A strategy for a successful hookworm vaccine may use a cocktail o

A strategy for a successful hookworm vaccine may use a cocktail of potential vaccine candidates, including APR-1, targeting both the larval and blood-feeding stages (63). In the early 1990s, gastroenterologist John Croese and medical parasitologist Paul Prociv identified a series of cases of eosinophilic gastroenteritis in Caucasian residents of North Queensland LDE225 (69). Initially, the disease was of unknown

aetiology but as more cases were diagnosed, solitary adult hookworms were identified from a few patients and were subsequently identified as the canine hookworm, A. caninum, a parasite that was previously thought not to reach maturity in the human gut (69) (Figure 2). As awareness spread amongst clinicians, cases were diagnosed in other areas where A. caninum was prevalent, including southern Queensland (70) and the south of the USA (71). While solitary adult A. caninum were identified find more in only a handful of patients, infection was suspected

in many more, so we developed assays to detect circulating IgG and IgE antibodies to adult A. caninum excretory/secretory proteins and confirmed that many of the suspected cases of eosinophilic gastroenteritis where there was no parasitologic evidence of infection (i.e. no detection of adult worms or faecal eggs) were likely caused by occult infection with A. caninum (70,72). It is also noteworthy that in at least one patient, an adult A. caninum was observed in the absence of any overt pathology Rolziracetam or symptoms

(70). These findings pose an intriguing scenario whereby human enteric infection with the zoonotic A. caninum might be far more common than appreciated, and many of these infections might go unnoticed because of mild to no detectable pathology/symptoms. The Hygiene Hypothesis states that as populations become more hygienic and therefore virtually eliminate childhood parasitic infections (which have been constant partners through human evolution), there has been a concurrent increase in immune dysregulatory syndromes, such as autoimmunity, allergy and inflammatory bowel diseases. Diseases such as these are substantially less common in parts of the world with high helminth endemicity, and within endemic areas, the prevalence of allergic atopy is significantly lower in individuals with chronic worm infections (73–78). In epidemiologic studies, there is a good case for hookworm infection suppressing immune dysregulation.

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