神经退行性变
疾病
抑制性突触后电位
转基因小鼠
化学
代谢稳定性
计算生物学
转基因
神经科学
生物相容性材料
阿尔茨海默病
限制
荧光染色
生物
荧光
纳米技术
生物标志物
医学
癌症研究
细胞生物学
人类疾病
生物化学
Pet成像
生物信息学
体内
生物物理学
药理学
作者
Himanshu Rai,Rishabh Singh,Gauri Shankar,Sanskriti Rai,Prabhat Kumar,Aishwarya Nilakhe,Neha Singh,P. B. S. Bhadoria,Gourav Singh,Venkatnarayan Ramanathan,Sarika Gupta,Sairam Krishnamurthy,Saripella Srikrishna,Saroj Kumar,Gyan Modi
标识
DOI:10.1038/s41467-025-68282-3
摘要
Alzheimer's disease (AD) remains a major unmet medical challenge, with limited tools that integrate early diagnosis and therapeutic intervention. Considering the pivotal roles of amyloid-β (Aβ) and cholinesterases (ChEs) in AD etiology, we report dual-functional theranostic NIR-I probes. The lead candidate, I-43, exhibits favorable NIR optical properties (Stokes shift ≥ 220 nm) and binds strongly to Aβ fibrils, with Kd values of 58.2 ± 9.7 nM for Aβ1-40 and 104 ± 25 nM for Aβ1-42. Histological staining of brain tissues from transgenic APP-PS1 mice and human autopsy samples confirms selective detection of Aβ plaques with a high signal-to-noise ratio and minimal cross-reactivity toward pathogenic tau tangles and α-synuclein. In addition, I-43 exhibits fluorescence response toward AChE, shows inhibitory activity (IC50 = 0.38 µM), and enhances memory in a scopolamine-induced amnesia in Swiss albino mice. Despite this, limited aqueous solubility and metabolic stability necessitate structural modifications and formulation strategies to broaden the scope in preclinical studies. Herein, we demonstrate that probes can be engineered to label key AD biomarkers with ChEs inhibitory activity, paving the way to an alternate theranostic approach in AD management.
科研通智能强力驱动
Strongly Powered by AbleSci AI