eLife (Dec 2021)

Characterization of the endogenous DAF-12 ligand and its use as an anthelmintic agent in Strongyloides stercoralis

  • Zhu Wang,
  • Mi Cheong Cheong,
  • Jet Tsien,
  • Heping Deng,
  • Tian Qin,
  • Jonathan DC Stoltzfus,
  • Tegegn G Jaleta,
  • Xinshe Li,
  • James B Lok,
  • Steven A Kliewer,
  • David J Mangelsdorf

DOI
https://doi.org/10.7554/eLife.73535
Journal volume & issue
Vol. 10

Abstract

Read online

A prevalent feature of Strongyloides stercoralis is a life-long and potentially lethal infection that is due to the nematode parasite’s ability to autoinfect and, thereby, self-replicate within its host. Here, we investigated the role of the parasite’s nuclear receptor, Ss-DAF-12, in governing infection. We identified Δ7-DA as the endogenous Ss-DAF-12 ligand and elucidated the hormone’s biosynthetic pathway. Genetic loss of function of the ligand’s rate-limiting enzyme demonstrated that Δ7-DA synthesis is necessary for parasite reproduction, whereas its absence is required for the development of infectious larvae. Availability of the ligand permits Ss-DAF-12 to function as an on/off switch governing autoinfection, making it vulnerable to therapeutic intervention. In a preclinical model of hyperinfection, pharmacologic activation of DAF-12 suppressed autoinfection and markedly reduced lethality. Moreover, when Δ7-DA was administered with ivermectin, the current but limited drug of choice for treating strongyloidiasis, the combinatorial effects of the two drugs resulted in a near cure of the disease.

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