Biocompatible carbon quantum dots as versatile imaging nanotrackers of fungal pathogen - Candida albicans.

Nanomedicine (London, England) Pub Date : 2024-04-01 Epub Date: 2024-03-01 DOI:10.2217/nnm-2023-0292
Anam Rais, Shubham Sharma, Prashant Mishra, Luqman Ahmad Khan, Tulika Prasad
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Abstract

Aim: The development of carbon quantum dots (C-QDs) as nanotrackers to understand drug-pathogen interactions, virulence and multidrug resistance. Methods: Microwave synthesis of C-QDs was performed using citric acid and polyethylene glycol. Further, in vitro toxicity was evaluated and imaging applications were demonstrated in Candida albicans isolates. Results: Well-dispersed, ultra small C-QDs exhibited no cyto/microbial/reactive oxygen species-mediated toxicity and internalized effectively in Candida yeast and hyphal cells. C-QDs were employed for confocal imaging of drug-sensitive and -resistant cells, and a study of the yeast-to-hyphal transition using atomic force microscopy in Candida was conducted for the first time. Conclusion: These biocompatible C-QDs have promising potential as next-generation nanotrackers for in vitro and in vivo targeted cellular and live imaging, after functionalization with biomolecules and drugs.

生物相容性碳量子点作为真菌病原体--白色念珠菌的多功能成像纳米追踪器。
目的:开发作为纳米追踪器的碳量子点(C-QDs),以了解药物与病原体之间的相互作用、毒性和多药耐药性。方法:微波合成碳量子点(C-QDs):使用柠檬酸和聚乙二醇微波合成 C-QDs。此外,还评估了体外毒性,并在白色念珠菌分离物中演示了成像应用。结果:分散良好的超小型 C-QDs 没有表现出细胞/微生物/活性氧介导的毒性,并能在白色念珠菌酵母和芽孢细胞中有效内化。C-QDs 被用于对药物敏感和耐药细胞的共聚焦成像,并首次利用原子力显微镜研究了念珠菌从酵母到芽孢的转变过程。结论这些具有生物相容性的 C-QDs 在与生物分子和药物功能化后,有望成为用于体外和体内靶向细胞和活体成像的下一代纳米追踪器。
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