 - Neurologia, Synaptic Vesicles, PROTEIN STABILITY, Life Sciences & Biomedicine, Locomotion, Adolescent, Physical Exertion, Mutation, Missense, Clinical Neurology, PREDICTIONS, Biology, 03 medical and health sciences, medicine, Animals, Humans, Amino Acid Sequence, COMPARTMENT, oxidative stre, Science & Technology, Sequence Homology, Amino Acid, MUTATIONS, Neurosciences, Infant, Biological Transport, DEGRADATION, medicine.disease, biology.organism_classification, Acetylcysteine, Disease Models, Animal, Oxidative Stress, 030104 developmental biology, rab GTP-Binding Proteins, SEIZURES, Neurosciences & Neurology, Neurology (clinical), Reactive Oxygen Species, Sequence Alignment, 030217 neurology & neurosurgery
Abstract

Genetic mutations in TBC1D24 have been associated with multiple phenotypes, with epilepsy being the main clinical manifestation. The TBC1D24 protein consists of the unique association of a Tre2/Bub2/Cdc16 (TBC) domain and a TBC/lysin motif domain/catalytic (TLDc) domain. More than 50 missense and loss-of-function mutations have been described and are spread over the entire protein. Through whole genome/exome sequencing we identified compound heterozygous mutations, R360H and G501R, within the TLDc domain, in an index family with a Rolandic epilepsy exercise-induced dystonia phenotype (http://omim.org/entry/608105). A 20-year long clinical follow-up revealed that epilepsy was self-limited in all three affected patients, but exercise-induced dystonia persisted into adulthood in two. Furthermore, we identified three additional sporadic paediatric patients with a remarkably similar phenotype, two of whom had compound heterozygous mutations consisting of an in-frame deletion I81_K84 and an A500V mutation, and the third carried T182M and G511R missense mutations, overall revealing that all six patients harbour a missense mutation in the subdomain of TLDc between residues 500 and 511. We solved the crystal structure of the conserved Drosophila TLDc domain. This allowed us to predict destabilizing effects of the G501R and G511R mutations and, to a lesser degree, of R360H and potentially A500V. Next, we characterized the functional consequences of a strong and a weak TLDc mutation (TBC1D24G501R and TBC1D24R360H) using Drosophila, where TBC1D24/Skywalker regulates synaptic vesicle trafficking. In a Drosophila model neuronally expressing human TBC1D24, we demonstrated that the TBC1D24G501R TLDc mutation causes activity-induced locomotion and synaptic vesicle trafficking defects, while TBC1D24R360H is benign. The neuronal phenotypes of the TBC1D24G501R mutation are consistent with exacerbated oxidative stress sensitivity, which is rescued by treating TBC1D24G501R mutant animals with antioxidants N-acetylcysteine amide or α-tocopherol as indicated by restored synaptic vesicle trafficking levels and sustained behavioural activity. Our data thus show that mutations in the TLDc domain of TBC1D24 cause Rolandic-type focal motor epilepsy and exercise-induced dystonia. The humanized TBC1D24G501R fly model exhibits sustained activity and vesicle transport defects. We propose that the TBC1D24/Sky TLDc domain is a reactive oxygen species sensor mediating synaptic vesicle trafficking rates that, when dysfunctional, causes a movement disorder in patients and flies. The TLDc and TBC domain mutations' response to antioxidant treatment we observed in the animal model suggests a potential for combining antioxidant-based therapeutic approaches to TBC1D24-associated disorders with previously described lipid-altering strategies for TBC domain mutations. ispartof: BRAIN vol:142 issue:8 pages:2319-2335 ispartof: location:England status: published

Published
2019

40. A TRAPPC6B splicing variant associates to restless legs syndrome

Author

Valentina Arnao, Juliane Winkelmann, Luigi Ferini-Strambi, Paolo Aridon, Giorgio Casari, Marco Zucconi, Maurizio De Fusco, Aridon, P., De Fusco, M., Winkelmann, J., Zucconi, M., Arnao, V., Ferini-Strambi, L., Casari, G., Aridon, Paolo, De Fusco, Maurizio, Winkelmann, Juliane W., Zucconi, Marco, Arnao, Valentina, FERINI STRAMBI, Luigi, and Casari, GIORGIO NEVIO

Subjects
0301 basic medicine, Exome sequencing, Male, Vesicular Transport Proteins, Locus (genetics), Variation, Gene mutation, Biology, Splicing, Transfection, 03 medical and health sciences, Exon, Gene Frequency, RLS, Restless Legs Syndrome, Animals, Humans, Genetic Predisposition to Disease, RNA, Messenger, Restless legs syndrome, Exome, Movement disorder, Cells, Cultured, Genetics, Chromosomes, Human, Pair 14, Family Health, Sleep disorder, Haplotype, Exons, Rats, 030104 developmental biology, Authors report no disclosure, Neurology, Haplotypes, RNA splicing, Mutation, Female, Neurology (clinical), Geriatrics and Gerontology, Neurological disease, Minigene
Abstract

INTRODUCTION: RLS is a common movement disorders with a strong genetic component in its pathophysiology, but, up to now, no causative mutation has been reported. METHODS: We re-evaluated the previously described RLS2 family by exome sequencing. RESULTS: We identified fifteen variations in the 14q critical region. The c.485G > A transition of the TRAPPC6B gene segregates with the RLS2 haplotype, is absent in 200 local controls and is extremely rare in 12988 exomes from the Exome Variant Server (EVS). This variant alters a splicing site and hampers the normal transcript processing by promoting exon 3-skipping as demonstrated by minigene transfection and by patient transcripts. CONCLUSIONS: We identified a TRAPPC6B gene mutation associated to the RLS locus on chromosome 14.

Published
2016

41. Familial hemiplegic migraine type 2 is linked to 0.9Mb region on chromosome 1q23

Author

Giuseppe De Michele, Letterio Morgante, Katrin Plewnia, Maja Rossi, Sadia Carapelli, Giorgio Casari, Paolo Aridon, Maurizio De Fusco, Roberto Marconi, Rosa Musolino, Giuseppe Micieli, Andrea Ballabio, A. Epifanio, Marconi, R, De Fusco, M, Aridon, P, Plewnia, K, Rossi, M, Carapelli, S, Ballabio, A, Morgante, L, Musolino, R, Epifanio, A, Micieli, G, De Michele, G, and Casari, GIORGIO NEVIO

Subjects
Adult, Male, Adolescent, Genetic Linkage, Migraine with Aura, Locus (genetics), Genetic determinism, Genetic linkage, ATP1A2, Chromosome 19, Humans, Medicine, Child, Familial hemiplegic migraine, Aged, Aged, 80 and over, Genetics, business.industry, Chromosome Mapping, Chromosome, Middle Aged, medicine.disease, Pedigree, Neurology, Chromosomes, Human, Pair 1, Mutation, Mutation testing, Female, Neurology (clinical), Lod Score, business, Neuroscience
Abstract

Familial hemiplegic migraine (FHM) is a rare autosomal dominant disorder characterized by episodes of transient hemiparesis followed by headache. Two chromosomal loci are associated to FHM: FHM1 on chromosome 19 and FHM2 on chromosome 1q21-23. Mutations of the alpha-1A subunit of the voltage gated calcium channel (CACNA1A) are responsible for FHM1. FHM2 critical region spans 28 cM, hence hampering the identification of the responsible gene. Here, we report the FHM2 locus refining by linkage analysis on two large Italian families affected by pure FHM. The new critical region covers a small area of 0.9Mb in 1q23 and renders feasible a positional candidate approach. By mutation analysis, we excluded the calsequestrin and two potassium channel genes mapping within the narrowed FHM2 locus.

Published
2003

42. Identification of a New Locus for Medullary Cystic Disease, on Chromosome 16p12

Author

Andrea Ballabio, Rosario Maiorca, Gian Marco Ghiggeri, Gianluca Caridi, Maurizio De Fusco, Francesco Scolari, Paolo Aridon, Daniela Puzzer, Giorgio Casari, Antonio Amoroso, Scolari, F, Puzzer, D, Amoroso, A, Caridi, G, Ghiggeri, Gm, Maiorca, R, Aridon, P, De Fusco, M, Ballabio, A, and Casari, GIORGIO NEVIO

Subjects
Genetic Markers, Male, Candidate gene, Genetic Linkage, Locus (genetics), Biology, Medullary cystic kidney disease, Chromosomes, Gene mapping, Nephronophthisis, Genetic linkage, Genetics, medicine, Humans, Polycystic Kidney, Genetics(clinical), 16p12, Dominant, Cyst, ADMCKD2, Genetics (clinical), Genes, Dominant, Pair 16, Genetic heterogeneity, Chromosome Mapping, Polycystic Kidney, Autosomal Dominant, medicine.disease, Pedigree, Female, Lod Score, Chromosomes, Human, Pair 16, Genes, Linkage mapping, Autosomal Dominant, Medullary cystic disease, Research Article, Human
Abstract

Summary Autosomal dominant medullary cystic disease (ADMCKD) is an interstitial nephropathy that has morphologic and clinical features similar to autosomal recessive nephronophthisis. The typical renal dysfunction associated with ADMCKD results mainly from a defect in urinary concentration ability, although results of urinalysis are normal. Recently, a locus on chromosome 1 was associated with ADMCKD, in DNA from two large Cypriot families, and genetic heterogeneity was inferred. We describe the genomewide linkage mapping of a new locus for medullary cystic disease, ADMCKD2, on chromosome 16p12 in a four-generation Italian pedigree. The family with ADMCKD2 fulfills the typical diagnostic criteria of ADMCKD, complicated by hyperuricemia and gouty arthritis. Marker D16S3036 shows a maximum two-point LOD score of 3.68, and the defined critical region spans 10.5 cM, between D16S500 and SCNN1B1–2. Candidate genes included in the critical region are discussed.

Published
1999

43. Molecular Cloning, Expression Pattern, and Chromosomal Localization of the Human Na–Cl Thiazide-Sensitive Cotransporter (SLC12A3)

Author

Giulia Arrigo, Massimo Zollo, Maurizio De Fusco, Andrea Ballabio, Giorgio Casari, Orsetta Zuffardi, Alberto Bettinelli, Nadia Mastroianni, Mastroianni, N, DE FUSCO, M, Zollo, Massimo, Arrigo, G, Zuffardi, O, Bettinelli, A, Ballabio, Andrea, Casari, G., Defusco, M, Zollo, M, Ballabio, A, and Casari, GIORGIO NEVIO

Subjects
Adult, DNA, Complementary, Receptors, Drug, Sodium Chloride Symporter Inhibitors, Molecular Sequence Data, Gene Expression, Biology, Molecular cloning, Benzothiadiazines, Genetics, medicine, Animals, Humans, Solute Carrier Family 12, Member 3, Tissue Distribution, Amino Acid Sequence, Cloning, Molecular, Diuretics, Peptide sequence, chemistry.chemical_classification, Base Sequence, Sequence Homology, Amino Acid, Symporters, urogenital system, Chromosome Mapping, Membrane transport, Gitelman syndrome, medicine.disease, Sodium Chloride Symporters, Transmembrane protein, Rats, Amino acid, Transmembrane domain, chemistry, Biochemistry, Carrier Proteins, Cotransporter, Chromosomes, Human, Pair 16
Abstract

Electrolyte homeostasis is maintained by several ion transport systems. Na-(K)-Cl cotransporters promote the electrically silent movement of chloride across the membrane in absorptive and secretory epithelia. Two kidney-specific Na-(K)-Cl cotransporter isoforms are known, so far, according to their sensitivity to specific inhibitors, We have cloned the human cDNA coding for the renal Na-Cl cotransporter selectively inhibited by the thiazide class of diuretic agents. The predicted protein sequence of 1021 amino acids (112 kDa) shows a structure common to the other members of the Na-(K)-Cl cotransporter family: a central region harboring 12 transmembrane domains and the 2 intracellular hydrophilic amino and carboxyl termini. The expression pattern of the human Na-Cl thiazide-sensitive cotransporter (hTSC, HGMW-approved symbol SLC12A3) confirms the kidney specificity. hTSC has been mapped to human chromosome 16q13 by fluorescence in situ hybridization. The cloning and characterization of hTSC now render it possible to study the involvement of this cotransport system in the pathogenesis of tubulopathies such as Gitelman syndrome. (C) 1996 Academic Press, Inc.

Published
1996

44. Haploinsufficiency of ATP1A2 encoding the Na+/K+ pump alpha2 subunit associated with familial hemiplegic migraine type 2

Author

Luigia Atorino, Letterio Morgante, Andrea Ballabio, Maurizio De Fusco, Paolo Aridon, Laura Silvestri, Luca Rampoldi, Roberto Marconi, Giorgio Casari, De Fusco, M, Marconi, R, Silvestri, L, Atorino, L, Rampoldi, L, Morgante, L, Ballabio, A, Aridon, P, and Casari, GIORGIO NEVIO

Subjects
Male, medicine.medical_specialty, Aura, Cell Survival, Population, Migraine with Aura, Molecular Sequence Data, Drug Resistance, Biology, Haploidy, Transfection, ATP1A2, Internal medicine, ATP1A3, Chlorocebus aethiops, Genetics, medicine, Animals, Humans, Enzyme Inhibitors, education, Ouabain, Familial hemiplegic migraine, Chromatography, High Pressure Liquid, education.field_of_study, Base Sequence, medicine.disease, Migraine with aura, Peptide Fragments, Pedigree, Endocrinology, Migraine, Chromosomes, Human, Pair 1, Case-Control Studies, COS Cells, Mutation, Mutagenesis, Site-Directed, Female, Calcium Channels, medicine.symptom, Sodium-Potassium-Exchanging ATPase, Haploinsufficiency, HeLa Cells
Abstract

Headache attacks and autonomic dysfunctions characterize migraine, a very common, disabling disorder with a prevalence of 12% in the general population of Western countries(1,2). About 20% of individuals affected with migraine experience aura, a visual or sensory-motor neurological dysfunction that usually precedes or accompanies the headache(3). Although the mode of transmission is controversial(4), population-based and twin studies have implicated genetic factors, especially in migraine with aura(5,6). Familial hemiplegic migraine is a hereditary form of migraine characterized by aura and some hemiparesis. Here we show that mutations in the gene ATP1A2 that encodes the alpha2 subunit of the Na+/K+ pump are associated with familial hemiplegic migraine type 2 (FHM2) linked to chromosome 1q23 (OMIM 602481). Functional data indicate that the putative pathogenetic mechanism is triggered by a loss of function of a single allele of ATP1A2. This is the first report associating mutations of Na+K+ pump subunits to genetic diseases.

Published
2002

45. A recessive variant of the Romano-Ward long-QT syndrome?

Author

Peter J. Schwartz, Carlo Napolitano, Laura Bianchi, Silvia G. Priori, Adrienne T. Dennis, Arthur M. Brown, Maurizio De Fusco, Giorgio Casari, Priori, Sg, Schwartz, Pj, Napolitano, C, Bianchi, L, Dennis, A, De Fusco, M, Brown, Am, and Casari, GIORGIO NEVIO

Subjects
Proband, Male, medicine.medical_specialty, Long QT syndrome, Genes, Recessive, QT interval, Autosomal recessive trait, Consanguinity, Physiology (medical), Internal medicine, medicine, Missense mutation, Humans, Point Mutation, KvLQT1, Allele, Child, Genetics, biology, Genetic heterogeneity, business.industry, Homozygote, medicine.disease, Pedigree, Long QT Syndrome, Endocrinology, biology.protein, Female, Cardiology and Cardiovascular Medicine, business
Abstract

Background —The congenital long-QT syndrome (LQTS) is a genetically heterogeneous disease characterized by prolonged ventricular repolarization and life-threatening arrhythmias. Mutations of the KVLQT1 gene, a cardiac potassium channel, generate two allelic diseases: the Romano-Ward syndrome, inherited as a dominant trait, and the Jervell and Lange-Nielsen syndrome, inherited as an autosomal recessive trait. Methods and Results —A consanguineous family with the clinical phenotype of LQTS was screened for mutations in the KVLQT1 gene. Complementary RNAs for injection into Xenopus oocytes were prepared, and currents were recorded with the double microelectrode technique. A homozygous missense mutation, leading to an alanine-to-threonine substitution at the beginning of the pore domain of the KVLQT1 channel, was found in the proband, a 9-year-old boy with normal hearing, a prolonged QT interval, and syncopal episodes during physical exercise. The parents of the proband were heterozygous for the mutation and had a normal QT interval. The functional evaluation of the mutant channel activity showed reduction in total current, a hyperpolarizing shift in activation, and a faster activation rate consistent with a mild mutation likely to require homozygosity to manifest the phenotype. Conclusions —These findings provide the first evidence for a recessive form of the Romano-Ward long-QT syndrome and indicate that homozygous mutations on KVLQT1 do not invariably produce the Jervell and Lange-Nielsen syndrome. The implications of this observation prompt a reconsideration of the penetrance of different mutations responsible for LQTS and suggest that mild mutations in LQTS genes may be present among the general population and may predispose to drug-induced ventricular arrhythmias.

Published
1998

46. A new locus for autosomal dominant nocturnal frontal lobe epilepsy maps to chromosome 1

Author

Aldo Quattrone, Grazia Annesi, Andrea Ballabio, Ferdinanda Annesi, A. Patrignani, Patrizia Spadafora, Angela Aurora Pasqua, R. L. Oliveri, Antonio Gambardella, M. De Fusco, Umberto Aguglia, M. Zappia, Giorgio Casari, Paola Valentino, Gambardella, A, Annesi, G, De Fusco, M, Patrignani, A, Aguglia, U, Annesi, F, Pasqua, Aa, Spadafora, P, Oliveri, Rl, Valentino, P, Zappia, M, Ballabio, A, Casari, GIORGIO NEVIO, and Quattrone, A.

Subjects
Genetics, Adult, Male, Adolescent, Genetic Linkage, Epilepsy, Frontal Lobe, Chromosome, Chromosome Mapping, Locus (genetics), Autosomal dominant nocturnal frontal lobe epilepsy, Biology, medicine.disease, Pedigree, Central nervous system disease, Epilepsy, Frontal lobe, Genetic linkage, Chromosomes, Human, Pair 1, medicine, Humans, Ictal, Female, Neurology (clinical)
Abstract

Background: Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is caused by mutations in the α4 subunit of the neuronal nicotinic acetylcholine receptor (CHRNA4) gene, mapping on chromosome 20q13.2. A second ADNFLE locus was mapped on chromosome 15q24. Objective: To report a new third ADNFLE locus on chromosome 1 in a large Italian family. Methods: The authors performed a clinical and genetic study in a large, three-generation ADNFLE family from southern Italy, including eight affected individuals and three obligate carriers. Results: The age at onset of seizures was around 9 years of age and all affected individuals manifested nocturnal partial seizures of frontal lobe origin. Interictal awake and sleep EEG recordings showed no definite epileptiform abnormalities in most patients. Ictal video-EEG showed that the attacks were partial seizures with a frontal lobe semiology. Intellectual and neurologic examinations, and brain CT or MRI results were always normal. Carbamazepine was effective in all treated patients. Exclusion mapping of the known loci linked to ADNFLE—ENFL1, and ENFL2, on chromosomes 20q13.2 and 15q24—was performed on the pedigree before starting the genome-wide linkage analysis. The whole genome scan mapping allowed the identification of a new ADNFLE locus spanning the pericentromeric region of chromosome 1. Conclusions: The authors provided evidence for a third locus associated to autosomal dominant nocturnal frontal lobe epilepsy on chromosome 1. Among the known genes mapping within this critical region, the β2 subunit of the nicotinic receptor (CHRNB2) represents the most obvious candidate.

47. ATP1A2 mutations in 11 families with familial hemiplegic migraine

Author

Florence Riant, Elisabeth Tournier-Lasserve, M.G. Bousser, Maurizio De Fusco, Paolo Aridon, Jacqueline Maciazek, Giorgio Casari, Claire Ploton, Florence Marchelli, Anne Ducros, RIANT F, DE FUSCO M, ARIDON P, DUCROS A, PLOTON C, MARCHELLI F, MACIAZEK J, BOUSSER MG, CASARI G, and TOURNIER-LASSERVE E

Subjects
Proband, Male, Migraine with Aura, Molecular Sequence Data, Mutation, Missense, Biology, medicine.disease_cause, Frameshift mutation, ATP1A2, Genetics, medicine, Missense mutation, Animals, Humans, Amino Acid Sequence, Genotyping, Genetics (clinical), Familial hemiplegic migraine, Family Health, Mutation, Polymorphism, Genetic, Sequence Homology, Amino Acid, Exons, medicine.disease, Migraine with aura, Pedigree, Female, medicine.symptom, Sodium-Potassium-Exchanging ATPase
Abstract

Familial hemiplegic migraine (FHM) is an autosomal dominant form of migraine with aura. The disease is caused by mutations of at least three genes among which two have been identified, CACNA1A and ATP1A2. Very few mutations have been identified so far in ATP1A2. We screened the coding sequence of ATP1A2 in 26 unrelated FHM probands in whom CACNA1A screening was negative. A total of eight different mutations were identified in 11 of the probands (41%), including six missense mutations, one small deletion leading to a frameshift, and one in frame deletion. All were novel mutations. Two mutations were recurrent, in three and two families, respectively. Genotyping of 94 relatives of these 11 probands identified 47 mutation carriers, among whom 36 were clinically affected. Sequencing of all 23 exons in an ethnically matched panel detected only one exonic coding polymorphism.

48. Molecular analysis of uromodulin and SAH genes, positional candidates for autosomal dominant medullary cystic kidney disease linked to 16p12

Author

Pirulli, D., Puzzer, D., Fusco, M., Crovella, S., Amoroso, A., Scolari, F., Viola, B. F., Maiorca, R., Gianluca Caridi, Savoldi, S., Ghiggeri, G., Casari, G., D., Pirulli, D., Puzzer, M. D., Fusco, Crovella, Sergio, A., Amoroso, F., Scolari, B. F., Viola, R., Maiorca, G., Caridi, S., Savoldi, G., Ghiggeri, G., Casari, Pirulli, D, Puzzer, D, De Fusco, M, Crovella, S, Amoroso, A, Scolari, F, Viola, Bf, Maiorca, R, Caridi, G, Savoldi, S, Ghiggeri, G, and Casari, GIORGIO NEVIO

Subjects
Genetic Linkage, Intron, Exon, Chromosome, Polymerase Chain Reaction, Chromosomes, Mucoproteins, Genetic, Coenzyme A Ligases, Uromodulin, Humans, Mucoprotein, Polycystic Kidney, Polymorphism, Codon, Kidney Medulla, Polymorphism, Genetic, Pair 16, Protein, Proteins, Chromosome Mapping, Sequence Analysis, DNA, Exons, DNA, Polycystic Kidney, Autosomal Dominant, Chromosomes, Human, Pair 16, Mutation, Introns, Autosomal Dominant, Sequence Analysi, Human, Sequence Analysis
Abstract

Background. The location of a second genetic locus for autosomal dominant medullary cystic kidney disease (ADMCKD) at chromosome 16p12 led us to further investigate the molecular analysis of the critical region where two genes coding for uromodulin and SA proteins with renal specific functions, UMOD and SAH, are localized. Methods: We characterized the intron-exon boundary sequences by screening phage and BAC DNA genomic clones for the development of new molecular tools functional to the mutation analysis of UMOD and SAH genes. Results: No consistent mutations for ADMCKD2 were found in the UMOD and SAH genes. We identified a silent polymorphism in the UMOD gene at codon C174 which co-segregates with the disease in the ADMCKD2 family. Conclusions: This study excludes the involvement of uromodulin and SAH genes in ADMCKD2, and provides new tools for their molecular analysis in other diseases.

49. Leader peptide or pro-segment mutants of renin are misrouted to mitochondria in autosomal dominant tubulointerstitial kidney disease.

Author

Schaeffer C, De Fusco M, Pasqualetto E, Scolari C, Izzi C, Scolari F, and Rampoldi L

Subjects
Humans, Protein Sorting Signals genetics, Mutation genetics, Mitochondria genetics, Renin genetics, Kidney Diseases genetics
Abstract

Autosomal dominant tubulointerstitial kidney disease (ADTKD), a rare genetic disorder characterised by progressive chronic kidney disease, is caused by mutations in different genes, including REN, encoding renin. Renin is a secreted protease composed of three domains: the leader peptide that allows insertion in the endoplasmic reticulum (ER), a pro-segment regulating its activity, and the mature part of the protein. Mutations in mature renin lead to ER retention of the mutant protein and to late-onset disease, whereas mutations in the leader peptide, associated with defective ER translocation, and mutations in the pro-segment, leading to accumulation in the ER-to-Golgi compartment, lead to a more severe, early-onset disease. In this study, we demonstrate a common, unprecedented effect of mutations in the leader peptide and pro-segment as they lead to full or partial mistargeting of the mutated proteins to mitochondria. The mutated pre-pro-sequence of renin is necessary and sufficient to drive mitochondrial rerouting, mitochondrial import defect and fragmentation. Mitochondrial localisation and fragmentation were also observed for wild-type renin when ER translocation was affected. These results expand the spectrum of cellular phenotypes associated with ADTKD-associated REN mutations, providing new insight into the molecular pathogenesis of the disease., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2023. Published by The Company of Biologists Ltd.)

Published
2023
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50. α-Gal A missense variants associated with Fabry disease can lead to ER stress and induction of the unfolded protein response.

Author

Consolato F, De Fusco M, Schaeffer C, Pieruzzi F, Scolari F, Gallieni M, Lanzani C, Feriozzi S, and Rampoldi L

Abstract

Anderson-Fabry Disease (FD) is an X-linked lysosomal disorder caused by mutations in GLA, the gene encoding the lysosomal hydrolase α-galactosidase A (α-Gal A), leading to accumulation of glycosphingolipids in the lysosomes. FD is a multisystemic disorder leading to progressive cardiovascular, cerebrovascular and kidney dysfunction. Phenotypes are divided in two main classes, classic or non-classic, depending on substrate accumulation, age at onset, disease manifestation, severity and progression. The more severe classical phenotype is generally associated with mutations leading to absent or strongly reduced α-Gal A activity, while mutations with higher residual activity generally lead to the non-classical one. Approximately 70% of the over 1,000 Fabry disease-associated mutations are missense mutations, some leading to endoplasmic reticulum (ER) retention of mutant protein. We hypothesized that such mutations could be associated, besides the well-known absence of α-Gal A function/activity, to a possible gain of function effect due to production of a misfolded protein. We hence expressed α-Gal A missense mutations in HEK293 GLA -/- cells and investigated the localization of mutant protein and induction of ER stress and of the unfolded protein response (UPR). We selected a panel of 7 missense mutations, including mutants shown to have residual or no activity in vitro . Immunofluorescence analysis showed that mutants with residual activity have decreased lysosomal localization compared with wild type, and partial retention in the ER, while missense mutants with no residual activity are fully retained in the ER. UPR (ATF6 branch) was significantly induced by all but two mutants, with clear correlation with the extent of ER retention and the predicted mutation structural effect. These data identify a new molecular pathway, associated with gain of function effect, possibly involved in pathogenesis of FD., Competing Interests: This work was supported by a grant from 10.13039/100015362Amicus Therapeutics, United States [Investigator Initiated Program] (to L.R.). The funding source had no involvement in the research here presented at any stage., (© 2022 The Authors.)

Published
2022
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