👤 Benjamin J Halliday

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disorder characterized by progressive motor neuron degeneration. Increasing evidence implicates systemic lipid perturbation in ALS pathogenesis. However, the extent and nature of apolipoprotein changes underlying lipid perturbations in ALS remain largely unknown. To address this, we performed a comprehensive analysis of major apolipoproteins involved in lipid metabolism and examined their association with lipoprotein membrane lipids in sporadic ALS (n = 32) and age-matched healthy controls (n = 32), using ELISA and liquid chromatography-mass spectrometry. Compared with controls, serum levels of apoB, apoCI, apoCII, apoCIII and apoE were significantly elevated in ALS, whereas apoAI and apoAII were unchanged. Distributional analyses demonstrated a relative decrease in apoAI and an increase in apoB in ALS, resulting in an elevated apoB/apoAI ratio, a marker of atherogenic risk, alongside a reduced apoAI/apoE ratio. Correlation analyses revealed strengthened interrelationships among apolipoproteins in ALS, suggesting altered regulatory coordination. At the lipid level, phosphatidylcholine (PC) was increased, whereas sphingomyelin (SM) was reduced in ALS serum. Notably, the strong associations of apoB to both PC and SM observed in controls were absent in ALS. Biomarker analyses identified apoE as the strongest discriminator between ALS and control groups. Collectively, these findings demonstrate a coordinated disruption of apolipoproteins and lipoprotein-associated lipids in ALS serum, with likely functional consequences for lipoprotein metabolism. This study provides new insights into lipid dysregulation in ALS pathobiology and supports the emerging view that ALS encompasses not only neurodegenerative processes but also systemic metabolic reprogramming. Show less

Periventricular nodular heterotopia (PVNH) is a common malformation of cortical development. We describe a distinctive imaging phenotype characterized by bilateral small heterotopic nodules of grey matter in the frontal periventricular regions, with an overview of the clinical, imaging, and genetic features. Investigators reviewed available brain MRI studies, clinical records and genetic findings of 32 individuals with bilateral frontal PVNH, ascertained from multiple centres between 1996 and 2021. The imaging phenotype consists of multiple, small, bilateral nodules of PVNH maximal along the frontal horns of the lateral ventricles. Frontal PVNH was associated with heterogeneous, often subtle, additional brain malformations in 72 % (23/32) individuals. The clinical phenotype was variable and included mild focal epilepsy in 7/32 and mild-moderate cognitive impairment or developmental delay in 13/32. Microarray was normal in 13/16 and exome or genome sequencing normal in 8/13 where testing was performed. A genetic diagnosis was achieved in seven patients; pathogenic chromosome deletions of 7q11.23 and 7p22.1, pathogenic intragenic variants in KANSL1, STXBP1 and MAP1B (mother-daughter pair), and a combined 13q12.12 deletion (containing SACS) and an intragenic SACS variant. Bilateral frontal PVNH has a variable clinical phenotype, but generally milder sequelae than other forms of bilateral PVNH. A genetic diagnosis was made by chromosome microarray alone in 13 % or by exome or genome sequencing in 38 % where access to testing was available, with no recurrent genetic cause being found. Our PVNH cohort data suggest that PVNH could be classified in three main groups: FLNA-associated "classic" bilateral frontocentral PVNH, posterior/infrasylvian PVNH and this third pattern of bilateral frontal PVNH, accounting for ∼10 % of all cases of PVNH. Show less

Hypertrophic cardiomyopathy (HCM) is an important cause of morbidity and mortality with both monogenic and polygenic components. Here, we report results from a large genome-wide association study and multitrait analysis including 5,900 HCM cases, 68,359 controls and 36,083 UK Biobank participants with cardiac magnetic resonance imaging. We identified 70 loci (50 novel) associated with HCM and 62 loci (20 novel) associated with relevant left ventricular traits. Among the prioritized genes in the HCM loci, we identify a novel HCM disease gene, SVIL, which encodes the actin-binding protein supervillin, showing that rare truncating SVIL variants confer a roughly tenfold increased risk of HCM. Mendelian randomization analyses support a causal role of increased left ventricular contractility in both obstructive and nonobstructive forms of HCM, suggesting common disease mechanisms and anticipating shared response to therapy. Taken together, these findings increase our understanding of the genetic basis of HCM, with potential implications for disease management. Show less

Parkinson's disease (PD) is an age-related neurodegenerative disorder affecting millions of people worldwide. The disease is characterized by the progressive loss of dopaminergic neurons and spread of Lewy pathology (α-synuclein aggregates) in the brain but the pathogenesis remains elusive. PD presents substantial clinical and genetic variability. Although its complex etiology and pathogenesis has hampered the breakthrough in targeting disease modification, recent genetic tools advanced our approaches. As such, mitochondrial dysfunction has been identified as a major pathogenic hub for both familial and sporadic PD. In this review, we summarize the effect of mutations in 11 Show less