Validation of soluble amyloid‐β precursor protein assays as diagnostic CSF biomarkers for neurodegenerative diseases

Analytical validation of a biomarker assay is essential before implementation in clinical practice can occur. In this study, we analytically validated the performance of assays detecting soluble amyloid‐β precursor protein (sAPP) α and β in CSF in two laboratories according to previously standard operating procedures serving this goal. sAPPα and sAPPβ ELISA assays from two vendors (IBL‐international, Meso Scale Diagnostics) were validated. The performance parameters included precision, sensitivity, dilutional linearity, recovery, and parallelism. Inter‐laboratory variation, biomarker comparison (sAPPα vs. sAPPβ) and clinical performance was determined in three laboratories using 60 samples of patients with subjective memory complaints, Alzheimer's disease, or frontotemporal dementia. All performance parameters of the assays were similar between labs and within predefined acceptance criteria. The only exceptions were minor out‐of‐range results for recovery at low concentrations and, despite being within predefined acceptance criteria, non‐comparability of the results for evaluation of the dilutional linearity and hook‐effect. Based on the inter‐laboratory correlation between Lab #1 and Lab #2, the IBL‐international assays were more robust (sAPPα: r2 = 0.92, sAPPβ: r2 = 0.94) than the Meso Scale Diagnostics (MSD) assay (sAPPα: r2 = 0.70, sAPPβ: r2 = 0.80). Specificity of assays was confirmed using assay‐specific peptide competitors. Clinical validation showed consistent results across the clinical groups in the different laboratories for all assays. The validated sAPP assays appear to be of sufficient technical quality and perform well. Moreover, the study shows that the newly developed standard operating procedures provide highly useful tools for the validation of new biomarker assays. A recommendation was made for renewed instructions to evaluate the dilutional linearity and hook‐effect.

[1]  E. Kojro,et al.  Low cholesterol stimulates the nonamyloidogenic pathway by its effect on the α-secretase ADAM 10 , 2001, Proceedings of the National Academy of Sciences of the United States of America.

[2]  B. Winblad,et al.  Levels of α- and β-secretase cleaved amyloid precursor protein in the cerebrospinal fluid of Alzheimer's disease patients , 2000, Neuroscience Letters.

[3]  Simon Duchesne,et al.  A JOINT SURVIVAL-LONGITUDINAL MODELLING FOR DYNAMIC PREDICTION OF PROGRESSION FROM MCI TO AD IN ADNI STUDY , 2014, Alzheimer's & Dementia.

[4]  K. Blennow,et al.  Alzheimer disease biomarker testing in cerebrospinal fluid: a method to harmonize assay platforms in the absence of an absolute reference standard. , 2013, Clinical chemistry.

[5]  K. Blennow,et al.  Soluble amyloid precursor protein α and β in CSF in Alzheimer's disease , 2013, Brain Research.

[6]  Hans Förstl,et al.  CSF soluble amyloid precursor proteins in the diagnosis of incipient Alzheimer disease , 2011, Neurology.

[7]  D. Rujescu,et al.  A new sandwich immunoassay for detection of the α-secretase cleaved, soluble amyloid-β protein precursor in cerebrospinal fluid and serum. , 2013, Journal of Alzheimer's disease : JAD.

[8]  T. Asada,et al.  Assessment of cerebrospinal fluid levels of serum amyloid P component in patients with Alzheimer's disease , 1999, Neuroscience Letters.

[9]  C. Haass,et al.  Amyloid at the cutting edge: activation of alpha-secretase prevents amyloidogenesis in an Alzheimer disease mouse model. , 2004, The Journal of clinical investigation.

[10]  K. Blennow,et al.  Fluid biomarkers in Alzheimer’s disease – current concepts , 2013, Molecular Neurodegeneration.

[11]  C. Cotman,et al.  Decreased levels of soluble amyloid beta-protein precursor in cerebrospinal fluid of live Alzheimer disease patients. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[12]  F. Mottaghy,et al.  Concentrations of beta-amyloid precursor protein processing products in cerebrospinal fluid of patients with amyotrophic lateral sclerosis and frontotemporal lobar degeneration , 2009, Journal of Neural Transmission.

[13]  Alberto Lleó,et al.  Distinct patterns of APP processing in the CNS in autosomal-dominant and sporadic Alzheimer disease , 2012, Acta Neuropathologica.

[14]  David Bartrés-Faz,et al.  Relationship between cortical thickness and cerebrospinal fluid YKL-40 in predementia stages of Alzheimer's disease , 2015, Neurobiology of Aging.

[15]  B. Allinquant,et al.  Functions of Aβ, sAPPα and sAPPβ : similarities and differences , 2012, Journal of neurochemistry.

[16]  A. Kurz,et al.  Clinical and neurobiological correlates of soluble amyloid precursor proteins in the cerebrospinal fluid , 2012, Alzheimer's & Dementia.

[17]  K. Blennow,et al.  Cerebrospinal Fluid Profiles of Amyloid β-Related Biomarkers in Alzheimer’s Disease , 2012, NeuroMolecular Medicine.

[18]  A. Vighetto,et al.  Correlations between soluble α/β forms of amyloid precursor protein and Aβ38, 40, and 42 in human cerebrospinal fluid , 2010, Brain Research.

[19]  K. Blennow,et al.  Measurement of α- and β-secretase cleaved amyloid precursor protein in cerebrospinal fluid from Alzheimer patients , 2003, Experimental Neurology.

[20]  K. Blennow,et al.  Cerebrospinal Fluid Levels of sAPPα and sAPPβ in Lewy Body and Alzheimer's Disease: Clinical and Neurochemical Correlates , 2011, International journal of Alzheimer's disease.

[21]  C. Haass,et al.  Intramembrane Proteolysis by γ-Secretase* , 2008, Journal of Biological Chemistry.

[22]  D. Selkoe,et al.  The beta-amyloid protein precursor of Alzheimer disease has soluble derivatives found in human brain and cerebrospinal fluid. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[23]  Henrik Zetterberg,et al.  Fluid biomarkers in Alzheimer's disease - current , 2013 .

[24]  Nick C Fox,et al.  A panel of nine cerebrospinal fluid biomarkers may identify patients with atypical parkinsonian syndromes , 2015, Journal of Neurology, Neurosurgery & Psychiatry.

[25]  F. Jessen,et al.  Cerebrospinal fluid soluble amyloid-β protein precursor as a potential novel biomarkers of Alzheimer's disease. , 2012, Journal of Alzheimer's disease : JAD.

[26]  K. Blennow,et al.  O3-02-06: Elevated cerebrospinal fluid BACE1 activity in incipient Alzheimer's disease , 2008, Alzheimer's & Dementia.

[27]  A. Vighetto,et al.  Decreased sAβPPβ, Aβ38, and Aβ40 cerebrospinal fluid levels in frontotemporal dementia. , 2011, Journal of Alzheimer's disease : JAD.

[28]  R. Faber,et al.  Frontotemporal lobar degeneration: a consensus on clinical diagnostic criteria. , 1999, Neurology.

[29]  J. Clarimón,et al.  Relationship between β-Secretase, inflammation and core cerebrospinal fluid biomarkers for Alzheimer's disease. , 2014, Journal of Alzheimer's disease : JAD.

[30]  H. Salter,et al.  Molecular biomarkers of neurodegeneration , 2013, Expert review of molecular diagnostics.

[31]  J. Morris,et al.  The diagnosis of dementia due to Alzheimer’s disease: Recommendations from the National Institute on Aging-Alzheimer’s Association workgroups on diagnostic guidelines for Alzheimer's disease , 2011, Alzheimer's & Dementia.

[32]  J. Molinuevo,et al.  Recommendations to standardize preanalytical confounding factors in Alzheimer's and Parkinson's disease cerebrospinal fluid biomarkers: an update. , 2012, Biomarkers in medicine.

[33]  Ole A. Andreassen,et al.  A mutation in APP protects against Alzheimer’s disease and age-related cognitive decline , 2012, Nature.

[34]  C. Masters,et al.  Quantitative changes in the amyloid βA4 precursor protein in Alzheimer cerebrospinal fluid , 1991, Neuroscience Letters.

[35]  J. Growdon,et al.  Cerebrospinal Fluid Levels of Amyloid Precursor Protein and Amyloid β-Peptide in Alzheimer’s Disease and Major Depression – Inverse Correlation with Dementia Severity , 1998, European Neurology.

[36]  A. Kurz,et al.  Interrelations between CSF soluble AβPPβ, amyloid-β 1-42, SORL1, and tau levels in Alzheimer's disease. , 2012, Journal of Alzheimer's disease : JAD.

[37]  Tormod Fladby,et al.  A Practical Guide to Immunoassay Method Validation , 2015, Front. Neurol..

[38]  K. Beyreuther,et al.  Amyloid precursor protein secretion and βA4 amyloid generation are not mutually exclusive , 1994, FEBS letters.

[39]  Heteromers of amyloid precursor protein in cerebrospinal fluid , 2015, Molecular Neurodegeneration.

[40]  E. Bourinet Amyloid at the cutting edge: activation of α-secretase prevents amyloidogenesis in an Alzheimer disease mouse model , 2004 .

[41]  F. Jessen,et al.  Soluble amyloid precursor proteins in the cerebrospinal fluid as novel potential biomarkers of Alzheimer's disease: a multicenter study , 2010, Molecular Psychiatry.