The G209A mutation in the alpha-synuclein gene is not detected in familial cases of Parkinson disease in non-Greek and/or Italian populations

Therapeutics in the Neurorehabilitation of Parkinson's Disease

Parkinson's disease (PD) affects 1 percent of the population over the age of 65. The number of people with this disorder is steadily rising. Therapy for PD remains primarily pharmacologic, with medications that target the depleted dopaminergic system being the mainstay of therapy. Surgical therapies, both ablative and stimulatory, are in creasingly being used for patients with more advanced disease and/or complications of drug therapy. Experimental therapies aimed at restoring dopaminergic function and protecting dopaminergic cells are being studied. Alternate neurotransmitter systems are being evaluated as potential targets for therapy. Complete treatment of patients with PD utilizes education, physical therapy, support groups, and medication. When a comprehensive approach is used, PD is treatable and manageable.

Molecular Etiology of Parkinson Disease: Recent Progress

Parkinson disease (PD) is one of the most widespread neurodegenerative disorders. In North America alone it affects 1 million people. It is a multifactorial disorder caused by genetic, various biological and environmental factors. One of the important features of PD is the dementia, which is believed to be due to the loss of dopaminergic neurons. In some cases the disease can be inherited as an autosomal dominant or recessive trait but in the majority of cases it is acquired. The biological causes of the disorder are unknown. The identification of mutations in the parkin gene in the autosomal recessive case and alpha-synuclein gene in autosomal dominant cases has opened a new avenue for studies to understand the basic biochemical mechanisms of pathogenesis. Although several types of treatments such as transplantation of cells that produce L-Dopa and direct gene delivery using adeno-associated viral vectors may correct animal models of PD, their usefulness in the human is not yet clear. A better understanding of the causes of neurodegeneration may lead to better therapies in the future.

Multiple system atrophy: genetic or epigenetic?

Multiple system atrophy (MSA) is a rare, late-onset and fatal neurodegenerative disease including multisystem neurodegeneration and the formation of α-synuclein containing oligodendroglial cytoplasmic inclusions (GCIs), which present the hallmark of the disease. MSA is considered to be a sporadic disease; however certain genetic aspects have been studied during the last years in order to shed light on the largely unknown etiology and pathogenesis of the disease. Epidemiological studies focused on the possible impact of environmental factors on MSA disease development. This article gives an overview on the findings from genetic and epigenetic studies on MSA and discusses the role of genetic or epigenetic factors in disease pathogenesis.

Genetic variants and animal models in SNCA and Parkinson disease

Parkinson disease (PD; MIM 168600) is the second most common progressive neurodegenerative disorder characterized by a variety of motor and non-motor features. To date, at least 20 loci and 15 disease-causing genes for parkinsonism have been identified. Among them, the α-synuclein (SNCA) gene was associated with PARK1/PARK4. Point mutations, duplications and triplications in the SNCA gene cause a rare dominant form of PD in familial and sporadic PD cases. The α-synuclein protein, a member of the synuclein family, is abundantly expressed in the brain. The protein is the major component of Lewy bodies and Lewy neurites in dopaminergic neurons in PD. Further understanding of its role in the pathogenesis of PD through various genetic techniques and animal models will likely provide new insights into our understanding, therapy and prevention of PD.

Genetic assessment of familial and early-onset Parkinson's disease in a Greek population

BACKGROUND AND PURPOSE

Although the first mutation associated with Parkinson's disease (PD) was identified several years ago in the alpha-synuclein (SNCA) gene in families of Greek and Italian ancestry, a more systematic study of this and other known PD mutations has not been performed in the Greek population.

METHODS

A genetic analysis in 111 familial or sporadic with early-onset (≤50 years, EO) PD patients was performed for the presence of the A53T SNCA mutation. In separate subgroups of these patients, further mutations in the SNCA, LRRK2, Parkin, PINK1 and DJ-1 genes were searched for. Additionally, a subgroup of familial cases was analysed for mutations in the glucocerebrosidase (GBA) gene.

RESULTS

In total, five patients (4.5% of our whole population) were identified with the A53T SNCA mutation, two with a heterozygote dosage mutation and one with a heterozygote point mutation in the Parkin gene, and seven patients (10.3% of our familial cohort) with GBA gene mutations.

CONCLUSIONS

The A53T mutation in the SNCA gene, although uncommon, does represent a cause of PD in the Greek population, especially of familial EOPD with autosomal dominant inheritance. GBA mutations in the familial cohort tested here were as common as in a cohort of sporadic cases previously examined from the same centres. For the remainder of the genes, genetic defects that could definitively account for the disease were not identified. These results suggest that further Mendelian traits that lead to PD in the Greek population remain to be identified.

The alpha-synuclein 5'untranslated region targeted translation blockers: anti-alpha synuclein efficacy of cardiac glycosides and Posiphen

Increased brain α-synuclein (SNCA) protein expression resulting from gene duplication and triplication can cause a familial form of Parkinson's disease (PD). Dopaminergic neurons exhibit elevated iron levels that can accelerate toxic SNCA fibril formation. Examinations of human post mortem brain have shown that while mRNA levels for SNCA in PD have been shown to be either unchanged or decreased with respect to healthy controls, higher levels of insoluble protein occurs during PD progression. We show evidence that SNCA can be regulated via the 5'untranslated region (5'UTR) of its transcript, which we modeled to fold into a unique RNA stem loop with a CAGUGN apical loop similar to that encoded in the canonical iron-responsive element (IRE) of L- and H-ferritin mRNAs. The SNCA IRE-like stem loop spans the two exons that encode its 5'UTR, whereas, by contrast, the H-ferritin 5'UTR is encoded by a single first exon. We screened a library of 720 natural products (NPs) for their capacity to inhibit SNCA 5'UTR driven luciferase expression. This screen identified several classes of NPs, including the plant cardiac glycosides, mycophenolic acid (an immunosuppressant and Fe chelator), and, additionally, posiphen was identified to repress SNCA 5'UTR conferred translation. Western blotting confirmed that Posiphen and the cardiac glycoside, strophanthidine, selectively blocked SNCA expression (~1 μM IC(50)) in neural cells. For Posiphen this inhibition was accelerated in the presence of iron, thus providing a known APP-directed lead with potential for use as a SNCA blocker for PD therapy. These are candidate drugs with the potential to limit toxic SNCA expression in the brains of PD patients and animal models in vivo.

Genetics and Parkinson's disease

Idiopathic Parkinson's disease is a neurodegenerative disorder that affects 1-2% of the population over the age of 65 years. Its aetiology is most likely a combination of complex genetic and environmental factors. Although Mendelian inheritance is seen in less than 5% of cases, recent studies have identified three genes mutations causing Parkinson's disease with a Mendelian inheritance pattern: autosomal dominantly inherited mutations of the alpha-synuclein gene on chromosome 4q21-q23, autosomal recessively inherited mutations of the parkin gene on chromosome 6q25.2-q27 and an autosomal dominantly inherited mutation of the Ubiquitin C-terminal hydrolase L1 (UCH-L1) gene on chromosome 4p14-15.1. A number of other candidate gene polymorphisms including cytochrome P450 2D6, N-acetyltransferase 2, monoamine oxidase-B and glutathione-s-transferase M1 are implicated in sporadic and familial cases and may also play a minor role in the aetiology of Parkinson's disease.

Identification of a risk haplotype of the alpha-synuclein gene in Japanese with sporadic Parkinson's disease

alpha-Synuclein is one of the main components of Lewy bodies, a pathological marker of Parkinson's disease (PD). Certain missense mutations of the alpha-synuclein gene cause familial PD, but the role of the gene in sporadic PD is still controversial. We scrutinized polymorphisms of the alpha-synuclein gene in a Japanese population and investigated their associations with sporadic cases of PD. The 5' flanking region to intron 2 of the alpha-synuclein gene (3.8 kb) and two polymorphisms in intron 4 previously reported in Caucasian sporadic cases of PD were analyzed in 185 sporadic PD and 191 controls. Five novel single nucleotide polymorphisms (SNPs), 16 reported SNPs, and one reported polynucleotide polymorphism (PNP) were found. Most of the polymorphisms examined were in linkage disequilibrium. Significant associations with PD were found in 15 of 21 SNPs, especially in intron 1 (IVS1+155 TmAn PNP and the IVS1+719 C>T SNP, P < 0.0001). Haplotype analysis showed that T10A7-A-A and T11A6-G-G haplotypes at three loci (IVS1+155 - IVS1+273 - IVS1+608) were strongly negative and positive risk factors of sporadic PD, respectively (odds ratios were 0.23 [95% confidence interval, 0.16-0.32] and 1.51 [95% confidence interval, 1.29-1.75]). In conclusion, our findings indicate that genetic variations of the alpha-synuclein gene affect the development of sporadic PD.

Alpha synuclein promoter and risk of Parkinson's disease: microsatellite and allelic size variability

Polymorphism of the alpha synuclein promoter region (non-amyloid component of plaques (NACP)-Rep1) is associated with an increased risk of Parkinson's disease (PD) in three separate studies. We studied NACP-Rep1 polymorphism in two independent case control studies in our population. In study one, 104 PD and 104 age, gender and race matched controls; and in study two, 102 PD and 102 age, gender and race matched controls were examined separately. The results of both studies were analyzed independent of one another. We found three polymorphic alleles (designated 0, 1, 2). In study one, the frequency of allele 2 was significantly higher in PD patients as compared to healthy controls (0.37 versus 0.23, P=0.01, X(2)=9.98). In study two, the frequency of allele 2 was similar between PD and controls (0.31 versus 0.33, P=1.00, X(2)=0.30). There was a non-significant higher allele 2 frequency in PD when both studies were analyzed together (0.34 versus 0.28, P=0.20, X(2)=3.4). No significant differences of the various genotypes between PD and controls were found. However there were differences of the mixed dinucleotide repeats sequences for similar homozygous genotypes. Variability of the microsatellite region and potential interacting factors that could affect alpha synuclein gene transcription should be further examined.

A novel polymorphic triplet repeat in intron five of the alpha-synuclein gene: no evidence of expansion or allelic association with idiopathic Parkinson's disease in the Irish

The recent discovery of two mutations associated with autosomal dominant Parkinson's disease (PD) has led to the hypothesis that the alpha-synuclein gene plays a role in the pathogenesis of PD. Here we report a novel triplet CAA repeat within the unusually large intron 5 sequence of the alpha-synuclein gene. Microsatellite analysis revealed a high degree of polymorphism within the Irish population with seven alleles detected, ranging from eight to 17 CAA repeats. Analysis of the allele/genotype frequency differences observed between an Irish idiopathic PD cohort (eta = 98) and a healthy aged control group ( eta= 92) revealed no strong association with either group. All PD subjects displaying homozygous profiles were examined for expansion of the trinucleotide repeat, but no expansion was observed. These results would suggest that polymorphism of the alpha-synuclein gene may not play as significant a role in the pathogenesis of idiopathic PD as previously hypothesised.

Molecular genetic analysis of the alpha-synuclein and the parkin gene in Parkinson's disease in Finland

Two mutations in the alpha-synuclein gene and various mutations in the parkin gene are associated with familial Parkinson's disease (PD). The present study was performed to analyse if mutations in these genes could be detected in Finnish patients with familial PD. The subjects comprised 22 unrelated patients with familial PD. The molecular genetic analysis consisted of sequence analysis of the non-coding and coding exons of the alpha-synuclein gene and screening of eight point mutations in the parkin gene. In addition, a total of 67 controls and 45 patients with sporadic PD were included in the association analysis on polymorphism of the alpha-synuclein gene. Screened point mutations in the parkin gene were not detected. Sequencing of the coding exons 2-6 of the alpha-synuclein gene did not reveal any mutations or polymorphisms. However, three novel alterations in the T10A7 sequence at the 5' end of the non-coding exon 1' of the alpha-synuclein gene were found. The frequencies of the exon 1' polymorphic genotypes or alleles between familial PD patients and control subjects revealed no statistically significant differences. No association for sporadic PD was observed. The results do not support a role for the alpha-synuclein gene or point mutations of the parkin gene in familial PD in our sample.

Clinical features of parkinsonian patients with the alpha-synuclein (G209A) mutation

The motor and neuropsychological abnormalities in eight Greek patients with Parkinson's disease (PD) carrying the alpha-synuclein gene mutation (G209A) were studied. These patients (five men, three women) belonged to six different families. Their symptoms started between 32-50 years of age (mean +/- SD, 39.7 +/- 7.6 years) and they had a mean disease duration of 5.4 +/- 2.1 years (range, 2-9 years) at the time of examination. Rigidity and bradykinesia predominated both at disease onset as well as in the later stages and rest tremor was relatively uncommon. Neuropsychological assessment showed that one patient was mildly demented while another had impairment in memory, visuoconstructive abilities, and executive function. Depression was present in only one patient. Our findings indicate that genetic forms of parkinsonism share common motor and cognitive characteristics with sporadic PD but raise the possibility that greater cognitive impairment and the relative rarity of tremor may be distinctive features worthy of further investigation.

Analysis of the coding and the 5' flanking regions of the alpha-synuclein gene in patients with Parkinson's disease

Missense mutations of the alpha-synuclein gene have been reported to explain a few kindreds with autosomal dominant Parkinson's disease (PD). In order to identify mutations in our PD patients, we have screened the coding region and 5'flanking region of the gene. DNA samples from 50 patients with familial PD were screened via single-strand conformation polymorphism (SSCP) for mutations in the alpha-synuclein gene. The 5' flanking region was examined in 117 additional PD patients (27 patients with unclear family history for PD, and 90 patients without family history) and in 169 control subjects. We found one change (G199A) in exon 4 in one family with a pattern of autosomal dominant PD. However, this mutation did not result in an amino acid substitution (valine) and did not segregate completely with PD. The analysis of the 5' flanking region also showed a new polymorphism, a nucleotide insertion (- 164insA) linked to a nucleotide substitution (C-116G), in patients and in controls. The -164insA/C-116G allele was present in 52.3% of the patients and in 47.6% of the controls. We did not find significant differences regarding the allelic and genotype frequencies between PD and control groups. These results suggest that mutations in the alpha-synuclein gene are a very rare cause of familial PD and that the novel -164insA/C-116G polymorphism in the 5' flanking region does not confer susceptibility to develop PD.

Analysis of alpha-synuclein, parkin, tau, and UCH-L1 in a Japanese family with autosomal dominant parkinsonism

We examined whether autosomal dominant parkinsonism of a Japanese family, Sagamihara family, was due to the mutations of alpha-synuclein, parkin, tau, and UCH-L1, which have been reported as the causal genes for parkinsonism in other families. Restriction-enzyme digestion of polymerase-chain reaction (PCR) amplified genomic DNA fragments of alpha-synuclein exons 3 and 4 detected no point mutation. PCR-amplification of parkin exons 3, 4, 5, 6 and 7 detected no exon deletion. Direct sequencing of PCR-amplified DNA fragments of tau exons 9, 10, 12, and 13 and intron 10, and of UCH-L1 exon 4 revealed that all these exons and intron were normal including a polymorphic nucleotide substitution. These results indicated that the parkinsonism of the Sagamihara family seems not to be due to previously identified point mutations of alpha-synuclein, tau, or UCH-L1, or to exon deletion of parkin.

The G209A mutation in the alpha-synuclein gene in Brazilian families with Parkinson's disease

A missense G209A mutation of the alpha-synuclein gene was recently described in a large Contursi kindred with Parkinson's disease (PD). The objective of this study is to determine if the mutation G209A of the alpha-synuclein gene was present in 10 Brazilian families with PD. PD patients were recruited from movement disorders clinics of Brazil. A family history with two or more affected in relatives was the inclusion criterion for this study. The alpha-synuclein G209A mutation assay was made using polymerase chain reaction and the restriction enzyme Tsp45I. Ten patients from 10 unrelated families were studied. The mean age of PD onset was 42.7 years old. We did not find the G209A mutation in our 10 families with PD. Our results suggest that alpha-synuclein mutation G209A is uncommon in Brazilian PD families.

Induction of neuronal cell death by Rab5A-dependent endocytosis of alpha-synuclein

The presynaptic alpha-synuclein is a prime suspect for contributing to Lewy pathology and clinical aspects of diseases, including Parkinson's disease, dementia with Lewy bodies, and a Lewy body variant of Alzheimer's disease. Here we examined the pathogenic mechanism of neuronal cell death induced by alpha-synuclein. The exogenous addition of alpha-synuclein caused a marked decrease of cell viability in primary and immortalized neuronal cells. The neuronal cell death appeared to be correlated with the Rab5A-specific endocytosis of alpha-synuclein that subsequently caused the formation of Lewy body-like intracytoplasmic inclusions. This was further supported by the fact that the expression of GTPase-deficient Rab5A resulted in a significant decrease of its cytotoxicity as a result of incomplete endocytosis of alpha-synuclein.

Clinical phenotype in patients with alpha-synuclein Parkinson's disease living in Greece in comparison with patients with sporadic Parkinson's disease

OBJECTIVE

An Ala53Thr mutation of the alpha-synuclein gene has been recently identified as a rare cause of autosomal Parkinson's disease (PD). The clinical characteristics of 15 patients with PD living in Greece with the Ala53Thr alpha-synuclein mutation (alpha-synPD) were compared with patients with sporadic Parkinson's disease (sPD).

METHODS

An investigator, blind to the results of the genetic analysis, examined 15 patients with alpha-synPD and 52 consecutive patients with sPD. Demographic data, age at onset of the illness, modality of presentation, and duration of PD were collected. The unified Parkinson's disease rating scale, the Hoehn and Yahr scale, and the Schwab-England scale were completed. The patients with alpha-synPD were matched for duration of disease with 32 of the 52 patients with sporadic PD (MsPD group).

RESULTS

Patients with the alpha-synuclein mutation were significantly younger (mean 7.6 years), showed the first sign of the disease significantly earlier in life (mean 10.8 years), and had significantly longer duration of the disease compared with patients with sPD. Tremor at onset of the disease was present in only one (6.7%) of the patients with alpha-synPD, whereas it was present in 32 (61.5%) of the patients with sPD (p=0.0006). During the course of the disease one patient in the alpha-synPD group went on to develop tremor compared with six patients in the sPD group. Rigidity, bradykinesia, postural instability, orthostatic hypotension, intellectual impairment, depression, complications of therapy, and clinical severity of the disease at the time of examination did not differ significantly between patients with alpha-synPD and those with sPD, or between patients with alpha-synPD and the MsPD group.

CONCLUSION

The younger age at onset of the illness, the much lower prevalence of tremor, and the longer duration of the disease characterise the clinical phenotype in this sample of patients with alpha-synPD. The other symptoms and signs of the illness did not seem to differentiate the patients with alpha-synPD from those with sPD.

Mutations in the alpha-synuclein gene in Parkinson's disease among Indians

OBJECTIVE

To investigate the prevalence of G88C, G209A and any other mutation(s) in exons 3 and 4 of the alpha-synuclein gene in Indian patients with Parkinson's disease (PD).

METHODS

A total of 169 PD patients comprising 18 familial, 3 juvenile, 48 early onset and 100 sporadic cases were included in this study. Genomic DNA was amplified by PCR using primers specific for Exons 3 and 4. Mutations at G88C and G209A were screened following restriction enzyme digestion of the PCR product. Direct PCR product sequencing of entire exons 3 and 4 was carried out for at least one proband each from the 10 familial cases.

RESULTS

Neither G88C and G209A mutations nor any other mutation in exons 3 and 4 was found in the PD patients analysed.

CONCLUSION

The G88C and G209A mutations do not seem to be the predominant genetic determinant of PD among Indians.

Sensitization of neuronal cells to oxidative stress with mutated human alpha-synuclein

Linkage of alpha-synuclein (alpha-SN) mutations to familial Parkinson's disease (PD) and presence of alpha-SN as a major constituent of Lewy body in both sporadic and familial PD implicate alpha-SN abnormality in PD pathogenesis. Here we demonstrate that overexpression of wild-type or mutant alpha-SN does not cause any deleterious effect on the growth or continued propagation of transfected human cells, but overproduction of mutant alpha-SN heightens their sensitivity to menadione-induced oxidative injury. Such enhanced vulnerability is more pronounced in neuronal transfectants than in their nonneuronal counterparts and is associated with increased production of reactive oxygen species. The data suggest that mutated alpha-SN, especially with an alanine-to-proline substitution at residue 30, sensitizes neuronal cells to oxidative damage.

Oxidative stress and genetics in the pathogenesis of Parkinson's disease

Parkinson's Disease (PD) is the second most common chronic neurodegenerative disease characterized by the progressive loss of dopamine neurons, leading to rigidity, slowness of movement, rest tremor, gait disturbances, and imbalance. Although there is effective symptomatic treatment for PD, there is no proven preventative or regenerative therapy. The etiology of this disorder remains unknown. Recent genetic studies have identified mutations in alpha-synuclein as a rare cause of autosomal dominant familial PD and mutations in parkin as a cause of autosomal recessive familial PD. The more common sporadic form of PD is thought to be due to oxidative stress and derangements in mitochondrial complex I activity. Understanding the mechanism by which familial linked mutations and oxidative stress cause PD has tremendous potential for unraveling the mechanisms of dopamine cell death in PD. In this article, we review recent advances in the understanding of the role of genetics and oxidative stress in the pathogenesis of PD.

Lewy body dementia

Although Lewy body dementia (LBD) has received a considerable amount of interest in the last decade, there still exists a certain level of confusion concerning the clinical and neuropathological features associated with this disorder. According to many researchers, LBD represents a distinct dementing illness with specific clinical features. The neuropathological hallmark for this disorder is the Lewy body, a spherical intraneuronal cytoplasmic inclusion originally described in brainstem nuclei in Parkinson's disease. In LBD, Lewy bodies are found in subcortical nuclei, such as the substantia nigra, as well as diffusely in the neocortex. Recently, a consortium on dementia with Lewy bodies was held that established consensus guidelines for the clinical and pathological diagnosis of LBD. This review will focus on the newest developments in LBD, addressing specifically clinical and neuropathological features, diagnostic classification, genetics and potential pharmacotherapy.