纳米晶化有效提高抗利什曼原虫查耳酮的口服疗效。

Nanocrystallization Effectively Improves the Oral Efficacy of an Antileishmanial Chalcone.

作者信息

Borsodi Maria Paula Gonçalves, Pacienza-Lima Wallace, Menezes Jaqueline Correia Villaça, Escrivani-Oliveira Douglas, Arruda-Costa Natalia, Silva Alcides José Monteiro da, Cabral Lucio Mendes, Steel Patrick G, Sousa-Batista Ariane de Jesus, Rossi-Bergmann Bartira

机构信息

Institute of Biophysics Carlos Chagas Filho, Federal University of Rio de Janeiro, Rio de Janeiro 21941-902, Brazil.

Faculty of Pharmacy, Federal University of Rio de Janeiro, Rio de Janeiro 21941-902, Brazil.

出版信息

Pharmaceutics. 2025 Mar 21;17(4):399. doi: 10.3390/pharmaceutics17040399.

DOI:10.3390/pharmaceutics17040399

PMID:40284397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12030571/

Abstract

Cutaneous leishmaniasis (CL) is a vector-borne neglected disease that can cause permanent deformities. Current chemotherapy based on injections with toxic drugs or oral miltefosine poses many drawbacks, urging the need for new oral therapies. Here, we proposed to increase the bioavailability of NAT22, an intralesionally but not orally active antileishmanial chalcone, through nanocrystallization to promote its oral use in CL. : NAT22 nanocrystals were produced using a solvent-free green process of dry and wet milling that reduced NAT22 crystal sizes by around 1500-fold to 257 nm (nanoNAT22). Such reduction in size increased water solubility by 15-fold to 4.3 µg/mL and ensured stability in the absence of stabilizers for at least one month. Of note, nanoNAT22 in aqueous medium was more selective for parasites (SI = 35.2) than NAT22 in 1% DMSO (SI = 7.6). -infected mice treated with oral nanoNAT22 had lesion sizes and parasite loads similar to those achieved with intralesional Glucantime, and significantly smaller than NAT22. : Together, these results indicate that nanocrystallization is an effective process to render NAT22 chalcone also orally active against CL.

摘要

皮肤利什曼病（CL）是一种由媒介传播的被忽视疾病，可导致永久性畸形。目前基于注射有毒药物或口服米替福新的化疗存在诸多缺点，因此迫切需要新的口服疗法。在此，我们提议通过纳米结晶提高NAT22的生物利用度，NAT22是一种仅在病灶内有活性的抗利什曼查耳酮，旨在促进其在皮肤利什曼病中的口服应用。通过无溶剂绿色干湿研磨工艺制备了NAT22纳米晶体，该工艺使NAT22晶体尺寸减小了约1500倍，至257nm（纳米NAT22）。尺寸的减小使水溶性提高了15倍，达到4.3μg/mL，并确保在无稳定剂的情况下至少稳定一个月。值得注意的是，在水介质中的纳米NAT22对寄生虫的选择性（SI = 35.2）高于在1%二甲基亚砜中的NAT22（SI = 7.6）。口服纳米NAT22治疗的感染小鼠的病灶大小和寄生虫载量与病灶内注射葡糖胺所达到的相似，且显著小于NAT22。总之，这些结果表明纳米结晶是使NAT22查耳酮对皮肤利什曼病也具有口服活性的有效方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c307/12030571/20434843118a/pharmaceutics-17-00399-g001.jpg

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纳米晶化有效提高抗利什曼原虫查耳酮的口服疗效。

Nanocrystallization Effectively Improves the Oral Efficacy of an Antileishmanial Chalcone.

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