Spectroscopic features of a perylenediimide probe for sensing amyloid fibrils: in vivo imaging of Aβ-aggregates in a Drosophila model organism†

IF 6.1 3区 医学 Q1 MATERIALS SCIENCE, BIOMATERIALS Journal of Materials Chemistry B Pub Date : 2023-09-11 DOI:10.1039/D3TB01233F
Nilotpal Barooah, Puja Karmakar, M. K. Sharanya, Monalisa Mishra, Achikanath C. Bhasikuttan and Jyotirmayee Mohanty
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Abstract

Customised perylenediimide (PDI) chromophores find diverse applications not only as chemosensors, inorganic–organic semiconductors, photovoltaics, photocatalysts, etc., but also in protein surface engineering, bio-sensors and drug delivery systems. This study focuses on the interaction of a custom synthesized phenylalanine derivatized perylenediimide (L-Phe-PDI) dye with a model protein, insulin, and its structurally distinct fibrils to develop fluorescence sensors for fibrillar aggregates and in vivo imaging applications. Detailed photophysical studies revealed that L-Phe-PDI gets aggregated in the presence of insulin and causes emission quenching at pH 7.4, which in the absence of insulin occurs only at pH ∼2. During in vitro incubation of insulin to its fibrils, the fluorescence intensity of the L-Phe-PDI probe is enhanced to ∼150 fold in a two-stage manner, manifesting the pathways of structural transformation to β-sheet rich mature fibrils. The in vivo sensing has further been validated in living models of the Aβ-mutant Drosophila fly, which is known to develop progressive neurodegeneration comparable to that of human brains with Alzheimer's disease (AD). Bioimaging of the L-Phe-PDI treated Aβ-mutant Drosophila documented the blood–brain/blood–retina-barrier cross-over ability of L-Phe-PDI with no toxic effects. Comparison of the fibrillar images from the brain and eye region with the reference thioflavin T (ThT) probe established the uptake of L-Phe-PDI by the aggregate/fibrillar moieties. The samples from L-Phe-PDI-treated flies apparently displayed reduced fibrillar spots, a possible case of L-Phe-PDI-induced disintegration of fibrillar aggregates at large, an observation substantiated by the improved phenotype activities as compared to the untreated flies. The findings reported both in vitro and in vivo with the L-Phe-PDI material for the first time open up avenues to explore the therapeutic potential of custom-designed PDI derivatives for amyloid fibril sensors and bioimaging.

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用于传感淀粉样纤维的苝二酰亚胺探针的光谱特征:果蝇模型生物中aβ-聚集体的体内成像†
定制的苝二酰亚胺(PDI)发色团不仅作为化学传感器、无机-有机半导体、光伏、光催化剂等,而且在蛋白质表面工程、生物传感器和药物递送系统中都有不同的应用。本研究的重点是定制合成的苯丙氨酸衍生的苝二酰亚胺(L-Phe-PDI)染料与模型蛋白胰岛素及其结构不同的原纤维的相互作用,以开发用于原纤维聚集体和体内成像应用的荧光传感器。详细的光物理研究表明,L-Phe-PDI在胰岛素存在的情况下聚集,并在pH 7.4时引起发射猝灭,而在没有胰岛素的情况下,这种情况仅在pH~2时发生。在胰岛素与原纤维的体外孵育过程中,L-Phe-PDI探针的荧光强度以两阶段的方式增强至-150倍,显示了向富含β-片的成熟原纤维的结构转化途径。体内传感已在Aβ突变果蝇的活体模型中得到进一步验证,已知该果蝇会发展出与阿尔茨海默病(AD)人脑相当的渐进性神经退行性变。L-Phe-PDI处理的Aβ突变果蝇的生物成像记录了L-Phe-PDI的血脑/血视网膜屏障交叉能力,没有毒性作用。来自大脑和眼睛区域的原纤维图像与参考硫黄素T(ThT)探针的比较确定了聚集物/原纤维部分对L-Phe-PDI的摄取。来自L-Phe-PDI处理的苍蝇的样品明显显示出减少的原纤维斑点,这可能是L-Phe-PDI诱导的原纤维聚集体整体崩解的情况,与未处理的苍蝇相比,表型活性的改善证实了这一观察结果。首次用L-Phe-PDI材料在体外和体内报道的研究结果为探索定制设计的PDI衍生物对淀粉样蛋白原纤维传感器和生物成像的治疗潜力开辟了途径。
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来源期刊
Journal of Materials Chemistry B
Journal of Materials Chemistry B MATERIALS SCIENCE, BIOMATERIALS-
CiteScore
11.50
自引率
4.30%
发文量
866
期刊介绍: Journal of Materials Chemistry A, B & C cover high quality studies across all fields of materials chemistry. The journals focus on those theoretical or experimental studies that report new understanding, applications, properties and synthesis of materials. Journal of Materials Chemistry A, B & C are separated by the intended application of the material studied. Broadly, applications in energy and sustainability are of interest to Journal of Materials Chemistry A, applications in biology and medicine are of interest to Journal of Materials Chemistry B, and applications in optical, magnetic and electronic devices are of interest to Journal of Materials Chemistry C.Journal of Materials Chemistry B is a Transformative Journal and Plan S compliant. Example topic areas within the scope of Journal of Materials Chemistry B are listed below. This list is neither exhaustive nor exclusive: Antifouling coatings Biocompatible materials Bioelectronics Bioimaging Biomimetics Biomineralisation Bionics Biosensors Diagnostics Drug delivery Gene delivery Immunobiology Nanomedicine Regenerative medicine & Tissue engineering Scaffolds Soft robotics Stem cells Therapeutic devices
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