Objective
Several prion amplification systems have been proposed for detection of prions in cerebrospinal fluid (CSF), most recently, the measurements of prion seeding activity with second‐generation ...real‐time quaking‐induced conversion (RT‐QuIC). The objective of this study was to investigate the diagnostic performance of the RT‐QuIC prion test in the broad phenotypic spectrum of prion diseases.
Methods
We performed CSF RT‐QuIC testing in 2,141 patients who had rapidly progressive neurological disorders, determined diagnostic sensitivity and specificity in 272 cases that were autopsied, and evaluated the impact of mutations and polymorphisms in the PRNP gene, and type 1 or type 2 human prions on diagnostic performance.
Results
The 98.5% diagnostic specificity and 92% sensitivity of CSF RT‐QuIC in a blinded retrospective analysis matched the 100% specificity and 95% sensitivity of a blind prospective study. The CSF RT‐QuIC differentiated 94% of cases of sporadic Creutzfeldt–Jakob disease (sCJD) MM1 from the sCJD MM2 phenotype, and 80% of sCJD VV2 from sCJD VV1. The mixed prion type 1‐2 and cases heterozygous for codon 129 generated intermediate CSF RT‐QuIC patterns, whereas genetic prion diseases revealed distinct profiles for each PRNP gene mutation.
Interpretation
The diagnostic performance of the improved CSF RT‐QuIC is superior to surrogate marker tests for prion diseases such as 14‐3‐3 and tau proteins, and together with PRNP gene sequencing the test allows the major prion subtypes to be differentiated in vivo. This differentiation facilitates prediction of the clinicopathological phenotype and duration of the disease—two important considerations for envisioned therapeutic interventions. ANN NEUROL 2017;81:79–92
Alzheimer's disease (AD) is the most common cause of dementia and a major cause of morbidity and mortality. The greatest risk factor for AD is age and as many countries are experiencing an aging ...population, the expected rise in AD threatens to have serious medical and socioeconomic impact in the coming decades. The only approved medications for AD are symptomatic and there are no currently available disease modifying treatments. Hence, a disease modifying treatment is desperately needed for AD not only for proper care and management of affected patients, but also to reduce society's socioeconomic burden. Developing novel compounds for any indication is a time, effort, and money consuming endeavor and most treatments never make it to market. Other research and development strategies are needed, especially for the treatment of AD. We provide a review of the current literature in assessing possibilities of repurposing medications currently used for non-AD indications. Many different compounds from many different pharmacological classes have already been studied in an AD context. We provide a "pragmatic drug repurposing score" for each of these compounds based on type of studies conducted, number of possible mechanisms of action, efficacy in AD and other neurodegenerative disease studies, tolerability profile, and their ability to cross the blood brain barrier. The current data suggest several compounds worthy of further study as treatments for AD. Compounds with the highest scores include lithium, minocycline, exenatide, valproic acid, methylene blue, and nicotine.
Individuals with mild cognitive impairment (MCI) are at high risk of developing dementia and/or Alzheimer disease (AD). Among persons with MCI, depression and anxiety have been associated with an ...increased risk of incident dementia. We examined whether neuropsychiatric symptoms in MCI increased the risk of incident dementia (all-cause) and incident AD.
Longitudinal cohort study followed annually (median: 1.58 years).
National Alzheimer's Coordinating Center database combining clinical data from 29 Alzheimer's Disease Centers.
A total of 1,821 participants with MCI.
1) Progression to dementia (all-cause) or AD, 2) Neuropsychiatric Inventory Questionnaire (NPI-Q), 3) Geriatric Depression Scale (GDS), 4) Clinical Dementia Rating Global Score and Sum of Boxes, and 5) Mini-Mental State Examination (MMSE). The association of covariates with risk of incident dementia or AD was evaluated with hazard ratios (HR) determined by Cox proportional-hazards models adjusted for age, ethnicity, Clinical Dementia Rating Global Score and Sum of Boxes, and MMSE.
A total of 527 participants (28.9%) progressed to dementia and 454 (24.9%) to AD. Baseline GDS > 0 was associated with an increased risk of incident dementia (HR: 1.47, 95% CI: 1.17-1.84) and AD (HR: 1.45, 95% CI: 1.14-1.83). Baseline NPI > 0 was associated with an increased risk of incident dementia (HR: 1.37, 95% CI: 1.12-1.66) and AD (HR: 1.35, 95% CI: 1.09-1.66).
Neuropsychiatric symptoms in MCI are associated with significantly an increased risk of incident dementia and AD. Neuropsychiatric symptoms may be among the earliest symptoms of preclinical stages of AD and targeting them therapeutically might delay transition to dementia.
Genetic aspects of human prion diseases Appleby, Brian S.; Shetty, Shashirekha; Elkasaby, Mohamed
Frontiers in neurology,
10/2022, Volume:
13
Journal Article
Peer reviewed
Open access
Human prion diseases are rapidly progressive and fatal neurodegenerative conditions caused by a disease-causing isoform of the native prion protein. The prion protein gene (
PRNP
) encodes for the ...cellular prion protein, which is the biological substrate for prion disease transmission and neurotoxicity. Human prion diseases have three etiologies: sporadic, genetic, and acquired.
PRNP
polymorphisms and pathogenic variants play a large role in the frequency, age at onset, and clinicopathologic phenotype of prion diseases. Genetic prion diseases will be covered in detail and information necessary for clinical care, predictive genetic testing, and genetic counseling will be reviewed. Because the prion protein is necessary for transmission and neurotoxicity, many experimental treatments targeting its production are being investigated and hold potential promise as a disease modifying treatment for all forms of prion disease, including asymptomatic mutation carriers. This article will review genetic aspects of human prion disease and their influence on epidemiology, clinicopathologic phenotype, diagnostics, clinical management, and potential treatment approaches.
•Previous clinical trials in prion diseases have yielded important information.•Clinical trials in prion disease should consider prion disease-specific aspects.•Clinical trials in prion disease ...should consider clinically meaningful outcomes.•International collaboration will improve our ability to conduct clinical trials.
Human prion diseases are usually rapid neurodegenerative illnesses that are invariably fatal. Despite several clinical trials, no effective treatment has been discovered in humans. Although prior clinical trials have not been successful, they provided information that is vital for the formation of future clinical trials. Among these findings is the realization that there are several prion disease-specific aspects that must be considered when conducting clinical trials. The rarity, rapidity, and clinical heterogeneity of prion disease affect study enrollment and the ability to measure treatment effects. In addition to affecting results, study methodology may also influence study enrollment. In this review, we explore several challenges to conducting clinical trials in prion disease and suggest some practical considerations.
Prion diseases are a group of rapidly progressive and always fatal neurodegenerative disorders caused by misfolded prion protein in the brain. Although autopsy remains the gold-standard diagnostic ...tool, antemortem laboratory testing can be performed to aid in the diagnosis of prion disease. This review is meant to help laboratory directors and physicians in their interpretation of test results. Laboratory assays to detect both nonspecific biomarkers of prion disease and prion-specific biomarkers can be used. The levels of nonspecific biomarkers in cerebrospinal fluid (CSF) are elevated when rapid neurodegeneration is occurring in the patient, and these markers include 14-3-3, tau, neuron-specific enolase, S100B, and alpha-synuclein. These markers have various sensitivities and specificities but are overall limited, as the levels of any of these analytes can be elevated in nonprion disease that is causing rapid damage of brain tissue. Prion-specific assays used in clinical laboratory testing are currently limited to two options. The first option is second-generation real-time quaking-induced conversion (RT-QuIC) performed on CSF, and the second option is Western blotting of a brain biopsy specimen used to detect protease-resistant prion protein. Although both tests have exquisite specificity, RT-QuIC has a sensitivity of 92 to 97.2% in symptomatic individuals, compared to the brain biopsy Western blot sensitivity of 20 to 60%. RT-QuIC was added to the Centers for Disease Control and Prevention's diagnostic criteria for prion disease in 2018. Other caveats of laboratory testing need to be considered, as sporadic, genetic, and acquired forms of prion disease have different clinical and laboratory presentations, and these caveats are discussed. Laboratory testing plays an important role in the diagnosis of prion disease, which is often challenging to diagnose.
Chronic wasting disease (CWD) is a prion-related transmissible spongiform encephalopathy of cervids, including deer, elk, reindeer, sika deer, and moose. CWD has been confirmed in at least 26 U.S. ...states, three Canadian provinces, South Korea, Finland, Norway, and Sweden, with a notable increase in the past 5 years. The continued geographic spread of this disease increases the frequency of exposure to CWD prions among cervids, humans, and other animal species. Since CWD is now an established wildlife disease in North America, proactive steps, where possible, should be taken to limit transmission of CWD among animals and reduce the potential for human exposure.
Objective
The underlying pathology of autoimmune encephalitis is not well characterized due to the limited opportunities to study tissue specimens. Autopsy specimens available at prion surveillance ...centers from patients with suspected Creutzfeldt-Jakob disease offer a unique opportunity to study the pathology of autoimmune encephalitis. Our objective was to describe pathological findings of autoimmune encephalitis specimens submitted to the U.S. National Prion Disease Pathology Surveillance Center.
Methods
Pathology reports were obtained from the National Prion Center. Specimens negative for prion disease were screened for inflammatory pathology and those suggestive of autoimmune encephalitis were analyzed. Cases identified on autopsy were compared to institutional cases with fatal seronegative autoimmune encephalitis and available brain biopsy.
Results
Between 1998 and 2022, 7934 specimens were evaluated of which 2998 (38%) were negative for prion protein. Querying the database for alternative diagnoses of encephalitis/encephalopathy yielded 43 cases that were screened by an experienced neuropathologist yielding 14 (0.5%) cases consistent with autoimmune encephalitis. Most specimens showed diffuse inflammation involving the limbic system (86%), basal ganglia (86%), cortex (71%), diencephalon (71%), and in some cases the brainstem (43%) and cerebellum (43%). Lymphocytic inflammatory infiltrate was predominantly perivascular with parenchymal extension in 64%. Microglial activation/nodules were seen in 64% of cases. Neuronal loss was present only in 50%. Pathological findings were identical to biopsy specimens from our institutional cohort.
Discussion
Seronegative AE may have consistent pathology with diffuse or multifocal perivascular inflammation and microglial activation. Half the patients do not have neuronal loss suggesting a potential for neurological recovery. These findings are preliminary and require further confirmation.
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