Moonlighting on theFasciola hepaticategument: enolase, a glycolytic enzyme, interacts with the extracellular matrix and fibrinolytic system of the host

Abstract

ABSTRACTEnolase is a 47 kDa enzyme that functions within the glycolysis and gluconeogenesis pathways involved in the reversible conversion of D-2-phosphoglycerate (2PGA) to phosphoenolpyruvate (PEP). However, in the context of host-pathogen interactions, enolase from different species of parasites, fungi and bacteria have been shown to contribute to adhesion processes by binding to proteins of the host extracellular matrix (ECM), such as fibronectin (FN) or laminin (LM). In addition, enolase is a plasminogen (PLG)-binding protein and induces its activation to plasmin, the main protease of the host fibrinolytic system. These secondary ‘moonlighting’ functions of enolase are suggested to facilitate pathogen migration through host tissues. This study aims to uncover the moonlighting role of enolase from the parasiteFasciola hepatica, shedding light on its relevance to host-parasite interactions in fasciolosis, a global zoonotic disease of increasing concern. A purified recombinant form ofF. hepaticaenolase (rFhENO), functioning as an active homodimeric glycolytic enzyme of ∼94 kDa, was successfully obtained, fulfilling its canonical role. Immunoblotting studies on adult worm extracts showed that the enzyme is present in the tegument and the excretory/secretory products of the parasite, which supports its key role at the host-parasite interface. Confocal immunolocalisation studies of the protein in newly excysted juveniles and adult worms also localised its expression within the parasite tegument. Finally, we showed by ELISA that rFhENO can act as a parasitic adhesin by binding host LM, but not FN. rFhENO also binds PLG and enhances its conversion to plasmin in the presence of the tissue-type and urokinase-type PLG activators (t-PA and u-PA). This moonlighting adhesion-like function of the glycolytic protein enolase could contribute to the mechanisms by whichF. hepaticaefficiently invades and migrates within its host and encourages further research efforts that are designed to impediment this function by vaccination or drug design.AUTHOR SUMMARYFasciola hepaticais a parasitic worm causing fasciolosis, primarily affecting herbivorous mammals and posing a significant veterinary problem. Furthermore, it is a zoonosis, meaning it can be transmitted to humans.F. hepaticaenters the definitive host through ingestion of contaminated aquatic plants, migrating through the intestine to settle in the liver bile ducts, where it matures into the adult stage. To migrate, it utilizes various invasion strategies, including the use of multifunctional proteins, known as ‘moonlighting’. In this study, we produced and molecularly characterized the parasitic enzyme enolase as a moonlighting protein to understandF. hepaticainvasion mechanisms. We produced recombinant enolase with glycolytic activity, its canonical function in parasite energy production. Additionally, we localised this enzyme in the parasite’s tegument, in direct contact with the host, and demonstrated its ability to elicit an immune response early in ovine infection. Finally, we demonstrated the ability of enolase to interact with the extracellular matrix and the host’s fibrinolysis, a proteolytic system responsible for dissolving blood clots. These secondary functions ofF. hepaticaenolase, described here for the first time, along with its localisation and immunogenicity, suggest this protein as an interesting antigen for fasciolosis diagnosis and/or control.