Plasma α‐synuclein in patients with Parkinson's disease with and without treatment

Alpha‐synuclein (α‐syn) is an intracellular protein with a high tendency to aggregation. It is the major component of Lewy bodies and may play a key role in the pathogenesis of Parkinson's disease (PD). α‐Syn is also released by neurons and can be detected in biological fluids, such as plasma. The purpose of this study was to determine whether plasma α‐syn concentrations are elevated in newly diagnosed PD patients before treatment (nontreated PD group, ntPD; n = 53) and to compare them with concentrations in PD patients with at least 1 year of specific treatment (tPD; n = 42) and in healthy controls (n = 60). Plasma α‐syn concentrations in the ntPD and tPD groups were similar and significantly higher than in healthy controls. In conclusion, α‐syn was elevated early in the development of PD and specific PD treatment did not change plasma α‐syn levels. © 2010 Movement Disorder Society     

Phosphorylated α‐synuclein in the retina is a biomarker of Parkinson's disease pathology severity

Background : PD patients often have visual alterations, for example, loss of visual acuity, contrast sensitivity or motion perception, and diminished electroretinogram responses. PD pathology is mainly characterized by the accumulation of pathological α‐synuclein deposits in the brain, but little is known about how synucleinopathy affects the retina. Objective : To study the correlation between α‐synuclein deposits in the retina and brain of autopsied subjects with PD and incidental Lewy body disease. Methods : We evaluated the presence of phosphorylated α‐synuclein in the retina of autopsied subjects with PD (9 subjects), incidental Lewy body disease (4 subjects), and controls (6 subjects) by immunohistochemistry and compared the retinal synucleinopathy with brain disease severity indicators. Results : Whereas controls did not show any phosphorylated α‐synuclein immunoreactivity in their retina, all PD subjects and 3 of 4 incidental Lewy body disease subjects had phosphorylated α‐synuclein deposits in ganglion cell perikarya, dendrites, and axons, some of them resembling brain Lewy bodies and Lewy neurites. The Lewy‐type synucleinopathy density in the retina significantly correlated with Lewy‐type synucleinopathy density in the brain, with the Unified Parkinson's disease pathology stage and with the motor UPDRS. Conclusion : These data suggest that phosphorylated α‐synuclein accumulates in the retina in parallel with that in the brain, including in early stages preceding development of clinical signs of parkinsonism or dementia. Therefore, the retina may provide an in vivo indicator of brain pathology severity, and its detection could help in the diagnosis and monitoring of disease progression. © 2018 International Parkinson and Movement Disorder Society     

Cerebrospinal fluid Tau/α‐synuclein ratio in Parkinson's disease and degenerative dementias

Although alpha‐synuclein is the main constituent of Lewy bodies, cerebrospinal fluid determination on its own does not seem fundamental for the diagnosis of synucleinopathies. We evaluated whether the combination of classical biomarkers, Aβ_1–42, total tau, phosphorylated tau, and α‐synuclein can improve discrimination of Parkinson's disease, dementia with Lewy bodies, Alzheimer's disease, and frontotemporal dementia. Aβ_1–42, total tau, phosphorylated tau, and α‐synuclein were measured in a series of patients with Parkinson's disease (n = 38), dementia with Lewy bodies (n = 32), Alzheimer's disease (n = 48), frontotemporal dementia (n = 31), and age‐matched control patients with other neurological diseases (n = 32). Mean α‐synuclein levels in cerebrospinal fluid were significantly lower in the pathological groups than in cognitively healthy subjects. An inverse correlation of α‐synuclein with total tau (r = ?0.196, P < .01) was observed. In the group of patients with Parkinson's disease, Aβ_1–42, total tau, and phosphorylated tau values were similar to controls, whereas total tau/α‐synuclein and phosphorylated tau/α‐synuclein ratios showed the lowest values. Cerebrospinal fluid α‐synuclein alone did not provide relevant information for Parkinson's disease diagnosis, showing low specificity (area under the curve, 0.662; sensitivity, 94%; specificity, 25%). Instead, a better performance was obtained with the total tau/α‐syn ratio (area under the curve, 0.765; sensitivity, 89%; specificity, 61%). Combined determination of α‐synuclein and classical biomarkers in cerebrospinal fluid shows differential patterns in neurodegenerative disorders. In particular, total tau/α‐synuclein and phosphorylated tau/α‐synuclein ratios can contribute to the discrimination of Parkinson's disease. © 2011 Movement Disorder Society     

Value of in vivo α‐synuclein deposits in Parkinson's disease: A systematic review and meta‐analysis

Previous studies that have investigated the potential of in vivo abnormal α‐synuclein deposits as a pathological biomarker for PD included few participants and reported different diagnostic accuracies. Here, we aimed to confirm the diagnostic value of in vivo α‐synuclein deposits in PD through a systematic review and meta‐analysis, with special emphasis on determining the tissue most suitable for examination and assessing whether anti‐native α‐synuclein or anti‐phosphorylated α‐synuclein antibodies should be used. Databases were searched on December 30, 2018. We finally included 41 case‐control studies that examined in vivo tissue samples using anti‐native α‐synuclein or anti‐phosphorylated α‐synuclein antibody in PD patients and controls. Using a univariate random‐effects model, pooled sensitivity and specificity (95% confidence interval) of anti‐native α‐synuclein antibody were 0.54 (0.49‐0.60) and 0.72 (0.68‐0.76) for the gastrointestinal tract and 0.76 (0.60‐0.89) and 0.60 (0.43‐0.74) for the skin. Pooled sensitivity and specificity (95% confidence interval) of anti‐phosphorylated α‐synuclein antibody were 0.43 (0.37‐0.48) and 0.82 (0.78‐0.86) for the gastrointestinal tract, 0.76 (0.69‐0.82) and 1.00 (0.98‐1.00) for the skin, 0.42 (0.26‐0.59) and 0.94 (0.84‐0.99) for the minor salivary glands, and 0.66 (0.51‐0.79) and 0.96 (0.86‐1.00) for the submandibular glands. Although ubiquitous heterogeneity between the included studies should be noted when interpreting our results, our analyses demonstrated the following: (1) in vivo α‐synuclein immunoreactivity has the potential as a pathological biomarker for PD; (2) anti‐phosphorylated α‐synuclein antibody consistently has higher specificity than anti‐native α‐synuclein antibody; and (3) skin biopsy examination using anti‐phosphorylated α‐synuclein antibody has the best diagnostic accuracy, although feasibility remains an important issue. © 2019 International Parkinson and Movement Disorder Society     

Tau/α‐synuclein ratio and inflammatory proteins in Parkinson's disease: An exploratory study

Background : No CSF or plasma biomarker has been validated for diagnosis or progression of PD. Objectives : To assess whether the CSF and plasma levels of proteins associated with PD neuropathological inclusions and with neuroinflammation might have value in the diagnosis of PD or in relation to disease severity. Methods : CSF levels of α‐synuclein, amyloid‐ß1‐42, total tau, and threonine‐181 phosphorylated tau, as well as CSF and plasma levels of cytokines (interleukin‐1ß, interleukin‐2, interleukin, interferon‐γ, and tumor necrosis factor α) were studied in 40 PD patients and 40 healthy controls. Plasma levels of cytokines were measured in 51 patients and 26 aditional controls. We also explored the Parkinson's Progression Markers Initiative data set as a replication cohort. Results : CSF levels of α‐synuclein, amyloid‐ß1‐42, and tumor necrosis factor α were lower in patients than in controls, and the total tau/α‐synuclein, phosphorylated tau/α‐synuclein, total tau/amyloid‐ß1‐42+α‐synuclein, and phosphorylated tau/amyloid‐ß1‐42+α‐synuclein ratios were higher in patients. The best area under the curve value was obtained for the phosphorylated tau/α‐synuclein ratio alone (0.86) and also when this was combined with tumor necrosis factor α in CSF (0.91; sensitivity 92.9%, specificity 75% for a cut‐off value of ≤ 0.71). Phosphorylated tau/α‐synuclein and phosphorylated tau/amyloid‐ß1‐42+α‐synuclein were higher in patients than in controls of the Parkinson's Progression Markers Initiative database. Plasma cytokines did not differ between groups, although interleukin‐6 levels were positively correlated with UPDRS‐I, ‐II, and ‐III scores. Conclusions : The CSF phosphorylated tau/α‐synuclein ratio alone, and in combination with tumor necrosis factor α and plasma interleukin‐6 levels, might serve as biomarkers to diagnose PD and monitor its severity. © 2017 International Parkinson and Movement Disorder Society     

Targeting α‐synuclein: Therapeutic options

The discovery of the central role of α‐synuclein (αSyn) in the pathogenesis of Parkinson's disease (PD) has powered, in the last decade, the emergence of novel relevant models of this condition based on viral vector‐mediated expression of the disease‐causing protein or inoculation of toxic species of αSyn. Although the development of these powerful tools and models has provided considerable insights into the mechanisms underlying neurodegeneration in PD, it has also been translated into the expansion of the landscape of preclinical therapeutic strategies. Much attention is now brought to the proteotoxic mechanisms induced by αSyn and how to block them using strategies inspired by intrinsic cellular pathways such as the enhancement of cellular clearance by the lysosomal‐autophagic system, through proteasome‐mediated degradation or through immunization. The important effort undertaken by several laboratories and consortia to tackle these issues and identify novel targets warrants great promise for the discovery not only of neuroprotective approaches but also of restorative strategies for PD and other synucleinopathies. In this viewpoint, we summarize the latest advances in this new area of PD research and will discuss promising approaches and ongoing challenges. © 2016 International Parkinson and Movement Disorder Society     

FGF20 and Parkinson's disease: No evidence of association or pathogenicity via α‐synuclein expression

Genetic variation in fibroblast growth factor 20 (FGF20) has been associated with risk of Parkinson's disease (PD). Functional evidence suggested the T allele of one SNP, rs12720208 C/T, altered PD risk by increasing FGF20 and α‐synuclein protein levels. Herein we report our association study of FGF20 and PD risk in four patient‐control series (total: 1,262 patients and 1,881 controls), and measurements of FGF20 and α‐synuclein protein levels in brain samples (nine patients). We found no evidence of association between FGF20 variability and PD risk, and no relationship between the rs12720208 genotype, FGF20 and α‐synuclein protein levels. © 2009 Movement Disorder Society     

A new role for α‐synuclein in Parkinson's disease: Alteration of ER–mitochondrial communication

Familial cases of Parkinson's disease (PD) can be associated with overexpression or mutation of α‐synuclein, a synaptic protein reported to be localized mainly in the cytosol and mitochondria. We recently showed that wild‐type α‐synuclein is not present in mitochondria, as previously thought, but rather is located in mitochondrial‐associated endoplasmic reticulum membranes. Remarkably, we also found that PD‐related mutated α‐synuclein results in its reduced association with mitochondria‐associated membranes, coincident with a lower degree of apposition of endoplasmic reticulum with mitochondria and an increase in mitochondrial fragmentation, as compared with wild‐type. This new subcellular localization of α‐synuclein raises fundamental questions regarding the relationship of α‐synuclein to mitochondria‐associated membranes function, in both normal and pathological states. In this article, we attempt to relate aspects of PD pathogenesis to what is known about mitochondria‐associated membranes' behavior and function. We hypothesize that early events occurring in dopaminergic neurons at the level of the mitochondria‐associated membranes could cause long‐term disturbances that lead to PD. © 2015 International Parkinson and Movement Disorder Society     

Sensitive and specific detection of α‐synuclein in human plasma

α‐Synuclein (αsyn) mutations, overexpression, misfolding, and aggregation are associated with Parkinson's disease. This protein has been intensively studied in neuronal systems. However, αsyn is also present in extracellular fluids, such as cerebrospinal fluid and blood plasma. Recent studies have attempted to quantify its levels and compare these in various extracellular fluids of control and Parkinson's disease subjects. Data from these studies have been difficult to interpret, suggesting that more sensitive, standardized, and well‐characterized assays of larger cohorts are required. Here, we describe the development of a new ELISA specifically for quantifying αsyn in human plasma. An initial assay, using a commercial anti‐αsyn monoclonal antibody (211; Santa Cruz Biotechnology, Santa Cruz, CA) and based on a published protocol, was adapted for use in human plasma. In addition, we have developed a novel αsyn‐specific antibody for the assay that has very high sensitivity and signal:noise characteristics. Assays with either antibody showed high specificity for αsyn, and detected it in a variety of sample types, including plasma. These assays can now be employed on large cohorts of patients and control subjects to determine whether plasma levels are altered in disease. Although measuring extracellular αsyn levels may prove to be a useful biomarker of Parkinson's disease, it should also be a powerful tool for basic research aimed at understanding the normal and pathological physiology of αsyn secretion. © 2010 Wiley‐Liss, Inc.     

Environment,lifestyle, and Parkinson's disease: Implications for prevention in the next decade

There is evidence from observational studies for a role of a number of environmental exposures and lifestyle habits in modulating the risk for Parkinson's disease. Environmental and lifestyle associations, if causal, represent opportunities for Parkinson's disease prevention or disease modification at individual and population levels. In the past decade, additional evidence has been published that improves causal inference and/or enhances our understanding of the complexity of these associations. A number of gene–environment interactions have been elucidated, and our understanding of the roles of physical activity, pesticide and other chemical exposures, dietary habits, emotional stress, head injury, and smoking has been refined. In the next decade, better techniques will help us to close the gaps in our knowledge, including taking into account Parkinson's disease heterogeneity and gene and risk factor interactions in observational studies. To do this, larger datasets, global consortia, genomewide environment interaction studies, prospective studies throughout the lifespan, and improvements in the methodology of clinical trials of physical activity will be key. Despite the caveats of observational studies, a number of low‐risk and potentially high‐yield recommendations for lifestyle modification could be made to minimize the individual and societal burdens of Parkinson's disease, including dietary modifications, increasing physical activity, and head injury avoidance. Furthermore, a reduction in pesticide use could have a major impact on global health related to and beyond Parkinson's disease. Given the increasing prevalence of this disorder, formulating and promoting these recommendations should be a high priority. © 2019 International Parkinson and Movement Disorder Society