Author:
Seifar Fatemeh,Fox Edward J.,Shantaraman Anantharaman,Liu Yue,Dammer Eric B.,Modeste Erica,Duong Duc M.,Yin Luming,Trautwig Adam N.,Guo Qi,Xu Kaiming,Ping Lingyan,Reddy Joseph S.,Allen Mariet,Quicksall Zachary,Heath Laura,Scanlan Jo,Wang Erming,Wang Minghui,Linden Abby Vander,Poehlman William,Chen Xianfeng,Baheti Saurabh,Ho Charlotte,Nguyen Thuy,Yepez Geovanna,Mitchell Adriana O.,Oatman Stephanie R.,Wang Xue,Carrasquillo Minerva M.,Runnels Alexi,Beach Thomas,Serrano Geidy E.,Dickson Dennis W.,Lee Edward B.,Golde Todd E.,Prokop Stefan,Barnes Lisa L.,Zhang Bin,Haroutunian Varham,Gearing Marla,Lah James J.,De Jager Philip,Bennett David A,Greenwood Anna,Ertekin-Taner Nilüfer,Levey Allan I.,Wingo Aliza,Wingo Thomas,Seyfried Nicholas T.
Abstract
AbstractIntroductionAlzheimer’s disease (AD) is the most prevalent neurodegenerative disease, yet our comprehension predominantly relies on studies within the non-Hispanic White (NHW) population. Here we aimed to provide comprehensive insights into the proteomic landscape of AD across diverse racial and ethnic groups.MethodsDorsolateral prefrontal cortex (DLPFC) and superior temporal gyrus (STG) brain tissues were donated from multiple centers (Mayo Clinic, Emory University, Rush University, Mt. Sinai School of Medicine) and were harmonized through neuropathological evaluation, specifically adhering to the Braak staging and CERAD criteria. Among 1105 DLPFC tissue samples (998 unique individuals), 333 were from African American donors, 223 from Latino Americans, 529 from NHW donors, and the rest were from a mixed or unknown racial background. Among 280 STG tissue samples (244 unique individuals), 86 were African American, 76 Latino American, 116 NHW and the rest were mixed or unknown ethnicity. All tissues were uniformly homogenized and analyzed by tandem mass tag mass spectrometry (TMT-MS).ResultsAs a Quality control (QC) measure, proteins with more than 50% missing values were removed and iterative principal component analysis was conducted to remove outliers within brain regions. After QC, 9,180 and 9,734 proteins remained in the DLPC and STG proteome, respectively, of which approximately 9,000 proteins were shared between regions. Protein levels of microtubule-associated protein tau (MAPT) and amyloid-precursor protein (APP) demonstrated AD-related elevations in DLPFC tissues with a strong association with CERAD and Braak across racial groups. APOE4 protein levels in brain were highly concordant withAPOEgenotype of the individuals.DiscussionThis comprehensive region resolved large-scale proteomic dataset provides a resource for the understanding of ethnoracial-specific protein differences in AD brain.
Publisher
Cold Spring Harbor Laboratory