Spectrum of neurodevelopmental disease associated with the GNAO1 guanosine triphosphate-binding region

OBJECTIVE

To characterize the phenotypic spectrum associated with GNAO1 variants and establish genotype-protein structure-phenotype relationships.

METHODS

We evaluated the phenotypes of 14 patients with GNAO1 variants, analyzed their variants for potential pathogenicity, and mapped them, along with those in the literature, on a three-dimensional structural protein model.

RESULTS

The 14 patients in our cohort, including one sibling pair, had 13 distinct, heterozygous GNAO1 variants classified as pathogenic or likely pathogenic. We attributed the same variant in two siblings to parental mosaicism. Patients initially presented with seizures beginning in the first 3 months of life (8/14), developmental delay (4/14), hypotonia (1/14), or movement disorder (1/14). All patients had hypotonia and developmental delay ranging from mild to severe. Nine had epilepsy, and nine had movement disorders, including dystonia, ataxia, chorea, and dyskinesia. The 13 GNAO1 variants in our patients are predicted to result in amino acid substitutions or deletions in the GNAO1 guanosine triphosphate (GTP)-binding region, analogous to those in previous publications. Patients with variants affecting amino acids 207-221 had only movement disorder and hypotonia. Patients with variants affecting the C-terminal region had the mildest phenotypes.

SIGNIFICANCE

GNAO1 encephalopathy most frequently presents with seizures beginning in the first 3 months of life. Concurrent movement disorders are also a prominent feature in the spectrum of GNAO1 encephalopathy. All variants affected the GTP-binding domain of GNAO1, highlighting the importance of this region for G-protein signaling and neurodevelopment.

Vocal cord dysfunction associated with exercise in adolescent girls

Vocal cord dysfunction (VCD) has been reported in adolescents only rarely. Two patients are described whose initial diagnosis was exercise-induced bronchospasm (EIB). However, evaluation revealed inspiratory stridor and flattening of the inspiratory limb of the flow-volume curve. Flexible fiberoptic rhinolaryngoscopy revealed adduction of vocal cords during inspiration. Patients were treated with speech therapy and have remained free of symptoms. VCD should be considered in adolescents who are unresponsive to treatment for EIB.

De Novo Variants Disrupting the HX Repeat Motif of ATN1 Cause a Recognizable Non-Progressive Neurocognitive Syndrome

Polyglutamine expansions in the transcriptional co-repressor Atrophin-1, encoded by ATN1, cause the neurodegenerative condition dentatorubral-pallidoluysian atrophy (DRPLA) via a proposed novel toxic gain of function. We present detailed phenotypic information on eight unrelated individuals who have de novo missense and insertion variants within a conserved 16-amino-acid "HX repeat" motif of ATN1. Each of the affected individuals has severe cognitive impairment and hypotonia, a recognizable facial gestalt, and variable congenital anomalies. However, they lack the progressive symptoms typical of DRPLA neurodegeneration. To distinguish this subset of affected individuals from the DRPLA diagnosis, we suggest using the term CHEDDA (congenital hypotonia, epilepsy, developmental delay, digit abnormalities) to classify the condition. CHEDDA-related variants alter the particular structural features of the HX repeat motif, suggesting that CHEDDA results from perturbation of the structural and functional integrity of the HX repeat. We found several non-homologous human genes containing similar motifs of eight to 10 HX repeat sequences, including RERE, where disruptive variants in this motif have also been linked to a separate condition that causes neurocognitive and congenital anomalies. These findings suggest that perturbation of the HX motif might explain other Mendelian human conditions.

The safety and tolerability of newer antiepileptic drugs in children and adolescents

Childhood epilepsy continues to be intractable in more than 25% of patients diagnosed with epilepsy. The introduction of new anti-epileptic drugs (AEDs) provides more options for treatment of children with epilepsy. We review the safety and tolerability of seven new AEDs (levetiracetam, lamotrigine, oxcarbazepine, rufinamide, topiramate, vigabatrin and zonisamide) focusing on their side effect profiles and safety in children and adolescents. Many considerations that are specific for children such as the impact of AEDs on the developing brain are not addressed during the development of new AEDs. They are usually approved as adjunctive therapies based upon clinical trials involving adult patients with partial epilepsy. However, 2 of the AEDs reviewed here (rufinamide and vigabatrin) have FDA approval in the U.S. for specific Pediatric epilepsy syndromes, which are discussed below. The Pediatrician or Neurologists decision on the use of a new AED is an evolutionary process largely dependent on the patient characteristics, personal/peer experiences and literature about efficacy and safety profiles of these medications. Evidence based guidelines are limited due to a lack of randomized controlled trials involving pediatric patients for many of these new AEDs.

Neurodevelopmental Disorder Caused by Deletion of CHASERR, a lncRNA Gene

CHASERR encodes a human long noncoding RNA (lncRNA) adjacent to CHD2, a coding gene in which de novo loss-of-function variants cause developmental and epileptic encephalopathy. Here, we report our findings in three unrelated children with a syndromic, early-onset neurodevelopmental disorder, each of whom had a de novo deletion in the CHASERR locus. The children had severe encephalopathy, shared facial dysmorphisms, cortical atrophy, and cerebral hypomyelination - a phenotype that is distinct from the phenotypes of patients with CHD2 haploinsufficiency. We found that the CHASERR deletion results in increased CHD2 protein abundance in patient-derived cell lines and increased expression of the CHD2 transcript in cis. These findings indicate that CHD2 has bidirectional dosage sensitivity in human disease, and we recommend that other lncRNA-encoding genes be evaluated, particularly those upstream of genes associated with mendelian disorders. (Funded by the National Human Genome Research Institute and others.).

ECHS1 deficiency and its biochemical and clinical phenotype

ECHS1 gene encodes a mitochondrial enzyme, short-chain enoyl-CoA hydratase (SCEH). SCEH is involved in fatty acid oxidation ([Sharpe and McKenzie (2018); Mitochondrial fatty acid oxidation disorders associated with short-chain enoyl-CoA hydratase (ECHS1) deficiency, 7: 46]) and valine catabolism ([Fong and Schulz (1977); Purification and properties of pig heart crotonase and the presence of short chain and long chain enoyl coenzyme A hydratases in pig and guinea pig tissues, 252: 542-547]; [Wanders et al. (2012); Enzymology of the branched-chain amino acid oxidation disorders: The valine pathway, 35: 5-12]), and the dysfunction of SCEH leads to a severe Leigh or Leigh-like Syndrome phenotype in patients ([Haack et al. (2015); Deficiency of ECHS1 causes mitochondrial encephalopathy with cardiac involvement, 2: 492-509]; [Peters et al. (2014); ECHS1 mutations in Leigh disease: A new inborn error of metabolism affecting valine metabolism, 137: 2903-2908]; [Sakai et al. (2015); ECHS1 mutations cause combined respiratory chain deficiency resulting in Leigh syndrome, 36: 232-239]; [Tetreault et al. (2015); Whole-exome sequencing identifies novel ECHS1 mutations in Leigh, 134: 981-991]). This study aims to further describe the ECHS1 deficiency phenotype using medical history questionnaires and standardized tools assessing quality of life and adaptive skills. Our findings in this largest sample of ECHS1 patients in literature to date (n = 13) illustrate a severely disabling condition causing severe developmental delays (n = 11), regression (n = 10), dystonia/hypotonia and movement disorders (n = 13), commonly with symptom onset in infancy (n = 10), classical MRI findings involving the basal ganglia (n = 11), and variability in biochemical profile. Congruent with the medical history, our patients had significantly low composite and domain scores on Vineland Adaptive Behavior Scales, Third Edition. We believe there is an increasing need for better understanding of ECHS1 deficiency with an aim to support the development of transformative genetic-based therapies, driven by the unmet need for therapies for patients with this genetic disease.

Leigh syndrome global patient registry: uniting patients and researchers worldwide

BACKGROUND

Leigh Syndrome (LS) is a rare genetic neurometabolic disorder, that leads to the degeneration of the central nervous system and subsequently, early death. LS can be caused by over 80 mutations in mitochondrial or nuclear DNA. Patient registries are important for many reasons, such as studying the natural history of the disease, improving the quality of care, and understanding the healthcare burden. For rare diseases, patient registries are significantly important as patient numbers are small, and funding is limited. Cure Mito Foundation started a global patient registry for LS in September 2021 to identify and learn about the LS patient population, facilitate clinical trial recruitment, and unite international patients and researchers. Priorities were to allow researchers and industry partners to access data at no cost through a clear and transparent process, active patient engagement, and sharing of results back to the community.

RESULTS

Patient registry platform, survey design, data analysis process, and patient recruitment strategies are described. Reported results include demographics, diagnostic information, symptom history, loss of milestones, disease management, healthcare utilization, quality of life, and caregiver burden for 116 participants. Results show a high disease burden, but a relatively short time to diagnosis. Despite the challenges faced by families impacted by Leigh syndrome, participants, in general, are described as having a good quality of life and caregivers are overall resilient, while also reporting a significant amount of stress.

CONCLUSION

This registry provides a straightforward, no-cost mechanism for data sharing and contacting patients for clinical trials or research participation, which is important given the recruitment challenges for clinical trials for rare diseases. This is the first publication to present results from a global patient registry for Leigh Syndrome, with details on a variety of patient-specific and caregiver outcomes reported for the first time. Additionally, this registry is the first for any mitochondrial disease with nearly 70% of participants residing outside of the United States. Future efforts include continued publication of results and further collaboration with patients, industry partners, and researchers.

Cognitive and Interpersonal Factors Affecting Social Adjustment of University Students in Pakistan

Cognitive and interpersonal factors play an important role in the social adjustment of students. Factors affecting the social adjustment of university students have been verified in different cultures. However, no study has tested a concurrent model with the study variables in the Pakistani context. This study aimed to investigate the effect of personal and interpersonal factors on the social adjustment of university students in Pakistan. Three hundred participants from the Azad Jammu and Kashmir regions of Pakistan responded on a questionnaire package containing self-reported measures on social self-efficacy, social anxiety, teachers' social support, and peers' social support. The results indicate that self-efficacy, teachers' support, and peer support have a significant positive effect on the social adjustment of university students, suggesting that an enhanced self-efficacy, and increased teachers' and peers' support would increase social adjustment. However, academic anxiety is inversely associated with social adjustment, suggesting that a higher anxiety level would result in a reduction in social adjustment. Students should be given more opportunities to enhance self-efficacy, obtain social support, and reduce social anxiety.

Neuronal Ceroid Lipofuscinoses Type 7 (CLN7)- A Case Series Reporting Cross Sectional and Retrospective Clinical Data to Evaluate Validity of Standardized Tools to Assess Disease Progression, Quality of Life, and Adaptive Skills

Background

This study evaluated the clinical characteristics of neuronal ceroid lipofuscinosis type 7 or CLN7 disease spectrum to characterize the clinical, electrophysiologic and neuroimaging phenotypes.

Methods

We performed a single-center cross sectional data collection along with retrospective medical chart review in patients with a genetic diagnosis of CLN7. This study received ethical approval by the University of Texas Southwestern Medical Center Institutional Review Board. A total of 8 patients were included between the ages of 4 to 6 years. All patients had a genetic diagnosis of CLN7 with homozygous or compound heterozygous mutations in the MFSD8 gene. The information collected includes patient demographics, developmental history, neurological events including seizures and neurodevelopmental regression along with further evaluation of brain magnetic resonance imaging and electrophysiological findings. The clinical phenotype is described through cross sectional and retrospective data collection and standardized tools assessing quality of life and functional skills.

Conclusions

Our findings in this cohort of CLN7 patients indicated that development is initially normal with onset of clinical symptoms as early as two years of age. Language problems were noted prior to or at the onset of seizures in all cases. Gait problems were noted prior to seizure onset in 3 of 8 patients, and at or within 6 months after the onset of seizures in 5 of 8 patients. All patients followed a progressive course of language, motor, and neurocognitive deterioration. Congruent with the medical history, our patients had significantly low scores on adaptive abilities. Natural history data such as this can be used to support future clinical trial designs.

Novel syndromic neurodevelopmental disorder caused by de novo deletion of CHASERR, a long noncoding RNA

Genes encoding long non-coding RNAs (lncRNAs) comprise a large fraction of the human genome, yet haploinsufficiency of a lncRNA has not been shown to cause a Mendelian disease. CHASERR is a highly conserved human lncRNA adjacent to CHD2-a coding gene in which de novo loss-of-function variants cause developmental and epileptic encephalopathy. Here we report three unrelated individuals each harboring an ultra-rare heterozygous de novo deletion in the CHASERR locus. We report similarities in severe developmental delay, facial dysmorphisms, and cerebral dysmyelination in these individuals, distinguishing them from the phenotypic spectrum of CHD2 haploinsufficiency. We demonstrate reduced CHASERR mRNA expression and corresponding increased CHD2 mRNA and protein in whole blood and patient-derived cell lines-specifically increased expression of the CHD2 allele in cis with the CHASERR deletion, as predicted from a prior mouse model of Chaserr haploinsufficiency. We show for the first time that de novo structural variants facilitated by Alu-mediated non-allelic homologous recombination led to deletion of a non-coding element (the lncRNA CHASERR) to cause a rare syndromic neurodevelopmental disorder. We also demonstrate that CHD2 has bidirectional dosage sensitivity in human disease. This work highlights the need to carefully evaluate other lncRNAs, particularly those upstream of genes associated with Mendelian disorders.

Mitochondrial encephalopathies and myopathies: Our tertiary center's experience

Mitochondrial diseases have a heterogeneous phenotype and can result from mutations in the mitochondrial or nuclear genomes, constituting a diagnostically and therapeutically challenging group of disorders. We report our center's experience with mitochondrial encephalopathies and myopathies with a cohort of 50 genetically and phenotypically diverse patients followed in the Neurology clinic over the last ten years. Seventeen patients had mitochondrial DNA mutations, presented over a wide range of ages with seizures, feeding difficulties, extraocular movements abnormalities, and had high rates of stroke-like episodes and regression. Twenty-seven patients had nuclear DNA mutations, presented early in life with feeding difficulty, failure-to-thrive, and seizures, and had high proportions of developmental delay, wheelchair dependence, spine abnormalities and dystonia. In six patients, a mutation could not be identified, but they were included for having mitochondrial disease confirmed by histopathology, enzyme analysis and clinical features. These patients had similar characteristics to patients with nuclear DNA mutations, suggesting missed underlying mutations in the nuclear genome. Management was variable among patients, but outcomes were universally poor with severe disability in all cases. Therapeutic entryways through elucidation of disease pathways and remaining unknown genes are acutely needed.

Diagnostic Journey and Therapeutic Intervention of a Type-1 Interferonopathy in a Newborn (P6-8.002)

OBJECTIVE

To report on a newborn infant with a homozygous mutation in the ACP5 gene associated with a type-1 interferonopathy, workup for possible mimics, and initiation of potentially disease-modifying immunotherapy.

BACKGROUND

Variations in the ACP5 gene causes Spondyloenchondrodysplasia with immunodeficiency (SPENCDI), a type I interferonopathy leading to multiorgan autoimmune sequalae due to increased interferon activity. The CNS is particularly susceptible resulting in developmental delay, intracranial calcification, white matter disease, atrophy, and spasticity. Herein we describe a newborn with a complex hematologic and immunologic presentation, and discuss mimics and differential diagnoses for type I interferonopathies.

DESIGN/METHODS

Retrospective chart review.

RESULTS

Petechiae on the face and trunk was noted at birth on a full-term infant boy born to consanguineous Afghani parents who previously had an infant and toddler die from unknown causes. Within 3 hours, the infant manifested full body petechiae and tachypnea. He underwent workup for familial hemophagocytic lymphohistiocytosis (due to high ferritin, D-dimer, LDH, among other abnormalities) and X-linked adrenoleukodystrophy (newborn screens indicated elevated very long chain fatty acids). Signal prolongation was observed on brain MRI within subcortical and deep white matter. On DOL 20 he was started on steroids with improvement in laboratory abnormalities but had rising liver enzymes with attempted wean of steroids. On DOL 54, trio whole exome sequencing indicated a homozygous mutation in the ACP5 gene concerning for SPENCDI, inherited from each parent. He was started on a JAK2 inhibitor, baricitinib, on DOL 68, discharged on DOL 137, meeting developmental milestones at follow up on DOL 167.

CONCLUSIONS

Presentation at birth of SPENCDI is extremely rare with only one other reported case of neonatal thrombocytopenia. As new therapies emerge with potential to impact disease course, genetic testing is indispensable. The impact of JAK2 inhibitors on preventing CNS injury and improving neurodevelopmental outcomes in type 1 interferonopathies remains to be determined. Disclosure: Dr. Varnet has nothing to disclose. Dr. Kayani has received personal compensation in the range of $500-$4,999 for serving on a Scientific Advisory or Data Safety Monitoring board for Neurogene. The institution of Dr. Kayani has received research support from Neurogene. The institution of Dr. Kayani has received research support from NIH. Dr. Wang has nothing to disclose.

Neuronal ceroid lipofuscinoses type 7 (CLN7): a case series reporting cross sectional and retrospective clinical data to evaluate validity of standardized tools to assess disease progression, quality of life, and adaptive skills

BACKGROUND

This study evaluated the clinical characteristics of neuronal ceroid lipofuscinosis type 7 or CLN7 disease spectrum to characterize the clinical, electrophysiologic and neuroimaging phenotypes.

METHODS

We performed a single-center cross sectional data collection along with retrospective medical chart review in patients with a genetic diagnosis of CLN7. This study received ethical approval by the University of Texas Southwestern Medical Center Institutional Review Board. A total of 8 patients were included between the ages of 4 to 6 years. All patients had a genetic diagnosis of CLN7 with homozygous or compound heterozygous mutations in the MFSD8 gene. The information collected includes patient demographics, developmental history, neurological events including seizures and neurodevelopmental regression along with further evaluation of brain magnetic resonance imaging and electrophysiological findings. The clinical phenotype is described through cross sectional and retrospective data collection and standardized tools assessing quality of life and functional skills.

RESULTS

Our findings in this cohort of CLN7 patients indicated that development is initially normal with onset of clinical symptoms as early as two years of age. Language problems were noted prior to or at the onset of seizures in all cases. Gait problems were noted prior to seizure onset in 3 of 8 patients, and at or within 6 months after the onset of seizures in 5 of 8 patients. All patients followed a progressive course of language, motor, and neurocognitive deterioration. Congruent with the medical history, our patients had significantly low scores on adaptive abilities. Natural history data such as this can be used to support future clinical trial designs.

CONCLUSIONS

This study provides a comprehensive description of CLN7 disease, highlighting clinical data alongside standardized neuropsychological assessments, neuroimaging, and electrophysiologic data. It emphasizes the value of importance of standardized tools for understanding disease phenotype and their potential use as endpoints in future clinical trials. The findings established can provide a baseline for developing future prospective natural history studies and potential therapeutic clinical trials.

SURF1 Deficiency: Expanding on Disease Phenotype and Assessing Disease Burden by Describing Clinical and Biochemical Phenotype

Leigh syndrome, a severe neurological disorder is commonly caused by homozygous or bi-allelic pathogenic variants in the SURF1 gene. SURF1 deficiency leads to dysfunction of Cytochrome C Oxidase (COX) activity, which is crucial for mitochondrial oxidative phosphorylation. Understanding COX activity's correlation with disease severity is essential for developing SURF1 Leigh Syndrome biomarkers. This study assesses the disease burden in SURF1 Leigh Syndrome and evaluates COX activity as a treatment biomarker. We reviewed records and questionnaires from 17 individuals, classifying them into phenotypic and genotypic groups. We compared COX activity assays in patient fibroblasts to age-matched controls, clinical data, and neuroimaging findings. Patient COX activity was at most 50% of controls, averaging 32% (p < 0.001). Common clinical features included brainstem abnormalities (93.3%), motor regression (92.3%), bi-allelic heterozygous SURF1 variants (88.2%), and delayed growth/development (35.7%). Homozygous and heterozygous nonsense/frameshift variants showed more severe phenotypes (p = 0.008) and more MRI abnormalities (p = 0.005). Significant COX activity reduction is linked to SURF1 Leigh Syndrome, with genotype influencing disease severity. Clinical and neuroimaging correlations show potential for prognostic indicators. This study lays the groundwork for future research and clinical application of COX activity as a SURF1 Leigh Syndrome biomarker.

Combination of triheptanoin with the ketogenic diet in Glucose transporter type 1 deficiency (G1D)

Fuel influx and metabolism replenish carbon lost during normal neural activity. Ketogenic diets studied in epilepsy, dementia and other disorders do not sustain such replenishment because their ketone body derivatives contain four carbon atoms and are thus devoid of this anaplerotic or net carbon donor capacity. Yet, in these diseases carbon depletion is often inferred from cerebral fluorodeoxyglucose-positron emission tomography. Further, ketogenic diets may prove incompletely therapeutic. These deficiencies provide the motivation for complementation with anaplerotic fuel. However, there are few anaplerotic precursors consumable in clinically sufficient quantities besides those that supply glucose. Five-carbon ketones, stemming from metabolism of the food supplement triheptanoin, are anaplerotic. Triheptanoin can favorably affect Glucose transporter type 1 deficiency (G1D), a carbon-deficiency encephalopathy. However, the triheptanoin constituent heptanoate can compete with ketogenic diet-derived octanoate for metabolism in animals. It can also fuel neoglucogenesis, thus preempting ketosis. These uncertainties can be further accentuated by individual variability in ketogenesis. Therefore, human investigation is essential. Consequently, we examined the compatibility of triheptanoin at maximum tolerable dose with the ketogenic diet in 10 G1D individuals using clinical and electroencephalographic analyses, glycemia, and four- and five-carbon ketosis. 4 of 8 of subjects with pre-triheptanoin beta-hydroxybutyrate levels greater than 2 mM demonstrated a significant reduction in ketosis after triheptanoin. Changes in this and the other measures allowed us to deem the two treatments compatible in the same number of individuals, or 50% of persons in significant beta-hydroxybutyrate ketosis. These results inform the development of individualized anaplerotic modifications to the ketogenic diet.ClinicalTrials.gov registration NCT03301532, first registration: 04/10/2017.

Natural History of SURF1 Deficiency: A Retrospective Chart Review

BACKGROUND

This retrospective chart review evaluated the clinical characteristics of SURF1-related neurological disease spectrum to better characterize the phenotypes.

METHODS

Patient demographics, magnetic resonance imaging abnormalities, neurological events, motor abnormalities, and gastrointestinal and respiratory assistance were evaluated in 27 patients with genetically diagnosed SURF1 deficiency.

RESULTS

The mean (S.D.) age of symptom onset collected from 13 patients was 19.7 (11.8) months. Mean (S.D.) age of diagnosis collected from 24 patients was 44.0 (45.1) months. The most common symptoms were gross motor delay (14 of 14), fine motor delay (10 of 11), verbal delay (9 of 10), and intellectual and learning disability (14 of 19). Neurological symptoms included ataxia (14 of 15), other abnormal movements (8 of 9), hypotonia (9 of 11), and dystonia (6 of 9). Three of nine reporting patients (33.3%) had a history of seizure, and 84.6% (11 of 13) had a history of regression/loss of acquired skills. Extraneurological clinical features included pulmonary complications (10 of 11) and feeding difficulties (13 of 13); cardiac complications were noted in three patients. Brainstem is frequently involved with the medulla and midbrain being the most common sites. As of July 2021, three patients were deceased.

CONCLUSIONS

The most common clinical symptoms were motor delay, verbal delay, intellectual and learning disability, dysphagia, feeding difficulties, and reflux. Neurological presentations include ataxia, hypotonia, visual/ocular abnormalities, dystonia, and imaging abnormalities include basal ganglia and brainstem lesions. Although heterogeneous, SURF1 deficiency should be considered with these clinical and imaging presentations and may support earlier identification.