Browsing by Author "Wu, Xian"

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    Frontal Memory‐related Brainwaves Differentially Correlate with AD and Astrocyte Plasma Biomarkers
    (Wiley, 2025-01-09) Jiang, Yang; Wu, Xian; Katsumata, Yuriko; Clark, Maria F.; Foley, Kate E.; Wang, Baoxi; Sudduth, Tiffany L.; Wilcock, Donna M.; Jicha, Gregory A.; Norris, Christopher M.; Neurology, School of Medicine
    Background: We currently lack in the dementia field accurate, noninvasive, quick, and affordable screening tools for brain dysfunctions associated with early subtle risk of mild cognitive impairment (MCI). Our Kentucky aging cohort demonstrates that asymptomatic older individuals with MCI‐like frontal memory‐related brainwave patterns convert to MCI within a short 5‐year period, as opposed to individuals with NC‐like patterns (1) that remain normal 10 years later (2). Astrocyte reactivity influences amyloid‐β effects on tau pathology in preclinical Alzheimer’s disease (3). Leveraging blood‐based AD and astrocyte biomarkers and the cognitive electroencephalogram (EEG) signatures (4), we test the hypothesis that predictive frontal memory‐related EEG changes correlate with preclinical and early AD plasma biomarkers. Method: 34 (19 women) older volunteers with or without MCI, average age 79 (SD 8.53) years old, from a longitudinal cohort followed by University of Kentucky ADRC participated. Each participant’s EEG was recorded (64‐ or 14‐channels) during a working memory (modified delayed match‐to‐sample) task. Principal component analysis (PCA) was performed on 64‐channel EEG data to create PC scores (PC1 & PC2). For multiple linear regression of EEG PC scores on multiple neurodegenerative plasma biomarkers including Aβ42/40, pTau181, total Tau, and GFAP (Astrocyte reactivity), we adjusted age, sex, education, and gap years between collection dates. Result: The 61% of variance in frontal signals can be explained by PC1 in normal cognition (NC) and MCI individuals, and PC2 counts for 35% of variance (Figure 1). The decreased brainwaves (MCI‐like) seen in left frontal sites significantly correlate with increased pTau181, GFAP, and PC2 (Figure 2). Curiously, right frontal EEG relations with pTau181, GFAP showed the opposite trend. Bilateral frontal signals showed negative correlations with Aβ42/40 and positive correlations with total Tau. Conclusion: Our results indicate that GFAP & pTau181 trend in similar asymmetry ways with frontal cognitive brainwaves, but Aβ42/40 & total Tau correlate to a different component of frontal EEG. That is, distinct cognitive brainwaves correlate with astrocyte reactivity differentially that influence pathologies of beta‐amyloid accumulations and Tau development. Cognitive pathophysiological signatures and AD–Astrocyte plasma biomarkers have great potential for predicting subtle cognitive decline and specific dementia risk in healthy normal individuals.
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    MiR-770-5p inhibits cisplatin chemoresistance in human ovarian cancer by targeting ERCC2
    (Impact Journals, 2016-08-16) Zhao, Henan; Yu, Xiaotang; Ding, Yanfang; Zhao, Jinyao; Wang, Guang; Wu, Xian; Jiang, Jiyong; Peng, Chun; Guo, Gordon Zhuo; Cui, Shiying; Department of Radiation Oncology, IU School of Medicine
    In this study, we examined the role of the miRNA miR-770-5p in cisplatin chemotherapy resistance in ovarian cancer (OVC) patients. miR-770-5p expression was reduced in platinum-resistant patients. Using a 6.128-fold in expression as the cutoff value, miR-770-5p expression served as a prognostic biomarker and predicted the response to cisplatin treatment and survival among OVC patients. Overexpression of miR-770-5p in vitro reduced survival in chemoresistant cell lines after cisplatin treatment. ERCC2, a target gene of miR-770-5p that participates in the NER system, was negatively regulated by miR-770-5p. siRNA-mediated silencing of ERCC2 reversed the inhibition of apoptosis resulting from miR-770-5p downreglation in A2780S cells. A comet assay confirmed that this restoration of cisplatin chemosensitivity was due to the inhibition of DNA repair. These findings suggest that endogenous miR-770-5p may function as an anti-oncogene and promote chemosensitivity in OVC, at least in part by downregulating ERCC2. miR-770-5p may therefore be a useful biomarker for predicting chemosensitivity to cisplatin in OVC patients and improve the selection of effective, more personalized, treatment strategies.