Design of a two-fluorophore pH biosensor targeted to the digestive vacuole of Plasmodium falciparum

2023 IEEE 7th Portuguese Meeting on Bioengineering (ENBENG) Pub Date : 2023-06-22 DOI:10.1109/ENBENG58165.2023.10175358

Vitória Baptista, Rita Lozano, S. Catarino, M. Veiga

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Abstract

The maintenance of pH homeostasis is critical for biological processes in all organisms, with the malaria parasite, Plasmodium falciparum, being no exception. The parasite food vacuole is a major acidic digestive organelle, where the pH is thought to be regulated by proton pumps in its membrane. The acidic environment promotes the action of enzymes involved in hemoglobin degradation, and polymerization of toxic heme into hemozoin. This biological process is vital for the parasite and a proven chemotherapeutic target. Thus, determining the pH dynamics along the parasite life cycle and in the context of antimalarial drugs might provide unique information about the parasite pathophysiology, cell metabolism and function, shedding light into drugs mechanism of action and possibly target(s) disclosure. To reliably measure the pH of P.falciparum digestive vacuole along its life cycle, we designed a genetically encoded fluorescent sensor strategy, consisting of fusing the ratiometric pHLuorin2 with emiRFP670 to the falcipain-2 protein, a cysteine protease located in this compartment.

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针对恶性疟原虫消化液泡的双荧光pH生物传感器的设计

维持pH稳态对所有生物的生物过程至关重要，疟疾寄生虫恶性疟原虫也不例外。寄生虫食物液泡是一种主要的酸性消化细胞器，其pH值被认为是由其膜上的质子泵调节的。酸性环境促进参与血红蛋白降解的酶的作用，以及有毒血红素聚合成血色素。这一生物过程对寄生虫和已证实的化疗靶点至关重要。因此，确定寄生虫生命周期和抗疟药物背景下的pH动态可能提供关于寄生虫病理生理、细胞代谢和功能的独特信息，揭示药物的作用机制和可能的靶点揭示。为了可靠地测量恶性疟原虫消化液泡在其生命周期中的pH值，我们设计了一种遗传编码的荧光传感器策略，包括将比例pHLuorin2与emiRFP670融合到位于该腔室的半胱氨酸蛋白酶falcipin -2蛋白上。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 IEEE 7th Portuguese Meeting on Bioengineering (ENBENG)

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