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RESEARCH PRODUCT

Molecular mechanisms of hookworm disease: stealth, virulence, and vaccines.

Peter J. HotezPeter J. HotezAlex LoukasDavid DiemertAmar R. JariwalaMaria Victoria PeriagoLeon TriboletMark S. PearsonCinzia CantacessiMaria Adela ValeroJeffrey M. Bethony

subject

AncylostomatoideaVaccinesbiologyAnemia Iron-DeficiencyVirulenceImmunologyVirulenceHelminth geneticsHelminth Proteinsbiology.organism_classificationNecator americanusMicrobiologyHookworm InfectionsImmune systemAntigenAncylostomaHookworm InfectionsAntigens Helminthparasitic diseasesImmunologyImmunology and AllergyAnimalsHumansHookworm infection

description

Hookworms produce a vast repertoire of structurally and functionally diverse molecules that mediate their long-term survival and pathogenesis within a human host. Many of these molecules are secreted by the parasite, after which they interact with critical components of host biology, including processes that are key to host survival. The most important of these interactions is the hookworm's interruption of nutrient acquisition by the host through its ingestion and digestion of host blood. This results in iron deficiency and eventually the microcytic hypochromic anemia or iron deficiency anemia that is the clinical hallmark of hookworm infection. Other molecular mechanisms of hookworm infection cause a systematic suppression of the host immune response to both the parasite and to bystander antigens (eg, vaccines or allergens). This is achieved by a series of molecules that assist the parasite in the stealthy evasion of the host immune response. This review will summarize the current knowledge of the molecular mechanisms used by hookworms to survive for extended periods in the human host (up to 7 years or longer) and examine the pivotal contributions of these molecular mechanisms to chronic hookworm parasitism and host clinical outcomes.

10.1016/j.jaci.2012.05.029https://pubmed.ncbi.nlm.nih.gov/22742835