Genetic studies reveal how rat lungworm evolves

A. cantonensis is a roundworm with a complicated lifecycle that requires snails or slugs as an intermediary host. The parasite leads to central nervous system angiostrongyliasis in humans after ingestion of larvae in raw or undercooked snails or contaminated water or vegetables. The worm is the most common causes of eosinophilic meningitis in humans, an infection that can lead to death or permanent nervous system damage.

In the new work, Zhongdao Wu, of Sun Yat-sen University, China, and colleagues performed high-quality genetic sequencing of a well-defined laboratory strain of A. cantonensis. They isolated DNA and RNA from multiple stages of larvae and mature adult worms. They also compared the sequences to seven other nematode genomes that had been previously sequenced.

The researchers discovered that transposable elements make up 54.61% of the genome, more than in any other parasitic nematode. The expansion of retrotransposons and genes related to antioxidants, invasion, migration and digestion suggested adaptive evolution in these areas. There was also evidence of convergent evolution of extracellular superoxide dismutase (EC-SOD) in A. cantonensis and flukes, which both require snails as hosts.

“These results provide an abundant data resource to study the biology and evolution of A. cantonensis and showed some potential targets against A. cantonensis and helminths with similar traits,” the researchers say.

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