[Progressive myoclonic epilepsy: a retrospective study of newly-diagnosed adult patients from a single center].

OBJECTIVE: To retrospectively analyze the clinical phenotype and pathogenic variants in patients with Progressive myoclonus epilepsy (PME). METHODS: Clinical data and results of genetic testing for 11 patients diagnosed with PME at the Department of Neurology, the First Affiliated Hospital of Zhejiang University School of Medicine from June 2017 to December 2022 were collected and analyzed. RESULTS: All of the patients, including 4 males and 7 females, had predominant action myoclonus. Three patients had myoclonus as the initial manifestation, whilst eight were diagnosed through genetic testing, including three cases with NEU1 gene variants, two with EPM2A gene variants (1 was novel), one with MT-TK gene variant, one with ATN1 gene variant, and one with CSTB gene variant. No pathogenic variant was identified in the remaining three cases. Among the eight patients with a genetic diagnosis, three were diagnosed with sialidosis, two with Lafora disease, one with Dentatorubral-pallidoluysian atrophy (DRPLA), one with Unverricht-Lundborg disease (ULD), and one with Myoclonic epilepsy with ragging red fibers (MERRF). CONCLUSION: Compared with pediatric patients, adult patients with PME represent a distinct subtype with slower progression and milder cognitive impairment.

Two rare autosomal recessive neurological disorders identified by combined genetic approaches in a single consanguineous family with multiple offspring.

INTRODUCTION: Neurodevelopmental disorders (NDDs) refer to a broad range of diseases including developmental delay, intellectual disability, epilepsy, autism spectrum disorders, and attention-deficit/hyperactivity disorder caused by dysfunctions in tightly controlled brain development. The genetic backgrounds of NDDs are quite heterogeneous; to date, recessive or dominant variations in numerous genes have been implicated. Herein, we present a large consanguineous family from Turkiye, who has been suffering from NDDs with two distinct clinical presentations. METHODS AND RESULTS: Combined in-depth genetic approaches led us to identify a homozygous frameshift variant in NALCN related to NDD and expansion of dodecamer repeat in CSTB related to Unverricht-Lundborg disease (ULD). Additionally, we sought to functionally analyze the NALCN variant in terms of mRNA expression level and current alteration. We have both detected a decrease in the level of premature stop codon-bearing mRNA possibly through nonsense-mediated mRNA decay mechanism and also an increased current in patch-clamp recordings for the expressed truncated protein. CONCLUSION: In conclusion, increased consanguinity may lead to the revealing of distinct rare neurogenetic diseases in a single family. Exome sequencing is generally considered the first-tier diagnostic test in individuals with NDD. Yet we underline the fact that customized approaches other than exome sequencing may be used as in the case of ULD to aid diagnosis and better genetic counseling.

Generation of a human induced pluripotent stem cell line (UEFi004-A) from a patient with progressive myoclonic epilepsy type 1 (EPM1).

Progressive myoclonic epilepsy type 1 (EPM1) is an autosomal recessive disorder caused by mutations in the cystatin B gene (CSTB). Affected individual's manifest stimulus-sensitive and action myoclonus and tonic-clonic epileptic seizures. In this study, we have generated iPSCs from an EPM1 patient's skin fibroblasts with Sendai virus mediated transgene delivery. The iPSCs retained the patient specific promoter region expansion mutation, expressed pluripotency markers, differentiated into all three germ layers, and presented a normal karyotype. The line can in future be used to develop an in-vitro model for EPM1 and may help in understanding disease mechanisms at cellular and molecular level.

Negative myoclonus causes locomotory disability in progressive myoclonus epilepsy type EPM1- Unverricht-Lundborg disease.

OBJECTIVE: Patients with Unverricht-Lundborg disease/EPM1 develop increasing locomotory disability or ataxia in the course of their disease. To test our hypothesis that negative myoclonus is the reason for this increasing ataxia, we investigated a possible correlation over time. METHODS: In 15 patients with EPM1who were confirmed to have a mutation in the CSTB gene, polygraphic video-EEG-EMG recordings were performed in freely moving or standing patients. The criterion for the duration of the negative myoclonus was the measured length of the silent periods on the EMG. RESULTS: All 15 patients had documented negative myoclonus when standing and walking. The mean duration of silent periods significantly increased from 100 (SD: 19.1) ms at time point T1 to 128 (SD: 26.6) ms at T2 in seven of eight patients, based on two recordings and a mean interval of 12.8 (SD: 4.9) years. Using a cross-sectional approach, all 15 patients were classified based on whether they were ambulatory, could walk with aid, or needed a wheelchair. Ambulatory patients had a mean duration of 97.3 (SD: 16.5) ms, patients who could walk with aid had a mean duration of 106.7 (SD: 16) ms, and patients who were wheelchair-bound had a mean duration of 138 (SD: 23.6) ms. In addition to the prolongation of the silent periods, there was an observed increase in frequency of the negative myoclonus, becoming more continuous and tremulous. SIGNIFICANCE: Using simultaneous EEG/EMG recordings in freely moving or standing patients, we have shown that the locomotor disability or ataxia is due to negative myoclonus in voluntary innervated muscles. The reason for the progression is the prolongation of the silent periods as measured by the duration of the negative myoclonus and their increase in frequency.

Insights into the Genetic Profile of Two Siblings Affected by Unverricht-Lundborg Disease Using Patient-Derived hiPSCs.

Unverricht-Lundborg disease (ULD), also known as progressive myoclonic epilepsy 1 (EPM1), is a rare autosomal recessive neurodegenerative disorder characterized by a complex symptomatology that includes action- and stimulus-sensitive myoclonus and tonic-clonic seizures. The main cause of the onset and development of ULD is a repeat expansion of a dodecamer sequence localized in the promoter region of the gene encoding cystatin B (CSTB), an inhibitor of lysosomal proteases. Although this is the predominant mutation found in most patients, the physio-pathological mechanisms underlying the disease complexity remain largely unknown. In this work, we used patient-specific iPSCs and their neuronal derivatives to gain insight into the molecular and genetic machinery responsible for the disease in two Italian siblings affected by different phenotypes of ULD. Specifically, fragment length analysis on amplified CSTB promoters found homozygous status for dodecamer expansion in both patients and showed that the number of dodecamer repeats is the same in both. Furthermore, the luciferase reporter assay showed that the CSTB promoter activity was similarly reduced in both lines compared to the control. This information allowed us to draw important conclusions: (1) the phenotypic differences of the patients do not seem to be strictly dependent on the genetic mutation around the CSTB gene, and (2) that some other molecular mechanisms, not yet clearly identified, might be taken into account. In line with the inhibitory role of cystatin B on cathepsins, molecular investigations performed on iPSCs-derived neurons showed an increased expression of lysosomal cathepsins (B, D, and L) and a reduced expression of CSTB protein. Intriguingly, the increase in cathepsin expression does not appear to be correlated with the residual amount of CSTB, suggesting that other mechanisms, in addition to the regulation of cathepsins, could be involved in the pathological complexity of the disease.

Major intra-familial variability in Unverricht-Lundborg disease.

Unverricht-Lundborg disease (ULD), also called progressive myoclonic epilepsy type 1, is usually characterized by the presence of ataxia associated with myoclonus and epileptic seizures without progressive cognitive deficit, presenting during late childhood and early adolescence. Currently, there is a growing body of evidence for atypical presentations of the disease with a milder phenotype or without the full symptomatology. We describe a case report of a late-onset phenotype with progressive myoclonus-ataxia syndrome accompanied by initial recurrent falls, resulting in specific phobia and agoraphobia starting at the age of 50 years old. The examination revealed multifocal myoclonus with cerebellar ataxia and electroencephalogram showed generalized polyspikes and spike-wave discharges. Electromyogram revealed positive myoclonus of 60-ms duration in the face and the presence of C reflex. A genetic study confirmed the diagnosis of ULD in the patient and other additional family members, presenting a wide range of intra-familial variability. We discuss the challenging differential diagnosis for such a misleading presentation and its possible underlying pathophysiological mechanisms. Our case report may contribute to broadening the age and clinical boundaries for this disease and emphasizes the intra-familial age and symptom variability. Based on a suggestive family history, the diagnosis of ULD should be considered in this context, even in older patients.

Clinical and molecular characterization of Unverricht-Lundborg disease among Egyptian patients.

BACKGROUND AND PURPOSE: Unverricht-Lundborg disease (ULD) is a common type of progressive myoclonic epilepsy (PME). It is caused mostly by biallelic dodecamer repeat expansions in the promoter region of CSTB gene. Despite highly prevalent in the Mediterranean countries, no studies have been reported from Egypt. This article study the presence of CSTB gene mutations among Egyptian patients clinically suspected with ULD, and describes the clinical and genetic characteristics of those with confirmed gene mutation. METHODS: Medical records of patients following up in two specialized epilepsy clinics in Cairo, Egypt were retrospectively reviewed. Twenty patients who belonged to 13 unrelated families were provisionally diagnosed with ULD based on the clinical presentation. Genetic testing was done. Clinical characteristics, demographic data and EEG findings were documented. RESULTS: Genetic studies confirmed the presence of the CSTB dodecamer repeat expansion in 14 patients from 8 families (frequency 70 %). The mean duration of the follow-up was 5 years. Male to female distribution was 1:1 with a mean age of onset 9.7 years. Consanguinity was noted in 4 families. Eight patients had their first seizure between the age of 10 and 20 years. Myoclonic jerks ranged in severity from mild in three unrelated patients to severe in one. Only 3 had cognitive impairment. CONCLUSION: Our study confirms the presence of CSTB mutation among Egyptian patients suspected with ULD. There was no clear phenotype-genotype correlation among the studied group of patients. In addition, we noticed variable inter and intra familial severity among patients from the same family.

Genetic testing and the phenotype of Polish patients with Unverricht-Lundborg disease (EPM1) - A cohort study.

AIM OF THE STUDY: The aim of this study was to explore genetic findings and the phenotype in Polish patients with Unverricht-Lundborg disease (ULD). MATERIALS AND METHODS: We retrospectively evaluated mutations in the cystatin B (CSTB) gene and clinical presentation in a cohort of patients with ULD. The study population consisted of 19 (14 males) patients with genetically confirmed disease. RESULTS: Sixteen patients were homozygous for the expanded dodecamer repeat mutation alleles, one subject was compound heterozygous for the dodecamer repeat expansion and other mutation, in two, the type of mutation has not yet been established. The numbers of repeats in the CSTB gene varied from 60 to 81. Clinical information was available for 16 subjects. The disease course was progressive in all patients, leading to severe disability, mainly due to myoclonus, in nine. CONCLUSIONS AND CLINICAL IMPLICATIONS: Genetic findings and the clinical picture of our patients with ULD were in accordance with available studies. The most common genetic defect underlying ULD was homozygosity for an unstable expansion of a dodecamer repeat in the CSTB gene. Patients with action or/and stimulus sensitive myoclonus or intractable myoclonus epilepsy, especially with onset in late childhood/adolescence should be screened for ULD.

Microglial phagocytosis dysfunction in the dentate gyrus is related to local neuronal activity in a genetic model of epilepsy.

OBJECTIVE: Microglial phagocytosis of apoptotic cells is an essential component of the brain regenerative response during neurodegeneration. Whereas it is very efficient in physiological conditions, it is impaired in mouse and human mesial temporal lobe epilepsy, and now we extend our studies to a model of progressive myoclonus epilepsy type 1 in mice lacking cystatin B (CSTB). METHODS: We used confocal imaging and stereology-based quantification of apoptosis and phagocytosis of the hippocampus of Cstb knockout (KO) mice, an in vitro model of phagocytosis and siRNAs to acutely reduce Cstb expression, and a virtual three-dimensional (3D) model to analyze the physical relationship between apoptosis, phagocytosis, and active hippocampal neurons. RESULTS: Microglial phagocytosis was impaired in the hippocampus of Cstb KO mice at 1 month of age, when seizures arise and hippocampal atrophy begins. This impairment was not related to the lack of Cstb in microglia alone, as shown by in vitro experiments with microglial Cstb depletion. The phagocytosis impairment was also unrelated to seizures, as it was also present in Cstb KO mice at postnatal day 14, before seizures begin. Importantly, phagocytosis impairment was restricted to the granule cell layer and spared the subgranular zone, where there are no active neurons. Furthermore, apoptotic cells (both phagocytosed and not phagocytosed) in Cstb-deficient mice were at close proximity to active cFos+ neurons, and a virtual 3D model demonstrated that the physical relationship between apoptotic cells and cFos+ neurons was specific for Cstb KO mice. SIGNIFICANCE: These results suggest a complex crosstalk between apoptosis, phagocytosis, and neuronal activity, hinting that local neuronal activity could be related to phagocytosis dysfunction in Cstb KO mice. Overall, these data suggest that phagocytosis impairment is an early feature of hippocampal damage in epilepsy and opens novel therapeutic approaches for epileptic patients based on targeting microglial phagocytosis.

Juvenile myoclonic epilepsy phenotype in a family with Unverricht-Lundborg disease.

Unverricht-Lundborg disease (ULD), an autosomal recessive progressive myoclonus epilepsy, is due to an expansion, or less commonly a mutation, of the cystatin B (CSTB) gene. We report a clinical and molecular study of a Tunisian ULD family with five affected members presenting with a juvenile myoclonic epilepsy (JME)-like phenotype. The expansion of dodecamers was detected by a deamination/PCR assay. The expression profiles of CSTB and other candidate modifying genes, cathepsin B and cystatin C, were established by quantitative RT-PCR, and their respective transcription levels were compared with those from patients with a classic picture of ULD. Three patients had a fixed phenotype mimicking JME after 29 years of evolution. Only a discrete dysarthria was noticed in the two other patients. No correlation was observed between transcription level and severity of disease. Genetic screening should be performed in patients with a JME-like phenotype, when careful examination reveals discrete atypical signs of JME. This particular phenotype may be due to modifying genes and/or gene-environment interactions which require further clarification.

[Low-dose perampanel improved cortical myoclonus and basophobia in a patient with Unverricht-Lundborg disease: a case report].

We report a 32-year-old female who presented myoclonus and generalized tonic-clonic seizure since she was 9 year-old. Thereafter, she was diagnosed as Unverricht-Lundborg disease by gene analysis. Although the epileptic seizures were controlled by multiple antiepileptic drugs, her cortical myoclonus remained intractable, which severely interfered her activity of daily living. On admission to our hospital, she presented mild cognitive impairment, dysarthria, severe postural and action myoclonus in all the limbs, severe impairment of coordinative movements, inability of standing and walking by herself, and severe basophobia. After administration of perampanel, α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor antagonist, with initial dose of 1 mg/day, and then 16 days later it was increased up to 2 mg/day, the myoclonus dramatically improved and the basophobia also lessened about in 30 days since it started. Moreover, abnormally enlarged amplitudes of short latency somatosensory evoked potentials by median nerve stimulation decreased, which suggested the reduction of abnormal cortical hyperexcitability mainly in the primary sensori-motor cortices. We presented that perampanel is the effective drug for treating the refractory cortical myoclonus and basophobia even with small dosage.

First Molecular Diagnosis of a Patient with Unverricht-Lundborg Disease in Korea.

Unverricht-Lundborg disease (ULD) is a form of progressive myoclonus epilepsy characterized by stimulation-induced myoclonus and seizures. This disease is an autosomal recessive disorder, and the gene CSTB, which encodes cystatin B, a cysteine protease inhibitor, is the only gene known to be associated with ULD. Although the prevalence of ULD is higher in the Baltic region of Europe and the Mediterranean, sporadic cases have occasionally been diagnosed worldwide. The patient described in the current report showed only abnormally enlarged restriction fragments of 62 dodecamer repeats, confirming ULD, that were transmitted from both her father and mother who carried the abnormally enlarged restriction fragment as heterozygotes with normal-sized fragments. We report the first case of a genetically confirmed patient with ULD in Korea.

Variable course of Unverricht-Lundborg disease: Early prognostic factors.

OBJECTIVE: To explore the course of Unverricht-Lundborg disease (EPM1) and identify the risk factors for severity, we investigated the time course of symptoms and prognostic factors already detectable near to disease onset. METHODS: We retrospectively evaluated the features of 59 Italian patients carrying the CSTB expansion mutation, and coded the information every 5 years after the disease onset in order to describe the cumulative time-dependent probability of reaching disabling myoclonus, relevant cognitive impairment, and inability to work, and evaluated the influence of early factors using the log-rank test. The risk factors were included in a Cox multivariate proportional hazards regression model. RESULTS: Disabling myoclonus occurred an average of 32 years after disease onset, whereas cognitive impairment occurred a little later. An age at onset of less than 12 years, the severity of myoclonus at the time of first assessment, and seizure persistence more than 10 years after onset affected the timing of disabling myoclonus and cognitive decline. Most patients became unable to work years before the appearance of disabling myoclonus or cognitive decline. CONCLUSIONS: A younger age at onset, early severe myoclonus, and seizure persistence are predictors of a more severe outcome. All of these factors may be genetically determined, but the greater hyperexcitability underlying more severe seizures and myoclonus at onset may also play a role by increasing cell damage due to reduced cystatin B activity.

Perampanel in 12 patients with Unverricht-Lundborg disease.

OBJECTIVE: Perampanel (PER) was used in 12 patients with Unverricht-Lundborg disease (ULD) to evaluate its efficacy against myoclonus and seizures. METHODS: We treated 11 patients with EPM1 mutations (6 F, 5 M, aged 13-62 years) and a 43-year-old man with de novo KCNC1 mutation. PER was introduced by 2 mg steps at 2-4 week intervals until 6 mg/day, with a possible dose reduction or dose increase. RESULTS: Ten patients had a clear clinical response of myoclonus, and five were able to reduce concomitant therapy. Improvement was noted sometimes as soon as with 2 mg/day. Epileptic seizures stopped on PER in the six patients who still had experienced generalized tonic-clonic or myoclonic seizures (100%). Some abatement of efficacy on myoclonus was seen in two patients who still retained some benefit. Weight gain was reported in six patients (50%). Psychological and behavioral side-effects were observed in six patients (50%) and led to withdrawal of PER in three cases and dose reduction in three, with abatement of the problems. SIGNIFICANCE: This study provides evidence that for ULD patients, PER may show marked efficacy even in severe cases, particularly against myoclonus, but also against seizures. PER should thus be tried in ULD patients whose seizures are not satisfactorily controlled. Its use is limited because of psychological and behavioral side effects, with higher doses of approximately 6 mg/day or greater likely risk factors.

A novel c132-134del mutation in Unverricht-Lundborg disease and the review of literature of heterozygous compound patients.

Unverricht-Lundborg disease or progressive myoclonic epilepsy type 1 (EPM1) is an autosomal recessive disease caused by mutation of the cystatin B gene (CSTB), located on chromosome 21q22.3. The most common mutation is an expansion of unstable dodecamer repetition (CCCCGCCCCGCG), whereas other types of mutations are rare. Among these, heterozygous compound mutations are described to induce a more severe phenotype than that of homozygous dodecameric repetition. We report two siblings affected by heterozygous compound mutations carrying a novel mutation of the deletion of three nucleotides in exon 2 of the gene in position 132-134 of the coding sequence (c.132-134del) in the allele not including the dodecamer repetition. This mutation results in the loss of two amino acid residues and insertion of an asparagine in position 44 (p.Lys44_Ser45delinsAsn). Our patients presented a very different clinical picture. The male patient had a severe myoclonus, drug-resistant epilepsy and psychiatric comorbidity, while his affected sister had only very rare seizures and sporadic myoclonic jerks at awakening. The revision of literature about heterozygous compound EPM1 patients confirms this gender phenotypic expressivity, with female patients carrying less severe symptoms than male patients. These data lead to the hypothesis of complex gender-specific factors interacting with CSTB expressivity in EPM1 patients.

Unverricht-Lundborg disease.

We first review the clinical presentation and current therapeutic approaches available for treating Unverricht-Lundborg disease (ULD), a progressive myoclonus epilepsy. Next, we describe the identification of disease causing mutations in the gene encoding cystatin B (CSTB). A Cstb-deficient mouse model, which recapitulates the key features of ULD including myoclonic seizures, ataxia, and neuronal loss, was generated to shed light on the mechanisms contributing to disease pathophysiology. Studies with this model have elucidated the diverse biological roles for Cstb from functioning as a protease inhibitor, to regulating glial activation, oxidative stress, serotonergic neurotransmission, and hyperexcitability. These findings set the stage for future studies that may open avenues to improved therapeutic approaches.

Gene-Expression Profiling Suggests Impaired Signaling via the Interferon Pathway in Cstb-/- Microglia.

Progressive myoclonus epilepsy of Unverricht-Lundborg type (EPM1, OMIM254800) is an autosomal recessive neurodegenerative disorder characterized by stimulus-sensitive and action-activated myoclonus, tonic-clonic epileptic seizures, and ataxia. Loss-of-function mutations in the gene encoding the cysteine protease inhibitor cystatin B (CSTB) underlie EPM1. The deficiency of CSTB in mice (Cstb-/- mice) generates a phenotype resembling the symptoms of EPM1 patients and is accompanied by microglial activation at two weeks of age and an upregulation of immune system-associated genes in the cerebellum at one month of age. To shed light on molecular pathways and processes linked to CSTB deficiency in microglia we characterized the transcriptome of cultured Cstb-/- mouse microglia using microarray hybridization and RNA sequencing (RNA-seq). The gene expression profiles obtained with these two techniques were in good accordance and not polarized to either pro- or anti-inflammatory status. In Cstb-/- microglia, altogether 184 genes were differentially expressed. Of these, 33 genes were identified by both methods. Several interferon-regulated genes were weaker expressed in Cstb-/- microglia compared to control. This was confirmed by quantitative real-time PCR of the transcripts Irf7 and Stat1. Subsequently, we explored the biological context of CSTB deficiency in microglia more deeply by functional enrichment and canonical pathway analysis. This uncovered a potential role for CSTB in chemotaxis, antigen-presentation, and in immune- and defense response-associated processes by altering JAK-STAT pathway signaling. These data support and expand the previously suggested involvement of inflammatory processes to the disease pathogenesis of EPM1 and connect CSTB deficiency in microglia to altered expression of interferon-regulated genes.

Refining the phenotype of Unverricht-Lundborg disease (EPM1): a population-wide Finnish study.

OBJECTIVE: This Finnish nationwide study aimed to refine the clinical phenotype variability and to identify factors that could explain the extensive variability in the clinical severity of the symptoms observed among patients with Unverricht-Lundborg disease (progressive myoclonus epilepsy type 1 [EPM1]) homozygous for the dodecamer expansion mutation in the cystatin B (CSTB) gene. METHODS: The study population consisted of 66 (33 men and 33 women) patients with genetically confirmed EPM1 homozygous for the CSTB expansion mutation for whom the sizes of the expanded alleles were determined. The clinical evaluation included videorecorded Unified Myoclonus Rating Scale and retrospectively collected medical history. The navigated transcranial magnetic stimulation test was used to determine motor threshold (MT) and silent period (SP) of the motor cortex. RESULTS: An earlier age at onset for EPM1 and longer disease duration were associated with more severe action myoclonus, lower performance IQ, increased MT, and prolonged SP. The number of dodecamer repeats in CSTB alleles varied between 38 and 77. On average, the size of the longer expanded alleles of patients was independently associated with MT, but exerted only a modulating effect on age at onset, myoclonus severity, and SP. CONCLUSIONS: As a group, earlier disease onset and longer duration are associated with more severe phenotype. Even though the vast majority of patients with EPM1 have a uniform genetic mutation, the actual size of the longer CSTB expansion mutation allele is likely to have a modulating effect on the age at disease onset, myoclonus severity, and cortical neurophysiology.