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Clinical Pathology Abstracts, 11/15

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Editor: Deborah Sesok-Pizzini, MD, MBA, professor, Department of Clinical Pathology and Laboratory Medicine, Perelman School of Medicine, University of Pennsylvania, Philadelphia, and chief, Division of Transfusion Medicine, Children’s Hospital of Philadelphia.

Altered lysosomal proteins in neural-derived plasma
exosomes in preclinical Alzheimer disease

It is necessary to identify biomarkers to detect patients at risk for Alzheimer disease well before neurological signs and symptoms are observed. The goal is to provide early treatment to limit or reverse neuronal damage, which may prevent development of the disease. Recent reports have shown significantly higher levels of the pathogenic proteins P-T181-tau, P-S396-tau, and β-amyloid 1–42 in Alzheimer disease (AD) patients compared with case controls. These exosomal proteins correctly classified more than 96 percent of patients with AD. The authors conducted a study to examine neurally derived plasma exosomes from patients with AD, patients with frontotemporal dementia, and cognitively normal matched controls for differences in quantities and types of lysosome-associated proteins. They retrospectively identified patients with amnestic mild cognitive impairment or mild to moderate dementia from AD who donated blood for a study. Patients with a behavioral variant of frontotemporal dementia were also identified. Results showed that mean exosomal levels of cathepsin D, lysosome-associated membrane protein 1 (LAMP-1), and ubiquitinylated proteins were significantly higher (unlike levels of heat shock protein 70, which were significantly lower) for AD patients compared with controls. Levels of cathepsin D, LAMP-1, and ubiquitinylated protein were also significantly higher for patients with AD than patients with frontotemporal dementia. These proteins were also significantly different from those of matched controls in 20 patients one to 10 years before and at diagnosis of AD. The authors concluded that levels of autolysosomal proteins in neurally derived blood exosomes distinguished patients with AD from case controls and may predict preclinical AD up to 10 years before onset. These results confirm, in patients with AD, the early appearance of neuronal lysosomal dysfunction and suggest that autolysosomal proteins may be useful biomarkers in large prospective studies.

Goetzl EJ, Boxer A, Schwartz JB, et al. Altered lysosomal proteins in neural-derived plasma exosomes in preclinical Alzheimer disease. Neurology. 2015;85(1):40–47.

Correspondence: Dr. Edward Goetzl at edward.goetzl@ucsf.edu

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