Biomarker discovery for Alzheimer’s disease, frontotemporal lobar degeneration, and Parkinson’s disease

Ante-mortem diagnosis of neurodegenerative disorders based on clinical features alone is associated with variable sensitivity and specificity, and biomarkers can potentially improve the accuracy of clinical diagnosis. In patients suspected of having Alzheimer’s disease (AD), alterations in cerebrospinal fluid (CSF) biomarkers that reflect the neuropathologic changes of AD strongly support the diagnosis, although there is a trade-off between sensitivity and specificity due to similar changes in cognitively healthy subjects. Here, we review the current approaches in using CSF AD biomarkers (total tau, p-tau₁₈₁, and Aβ42) to predict the presence of AD pathology, and our recent work using multi-analyte profiling to derive novel biomarkers for biofluid-based AD diagnosis. We also review our use of the multi-analyte profiling strategy to identify novel biomarkers that can distinguish between subtypes of frontotemporal lobar degeneration, and those at risk of developing cognitive impairment in Parkinson’s disease. Multi-analyte profiling is a powerful tool for biomarker discovery in complex neurodegenerative disorders, and analytes associated with one or more diseases may shed light on relevant biological pathways and potential targets for intervention.     

Clinical, genetic, and brain sonographic features related to Parkinson’s disease in Gaucher disease

Homozygous or compound heterozygous mutations in the glucocerebrosidase gene cause Gaucher disease. Moreover, heterozygous glucocerebrosidase gene mutations represent the most common genetic risk factor for Parkinson’s disease (PD) known so far. Substantia nigra (SN) hyperechogenicity, a sonographic feature thought to reflect iron accumulation, has been described in both PD and Gaucher disease patients. Here we studied how clinical, genetic, and brain sonographic findings relate to the occurrence of PD in Gaucher disease. Sixteen Gaucher disease patients, 12 PD patients, and 32 control subjects were enrolled. The glucocerebrosidase genotypes were identified by DNA sequencing. All subjects underwent transcranial ultrasound, and eight Gaucher disease patients additionally MRI for comparison with SN ultrasound findings. SN hyperechogenicity and reduced echogenicity of brainstem raphe were more frequent in Gaucher disease patients (62, 37 %) than in controls (12, 12 %; p < 0.001, p < 0.05). SN hyperechogenicity in Gaucher disease patients was unrelated to type or severity of glucocerebrosidase gene mutation, but correlated with iron-sensitive MRI-T2 hypointensity of SN pars compacta, and with age at start of enzyme replacement therapy. While none of the five Gaucher disease patients with signs of PD (definite PD, n = 4; early PD, n = 1) had severe glucocerebrosidase gene mutations known to cause neuronopathic Gaucher disease, all carried a N370S allele, previously reported to predict non-neuronopathic Gaucher disease. Hyposmia, higher non-motor symptoms score (constipation, depression, executive dysfunction), and SN hyperechogenicity were characteristic features of Gaucher disease-related PD. We conclude that the combined clinical, genetic, and transcranial sonographic assessment may improve the PD risk evaluation in Gaucher disease.     

Cholesterol,Aβ and Alzheimer's disease

Statins have been used for many years for the treatment of hypercholesterolemia. They lower low-density lipoprotein (LDL) cholesterol, increase high-density lipoprotein (HDL) levels and are considered to be very safe. Recently, a set of potential new applications was identified for statins. In the future, these drugs could be used to treat Alzheimer's disease (AD). Past studies have suggested a link between AD and lipids and a series of reports has recently been published that significantly tightens this link and also provides some explanations at the cellular level. This review focuses on these recent developments and perspectives that appear to link cholesterol, β-amyloid and AD.     

Evidence for angiogenesis in Parkinson’s disease,incidental Lewy body disease,and progressive supranuclear palsy

Angiogenesis has not been extensively studied in Parkinson’s disease (PD) despite being associated with other neurodegenerative disorders. Post-mortem human brain tissues were obtained from subjects with pathologically confirmed Parkinson’s disease (PD) and progressive supranuclear palsy (PSP), a rapidly progressing Parkinsonian-like disorder. Tissues were also obtained from subjects with incidental Lewy body disease (iLBD) who had Lewy bodies in the substantia nigra pars compacta (SN_pc) but had not been diagnosed with PD, and age-matched controls without Lewy body pathology. The SNpc, putamen, locus ceruleus (LC) and midfrontal cortex were examined for integrin αvβ3, a marker for angiogenesis, along with vessel number and activated microglia. All parkinsonian syndromes had greater αvβ3 in the LC and the SN_pc, while only PD and PSP subjects had elevated αvβ3 in the putamen compared to controls. PD and PSP subjects also had increases in microglia number and activation in the SN_pc suggesting a link between inflammation and clinical disease. Microglia activation in iLBD subjects was limited to the LC, an area involved at an early stage of PD. Likewise, iLBD subjects did not differ from controls in αvβ3 staining in the putamen, a late area of involvement in PD. The presence of αvβ3 reactive vessels in PD and its syndromes is indicative of newly created vessels that have not likely developed the restrictive properties of the blood brain barrier. Such angiogenic vessels could contribute to neuroinflammation by failing to protect the parenchyma from peripheral immune cells and inflammatory or toxic factors in the peripheral circulation.     

Using advances in neuroimaging to detect,understand, and monitor disease progression in Huntington’s disease

Trangenic mouse models and other screens are being used to identify potential therapeutic agents for use in clinical trials in Huntington’s disease (HD). The development of surrogate markers that can be used in clinical therapeutics is an active area of research. Because HD is relatively uncommon and only a portion of available subjects meet inclusion and exclusion criteria, therapeutic trials are limited by the availability of potential subjects as well as the relative insensitivity of the clinical measures used. Neuroimaging methods offer the potential to provide noninvasive, reproducible, and objective methods not only to better understand the disease process but also to follow in clinical studies to determine if a drug is effective in slowing down disease progression or perhaps even in delaying onset. Following is a review of the literature, which highlights the studies that have been published to date.     

Motor impairment,depression, dementia: Which forms the impression of disease severity in Parkinson's disease?

IntroductionClinical Global Impression of Severity (CGIS) is a common measure in clinical research on Parkinson's disease (PD). However, patient features that contribute to the impression of the physician remain unclear. In particular, the impact of cognitive impairment and depression is understudied.MethodsIn a nationwide study on 1449 outpatients with PD, examined by 315 office-based neurologists, PD severity was documented with the Unified Parkinson's Disease Rating Scale (UPDRS-I, II, and IV). All patients were screened with the Montgomery-Asberg Depression Rating Scale (MADRS) for depression. The diagnosis of dementia was based on Diagnostic and Statistical Manual of Mental Disorders IV Text Revision criteria. Each patient was rated on the CGIS.ResultsCGIS ratings were available for 1438 patients, of which 50.8% were rated as “borderline” to “moderately ill” and 49.2% as “markedly” to “extremely ill.” Worse ratings were associated with higher age (p < 0.001), longer PD duration (p < 0.001), and female sex (p < 0.001). The impact of patient and physician variables on CGIS rating was calculated with three regression models (A: single bivariate regression; B: multivariate regression; and C: multivariate, multilevel regression, including physician variables). In all models, higher UPDRS-II scores and longer disease duration of PD were the strongest predictors for a worse CGIS rating. In the multivariate models (B and C), neuropsychiatric symptoms were unrelated to the CGIS rating.ConclusionThe additional burden of dementia and depression was underestimated in the CGIS rating, suggesting that they are possibly relativized against the motor impairment.     

Genetics and genetic counseling: Recommendations for Alzheimer’s disease,frontotemporal dementia,and Creutzfeldt-Jakob disease

In this paper we discuss the clinical genetics of three neurodegenerative diseases (Alzheimer’s disease, frontotemporal dementia, and Creutzfeldt-Jakob disease), the current application of genetic testing for these diseases, and the role of genetic counseling in familial dementia. We review the literature addressing the clinical application of these genetic findings, including susceptibility testing and predictive testing. In addition, we share our own experience working with families with familial neurodegenerative disease, the genetic counseling process, and the major issues that need attention in the genetic counseling setting.     

Thalamic, pallidal, or subthalamic surgery for Parkinson's disease?

Levodopa is a highly effective treatment of all motor symptoms of Parkinson's disease. However, long-term treatment with levodopa can lead to motor fluctuations and levodopa-induced dyskinesias. Motor side effects can become so disabling as to warrant surgical treatment. Both ablative surgery and deep brain stimulation (DBS) for Parkinson's disease (PD) can be performed in different target areas. Thalamic surgery mainly improves tremor, and to a lesser extent also rigidity and dyskinesias, whereas pallidal and subthalamic nucleus surgery improves all motor symptoms and levodopa-induced dyskinesias. The efficacy and safety of unilateral pallidotomy is well established. DBS has a lower morbidity and is safe enough to be performed bilaterally. The subthalamic nucleus (STN) presently seems to be the most promising target for DBS in advanced stage PD.     

Age,drugs, or disease: What alters the macrostructure of sleep in Parkinson’s disease?

ObjectiveTo describe the alterations in the macrostructure of sleep in a large cohort of sleep-disturbed patients with Parkinson’s disease (PD) and investigate influencing factors.MethodsA cohort of sleep-disturbed but otherwise unselected PD patients (n = 351) was investigated with video-supported polysomnography. We analyzed the influence of age, disease duration, disease severity, and dopaminergic medication on subjective sleep perception, sleep efficiency, the amount of slow wave sleep, awakenings, periodic leg movements in sleep (PLMS), and REM sleep behavior disorder (RBD).ResultsSleep efficiency and slow wave sleep decreased with age (p = 0.003 and p = 0.041, respectively). The number of awakenings and the frequency of RBD increased with age (p = 0.028 and p = 0.006, respectively). Higher Hoehn & Yahr stages were associated with more PLMS (p = 0.017). A higher daily dose of levodopa corresponded to more RBD (p < 0.001). Neither disease duration nor levodopa dosage had any influence on sleep efficiency, slow wave sleep, awakenings, or PLMS. Dopamine agonists increased awakenings (p < 0.001) and lowered PLMS (p < 0.001). Subjective sleep perception was not influenced by any of the factors analyzed. The only path model that could be replicated identified disease severity and dopamine agonists as interdependent factors influencing awakenings and PLMS.ConclusionAge leads to less sleep and a higher risk for RBD, and disease severity increases motor phenomena such as PLMS; dopamine agonists reduce PLMS but increase awakenings. No single factor analyzed influenced subjective sleep perception in this cohort of sleep disturbed PD patients.     

Insulin-degrading enzyme, apolipoprotein E, and Alzheimer’s disease

Insulin-degrading enzyme (IDE) is a protease that degrades insulin and the beta-amyloid (Abeta) peptide implicated in Alzheimer's disease (AD). Hence, factors that influence IDE expression or IDE activity toward Abeta are potentially relevant to the etiology of AD. Hippocampal IDE mRNA levels are lower on average in subjects with an APOE epsilon4 allele, suggesting that the genetic risk conferred by APOE epsilon4 may be mediated in part by this allele's effect on IDE expression. Other factors that influence IDE may be relevant in non-epsilon4 carriers. For example, insulin, a competitive inhibitor of IDE activity toward Abeta, may be elevated in non-epsilon4 cases. We here report IDE gene promoter region variants that are associated with AD in subjects without an epsilon4 allele. If these promoter region variants prove to affect expression levels, they may be relevant to disease as well. Further investigation of the relationship between APOE genotype, IDE genetic variants, and the expression and activity of hippocampal IDE is warranted.     

Acid β-glucosidase mutants linked to Gaucher disease, Parkinson disease, and Lewy body dementia alter α-synuclein processing

Objective:

Heterozygous mutations in the GBA1 gene elevate the risk of Parkinson disease and dementia with Lewy bodies; both disorders are characterized by misprocessing of α‐synuclein (SNCA). A loss in lysosomal acid–β‐glucosidase enzyme (GCase) activity due to biallelic GBA1 mutations underlies Gaucher disease. We explored mechanisms for the gene's association with increased synucleinopathy risk.

Methods:

We analyzed the effects of wild‐type (WT) and several GBA mutants on SNCA in cellular and in vivo models using biochemical and immunohistochemical protocols.

Results:

We observed that overexpression of all GBA mutants examined (N370S, L444P, D409H, D409V, E235A, and E340A) significantly raised human SNCA levels to 121 to 248% of vector control (p < 0.029) in neural MES23.5 and PC12 cells, but without altering GCase activity. Overexpression of WT GBA in neural and HEK293‐SNCA cells increased GCase activity, as expected (ie, to 167% in MES‐SNCA, 128% in PC12‐SNCA, and 233% in HEK293‐SNCA; p < 0.002), but had mixed effects on SNCA. Nevertheless, in HEK293‐SNCA cells high GCase activity was associated with SNCA reduction by ≤32% (p = 0.009). Inhibition of cellular GCase activity (to 8–20% of WT; p < 0.0017) did not detectably alter SNCA levels. Mutant GBA‐induced SNCA accumulation could be pharmacologically reversed in D409V‐expressing PC12‐SNCA cells by rapamycin, an autophagy‐inducer (≤40%; 10μM; p < 0.02). Isofagomine, a GBA chaperone, showed a related trend. In mice expressing two D409Vgba knockin alleles without signs of Gaucher disease (residual GCase activity, ≥20%), we recorded an age‐dependent rise of endogenous Snca in hippocampal membranes (125% vs WT at 52 weeks; p = 0.019). In young Gaucher disease mice (V394Lgba+/+//prosaposin[ps]‐null//ps‐transgene), which demonstrate neurological dysfunction after age 10 weeks (GCase activity, ≤10%), we recorded no significant change in endogenous Snca levels at 12 weeks of age. However, enhanced neuronal ubiquitin signals and axonal spheroid formation were already present. The latter changes were similar to those seen in three week‐old cathepsin D‐deficient mice.

Interpretation:

Our results demonstrate that GBA mutants promote SNCA accumulation in a dose‐ and time‐dependent manner, thereby identifying a biochemical link between GBA1 mutation carrier status and increased synucleinopathy risk. In cell culture models, this gain of toxic function effect can be mitigated by rapamycin. Loss in GCase activity did not immediately raise SNCA concentrations, but first led to neuronal ubiquitinopathy and axonal spheroids, a phenotype shared with other lysosomal storage disorders. ANN NEUROL 2011;     

Apolipoprotein E,amyloid-beta,and neuroinflammation in Alzheimer’s disease

Alzheimer’s disease (AD) is characterized by the accumulation and deposition of amyloid-beta (Aβ) peptides in the brain. Neuroinflammation occurs in the AD brain and plays a critical role in the neurodegenerative pathology. Particularly, Aβ evokes an inflammatory response that leads to synaptic dysfunction, neuronal death, and neurodegeneration. Apolipoprotein E (ApoE) proteins are involved in cholesterol transport, Aβ binding and clearance, and synaptic functions in the brain. The ApoE4 isoform is a key risk factor for AD, while the ApoE2 isoform has a neuroprotective effect. However, studies have reached different conclusions about the roles of the isoforms; some show that both ApoE3 and ApoE4 have anti-inflammatory effects, while others show that ApoE4 causes a predisposition to inflammation or promotes an inflammatory response following lipopolysaccharide treatment. These discrepancies may result from the differences in models, cell types, experimental conditions, and inflammatory stimuli used. Further, little was known about the role of ApoE isoforms in the Aβ-induced inflammatory response and in the neuroinflammation of AD. Our recent work showed that ApoE isoforms differentially regulate and modify the Aβ-induced inflammatory response in neural cells, with ApoE2 suppressing and ApoE4 promoting the response. In this article, we review the roles, mechanisms, and interrelations among Aβ, ApoE, and neuroinflammation in AD.     

Parkinson's disease risk factors: genetic, environmental, or both?

Perhaps one of the most important questions posed by the neurobiology of aging concerns the pathogenic mechanisms in Parkinson's disease (PD). Recently, it was suggested that exposure to pesticides could be the main cause of PD. Another study reported that the environmental endotoxin, lipopolysaccaride produced by Salmonella minnesota, might be a risk factor for PD. An alternative explanation is the genetic component, which has been suggested to be an important risk factor. Epidemiological studies have identified a positive family history of Parkinson as one of the most important risk factors for the disease. However, these studies neither examined nor reviewed the medical records of the family members. The twin study stated that the major factors in the etiology of PD are non-genetic. Meanwhile, epidemiological studies from China have shown that the prevalence of PD is much lower than in the Caucasian population, explained by the low frequency of cytochrome P-450 CYP2D6 debrisoquine hydroxylase gene polymorphism. The etiology of idiopathic PD is still a question for scientists, and calls for further research, especially with the growing proportion of elderly and the rising incidence of PD worldwide. Future research for PD risk factors should consider that multiple interactions occur in PD, resulting in a complex trait, which includes genetic, acquired, and environmental components.