Carla Marini

Publications (55)256.68 Total impact

• Article: Novel brain expression of ClC-1 chloride channels and enrichment of CLCN1 variants in epilepsy.

  Tim T Chen, Tara L Klassen, Alica M Goldman, Carla Marini, Renzo Guerrini, Jeffrey L Noebels
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  ABSTRACT: OBJECTIVE: To explore the potential contribution of genetic variation in voltage-gated chloride channels to epilepsy, we analyzed CLCN family (CLCN1-7) gene variant profiles in individuals with complex idiopathic epilepsy syndromes and determined the expression of these channels in human and murine brain. METHODS: We used parallel exomic sequencing of 237 ion channel subunit genes to screen individuals with a clinical diagnosis of idiopathic epilepsy and evaluate the distribution of missense variants in CLCN genes in cases and controls. We examined regional expression of CLCN1 in human and mouse brain using reverse transcriptase PCR, in situ hybridization, and Western immunoblotting. RESULTS: We found that in 152 individuals with sporadic epilepsy of unknown origin, 96.7% had at least one missense variant in the CLCN genes compared with 28.2% of 139 controls. Nonsynonymous single nucleotide polymorphisms in the "skeletal" chloride channel gene CLCN1 and in CLCN2, a putative human epilepsy gene, were detected in threefold excess in cases relative to controls. Among these, we report a novel de novo CLCN1 truncation mutation in a patient with pharmacoresistant generalized seizures and a dystonic writer's cramp without evidence of variants in other channel genes linked to epilepsy. Molecular localization revealed the unexpectedly widespread presence of CLCN1 mRNA transcripts and the ClC-1 subunit protein in human and murine brain, previously believed absent in neurons. CONCLUSIONS: Our findings support a possible comorbid contribution of the "skeletal" chloride channel ClC-1 to the regulation of brain excitability and the need for further elucidation of the roles of CLCN genes in neuronal network excitability disorders.
  Neurology 02/2013; · 8.31 Impact Factor
• Source

  Available from: Davide Mei

  Article: Do mutations in SCN1B cause Dravet syndrome?

  Young Ok Kim, Leanne Dibbens, Carla Marini, Arvid Suls, Nicole Chemaly, Davide Mei, Jacinta M McMahon, Xenia Iona, Samuel F Berkovic, Peter De Jonghe, Renzo Guerrini, Rima Nabbout, Ingrid E Scheffer
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  ABSTRACT: A homozygous SCN1B mutation was previously identified in a patient with early onset epileptic encephalopathy (EOEE) described as Dravet syndrome (DS) despite a more severe phenotype than DS. We investigated whether SCN1B mutations are a common cause of DS. Patients with DS who did not have a SCN1A sequencing mutation or copy number variation were studied. Genomic DNA was Sanger sequenced for mutations in the 6 exons of SCN1B. In 54 patients with DS recruited from four centres, no SCN1B mutations were identified. SCN1B mutation is not a common cause of DS.
  Epilepsy research 11/2012; · 2.48 Impact Factor
• Article: PRRT2 phenotypic spectrum includes sporadic and fever-related infantile seizures.

  Ingrid E Scheffer, Bronwyn E Grinton, Sarah E Heron, Sara Kivity, Zaid Afawi, Xenia Iona, Hadassa Goldberg-Stern, Maria Kinali, Ian Andrews, Renzo Guerrini, Carla Marini, Lynette G Sadleir, Samuel F Berkovic, Leanne M Dibbens
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  ABSTRACT: OBJECTIVE: Benign familial infantile epilepsy (BFIE) is an autosomal dominant epilepsy syndrome characterized by afebrile seizures beginning at about 6 months of age. Mutations in PRRT2, encoding the proline-rich transmembrane protein 2 gene, have recently been identified in the majority of families with BFIE and the associated syndrome of infantile convulsions and choreoathetosis (ICCA). We asked whether the phenotypic spectrum of PRRT2 was broader than initially recognized by studying patients with sporadic benign infantile seizures and non-BFIE familial infantile seizures for PRRT2 mutations. METHODS: Forty-four probands with infantile-onset seizures, infantile convulsions with mild gastroenteritis, and benign neonatal seizures underwent detailed phenotyping and PRRT2 sequencing. The familial segregation of mutations identified in probands was studied. RESULTS: The PRRT2 mutation c.649-650insC (p.R217fsX224) was identified in 11 probands. Nine probands had a family history of BFIE or ICCA. Two probands had no family history of infantile seizures or paroxysmal kinesigenic dyskinesia and had de novo PRRT2 mutations. Febrile seizures with or without afebrile seizures were observed in 2 families with PRRT2 mutations. CONCLUSIONS: PRRT2 mutations are present in >80% of BFIE and >90% ICCA families, but are not a common cause of other forms of infantile epilepsy. De novo mutations of PRRT2 can cause sporadic benign infantile seizures. Seizures with fever may occur in BFIE such that it may be difficult to distinguish BFIE from febrile seizures and febrile seizures plus in small families.
  Neurology 10/2012; · 8.31 Impact Factor
• Article: PRRT2 mutations in familial infantile seizures, paroxysmal dyskinesia, and hemiplegic migraine.

  Carla Marini, Valerio Conti, Davide Mei, Domenica Battaglia, Donatella Lettori, Emma Losito, Grazia Bruccini, Gaetano Tortorella, Renzo Guerrini
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  ABSTRACT: OBJECTIVE: To perform a clinical and genetic study of a family with benign familial infantile seizures (BFIS) and, upon finding a PRRT2 gene mutation, to study a cohort of probands with a similar phenotype. We extended the study to all available family members to find out whether PRRT2 mutations cosegregated with additional symptoms. METHODS: We carried out a clinical and genealogic study of a 3-generation family and of 32 additional probands with BFIS (11 families), infantile convulsions and paroxysmal choreoathetosis (ICCA) (9 families), BFIS/generalized epilepsy with febrile seizures plus (5 families), and sporadic benign neonatal or infantile seizures (7 probands/families). We performed a genetic study consisting of linkage analysis and PRRT2 screening of the 33 probands/families. RESULTS: We obtained a positive linkage in the 16p11.3-q23.1 chromosomal region in the large BFIS family. Mutation analysis of PRRT2 gene revealed a c.649dupC (p.Arg217Profs*8) in all affected individuals. PRRT2 analysis of the 32 additional probands showed mutations in 10, 8 familial and 2 sporadic, probands. Overall we found PRRT2 mutations in 11 probands with a mutation rate of 11 out of 33 (33%). BFIS co-occurred with migraine and febrile seizures in 2 families, with childhood absence epilepsy in one family and with hemiplegic migraine in one family. CONCLUSION: Our results confirm the predominant role of PRRT2 mutations in BFIS and expand the spectrum of PRRT2-associated phenotypes to include febrile seizures, childhood absence seizures, migraine, and hemiplegic migraine.
  Neurology 10/2012; · 8.31 Impact Factor
• Article: Genome-wide association analysis of genetic generalized epilepsies implicates susceptibility loci at 1q43, 2p16.1, 2q22.3 and 17q21.32.

  Epicure Consortium, Eminet Consortium, Michael Steffens, Costin Leu, Ann-Kathrin Ruppert, Federico Zara, Pasquale Striano, Angela Robbiano, Giuseppe Capovilla, Paolo Tinuper, [......], Herbert Schulz, Franz Rüschendorf, Markus Leber, Steffen M Pauck, Holger Trucks, Mohammad R Toliat, Peter Nürnberg, Giuliano Avanzini, Bobby P C Koeleman, Thomas Sander
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  ABSTRACT: Genetic generalized epilepsies (GGEs) have a lifetime prevalence of 0.3% and account for 20-30% of all epilepsies. Despite their high heritability of 80%, the genetic factors predisposing to GGEs remain elusive. To identify susceptibility variants shared across common GGE syndromes, we carried out a two-stage genome-wide association study (GWAS) including 3020 patients with GGEs and 3954 controls of European ancestry. To dissect out syndrome-related variants, we also explored two distinct GGE subgroups comprising 1434 patients with genetic absence epilepsies (GAEs) and 1134 patients with juvenile myoclonic epilepsy (JME). Joint Stage-1 and 2 analyses revealed genome-wide significant associations for GGEs at 2p16.1 (rs13026414, P(meta) = 2.5 × 10(-9), OR[T] = 0.81) and 17q21.32 (rs72823592, P(meta) = 9.3 × 10(-9), OR[A] = 0.77). The search for syndrome-related susceptibility alleles identified significant associations for GAEs at 2q22.3 (rs10496964, P(meta) = 9.1 × 10(-9), OR[T] = 0.68) and at 1q43 for JME (rs12059546, P(meta) = 4.1 × 10(-8), OR[G] = 1.42). Suggestive evidence for an association with GGEs was found in the region 2q24.3 (rs11890028, P(meta) = 4.0 × 10(-6)) nearby the SCN1A gene, which is currently the gene with the largest number of known epilepsy-related mutations. The associated regions harbor high-ranking candidate genes: CHRM3 at 1q43, VRK2 at 2p16.1, ZEB2 at 2q22.3, SCN1A at 2q24.3 and PNPO at 17q21.32. Further replication efforts are necessary to elucidate whether these positional candidate genes contribute to the heritability of the common GGE syndromes.
  Human Molecular Genetics 09/2012; · 7.64 Impact Factor
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  Available from: Nicola Specchio

  Article: Focal seizures with affective symptoms are a major feature of PCDH19 gene-related epilepsy.

  Carla Marini, Francesca Darra, Nicola Specchio, Davide Mei, Alessandra Terracciano, Lucio Parmeggiani, Annarita Ferrari, Federico Sicca, Massimo Mastrangelo, Luigina Spaccini, [......], Salvatore Grosso, Tiziana Pisano, Maria Paola Canevini, Tiziana Granata, Patrizia Accorsi, Domenica Battaglia, Raffaella Cusmai, Federico Vigevano, Bernardo Dalla Bernardina, Renzo Guerrini
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  ABSTRACT: Purpose:  Mutations of the protocadherin19 gene (PCDH19) cause a female-related epilepsy of variable severity, with or without mental retardation and autistic features. Despite the increasing number of patients and mutations reported, the epilepsy phenotype associated with PCDH19 mutations is still unclear. We analyzed seizure semiology through ictal video-electroencephalography (EEG) recordings in a large series of patients. Methods:  We studied 35 patients with PCDH19 gene-related epilepsy and analyzed clinical history and ictal video-EEG recordings obtained in 34 of them. Key Findings:  Clusters of focal febrile and afebrile seizures had occurred in 34 patients, at a mean age of 10 months. The predominant and more consistent ictal sign was fearful screaming, occurring in 24 patients (70.5%); it was present since epilepsy onset in 12 and appeared later on, during the course in the remaining 12 patients. In infancy, fearful screaming mainly appeared within the context of seizures with prominent hypomotor semiology, whereas during follow-up it was associated with prominent early motor manifestations. In 16 patients, seizures were video-EEG recorded both at onset and during follow-up: in five patients (31%) seizure semiology remained identical, in 7 (44%) semiology varied and in four patients it was unclear whether ictal semiology changed with age. Three patients (9%) had both focal and generalized seizures, the latter consisting of absences and myoclonus. Ictal EEG during focal seizures showed a prominent involvement of the frontotemporal regions (22 patients). About 45% of patients had an alternating EEG pattern, with the ictal discharge migrating from one hemisphere to the contralateral during the same ictal event. Status epilepticus occurred in 30% of patients. Cognitive impairment occurred in 70%, ranging from mild (42%) to moderate (54%) and severe (4%); autistic features occurred in 28.5%. Direct sequencing detected 33 different heterozygous candidate mutations, 8 of which were novel. Mutations were missense substitutions (48.5%), premature termination (10 frameshift, 4 nonsense, and 2 splice-site mutations; 48.5%), and one in-frame deletion. Thirty candidate mutations (91%) were de novo. No specific genotype-phenotype correlation could be established, as missense and truncating mutations were associated with phenotypes of comparable severity. Significance:  Most patients with PCDH19 mutations exhibit a distinctive electroclinical pattern of focal seizures with affective symptoms, suggesting an epileptogenic dysfunction involving the frontotemporal limbic system. Awareness of this distinctive phenotype will likely enhance recognition of this disorder.
  Epilepsia 09/2012; · 3.96 Impact Factor
• Article: Peritrigonal and temporo-occipital heterotopia with corpus callosum and cerebellar dysgenesis.

  Tiziana Pisano, A James Barkovich, Richard J Leventer, Waney Squier, Ingrid E Scheffer, Elena Parrini, Susan Blaser, Carla Marini, Stephen Robertson, Gaetano Tortorella, Felix Rosenow, Pierre Thomas, George McGillivray, Eva Andermann, Frederick Andermann, Samuel F Berkovic, William B Dobyns, Renzo Guerrini
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  ABSTRACT: To describe a homogeneous subtype of periventricular nodular heterotopia (PNH) as part of a newly defined malformation complex. Observational study including review of brain MRI and clinical findings of a cohort of 50 patients with PNH in the temporo-occipital horns and trigones, mutation analysis of the FLNA gene, and anatomopathologic study of a fetal brain. There were 28 females and 22 males. All were sporadic with the exception of an affected mother and son. Epilepsy occurred in 62%, cerebellar signs in 56%, cognitive impairment in 56%, and autism in 12%. Seventy percent were referred within the 3rd year of life. Imaging revealed a normal cerebral cortex in 76% and abnormal cortical folding in 24%. In all patients the hippocampi were under-rotated and in 10% they merged with the heterotopia. Cerebellar dysgenesis was observed in 84% and a hypoplastic corpus callosum in 60%. There was no gender bias or uneven gender distribution of clinical and anatomic severity. No mutations of FLNA occurred in 33 individuals examined. Heterotopia in the fetal brain revealed cytoarchitectonic characteristics similar to those associated with FLNA mutations; cortical pathology was not typical of polymicrogyria. Cerebellar involvement was more severe and the hippocampi appeared simple and under-rotated. This series delineates a malformation complex in which PNH in the trigones and occipito-temporal horns is associated with hippocampal, corpus callosum, and cerebellar dysgenesis. This subtype of PNH is distinct from classic PNH caused by FLNA mutations.
  Neurology 08/2012; 79(12):1244-51. · 8.31 Impact Factor
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  Available from: Sarah Weckhuysen

  Article: Genome-wide linkage meta-analysis identifies susceptibility loci at 2q34 and 13q31.3 for genetic generalized epilepsies.

  Costin Leu, Carolien G F de Kovel, Federico Zara, Pasquale Striano, Marianna Pezzella, Angela Robbiano, Amedeo Bianchi, Francesca Bisulli, Antonietta Coppola, Anna Teresa Giallonardo, [......], Nerses Bebek, Ugur Ozbek, Anne Hempelmann, Herbert Schulz, Franz Rüschendorf, Holger Trucks, Peter Nürnberg, Giuliano Avanzini, Bobby P C Koeleman, Thomas Sander
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  ABSTRACT: Genetic generalized epilepsies (GGEs) have a lifetime prevalence of 0.3% with heritability estimates of 80%. A considerable proportion of families with siblings affected by GGEs presumably display an oligogenic inheritance. The present genome-wide linkage meta-analysis aimed to map: (1) susceptibility loci shared by a broad spectrum of GGEs, and (2) seizure type-related genetic factors preferentially predisposing to either typical absence or myoclonic seizures, respectively. Meta-analysis of three genome-wide linkage datasets was carried out in 379 GGE-multiplex families of European ancestry including 982 relatives with GGEs. To dissect out seizure type-related susceptibility genes, two family subgroups were stratified comprising 235 families with predominantly genetic absence epilepsies (GAEs) and 118 families with an aggregation of juvenile myoclonic epilepsy (JME). To map shared and seizure type-related susceptibility loci, both nonparametric loci (NPL) and parametric linkage analyses were performed for a broad trait model (GGEs) in the entire set of GGE-multiplex families and a narrow trait model (typical absence or myoclonic seizures) in the subgroups of JME and GAE families. For the entire set of 379 GGE-multiplex families, linkage analysis revealed six loci achieving suggestive evidence for linkage at 1p36.22, 3p14.2, 5q34, 13q12.12, 13q31.3, and 19q13.42. The linkage finding at 5q34 was consistently supported by both NPL and parametric linkage results across all three family groups. A genome-wide significant nonparametric logarithm of odds score of 3.43 was obtained at 2q34 in 118 JME families. Significant parametric linkage to 13q31.3 was found in 235 GAE families assuming recessive inheritance (heterogeneity logarithm of odds = 5.02). Our linkage results support an oligogenic predisposition of familial GGE syndromes. The genetic risk factor at 5q34 confers risk to a broad spectrum of familial GGE syndromes, whereas susceptibility loci at 2q34 and 13q31.3 preferentially predispose to myoclonic seizures or absence seizures, respectively. Phenotype- genotype strategies applying narrow trait definitions in phenotypic homogeneous subgroups of families improve the prospects of disentangling the genetic basis of common familial GGE syndromes.
  Epilepsia 02/2012; 53(2):308-18. · 3.96 Impact Factor
• Article: Copy number variants and infantile spasms: evidence for abnormalities in ventral forebrain development and pathways of synaptic function.

  Alex R Paciorkowski, Liu Lin Thio, Jill A Rosenfeld, Marzena Gajecka, Christina A Gurnett, Shashikant Kulkarni, Wendy K Chung, Eric D Marsh, Mattia Gentile, James D Reggin, James W Wheless, Sandhya Balasubramanian, Ravinesh Kumar, Susan L Christian, Carla Marini, Renzo Guerrini, Natalia Maltsev, Lisa G Shaffer, William B Dobyns
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  ABSTRACT: Infantile spasms (ISS) are an epilepsy disorder frequently associated with severe developmental outcome and have diverse genetic etiologies. We ascertained 11 subjects with ISS and novel copy number variants (CNVs) and combined these with a new cohort with deletion 1p36 and ISS, and additional published patients with ISS and other chromosomal abnormalities. Using bioinformatics tools, we analyzed the gene content of these CNVs for enrichment in pathways of pathogenesis. Several important findings emerged. First, the gene content was enriched for the gene regulatory network involved in ventral forebrain development. Second, genes in pathways of synaptic function were overrepresented, significantly those involved in synaptic vesicle transport. Evidence also suggested roles for GABAergic synapses and the postsynaptic density. Third, we confirm the association of ISS with duplication of 14q12 and maternally inherited duplication of 15q11q13, and report the association with duplication of 21q21. We also present a patient with ISS and deletion 7q11.3 not involving MAGI2. Finally, we provide evidence that ISS in deletion 1p36 may be associated with deletion of KLHL17 and expand the epilepsy phenotype in that syndrome to include early infantile epileptic encephalopathy. Several of the identified pathways share functional links, and abnormalities of forebrain synaptic growth and function may form a common biologic mechanism underlying both ISS and autism. This study demonstrates a novel approach to the study of gene content in subjects with ISS and copy number variation, and contributes further evidence to support specific pathways of pathogenesis.
  European journal of human genetics: EJHG 06/2011; 19(12):1238-45. · 3.56 Impact Factor
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  Available from: Kate Lawrence

  Article: Glucose transporter 1 deficiency as a treatable cause of myoclonic astatic epilepsy.

  Saul A Mullen, Carla Marini, Arvid Suls, Davide Mei, Elvio Della Giustina, Daniela Buti, Todor Arsov, John Damiano, Kate Lawrence, Peter De Jonghe, Samuel F Berkovic, Ingrid E Scheffer, Renzo Guerrini
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  ABSTRACT: To determine if a significant proportion of patients with myoclonic-astatic epilepsy (MAE) have glucose transporter 1 (GLUT1) deficiency. Genetic analysis. Ambulatory and hospitalized care. Eighty-four unrelated probands with MAE were phenotyped and SLC2A1 was sequenced and analyzed by multiplex ligation-dependent probe amplification. Any identified mutations were then screened in controls. Any SLC2A1 mutations. Four of 84 probands with MAE had a mutation of SLC2A1 on sequencing. Multiplex ligation-dependent probe amplification analysis did not reveal any genomic rearrangements in 75 of the remaining cases; 5 could not be tested. Two patients with MAE with SLC2A1 mutations also developed paroxysmal exertional dyskinesia in childhood. Five percent of our patients with MAE had SLC2A1 mutations, suggesting that patients with MAE should be tested for GLUT1 deficiency. Diagnosis of GLUT1 deficiency is a strong indication for early use of the ketogenic diet, which may substantially improve outcome of this severe disorder.
  Archives of neurology 05/2011; 68(9):1152-5. · 6.31 Impact Factor
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  Available from: Davide Mei

  Article: Spectrum of phenotypes in female patients with epilepsy due to protocadherin 19 mutations.

  Nicola Specchio, Carla Marini, Alessandra Terracciano, Davide Mei, Marina Trivisano, Federico Sicca, Lucia Fusco, Raffaella Cusmai, Francesca Darra, Bernardo Dalla Bernardina, Enrico Bertini, Renzo Guerrini, Federico Vigevano
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  ABSTRACT: To describe clinical and neuropsychological features of six consecutive sporadic girls with protocadherin 19 (PCDH19) mutations. Following recent descriptions of PCDH19 mutation in girls with epilepsy, we sequenced this gene in patients with infantile or early childhood seizures onset, either focal or generalized, without an obvious etiology. Mean age at the time of the study was 13.5 ± 11 years. Mean age at seizure onset was 15.5 ± 11 months (range 9-38). All patients experienced clusters of either focal or generalized seizures, precipitated during febrile illness in five patients. Attacks were very frequent at onset, but they became less numerous during follow-up. Ictal electroencephalography (EEG) showed temporal lobe involvement in five patients. Periictal EEG showed focal or multifocal epileptiform and slow abnormalities. Cognitive impairment became obvious after seizure onset in three patients and was associated with autistic features in two. Genetic analysis revealed five new and one known de novo PCDH19 mutation that were missense in four and frameshift in two. Variants are clustered in the large exon 1, corresponding to the extracellular domain of the PCDH19 protein. Our findings emphasize that de novo PCDH19 mutations are associated with infantile or early childhood onset of febrile or afebrile seizures often occurring in clusters. Cognitive impairment is not constantly present and autistic features are observed in some patients. Most patients have a "stormy" seizure onset, often related to fever; however, seizure severity does not clearly correlate with the degree of cognitive deficit. PCDH19 is likely a major epilepsy gene; phenotypes associated with mutations of this gene range from epileptic encephalopathies to mild epilepsy, yet large series of patients will be necessary to fully delineate phenotypic spectrum.
  Epilepsia 04/2011; 52(7):1251-7. · 3.96 Impact Factor
• Article: The genetics of Dravet syndrome.

  Carla Marini, Ingrid E Scheffer, Rima Nabbout, Arvid Suls, Peter De Jonghe, Federico Zara, Renzo Guerrini
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  ABSTRACT: Dravet syndrome (DS), otherwise known as severe myoclonic epilepsy of infancy (SMEI), is an epileptic encephalopathy presenting in the first year of life. DS has a genetic etiology: between 70% and 80% of patients carry sodium channel α1 subunit gene (SCN1A) abnormalities, and truncating mutations account for about 40% and have a significant correlation with an earlier age of seizures onset. The remaining SCN1A mutations comprise splice-site and missense mutations, most of which fall into the pore-forming region of the sodium channel. Mutations are randomly distributed across the SCN1A protein. Most mutations are de novo, but familial SCN1A mutations also occur. Somatic mosaic mutations have also been reported in some patients and might explain the phenotypical variability seen in some familial cases. SCN1A exons deletions or chromosomal rearrangements involving SCN1A and contiguous genes are also detectable in about 2-3% of patients. A small percentage of female patients with a DS-like phenotype might carry PCDH19 mutations. Rare mutations have been identified in the GABARG2 and SCN1B genes. The etiology of about 20% of DS patients remains unknown, and additional genes are likely to be implicated.
  Epilepsia 04/2011; 52 Suppl 2:24-9. · 3.96 Impact Factor
• Article: Corpus callosum agenesis, severe mental retardation, epilepsy, and dyskinetic quadriparesis due to a novel mutation in the homeodomain of ARX.

  Valerio Conti, Carla Marini, Simone Gana, Jyotsna Sudi, William B Dobyns, Renzo Guerrini
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  ABSTRACT: We report on a patient with agenesis of the corpus callosum (ACC), severe mental retardation, infantile spasms and subsequent intractable epilepsy, spastic/dyskinetic quadriparesis, severe limb contractures, and scoliosis. This complex, newly described phenotype, is due to a novel non-conservative missense mutation in the ARX homeodomain (c.1072A>T; p.R358W), inherited from the unaffected mother. Differently from previously reported non-conservative mutations falling within the same domain, p.R358W did not cause XLAG. It is therefore possible that differences in clinical manifestations between our patient and those with XLAG, are related to the different position of the amino acid substitution in the homeodomain, or to the different chemical properties introduced by the substitution itself. To test the hypothesis that the patient's mother was asymptomatic because of non-random X chromosome inactivation (XCI), we performed DNA methylation studies of the human androgen receptor gene, demonstrating skewing of the XCI ratio (85:15). The complex phenotype described here combines different traits that had previously been linked to various ARX mutations, including conservative missense mutations in the homeodomain and expansion in the first ARX polyalanine tract and contributes to the expanding pleiotropy associated with ARX mutations.
  American Journal of Medical Genetics Part A 03/2011; 155A(4):892-7. · 2.39 Impact Factor
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  Available from: Alessio Toraldo

  Article: Cognitive development in Dravet syndrome: a retrospective, multicenter study of 26 patients.

  Francesca Ragona, Tiziana Granata, Bernardo Dalla Bernardina, Francesca Offredi, Francesca Darra, Domenica Battaglia, Monica Morbi, Daniela Brazzo, Simona Cappelletti, Daniela Chieffo, [......], Elena Fontana, Elena Freri, Carla Marini, Alessio Toraldo, Nicola Specchio, Pierangelo Veggiotti, Federico Vigevano, Renzo Guerrini, Francesco Guzzetta, Charlotte Dravet
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  ABSTRACT: To clarify the role of epilepsy and genetic background in determining the cognitive outcome of patients with Dravet syndrome. In this retrospective study, we reviewed the clinical history and cognitive development of 26 patients who had been followed with standardized evaluations since seizure onset. The cognitive outcome was quantified as differential general quotient (dGQ) between ages 12 and 60 months. Statistical analysis correlated the dGQ with genotype and epilepsy course. Epilepsy started at the mean age of 5.6 months. All patients experienced prolonged convulsive seizures, whereas absences and myoclonus were reported in 17. Cognitive outcome was poor in almost all patients; the mean dGQ was 33 points, varying from 6-77 points. The analysis of individual cognitive profiles identified seven patients in whom the dGQ was <20 points; the main clinical characteristic in this subset of patients was lack of early absences and myoclonus. The statistical analysis of the whole series failed to reveal significant differences in cognitive outcome with regard to the presence of SCN1A mutations and their type. In particular, mutation-carrier patients with the best cognitive outcome harbored either missense or truncating mutations. Dravet syndrome encompasses different epileptic and cognitive phenotypes that probably result from both genetic and epigenetic factors. In this series, early appearance of myoclonus and absences was associated with the worst cognitive outcome.
  Epilepsia 02/2011; 52(2):386-92. · 3.96 Impact Factor
• Article: CDKL5 gene-related epileptic encephalopathy: electroclinical findings in the first year of life.

  Federico Melani, Davide Mei, Tiziana Pisano, Salvatore Savasta, Emilio Franzoni, Anna Rita Ferrari, Carla Marini, Renzo Guerrini
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  ABSTRACT: Cyclin-dependent kinase-like 5 (CDKL5) gene abnormalities cause an early-onset epileptic encephalopathy. We performed video-electroencephalography (video-EEG) monitoring early in the course of CDKL5-related epileptic encephalopathy in order to examine the early electroclinical characteristics of the condition. We used video-EEG to monitor six infants (five females, one male) with CDKL5-related epileptic encephalopathy (five mutations; one deletion), at ages 45 days to 12 months and followed them up to the ages of 14 months to 5 years (mean age 23 mo). We focused our analysis on the first year of life. The results were evaluated against those of a comparison group of nine infants (aged below 1y) with epileptic encephalography who had tested negative for CDKL5 mutations and deletions. One infant exhibited normal background activity, three exhibited moderate slowing, and two exhibited a suppression burst pattern. Two participants had epileptic spasms and four had a stereotyped complex seizure pattern, which we defined as a 'prolonged' generalized tonic-clonic event consisting of a tonic-tonic/vibratory contraction, followed by a clonic phase with series of spasms, gradually translating into repetitive distal myoclonic jerks. Seizure duration ranged from 2 to 4 minutes. The EEG correlate of each clinical phase included an initial electrodecremental event (tonic vibratory phase), irregular series of sharp waves and spike slow waves (clonic phase with series of spasms), and bilateral rhythmic sharp waves (time locked with myoclonus). Infants with CDKL5-related early epileptic encephalopathy can present in the first year of life with an unusual electroclinical pattern of 'prolonged' generalized tonic-clonic seizures.
  Developmental Medicine & Child Neurology 02/2011; 53(4):354-60. · 2.92 Impact Factor
• Article: Contractions in the second polyA tract of ARX are rare, non-pathogenic polymorphisms.

  Valerio Conti, Carla Marini, Davide Mei, Melania Falchi, Anna Rita Ferrari, Renzo Guerrini
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  ABSTRACT: Aristaless related homeobox (ARX) is a transcription factor containing highly conserved octapeptide, homeobox, acidic, and aristaless domains, as well as four polyA tracts. The most frequent ARX mutation found to date in patients with X-linked infantile spasms, Partington syndrome or X-linked mental retardation, is a duplication of 24 bp in exon 2, resulting in the expansion of the second polyA tract. Although the pathogenic role of this expansion has been well characterized, the effect of contractions in the same polyA tract is still debated since different reports have associated contractions to either mental retardation or a normal phenotype. Here, we report two unrelated girls with epilepsy and mental retardation who inherited from their unaffected parents, of either sex, a deletion of 24 bp (c.441_464del), resulting in a contraction of eight alanines in the second polyA tract of ARX. Segregation studies revealed the c.441_464del also in two healthy relatives of one of the patients. This finding supports the hypothesis that this contraction represents a rare, benign polymorphism.
  American Journal of Medical Genetics Part A 01/2011; 155A(1):164-7. · 2.39 Impact Factor
• Article: A duplication in 1q21.3 in a family with early onset and childhood absence epilepsy.

  Hiltrud Muhle, Ines Steinich, Sarah von Spiczak, Andre Franke, Yvonne Weber, Holger Lerche, Michael Wittig, Simone Heidemann, Arvid Suls, Peter de Jonghe, Carla Marini, Renzo Guerrini, Ingrid E Scheffer, Samuel F Berkovic, Ulrich Stephani, Reiner Siebert, Thomas Sander, Ingo Helbig, Holger Tönnies
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  ABSTRACT: Early onset absence epilepsy (EOAE) starting before the age of 4 years constitutes a rare subgroup of the idiopathic generalized epilepsies (IGEs). A strong genetic component in IGE has been suggested by twin and family studies. We describe a boy with absence seizures starting at the age of 9 months whose parents both had childhood absence epilepsy. A 192-kb duplication in 1q21.3 was identified in the proband and his father, encompassing the gene CHRNB2 coding for the β-2 subunit of the nicotinic acetylcholine receptor and the gene ADAR coding for adenosine deaminase, an enzyme responsible for RNA editing. Both are candidate genes for seizure disorders. The duplication was not identified in 191 independent IGE patients (93 EOAE; 98 classical IGE) or in 1,157 population controls.
  Epilepsia 12/2010; 51(12):2453-6. · 3.96 Impact Factor
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  Available from: Tiziana Metitieri

  Article: Variable epilepsy phenotypes associated with a familial intragenic deletion of the SCN1A gene.

  Renzo Guerrini, Elena Cellini, Davide Mei, Tiziana Metitieri, Cristina Petrelli, Daniela Pucatti, Carla Marini, Nelia Zamponi
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  ABSTRACT: Deletions and duplications/amplifications of the α1-sodium channel subunit (SCN1A) gene occur in about 12% of patients with Dravet syndrome (DS) who are otherwise mutation-negative. Such genomic abnormalities cause loss of function, with severe phenotypes, reproductive disadvantage and, therefore, sporadic occurrence. Inherited mutations, occurring in ∼5% of patients with DS, are usually missense; transmission occurs from a mildly affected parent exhibiting febrile seizures (FS) or the generalized epilepsy with febrile seizures plus (GEFS+) spectrum. We identified an intragenic SCN1A deletion in a three-generation, clinically heterogeneous family. Sequence analysis of SCN9A, a putative modifier, ruled out pathogenic mutations, variants, or putative disease-associated haplotype segregating with phenotype severity. Intrafamilial variability in phenotype severity indicates that SCN1A loss of function causes a phenotypic spectrum in which seizures precipitated by fever are prominent and schematic syndrome subdivisions would be inappropriate. SCN1A deletions should be ruled out even in individuals with mild phenotypes.
  Epilepsia 12/2010; 51(12):2474-7. · 3.96 Impact Factor
• Article: Clinical and imaging heterogeneity of polymicrogyria: a study of 328 patients.

  Richard J Leventer, Anna Jansen, Daniela T Pilz, Neil Stoodley, Carla Marini, Francois Dubeau, Jodie Malone, L Anne Mitchell, Simone Mandelstam, Ingrid E Scheffer, Samuel F Berkovic, Frederick Andermann, Eva Andermann, Renzo Guerrini, William B Dobyns
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  ABSTRACT: Polymicrogyria is one of the most common malformations of cortical development and is associated with a variety of clinical sequelae including epilepsy, intellectual disability, motor dysfunction and speech disturbance. It has heterogeneous clinical manifestations and imaging patterns, yet large cohort data defining the clinical and imaging spectrum and the relative frequencies of each subtype are lacking. The aims of this study were to determine the types and relative frequencies of different polymicrogyria patterns, define the spectrum of their clinical and imaging features and assess for clinical/imaging correlations. We studied the imaging features of 328 patients referred from six centres, with detailed clinical data available for 183 patients. The ascertainment base was wide, including referral from paediatricians, geneticists and neurologists. The main patterns of polymicrogyria were perisylvian (61%), generalized (13%), frontal (5%) and parasagittal parieto-occipital (3%), and in 11% there was associated periventricular grey matter heterotopia. Each of the above patterns was further divided into subtypes based on distinguishing imaging characteristics. The remaining 7% were comprised of a number of rare patterns, many not described previously. The most common clinical sequelae were epileptic seizures (78%), global developmental delay (70%), spasticity (51%) and microcephaly (50%). Many patients presented with neurological or developmental abnormalities prior to the onset of epilepsy. Patients with more extensive patterns of polymicrogyria presented at an earlier age and with more severe sequelae than those with restricted or unilateral forms. The median age at presentation for the entire cohort was 4 months with 38% presenting in either the antenatal or neonatal periods. There were no significant differences between the prevalence of epilepsy for each polymicrogyria pattern, however patients with generalized and bilateral forms had a lower age at seizure onset. There was significant skewing towards males with a ratio of 3:2. This study expands our understanding of the spectrum of clinical and imaging features of polymicrogyria. Progression from describing imaging patterns to defining anatomoclinical syndromes will improve the accuracy of prognostic counselling and will aid identification of the aetiologies of polymicrogyria, including genetic causes.
  Brain 05/2010; 133(Pt 5):1415-27. · 9.46 Impact Factor
• Article: Xp22.3 genomic deletions involving the CDKL5 gene in girls with early onset epileptic encephalopathy.

  Davide Mei, Carla Marini, Francesca Novara, Bernardo D Bernardina, Tiziana Granata, Elena Fontana, Elena Parrini, Anna R Ferrari, Alessandra Murgia, Orsetta Zuffardi, Renzo Guerrini
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  ABSTRACT: Mutations of the X-linked gene cyclin-dependent kinase-like 5 (CDKL5) cause an X-linked encephalopathy with early onset intractable epilepsy, including infantile spasms and other seizure types, and a Rett syndrome (RTT)-like phenotype. Very limited information is available on the frequency and phenotypic spectrum associated with CDKL5 deletions/duplications. We investigated the role of CDKL5 deletions/duplications in causing early onset intractable epilepsy of unknown etiology in girls. We studied 49 girls with early onset intractable epilepsy, with or without infantile spasms, and developmental impairment, for whom no etiologic factors were obvious after clinical examination, brain magnetic resonance imaging (MRI) and expanded screening for inborn errors of metabolism. We performed CDKL5 gene mutation analysis in all and multiplex ligation dependent probe amplification assay (MLPA) in those who were mutation negative. Custom Array-comparative genomic hybridization (CGH), breakpoint polymerase chain reaction (PCR) analysis, and X-inactivation studies were performed in patients in whom MLPA uncovered a genomic alteration. We found CDKL5 mutations in 8.2% (4 of 49) of patients and genomic deletions in 8.2% (4 of 49). Overall, abnormalities of the CDKL5 gene accounted for 16.3% (8 of 49) of patients. CDKL5 gene deletions are an under-ascertained cause of early onset intractable epilepsy in girls. Genetic testing of CDKL5, including both mutation and deletion/duplication analysis, should be considered in this clinical subgroup.
  Epilepsia 09/2009; 51(4):647-54. · 3.96 Impact Factor