Abstract
Sphingolipids are important in many brain functions but their role in Alzheimer’s disease (AD) is not completely defined. A major limit is availability of fresh brain tissue with defined AD pathology. The discovery that cerebrospinal fluid (CSF) contains abundant nanoparticles that include synaptic vesicles and large dense core vesicles offer an accessible sample to study these organelles, while the supernatant fluid allows study of brain interstitial metabolism. Our objective was to characterize sphingolipids in nanoparticles representative of membrane vesicle metabolism, and in supernatant fluid representative of interstitial metabolism from study participants with varying levels of cognitive dysfunction. We recently described the recruitment, diagnosis, and CSF collection from cognitively normal or impaired study participants. Using liquid chromatography tandem mass spectrometry, we report that cognitively normal participants had measureable levels of sphingomyelin, ceramide, and dihydroceramide species, but that their distribution differed between nanoparticles and supernatant fluid, and further differed in those with cognitive impairment. In CSF from AD compared with cognitively normal participants: a) total sphingomyelin levels were lower in nanoparticles and supernatant fluid; b) levels of ceramide species were lower in nanoparticles and higher in supernatant fluid; c) three sphingomyelin species were reduced in the nanoparticle fraction. Moreover, three sphingomyelin species in the nanoparticle fraction were lower in mild cognitive impairment compared with cognitively normal participants. The activity of acid, but not neutral sphingomyelinase was significantly reduced in the CSF from AD participants. The reduction in acid sphingomylinase in CSF from AD participants was independent of depression and psychotropic medications. Acid sphingomyelinase activity positively correlated with amyloid β42 concentration in CSF from cognitively normal but not impaired participants. In dementia, altered sphingolipid metabolism, decreased acid sphingomyelinase activity and its lost association with CSF amyloid β42 concentration, underscores the potential of sphingolipids as disease biomarkers, and acid sphingomyelinase as a target for AD diagnosis and/or treatment.
Highlights
Late onset Alzheimer’s disease (AD) is a neurodegenerative brain disorder that affects over 5 million Americans and is projected to increase in prevalence with an aging population [1]
The participants were characterized after a full medical intake, including medication history, the Geriatric Depression Scale (GDS, 15 items), and neurological examination; they were classified as cognitively normal (CN) if they had neuropsychological measures within one standard deviation of the mean for their age and education according to published normative values, and did not meet the criteria for mild cognitive impairment (MCI) [36] or dementia [37]
GDS scores were higher in the AD participants compared with the CN group; the use of anti-depressants was not different between the clinical groups; the use of total psychotropic medications was greater in the AD compared to both MCI and CN groups (Table 1) The other demographic and CSF parameters are well matched between the groups
Summary
Late onset Alzheimer’s disease (AD) is a neurodegenerative brain disorder that affects over 5 million Americans and is projected to increase in prevalence with an aging population [1]. AD is characterized in the early phase by beta-amyloid deposition and subsequently by neurofibrillary tangles [3]. These protein abnormalities are associated with synaptic dysfunction and brain atrophy. Neuroinflammatory processes can initiate abnormal processing of amyloid proteins and alter AD metabolic pathways [4]. As lipids constitute a major portion of the dry mass of the brain, changes in their composition can alter neuronal function [5,6]. Certain signaling lipids are inflammatory [7,8], others resolve brain inflammation [4,8], and some induce apoptosis of neurons [9,10]
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