Abstract
Heme crystallization as hemozoin represents the dominant mechanism of heme disposal in blood feeding triatomine insect vectors of the Chagas disease. The absence of drugs or vaccine for the Chagas disease causative agent, the parasite Trypanosoma cruzi, makes the control of vector population the best available strategy to limit disease spread. Although heme and redox homeostasis regulation is critical for both triatomine insects and T. cruzi, the physiological relevance of hemozoin for these organisms remains unknown. Here, we demonstrate that selective blockage of heme crystallization in vivo by the antimalarial drug quinidine, caused systemic heme overload and redox imbalance in distinct insect tissues, assessed by spectrophotometry and fluorescence microscopy. Quinidine treatment activated compensatory defensive heme-scavenging mechanisms to cope with excessive heme, as revealed by biochemical hemolymph analyses, and fat body gene expression. Importantly, egg production, oviposition, and total T. cruzi parasite counts in R. prolixus were significantly reduced by quinidine treatment. These effects were reverted by oral supplementation with the major insect antioxidant urate. Altogether, these data underscore the importance of heme crystallization as the main redox regulator for triatomine vectors, indicating the dual role of hemozoin as a protective mechanism to allow insect fertility, and T. cruzi life-cycle. Thus, targeting heme crystallization in insect vectors represents an innovative way for Chagas disease control, by reducing simultaneously triatomine reproduction and T. cruzi transmission.
Highlights
Chagas disease (CD) is a chronic and debilitating illness caused by the protozoa Trypanosoma cruzi [1], afflicting about 6 million people predominantly in Latin America [2]
Chagas disease is a fatal illness caused by Trypanosoma cruzi parasites, which are transmitted by blood sucking triatomine insect vectors
Blood is a natural food source for these insects, its digestion releases toxic products, which poses a dietary challenge for both triatomine insects and trypanosomes
Summary
Chagas disease (CD) is a chronic and debilitating illness caused by the protozoa Trypanosoma cruzi [1], afflicting about 6 million people predominantly in Latin America [2]. Trypanosoma cruzi replicates and differentiates in the digestive tract of triatomine insects, which ingest about five times their own weight on vertebrate blood to meet their energy demands. Huge amounts of toxic “free” heme are released in triatomine digestive tract [3]. Reactive oxygen species (ROS), propagated by "free" heme affects T. cruzi differentiation to infective trypomastigote forms [7]. This suggests that T. cruzi adapted to a unique environment in the triatomine midgut where "free" heme levels are tightly regulated. Excessive levels of “free” heme are deleterious, to trypanosomes [7,8,9], and to triatomine vectors [3,10,11]
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