1. Haem transporter HRG-1 is essential in the barber's pole worm and an intervention target candidate.
- Author
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Yang, Yi, Zhou, Jingru, Wu, Fei, Tong, Danni, Chen, Xueqiu, Jiang, Shengjun, Duan, Yu, Yao, Chaoqun, Wang, Tao, Du, Aifang, Gasser, Robin B., and Ma, Guangxu
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HEME , *GONADS , *INSECT nematodes , *HAEMONCHUS contortus , *NEMATODE infections , *ALIMENTARY canal , *BASAL lamina - Abstract
Parasitic roundworms (nematodes) have lost genes involved in the de novo biosynthesis of haem, but have evolved the capacity to acquire and utilise exogenous haem from host animals. However, very little is known about the processes or mechanisms underlying haem acquisition and utilisation in parasites. Here, we reveal that HRG-1 is a conserved and unique haem transporter in a broad range of parasitic nematodes of socioeconomic importance, which enables haem uptake via intestinal cells, facilitates cellular haem utilisation through the endo-lysosomal system, and exhibits a conspicuous distribution at the basal laminae covering the alimentary tract, muscles and gonads. The broader tissue expression pattern of HRG-1 in Haemonchus contortus (barber's pole worm) compared with its orthologues in the free-living nematode Caenorhabditis elegans indicates critical involvement of this unique haem transporter in haem homeostasis in tissues and organs of the parasitic nematode. RNAi-mediated gene knockdown of hrg-1 resulted in sick and lethal phenotypes of infective larvae of H. contortus, which could only be rescued by supplementation of exogenous haem in the early developmental stage. Notably, the RNAi-treated infective larvae could not establish infection or survive in the mammalian host, suggesting an indispensable role of this haem transporter in the survival of this parasite. This study provides new insights into the haem biology of a parasitic nematode, demonstrates that haem acquisition by HRG-1 is essential for H. contortus survival and infection, and suggests that HRG-1 could be an intervention target candidate in a range of parasitic nematodes. Author summary: Parasitic nematodes cannot synthesise haem de novo and must exploit haem from the environment or host animals. Mechanisms securing haem acquisition and its systemic distribution in these pathogens remain to be elucidated. In the present study, we identify a unique haem transporter HRG-1 in a range of nematodes commonly found in animals, which shows haem binding activity in vitro, haem transporting activity in yeast, and an important role in haem homeostasis in the free-living model organism Caenorhabditis elegans. This transporter distributes in the basal laminae and interacts with a vacuolar ATPase in Haemonchus contortus (a paradigm and model to screen anthelmintic targets), enabling haem transport among tissues in this parasitic nematode. RNAi-mediated gene knockdown of hrg-1 results in decreased viability of the infective larvae of barber's pole worm, which cannot establish infection or survive in the host animal. The uniqueness and essentiality of HRG-1 in this parasitic nematode provide novel insights into the haem uptake and distribution in helminths and a target candidate for the control of nematode infection. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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