Tau pathology relates to regional microstructural alterations of cerebral white matter in older adults with diverse cognitive spectrum

Abstract

AbstractBackgroundGrowing evidences suggest that degeneration of cerebral white matter (WM) occurs in Alzheimer’s disease (AD) independently of cerebrovascular risks or injury. Previous studies using diffusion tensor imaging (DTI) have reported a loss of WM microstructural integrity in the corpus callosum (CC) and cingulum (CG) in AD dementia and mild cognitive impairment (MCI). However, only limited information is available for the relationship of in vivo AD‐specific pathologies including beta‐amyloid (Aβ) and tau accumulation with WM microstructal alterations. Thus, we aimed to examine the association between in vivo AD pathologies and microstructural integrity of the CC and CG through cross‐sectional and longitudinal approaches.MethodA total of 170 (74 cognitively normal, 58 MCI, and 38 AD dementia) older adults from the Korean Brain Aging Study for the Early diagnosis and prediction of Alzheimer’s disease cohort were included. All participants underwent comprehensive clinical assessment and multi‐modal brain imaging including [11C]‐Pittsburgh‐Compound‐B‐positron emission tomography (PET), 18F‐AV‐1451 PET, and DTI. The mean fractional anisotropy (FA) values were obtained for 2 regions of interests, the CC and CG on DTI. The data was analyzed using linear regression model adjusted for age, sex, APOE4 positivity, and vascular risk factor score. Regression‐based mediation analysis was also conducted to assess the mediation of tau for the relationship between Aβ and FA.ResultIn cross‐sectional analyses for baseline data, global tau deposition had a significant negative association with both CC and CG FA (β = ‐0.013, p = 0.004 and β = ‐0.011, p = 0.002), while global Aβ retention showed a negative association with only CG FA (β = ‐0.015, p = 0.004). Longitudinal analyses revealed that higher tau deposition at baseline was associated with both greater reduction of both CC and CG FA over 2 years (β = ‐0.010, p = 0.001 and β = ‐0.005, p = 0.046), whereas Aβ was associated with neither CC nor CG FA change over the period. Additional mediation analysis demonstrated that the cross‐sectional association between Aβ and CG FA was mediated by tau deposition, while there was no direct relationship between the two.ConclusionOur findings suggest that regional alterations of WM microstructural integrity in MCI and AD dementia, which occurs independently of vascular risks, are mainly related with tau pathology rather than amyloid pathology.