Browsing by Author "Peng, Junmin"

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    Deletion of Abi3 gene locus exacerbates neuropathological features of Alzheimer's disease in a mouse model of Aβ amyloidosis
    (American Association for the Advancement of Science, 2021-11) Karahan, Hande; Smith, Daniel C.; Kim, Byungwook; Dabin, Luke C.; Al-Amin, Md Mamun; Wijeratne, H.R. Sagara; Pennington, Taylor; di Prisco, Gonzalo Viana; McCord, Brianne; Lin, Peter Bor-Chian; Li, Yuxin; Peng, Junmin; Oblak, Adrian L.; Chu, Shaoyou; Atwood, Brady K.; Kim, Jungsu; Medical and Molecular Genetics, School of Medicine
    Recently, large-scale human genetics studies identified a rare coding variant in the ABI3 gene that is associated with an increased risk of Alzheimer’s disease (AD). However, pathways by which ABI3 contributes to the pathogenesis of AD are unknown. To address this question, we determined whether loss of ABI3 function affects pathological features of AD in the 5XFAD mouse model. We demonstrate that the deletion of Abi3 locus significantly increases amyloid β (Aβ) accumulation and decreases microglia clustering around the plaques. Furthermore, long-term potentiation is impaired in 5XFAD;Abi3 knockout (“Abi3−/−”) mice. Moreover, we identified marked changes in the proportion of microglia subpopulations in Abi3−/− mice using a single-cell RNA sequencing approach. Mechanistic studies demonstrate that Abi3 knockdown in microglia impairs migration and phagocytosis. Together, our study provides the first in vivo functional evidence that loss of ABI3 function may increase the risk of developing AD by affecting Aβ accumulation and neuroinflammation.
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    Genetic modulation of protein expression in rat brain
    (Elsevier, 2025-02-21) Li, Ling; Wu, Zhiping; Guarracino, Andrea; Villani, Flavia; Kong, Dehui; Mancieri, Ariana; Zhang, Aijun; Saba, Laura; Chen, Hao; Brozka, Hana; Vales, Karel; Senko, Anna N.; Kempermann, Gerd; Stuchlik, Ales; Pravenec, Michal; Lechner, Joseph; Prins, Pjotr; Mathur, Ramkumar; Lu, Lu; Yang, Kai; Peng, Junmin; Williams, Robert W.; Wang, Xusheng; Pediatrics, School of Medicine
    Genetic variations in protein expression are implicated in a broad spectrum of common diseases and complex traits but remain less explored compared to mRNA and classical phenotypes. This study systematically analyzed brain proteomes in a rat family using tandem mass tag (TMT)-based quantitative mass spectrometry. We quantified 8,119 proteins across two parental strains (SHR/Olalpcv and BN-Lx/Cub) and 29 HXB/BXH recombinant inbred (RI) strains, identifying 597 proteins with differential expression and 464 proteins linked to cis-acting quantitative trait loci (pQTLs). Proteogenomics identified 95 variant peptides, and sex-specific analyses revealed both shared and distinct cis-pQTLs. We improved the ability to pinpoint candidate genes underlying pQTLs by utilizing the rat pangenome and explored the connections between pQTLs in rats and human disorders. Collectively, this study highlights the value of large proteo-genetic datasets in elucidating protein modulation in the brain and its links to complex central nervous system (CNS) traits.