A Unique Case of SCN2A Variant-Associated Catatonia and Response to Electroconvulsive Therapy.

ABSTRACT: The SCN2A gene encodes a subunit that forms part of voltage-gated sodium channels in the brain. Gain-of-function mutations are associated with epilepsy as well as numerous movement/motor abnormalities. Loss-of-function mutations may also cause epilepsy in addition to a variety of neurodevelopmental anomalies, including autism and intellectual disability. The occurrence of catatonia has also been described in 1 previous report that involved a 4-year-old boy. We describe a 20-year-old intellectually disabled female patient who developed recurrent catatonic symptoms in her teenage years that remitted with electroconvulsive therapy. This is only the second report of catatonia occurring in relation to an SCN2A mutation and the first involving a female. Moreover, this case is unique given our patient's later age of symptom onset and given that her symptoms responded well to electroconvulsive therapy.

Catatonia and Maintenance Electroconvulsive Therapy in a 15-Year-Old Patient With MED13L Haploinsufficiency Syndrome in the Context of Epilepsy Diathesis.

ABSTRACT: This is the first report of pediatric catatonia syndrome in MED13L haploinsufficiency syndrome. This report describes unique challenges in diagnosis and management of catatonia in rare genetic conditions. The case also illustrates the use of electroconvulsive therapy in patients with epilepsy, epileptic encephalopathy, or other epileptic diathesis and the clinical conundrum in determining the course of maintenance electroconvulsive therapy.

Neuropsychiatric expression and catatonia in 22q11.2 deletion syndrome: An overview and case series.

Individuals with 22q11.2 deletion syndrome (22q11.2DS) are at elevated risk of developing treatable psychiatric and neurological disorders, including anxiety disorders, schizophrenia, seizures, and movement disorders, often beginning in adolescence or early to mid-adulthood. Here, we provide an overview of neuropsychiatric features associated with 22q11.2DS in adulthood. Results of a new case series of 13 individuals with 22q11.2DS and catatonic features together with 5 previously reported cases support a potential association of this serious psychomotor phenotype with the 22q11.2 deletion. As in the general population, catatonic features in 22q11.2DS occurred in individuals with schizophrenia, other psychotic and non-psychotic psychiatric disorders, and neurological disorders like Parkinson's disease. We place the results in the context of an updated review of catatonia in other genetic conditions. The complex neuropsychiatric expression and risk profile of 22q11.2DS highlights the need to consider co-morbid factors and provide care tailored to the individual patient. The results reinforce the need for periodic monitoring for the emergence of psychiatric and neurological manifestations including catatonic features. Pending further research, enhanced recognition and informed anticipatory care promise to facilitate the early diagnosis that allows for timely implementation and optimization of effective treatments.

Metabolic profiling reveals biochemical pathways and potential biomarkers associated with the pathogenesis of Krabbe disease.

Krabbe disease (KD) is caused by mutations in the galactosylceramidase (GALC) gene, which encodes a lysosomal enzyme that degrades galactolipids, including galactosylceramide and galactosylsphingosine (psychosine). GALC deficiency results in progressive intracellular accumulation of psychosine, which is believed to be the main cause for the demyelinating neurodegeneration in KD pathology. Umbilical cord blood transplantation slows disease progression when performed presymptomatically but carries a significant risk of morbidity and mortality. Accurate presymptomatic diagnosis is therefore critical to facilitate the efficacy of existing transplant approaches and to avoid unnecessary treatment of children who will not develop KD. Unfortunately, current diagnostic criteria, including GALC activity, genetic analysis, and psychosine measurement, are insufficient for secure presymptomatic diagnosis. This study performs a global metabolomic analysis to identify pathogenetic metabolic pathways and novel biomarkers implicated in the authentic mouse model of KD known as twitcher. At a time point before onset of signs of disease, twitcher hindbrains had metabolic profiles similar to WT, with the exception of a decrease in metabolites related to glucose energy metabolism. Many metabolic pathways were altered after early signs of disease in the twitcher, including decreased phospholipid turnover, restricted mitochondrial metabolism of branched-chain amino acids, increased inflammation, and changes in neurotransmitter metabolism and osmolytes. Hypoxanthine, a purine derivative, is increased before signs of disease appear, suggesting its potential as a biomarker for early diagnosis of KD. Additionally, given the early changes in glucose metabolism in the pathogenesis of KD, diagnostic modalities that report metabolic function, such as positron emission tomography, may be useful in KD. © 2016 Wiley Periodicals, Inc.

Catatonia in an adolescent with velo-cardio-facial syndrome.

Velo-cardio-facial syndrome (VCFS) is the most common microdeletion syndrome in humans and is probably the most frequent genetic cause of psychosis currently known. Many psychiatric disorders have been reported to occur in people with VCFS including, but not limited to schizophrenia, unipolar and bipolar mood disorders (with or without psychotic features), schizoaffective disorder, psychosis NOS, social phobia, generalized and separation anxiety, obsessive-compulsive disorder, autism spectrum disorder, cognitive impairment, and ADHD. This report describes the psychiatric onset and development of catatonia in an adolescent female with VCFS that was undiagnosed until 15 years of age. Catatonia may be a relatively common presentation in people with VCFS with treatment-refractory psychiatric manifestations.

Synchronization of the Estrous Cycle against the Background of Increased Excitability in Rats Selected for Catatonic Type of Reaction.

Selection for the elevation of catatonic type of reaction in female GC rats ("genetic" and "catatonia") was followed by an increase in the number of intense running episodes in response to acoustic stimulation. The observed changes are typical of increased general excitability in these animals. The phenomenon of estrous cycle synchronization was confirmed by variations in the concentrations of estradiol and progesterone in groups of Wistar and GC rats differing by the degree of synchronization. Some differences were found in the concentration of main sex hormones in the blood from female GC and Wistar rats.

Exploring genetic risk for catatonia in a genome wide association study and polygenic risk score analysis.

BACKGROUND: Catatonia is an under-recognized disorder characterized by psychomotor (increased, decreased, or abnormal) changes, affective symptoms, and disturbance of volition, which may arise in the setting of decompensated psychiatric or non-psychiatric medical disorders. Genetic studies of catatonia are limited, and to the best of our knowledge no prior genome wide association studies of catatonia have been performed to date. METHODS: First we performed a genome wide association study of catatonia regardless of etiology (psychiatric or non-psychiatric). Secondarily we evaluated whether there was an elevated genetic risk profile for predisposing psychiatric disorders (schizophrenia spectrum disorder, bipolar affective disorder, etc.) in patients with catatonia. We used a matched case control design and applied polygenic risk scores to evaluate for a shared polygenetic contribution to catatonia from common psychiatric phenotypes that show a high prevalence of catatonia in their decompensated states. RESULTS: Anxiety, bipolar affective disorder, schizophrenia spectrum disorder and cross disorder polygenic risk scores were significantly associated with catatonia case status in both unadjusted and adjusted logistic regression models for the European Ancestry set even after correcting for multiple comparisons. Depression, Alzheimer's, Autism Spectrum Disorder and Obsessive Disorder polygenic risk scores were not significantly associated with catatonia status in participants of European Ancestry. In the African Ancestry set, no psychiatric polygenic risk scores were significantly associated with catatonia status in either the unadjusted or adjusted regression models. CONCLUSIONS: Even after controlling for relevant covariates, anxiety, bipolar affective disorder, schizophrenia spectrum disorder and cross disorders were significantly associated with catatonia status suggesting that there might be a shared genetic risk for those disorders amongst patients with catatonia.

Evaluation of conserved and ultra-conserved non-genic sequences in chromosome 15q15-linked periodic catatonia.

Conserved and ultra-conserved non-genic sequence elements (CNGs, UCEs) between human and other mammalian genomes seem to constitute a heterogeneous group of functional sequences which likely have important biological function. To determine whether variation in CNGs and UCEs contributes to risk for the schizophrenic subphenotype of periodic catatonia (according to K. Leonhard; OMIM 605419), we evaluated non-coding elements at a critical 7.35 Mb interval on chromosome 15q15 in 8 unrelated cases with periodic catatonia (derived from pedigrees compatible with linkage to chromosome 15q15) and 8 controls, followed by association studies in a cohort of 510 cases and controls. Among 65 CNGs (≥100 bp, 100% identity; human-mouse comparison), 7 CNGs matched criteria for UCE (≥200 bp, 100% identity). A hot spot of 62/65 CNGs (95%) appeared at the MEIS2 locus, which implicates functional importance of associated (ultra-)conserved elements to this early developmental gene, which is present in the human fetal neocortex and associated with metabolic side effects to antipsychotic drugs. Further CNGs were identified at the PLCB2 and DLL4 locus or located intergenic between TYRO3 and MAPKBP1. Automated sequencing revealed genetic variation in 12.3% of CNGs, but frequencies were low (MAF: 0.06-0.4) in cases. Three variants located inside CNGs/UCEs were found in cases only. In a case-control association study we could not confirm a significant association of these three CNG-variants with periodic catatonia. Our results suggest genetic variation in (ultra-)conserved non-genic sequence elements which might alter functional properties. The identified variants are genetically not associated with the phenotype of periodic catatonia.

Etiopathogenesis of catatonia: generalizations and working hypotheses.

Catatonia has been rediscovered over the last 2 decades as a unique syndrome that consists of specific motor signs with a characteristic and uniform response to benzodiazepines and electroconvulsive therapy. Further inquiry into its developmental, environmental, psychological, and biological underpinnings is warranted. In this review, medical catatonia models of motor circuitry dysfunction, abnormal neurotransmitters, epilepsy, genetic risk factors, endocrine dysfunction, and immune abnormalities are discussed. Developmental, environmental, and psychological risk factors for catatonia are currently unknown. The following hypotheses need to be tested: neuroleptic malignant syndrome is a drug-induced form of malignant catatonia; Prader-Willi syndrome is a clinical GABAergic genetic-endocrine model of catatonia; Kleine-Levin syndrome represents a periodic form of adolescent catatonia; and anti-N-methyl-d-aspartate receptor encephalitis is an autoimmune type of catatonia.

A longitudinal perspective on the pharmacotherapy of 24 adult patients with Phelan McDermid syndrome.

Over the past years, 24 patients with Phelan-McDermid syndrome were carefully investigated with respect to history, somatic and neurologic antecedents, treatment history, behavioural issues, and psychiatric symptoms including possible catatonic features and regression phenomena. Patients were originally referred for specialized diagnosis and treatment advice because of recurrent challenging behaviours along with instable mood. In all, standardized neuropsychiatric examination was performed including assessment of intellectual and adaptive functioning as well as communication and behaviour concerns. Psychiatric diagnoses were actualized in interdisciplinary consultation meetings according to ICD-10 guidelines. The course of disease was periodically monitored with respect to treatment efficacy and psychopathology over a period varying from one to five years. In 18 patients, a deletion encompassing part of or the entire SHANK3 gene was found. All comprised two or more genes in addition to SHANK3. In six patients, a pathogenic variant in this gene was detected. The psychopathological profile of all patients (nine were published before) was characterized by symptoms from the autism and schizoaffective spectrum while in five, periodic catatonic symptoms were also established. In their third decade, four patients with the deletion subtype developed a regression-like gradual decline of functioning. Based on actual psychiatric classification, in 18 patients, a diagnosis of atypical bipolar disorder was established of which symptoms typically started from late adolescence onward. In most patients, treatment with mood stabilizing agents in combination with individually designed contextual measures, and if indicated with the addition of an atypical antipsychotic, resulted in gradual stabilization of mood and behaviour.

[Monoamines and function of the ovaries in rats selected for elevated catatonic reactivity].

Levels of dopamine (DOPA), noradrenalin (NA), and serotonin in hypothalamus and function of ovaries (folliculogenesis) were studied at various estrous cycle stages of the rat GK line selected for elevated catatonia. The control was the outbred Wistar line. Selection for elevated catatonia led to a decrease of the number of all cell types in GK ovaries in diestrus and proestrus. In estrus of the GK females, on the contrary, there was a tendency for an increase of the number of the growing follicles as compared with Wistar females. On the background of a decrease of the DOPA and NA content in hypothalamus of the GK line rats, the higher catecholamine level was observed in estrus and the lower--in diestrus. Thus, selection for manifestation of the excessive protective catatonical type of reaction in the form of an increase of duration and intensity of freezing involves the monoaminergic brain system and leads to delay of folliculogenesis that is the key factor in regulation of fertility.

Catatonia in Children and Adolescents: A High Rate of Genetic Conditions.

Pediatric catatonia is a rare and severe neuropsychiatric syndrome. We previously reported, in 58 children and adolescents with catatonia, a high prevalence (up to 20%) of medical conditions, some of which have specific treatments.1 Here we extend the cohort inclusion and report the first systematic molecular genetic data for this syndrome. Among the 89 patients consecutively admitted for catatonia (according to the pediatric catatonia rating scale)2 between 1993 and 2014, we identify 51 patients (57.3%) who had genetic laboratory testing, of whom 37 had single nucleotide polymorphism (SNP) microarray tests for CNVs and 14 had routine genetic explorations (karyotyping and searches for specific chromosomal abnormalities by fluorescence in situ hybridization [FISH]) or a specific diagnosis test based on clinical history. To assess the causality of observed genetic findings in each patient, we used a causality assessment score (CAUS)3 including 5 causality-support criteria on a 3-point scale (0 = absent; 1 = moderate; 2 = high): the existence of similar cases in the literature; the presence of a clinical contributing factor; the presence of a biological contributing factor; the presence of other paraclinical symptoms; and response to a specific treatment related to the suspected genetic or medical condition.

Dissecting the catatonia phenotype in psychotic and mood disorders on the basis of familial-genetic factors.

BACKGROUND: This study examines the familial aggregation (familiality) of different phenotypic definitions of catatonia in a sample of multiplex families with psychotic and mood disorders. METHODS: Participants were probands with a lifetime diagnosis of a DSM-IV functional psychotic disorder, their parents and at least one first-degree relative with a psychotic disorder. The study sample included 441 families comprising 2703 subjects, of whom 1094 were affected and 1609 unaffected. Familiality (h2) was estimated by linear mixed models using family membership as a random effect, with h2 indicating the portion of phenotypic variance accounted for by family membership. RESULTS: Familiality estimates highly varied for individual catatonia signs (h2=0.17-0.65), principal component analysis-derived factors (h2=0.29-0.49), number of catatonia signs present (h2=0.03-0.43) and severity of the catatonia syndrome (h2=0.25-0.59). Phenotypes maximizing familiality estimates included individual signs (mutism and rigidity, both h2=0.65), presence of ≥5 catatonia signs (h2=0.43), a classical catatonia factor (h2=0.49), a DSM-IV catatonia syndrome at a severity level of moderate or higher (h2=0.59) and the diagnostic construct of psychosis with prominent catatonia features (h2=0.56). Familiality estimates of a DSM-IV catatonia syndrome did not significantly differ across the diagnostic categories of psychotic and mood disorders (h2=0.40-0.47). CONCLUSIONS: The way in which catatonia is defined has a strong impact on familiality estimates with some catatonia phenotypes exhibiting substantial familial aggregation, which may inform about the most adequate phenotypes for molecular studies. From a familial-genetic perspective, the catatonia phenotype in psychotic and mood disorders has a transdiagnostic character.

Catatonia Associated With a SCN2A-Related Disorder in a 4-Year-Old Child.

Catatonia is a rare, underdiagnosed syndrome in children. We report the case of a 4-year-old child admitted for recent social withdrawal alternating with psychomotor excitement, verbigeration, and a loss of toilet readiness. He had a history of neonatal seizures, had been stabilized with vigabatrin, and was seizure free without treatment for several months. The pediatric and psychiatric examination revealed motor stereotypes, mannerism, bilateral mydriasis, and visual hallucinations. Laboratory and brain imaging explorations were initially negative. Catatonic symptoms, as measured with the Pediatric Catatonia Rating Scale, significantly decreased after introducing lorazepam, the first-line recommended treatment of this condition. On the basis of the neonatal seizure history, complementary genetic investigations were performed and revealed a mutation in the SCN2A gene, which encodes the voltage-gated sodium channel Nav1.2. Catatonic symptoms progressively disappeared after reintroducing vigabatrin. At the syndromic level, catatonia in young children appears responsive to high-dose lorazepam and is well monitored by using the Pediatric Catatonia Rating Scale. This case reveals the need for wide-ranging explorations in early-onset catatonia because specific targeted treatments might be available.

Copy number variation analysis in adults with catatonia confirms haploinsufficiency of SHANK3 as a predisposing factor.

BACKGROUND: Catatonia is a motor dysregulation syndrome co-occurring with a variety of psychiatric and medical disorders. Response to treatment with benzodiazepines and electroconvulsive therapy suggests a neurobiological background. The genetic etiology however remains largely unexplored. Copy Number Variants (CNV), known to predispose to neurodevelopmental disorders, may play a role in the etiology of catatonia. METHODS: This study is exploring the genetic field of catatonia through CNV analysis in a cohort of psychiatric patients featuring intellectual disability and catatonia. Fifteen adults admitted to a psychiatric inpatient unit and diagnosed with catatonia were selected for array Comparative Genomic Hybridization analysis at 200 kb resolution. We introduced a CNV interpretation algorithm to define detected CNVs as benign, unclassified, likely pathogenic or causal with regard to catatonia. RESULTS: Co-morbid psychiatric diagnoses in these patients were autism, psychotic or mood disorders. Eight patients were found to carry rare CNVs, which could not be classified as benign, comprising 6 duplications and 2 deletions. Microdeletions on 22q13.3, considered causal for catatonia, were detected in 2 patients. Duplications on 16p11.2 and 22q11.2 were previously implicated in psychiatric disorders, but not in catatonia, and were therefore considered likely pathogenic. Driven by the identification of a rare 14q11.2 duplication in one catatonic patient, additional patients with overlapping duplications were gathered to delineate a novel susceptibility locus for intellectual disability and psychiatric disorders on 14q11.2, harboring the gene SUPT16H. Three remaining variants respectively on 2q36.1, 16p13.13 and 17p13.3 were considered variants of unknown significance. CONCLUSION: The identification of catatonia-related copy number changes in this study, underscores the importance of genetic research in patients with catatonia. We confirmed that 22q13.3 deletions, affecting the gene SHANK3, predispose to catatonia, and we uncover 14q11.2 duplications as a novel susceptibility factor for intellectual and psychiatric disorders.

No causative DLL4 mutations in periodic catatonia patients from 15q15 linked families.

Two well-supported theories of schizophrenia pathogenesis are the neurotransmitter theory and the neurodevelopmental theory, suggesting, respectively, that dysregulation of neurotransmitter signaling and abnormal brain development are causative in this disease. The strongest evidence of neurotransmitter involvement are suggestions of abnormal dopamine signaling in the prefrontal cortex and one of the strongest indications of developmental abnormalities contributing to this disease is an inverse layering of the prefrontal cortex. These two theories of schizophrenia pathogenesis can be united by their involvement of the prefrontal cortex, where structural abnormalities could lead to neurochemical abnormalities. Accordingly, any gene expressed in the prefrontal cortex of developing brains is a functional candidate for schizophrenia. We have previously reported strong linkage to 15q15 (LOD = 3. 57; P = 2.6 x 10(-5)) in a collection of German multiplex families segregating the periodic catatonia subtype of schizophrenia in a nearly Mendelian fashion. A gene within our 15q15 linkage region, DLL4, is expressed in developing forebrain and produces a NOTCH4 ligand. Variants of NOTCH4 are associated with schizophrenia, thus DLL4 is both a functional as well as a positional candidate for schizophrenia. We screened this gene for mutations in three affected individuals and two unrelated controls and found two previously unreported SNPs, one non-synonymous polymorphism that changed an arganine to a histadine in Exon 7 and one synonymous polymorphism in exons. The non-synonymous SNP is a rare variant in that it was not found in 100 control chromosomes; however, it did not cosegregate with the disease in the extended family so it is not causative in this pedigree. It is unlikely that mutations in DLL4 are causative in this collection of families with linkage to 15q15.