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Targeting and Inhibiting Plasmodium falciparum Using Ultra-small Gold Nanoparticles.


ABSTRACT: Malaria, a mosquito-borne disease caused by Plasmodium species, claims more than 400,000 lives globally each year. The increasing drug resistance of the parasite renders the development of new anti-malaria drugs necessary. Alternatively, better delivery systems for already marketed drugs could help to solve the resistance problem. Herein, we report glucose-based ultra-small gold nanoparticles (Glc-NCs) that bind to cysteine-rich domains of Plasmodium falciparum surface proteins. Microscopy shows that Glc-NCs bind specifically to extracellular and all intra-erythrocytic stages of P. falciparum. Glc-NCs may be used as drug delivery agents as illustrated for ciprofloxacin, a poorly soluble antibiotic with low antimalarial activity. Ciprofloxacin conjugated to Glc-NCs is more water-soluble than the free drug and is more potent. Glyco-gold nanoparticles that target cysteine-rich domains on parasites may be helpful for the prevention and treatment of malaria.

SUBMITTER: Varela-Aramburu S 

PROVIDER: S-EPMC7586288 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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Targeting and Inhibiting <i>Plasmodium falciparum</i> Using Ultra-small Gold Nanoparticles.

Varela-Aramburu Silvia S   Ghosh Chandradhish C   Goerdeler Felix F   Priegue Patricia P   Moscovitz Oren O   Seeberger Peter H PH  

ACS applied materials & interfaces 20200916 39


Malaria, a mosquito-borne disease caused by <i>Plasmodium</i> species, claims more than 400,000 lives globally each year. The increasing drug resistance of the parasite renders the development of new anti-malaria drugs necessary. Alternatively, better delivery systems for already marketed drugs could help to solve the resistance problem. Herein, we report glucose-based ultra-small gold nanoparticles (Glc-NCs) that bind to cysteine-rich domains of <i>Plasmodium falciparum</i> surface proteins<i>.  ...[more]

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