The Parkinson's disease risk gene cathepsin B promotes fibrillar alpha-synuclein clearance, lysosomal function and glucocerebrosidase activity in dopaminergic neurons.

Background: Variants in the CTSB gene encoding the lysosomal hydrolase cathepsin B (catB) are associated with increased risk of Parkinson's disease (PD). However, neither the specific CTSB variants driving these associations nor the functional pathways that link catB to PD pathogenesis have been characterized. CatB activity contributes to lysosomal protein degradation and regulates signaling processes involved in autophagy and lysosome biogenesis. Previous in vitro studies have found that catB can cleave monomeric and fibrillar alpha-synuclein, a key protein involved in the pathogenesis of PD that accumulates in the brains of PD patients. However, truncated synuclein isoforms generated by catB cleavage have an increased propensity to aggregate. Thus, catB activity could potentially contribute to lysosomal degradation and clearance of pathogenic alpha synuclein from the cell, but also has the potential of enhancing synuclein pathology by generating aggregation-prone truncations. Therefore, the mechanisms linking catB to PD pathophysiology remain to be clarified. Methods: Here, we conducted genetic analyses of the association between common and rare CTSB variants and risk of PD. We then used genetic and pharmacological approaches to manipulate catB expression and function in cell lines and induced pluripotent stem cell-derived dopaminergic neurons and assessed lysosomal activity and the handling of aggregated synuclein fibrils. Results: We first identified specific non-coding variants in CTSB that drive the association with PD and are linked to changes in brain CTSB expression levels. Using iPSC-derived dopaminergic neurons we then find that catB inhibition impairs autophagy, reduces glucocerebrosidase (encoded by GBA1) activity, and leads to an accumulation of lysosomal content. Moreover, in cell lines, reduction of CTSB gene expression impairs the degradation of pre-formed alpha-synuclein fibrils, whereas CTSB gene activation enhances fibril clearance. Similarly, in midbrain organoids and dopaminergic neurons treated with alpha-synuclein fibrils, catB inhibition or knockout potentiates the formation of inclusions which stain positively for phosphorylated alpha-synuclein. Conclusions: The results of our genetic and functional studies indicate that the reduction of catB function negatively impacts lysosomal pathways associated with PD pathogenesis, while conversely catB activation could promote the clearance of pathogenic alpha-synuclein.

The Effect of p.G2019S Mutation in the LRRK2 Gene on the Activity of Lysosomal Hydrolases and the Clinical Features of Parkinson's Disease Associated with p.N370S Mutation in the GBA1 Gene.

BACKGROUND: Mutations in the glucocerebrosidase (GBA1) and leucine-rich repeat kinase 2 (LRRK2) genes, encoding lysosomal enzyme glucocerebrosidase (GCase) and leucine-rich repeat kinase 2 (LRRK2), respectively, are the most common related to Parkinson's disease (PD). Recent data suggest a possible functional interaction between GCase and LRRK2 and their involvement in sphingolipid metabolism. The aim of the present study was to describe the clinical course and evaluate the lysosomal enzyme activities and sphingolipid concentrations in blood of patients with PD associated with dual mutations p.N370S GBA1 and p.G2019S LRRK2 (p.N370S/GBA-p.G2019S/LRRK2-PD) as well as in blood of asymptomatic mutation carriers (p.N370S/GBA1-p.G2019S/LRRK2-carrier). METHODS: One patient with p.N370S/GBA1-p.G2019S/LRRK2-PD and one p.N370S/GBA1-p.G2019S/LRRK2-carrier were enrolled. GBA1-associated PD (GBA1-PD), LRRK2-associated PD (LRRK2-PD), sporadic PD (sPD) patients were described earlier by our research group. A neuropsychiatric examination of the p.N370S/GBA1-p.G2019S/LRRK2-PD patient was carried out using scales (Montreal Cognitive Assessment scale (MoCA), Mini-mental State Examination scale (MMSE), Frontal Assessment Batter scale (FAB), Hospital Anxiety, and Depression Scale (HADS), etc). Lysosomal enzyme activity (GCase, alpha-galactosidase [GLA], acid sphingomyelinase [ASMase], galactosylcerebrosidase [GALC]) and sphingolipid concentrations (hexasylsphingosine [HexSph], lysoglobotriaosylsphingosine [LysoGb3], lysosphingomyelin [LysoSM]) were assessed with high-performance liquid chromatography-tandem mass spectrometry in blood. The following comparison with the previously described groups of GBA1-PD and sPD patients were conducted. RESULTS: Clinical features of p.N370S/GBA1-p.G2019S/LRRK2-PD included an early age of onset of the disease (46 years) and mild cognitive and affective disorders (MMSE = 29, MoCA = 23), despite a long (24 years) course of the disease. Interestingly, no differences were found in hydrolase activity and lysosphingolipid concentrations between the p.N370S/GBA1-p.G2019S/LRRK2-PD patient and GBA1-PD patients. However, GCase activity was lower in these groups than in LRRK2-PD, sPD, and controls. Additionally, the p.N370S/GBA1-p.G2019S/LRRK2-PD patient was characterized by a pronounced decreased in ASMase activity and increased LysoSM concentration compared to the p.N370S/GBA1-p.G2019S/LRRK2-carrier (p = 0.023, p = 0.027, respectively). CONCLUSIONS: Based on one patient, our results indicate a protective effect of the p.G2019S mutation in the LRRK2 gene on clinical course of p.N370S/GBA1-PD. The identified pronounced alteration of ASMase activity and LysoSM concentration in p.N370S/GBA1-p.G2019S/LRRK2-PD provide the basis for the further research.

The Parkinson's disease risk gene cathepsin B promotes fibrillar alpha-synuclein clearance, lysosomal function and glucocerebrosidase activity in dopaminergic neurons.

Variants in the CTSB gene encoding the lysosomal hydrolase cathepsin B (catB) are associated with increased risk of Parkinson's disease (PD). However, neither the specific CTSB variants driving these associations nor the functional pathways that link catB to PD pathogenesis have been characterized. CatB activity contributes to lysosomal protein degradation and regulates signaling processes involved in autophagy and lysosome biogenesis. Previous in vitro studies have found that catB can cleave monomeric and fibrillar alpha-synuclein, a key protein involved in the pathogenesis of PD that accumulates in the brains of PD patients. However, truncated synuclein isoforms generated by catB cleavage have an increased propensity to aggregate. Thus, catB activity could potentially contribute to lysosomal degradation and clearance of pathogenic alpha synuclein from the cell, but also has the potential of enhancing synuclein pathology by generating aggregation-prone truncations. Therefore, the mechanisms linking catB to PD pathophysiology remain to be clarified. Here, we conducted genetic analyses of the association between common and rare CTSB variants and risk of PD. We then used genetic and pharmacological approaches to manipulate catB expression and function in cell lines and induced pluripotent stem cell-derived dopaminergic neurons and assessed lysosomal activity and the handling of aggregated synuclein fibrils. We find that catB inhibition impairs autophagy, reduces glucocerebrosidase (encoded by GBA1) activity, and leads to an accumulation of lysosomal content. In cell lines, reduction of CTSB gene expression impairs the degradation of pre-formed alpha-synuclein fibrils, whereas CTSB gene activation enhances fibril clearance. In midbrain organoids and dopaminergic neurons treated with alpha-synuclein fibrils, catB inhibition potentiates the formation of inclusions which stain positively for phosphorylated alpha-synuclein. These results indicate that the reduction of catB function negatively impacts lysosomal pathways associated with PD pathogenesis, while conversely catB activation could promote the clearance of pathogenic alpha-synuclein.

Association of Rare Variants in ARSA with Parkinson's Disease.

BACKGROUND: Several lysosomal genes are associated with Parkinson's disease (PD), yet the association between PD and ARSA remains unclear. OBJECTIVES: To study rare ARSA variants in PD. METHODS: To study rare ARSA variants (minor allele frequency < 0.01) in PD, we performed burden analyses in six independent cohorts with 5801 PD patients and 20,475 controls, followed by a meta-analysis. RESULTS: We found evidence for associations between functional ARSA variants and PD in four cohorts (P ≤ 0.05 in each) and in the meta-analysis (P = 0.042). We also found an association between loss-of-function variants and PD in the United Kingdom Biobank cohort (P = 0.005) and in the meta-analysis (P = 0.049). These results should be interpreted with caution as no association survived multiple comparisons correction. Additionally, we describe two families with potential co-segregation of ARSA p.E382K and PD. CONCLUSIONS: Rare functional and loss-of-function ARSA variants may be associated with PD. Further replications in large case-control/familial cohorts are required. © 2023 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.

Potential Binding Sites of Pharmacological Chaperone NCGC00241607 on Mutant ß-Glucocerebrosidase and Its Efficacy on Patient-Derived Cell Cultures in Gaucher and Parkinson's Disease.

Mutations in the GBA1 gene, encoding the lysosomal enzyme glucocerebrosidase (GCase), cause Gaucher disease (GD) and are the most common genetic risk factor for Parkinson's disease (PD). Pharmacological chaperones (PCs) are being developed as an alternative treatment approach for GD and PD. To date, NCGC00241607 (NCGC607) is one of the most promising PCs. Using molecular docking and molecular dynamics simulation we identified and characterized six allosteric binding sites on the GCase surface suitable for PCs. Two sites were energetically more preferable for NCGC607 and located nearby to the active site of the enzyme. We evaluated the effects of NCGC607 treatment on GCase activity and protein levels, glycolipids concentration in cultured macrophages from GD (n = 9) and GBA-PD (n = 5) patients as well as in induced human pluripotent stem cells (iPSC)-derived dopaminergic (DA) neurons from GBA-PD patient. The results showed that NCGC607 treatment increased GCase activity (by 1.3-fold) and protein levels (by 1.5-fold), decreased glycolipids concentration (by 4.0-fold) in cultured macrophages derived from GD patients and also enhanced GCase activity (by 1.5-fold) in cultured macrophages derived from GBA-PD patients with N370S mutation (p < 0.05). In iPSC-derived DA neurons from GBA-PD patients with N370S mutation NCGC607 treatment increased GCase activity and protein levels by 1.1-fold and 1.7-fold (p < 0.05). Thus, our results showed that NCGC607 could bind to allosteric sites on the GCase surface and confirmed its efficacy on cultured macrophages from GD and GBA-PD patients as well as on iPSC-derived DA neurons from GBA-PD patients.

Association of rare variants in ARSA with Parkinson's disease.

Background: Several lysosomal genes are associated with Parkinson's disease (PD), yet the association between PD and ARSA , which encodes for the enzyme arylsulfatase A, remains controversial. Objectives: To evaluate the association between rare ARSA variants and PD. Methods: To study possible association of rare variants (minor allele frequency<0.01) in ARSA with PD, we performed burden analyses in six independent cohorts with a total of 5,801 PD patients and 20,475 controls, using optimized sequence Kernel association test (SKAT-O), followed by a meta-analysis. Results: We found evidence for an association between functional ARSA variants and PD in four independent cohorts (P≤0.05 in each) and in the meta-analysis (P=0.042). We also found an association between loss-of-function variants and PD in the UKBB cohort (P=0.005) and in the meta-analysis (P=0.049). However, despite replicating in four independent cohorts, these results should be interpreted with caution as no association survived correction for multiple comparisons. Additionally, we describe two families with potential co-segregation of the ARSA variant p.E384K and PD. Conclusions: Rare functional and loss-of-function ARSA variants may be associated with PD. Further replication in large case-control cohorts and in familial studies is required to confirm these associations.

Altered Sphingolipid Hydrolase Activities and Alpha-Synuclein Level in Late-Onset Schizophrenia.

Recent data described that patients with lysosomal storage disorders (LSDs) may have clinical schizophrenia (SCZ) features. Disruption of lipid metabolism in SCZ pathogenesis was found. Clinical features of schizophrenia (SCZ) have been demonstrated in patients with several lysosomal storage disorders (LSDs). Taking into account the critical role of lysosomal function for neuronal cells' lysosomal dysfunction could be proposed in SCZ pathogenesis. The current study analyzed lysosomal enzyme activities and the alpha-synuclein level in the blood of patients with late-onset SCZ. In total, 52 SCZ patients with late-onset SCZ, 180 sporadic Parkinson's disease (sPD) patients, and 176 controls were recruited. The enzymatic activity of enzymes associated with mucopolysaccharidosis (alpha-L-Iduronidase (IDUA)), glycogenosis (acid alpha-glucosidase (GAA)) and sphingolipidosis (galactosylceramidase (GALC), glucocerebrosidase (GCase), alpha-galactosidase (GLA), acid sphingomyelinase (ASMase)) and concentration of lysosphingolipids (hexosylsphingosine (HexSph), globotriaosylsphingosine (LysoGb3), and lysosphingomyelin (LysoSM)) were measured using LC-MS/MS. The alpha-synuclein level was estimated in magnetically separated CD45+ blood cells using the enzyme-linked immunosorbent assay (ELISA). Additionally, NGS analysis of 11 LSDs genes was conducted in 21 early-onset SCZ patients and 23 controls using the gene panel PGRNseq-NDD. Decreased ASMase, increased GLA activities, and increased HexSpn, LysoGb3, and LysoSM concentrations along with an accumulation of the alpha-synuclein level were observed in late-onset SCZ patients in comparison to the controls (p < 0.05). Four rare deleterious variants among LSDs genes causing mucopolysaccharidosis type I (IDUA (rs532731688, rs74385837) and type III (HGSNAT (rs766835582)) and sphingolipidosis (metachromatic leukodystrophy (ARSA (rs201251634)) were identified in five patients from the group of early-onset SCZ patients but not in the controls. Our findings supported the role of sphingolipid metabolism in SCZ pathogenesis. Aberrant enzyme activities and compounds of sphingolipids associated with ceramide metabolism may lead to accumulation of alpha-synuclein and may be critical in SCZ pathogenesis.

Comparative Transcriptome Analysis in Monocyte-Derived Macrophages of Asymptomatic GBA Mutation Carriers and Patients with GBA-Associated Parkinson's Disease.

Mutations of the GBA gene, encoding for lysosomal enzyme glucocerebrosidase (GCase), are the greatest genetic risk factor for Parkinson's disease (PD) with frequency between 5% and 20% across the world. N370S and L444P are the two most common mutations in the GBA gene. PD carriers of severe mutation L444P in the GBA gene is characterized by the earlier age at onset compared to N370S. Not every carrier of GBA mutations develop PD during one's lifetime. In the current study we aimed to find common gene expression signatures in PD associated with mutation in the GBA gene (GBA-PD) using RNA-seq. We compared transcriptome of monocyte-derived macrophages of 5 patients with GBA-PD (4 L444P/N, 1 N370S/N) and 4 asymptomatic GBA mutation carriers (GBA-carriers) (3 L444P/N, 1 N370S/N) and 4 controls. We also conducted comparative transcriptome analysis for L444P/N only GBA-PD patients and GBA-carriers. Revealed deregulated genes in GBA-PD independently of GBA mutations (L444P or N370S) were involved in immune response, neuronal function. We found upregulated pathway associated with zinc metabolism in L444P/N GBA-PD patients. The potential important role of DUSP1 in the pathogenesis of GBA-PD was suggested.

Postural instability and neuropsychiatric disturbance in the overlapping phenotype of essential tremor and Parkinson's Disease.

OBJECTIVES: The aim of this study was to perform a comparative analysis of postural and neuropsychiatric features in patients with essential tremor (ET), various Parkinson's disease (PD) phenotypes, and the phenotype of combined ET and PD (ET-PD). METHODS: 169 PD patients with early (1.0-2.0) and 111 PD patients with advanced (2.5-3.0) stages based on the Hoehn and Yahr scale, 55 patients with ET and 26 patients with ET-PD were enrolled in the study. Motor and non-motor symptoms of patients with PD, ET and ET-PD were studied using standardized scales and stabilometry. RESULTS: Patients with ETPD had milder manifestations of parkinsonism compared to PD patients at the same stages of the disease. Patients in the advanced PD group showed more pronounced posture and balance impairment compared to all other groups assessed by standardized walking and balance scales. No difference using scales for postural assessment was found between ETPD, ET and early stage PD. Using stabilometry, we discovered that indexes of stabilometric parameters were lower in ETPD patients compared to ET and advanced PD, although no difference between ETPD and early PD was found. PD patients in early stages had lower results in most of the indexes compared to ET. CONCLUSION: Here, we conducted for the first time a stabilometric examination of ET-PD patients, which could be helpful in differential diagnosis. This analysis helps expand understanding of the clinical manifestations of PD, ET and ET-PD.

Cryo-electron microscopy of extracellular vesicles from cerebrospinal fluid.

Extracellular vesicles (EVs) are membrane-enclosed vesicles which play important role for cell communication and physiology. EVs are found in many human biological fluids, including blood, breast milk, urine, cerebrospinal fluid (CSF), ejaculate, saliva etc. These nano-sized vesicles contain proteins, mRNAs, microRNAs, non-coding RNAs and lipids that are derived from producing cells. EVs deliver complex sets of biological information to recipient cells thereby modulating their behaviors by their molecular cargo. In this way EVs are involved in the pathological development and progression of many human disorders, including neurodegenerative diseases. In this study EVs purified by ultracentrifugation from CSF of patients with Parkinson's disease (PD) and individuals of the comparison group were characterized using nanoparticle tracking analysis, flow cytometry and cryo-electron microscopy. Vesicular size and the presence of exosomal marker CD9 on the surface provided evidence that most of the EVs were exosome-like vesicles. Cryo-electron microscopy allowed us to visualize a large spectrum of extracellular vesicles of various size and morphology with lipid bilayers and vesicular internal structures. Thus, we described the diversity and new characteristics of the vesicles from CSF suggesting that subpopulations of EVs with different and specific functions may exist.

Case of Early-Onset Parkinson's Disease in a Heterozygous Mutation Carrier of the ATP7B Gene.

In this paper, we report a clinically proven case of Parkinson's disease (PD) with early onset in a patient who is a heterozygous mutation carrier of ATP7B (the Wilson's disease gene). The patient was observed from 2011 to 2018 in the Center for Neurodegenerative Diseases, Institute of Experimental Medicine (St. Petersburg, Russia). During this period, the patient displayed aggravation of PD clinical symptoms that were accompanied by a decrease in the ceruloplasmin concentration (from 0.33 to 0.27 g/L) and an increase in serum nonceruloplasmin copper, which are typical of the late stages of Wilson's disease. It was found that one of the alleles of exon 14 in the ATP7B gene, which partially codes of the nucleotide-binding domain (N-domain), carries a mutation not previously reported corresponding to Cys1079Gly substitution. Alignment of the ATP7B N-domain amino acid sequences of representative vertebrate species has shown that the Cys at 1079 position is conserved throughout the evolution. Molecular dynamic analysis of a polypeptide with Cys1079Gly substitution showed that the mutation causes profound conformational changes in the N-domain, which could potentially lead to impairment of its functions. The role of ATP7B gene mutations in PD development is discussed.

Blood lysosphingolipids accumulation in patients with parkinson's disease with glucocerebrosidase 1 mutations.

INTRODUCTION: Glucocerebrosidase 1 mutations, the most common genetic contributor to Parkinson's disease (PD), have been associated with decreased glucocerebrosidase enzymatic activity in PD patients with glucocerebrosidase 1 mutations (glucocerebrosidase 1-PD). However, it is unknown whether this decrease in enzymatic activity leads to lysosphingolipid accumulations. METHODS: The levels of hexosylsphingosines, globotriaosylsphingosine, sphingomyelin, and sphingomyelin-509 were measured in dried blood spots from glucocerebrosidase 1-PD patients (n = 23), sporadic PD patients (n = 105), Gaucher disease patients (n = 32), and controls (n = 88) by liquid chromatography-tandem mass spectrometry. RESULTS: Glucocerebrosidase 1-PD patients had increased hexosylsphingosine levels when compared with sporadic PD patients (P < .001) and controls (P < .0001). Hexosylsphingosine levels were increased in glucocerebrosidase 1 mutation carriers of glucocerebrosidase 1 (L444P; N370S; n = 11, P = .001) and glucocerebrosidase 1 polymorphic variants (E326K, T369M) associated with PD (n = 12, P = .04) when compared with controls. CONCLUSIONS: Lysosphingolipid accumulations in PD patients who bear glucocerebrosidase 1 mutations suggest that substrate reduction therapy might be viewed as a possible strategy for glucocerebrosidase 1-PD treatment. © 2018 International Parkinson and Movement Disorder Society.

Mutation analysis of Parkinson's disease genes in a Russian data set.

Common variants and risk factors related to familial and sporadic cases of Parkinson's disease (PD) in diverse populations have been identified at numerous genomic loci. In this study, genetic analysis was performed through a screening of LRRK2 G2019S, GBA mutations (L444P, N370S), and common variants (E326K, T369M) in 762 PD patients and in 400 controls. Next-generation sequencing analysis of 22 PD-related genes in 28 early-onset PD cases from North-Western region of Russia was performed. The frequency of LRRK2 G2019S mutation was 5.8% in familial and 0.5% in sporadic PD cases. The frequency of GBA mutations (L444P, N370S) in PD patients was higher compared to controls (odds ratio [OR] = 6.9, 95% confidence interval [CI], 0.9-53.13, p = 0.031), particularly in patients with early-onset compared to late-onset PD (OR = 3.90 [95% CI, 1.2-13.2], p = 0.009). The frequency of E326K and T369M was twice higher among PD patients than in controls (OR = 2.24, 95% CI 1.05-4.79, p = 0.033). However, the screening of 22 PD-related genes using our novel panel of gene resequencing in our series of 28 early-onset PD failed to identify any mutations. LRRK2 and GBA mutations were found to be common risk factors for PD in North-Western region of Russia.

A low blood copper concentration is a co-morbidity burden factor in Parkinson's disease development.

Parkinson's disease (PD) patients are often characterized by copper dyshomeostasis, which is responsible for ROS formation and fibrillogenesis. However, the relationships between copper metabolism and PD development are unclear. In this study in 50 patients with PD (pPD) and 50 age-matched healthy individuals, the serum total copper concentration, oxidase activity, ceruloplasmin and SOD3 protein concentrations were measured; and amount of copper atoms per ceruloplasmin molecule was calculated. These parameters were lower in pPD relatively to healthy volunteers. Decrease in concentrations of SOD3, ceruloplasmin, and copper but increase of interleukin-6 levels were associated with a risk of PD. Two consistent patterns were identified. First, a low serum copper concentration related with PD development and predominantly affected the non-motor symptoms of PD. There was no correlation between copper concentration and ceruloplasmin oxidase activity level (r = 0.27) in pPD. Second, Chelex 100 treatment revealed that pPD ceruloplasmin compared with ceruloplasmin of healthy individuals displayed smaller content of labile copper atoms. The presence or absence of these atoms had no effect on ceruloplasmin enzymatic activities. Our findings suggest that cuproenzyme deficiency, which is typical for PD, can be caused by violation of metabolic incorporation of the labile copper atoms into ceruloplasmin molecule.