Allergy and Parasites

It is estimated that at least one-fifth of the world’s population suffers from allergic diseases (atopic asthma and allergic rhinitis are the most common). Different factors contribute to the development of allergies; a predisposing genetic background is needed; however, environmental factors play an important role, among them is the exposure to infectious agents.

It is estimated that at least one-��h of the world�s population suffers from allergic diseases (atopic asthma and allergic rhinitis are the most common). Different factors contribute to the development of allergies; a predisposing genetic background is needed; however, environmental factors play an important role, among them is the exposure to infectious agents.
Allergy is increasing in the recent decades particularly in Western industrialized countries, and according to the socalled hygiene hypothesis this might be ascribable to the lower exposure to infectious agents, including parasitic helminths. e reasons for such a situation are several: small family size, stability of intestinal micro�ora, a�uent urban homes, high use of antibiotics, good sanitation which means low oralfecal pathogen burden, and �nally low or absent helminth infections. On the other hand, the low prevalence of atopy in developing countries is generally associated with high exposure to parasites in these regions.
e hygiene hypothesis has been revisited pointing out, for example, the role of IL-10-producing Treg cells, which are induced during chronic infections and play an essential role in downregulating allergic responses.
To verify the above hypotheses, a number of publications have appeared, studying the effects of parasitic infections or of molecules derived from parasites on the well-established experimental models of allergy, along with epidemiological studies, which have tried to correlate these conditions. is special issue on allergy and parasites is composed of papers, which address this topic.
A review by N. Rujeni et al. focuses on the relationship between helminth parasites and allergic reactivity, taking into account the new concept to explain why 2 immune responses have evolved. e 2 response has been associated with host resistance to helminth infections and generally considered a harmfully allergic response. e review discusses these concepts and also the mechanisms underlying the interface between allergy and helminth infections and the evolutionary processes of the immune response associated with these conditions. In the paper by D. Ball et al., the in�uence of ES-62, a glycoprotein produced by Acanthocheilonema viteae, on the activity of mast cells of different sources (peritoneal, connective tissue, and bone marrow derived) was assayed, comparing surface phenotype, degranulation responses to LPS and Fc R1 cross-linking, and cytokine production in response to those stimuli. e authors show the activation pathways in mouse mast cells that may be altered by ES-62. ese results will advance our understanding of the immunomodulatory activity directed against the allergy effector cells by this parasite-derived glycoprotein.
C. Aranzamendi et al. observe that the association between allergy and helminth infections is not always the same. ese authors review the literature on some of the cell types that play an essential role in helminth-induced immunoregulation and the conse�uences for in�ammatory diseases. In addition, epidemiological as well as experimental studies indicating the contrasting effects of Toxocara and Trichinella infection on allergic asthma are discussed.
According to the authors, this diversity might depend on the helminth species, whether it is a chronic or acute infection, the different role played by the host in the various infections (natural or occasional), as well as on the different life cycles in which the parasite may affect the lung (in toxocarsis) or not (in trichinellosis), and on parasite burden. Several epidemiological studies have consistently shown an inverse association between clinical asthma and Schistosoma infections. M. C. F. Almeida et al. carried out an elegant intervention study using the appropriate method to assess whether helminth infections are associated with asthma symptoms. e method used was a prospective, doubleblinded, placebo-controlled study evaluating the in�uence of antihelminthic treatment on asthma severity, carried out in an endemic area for schistosomiasis. Findings on worsening of asthma severity aer repeated antihelminthic treatments support the hypothesis on the protective effect of helminth infections in in�ammatory diseases. Additional studies, such as the one described by Almeida et al. which would include a larger number of participants and continue for a longer period of time, are necessary in order to elucidate further the association between different helminth infections and in�ammatory diseases.
In the paper by L. S. Cardoso and colleagues, risk factors for asthma were investigated in an area of helminth transmission in Bahia, Brazil, by the use of questionnaires. e effect of Schistosoma mansoni and also various gastrointestinal nematodes was investigated. Although the authors could not conclude that schistosomes offered a protective effect, the results indicated that Ascaris lumbricoides infection was negatively associated with asthma. is paper may thus be consistent with the idea referred to earlier that parasitic worm species vary in their immunomodulatory effects, but it should also be noted (as outlined above) that other studies show schistosome infection to be associated with protection against allergy.
In conclusion, the editors hope to have stimulated, with this special issue, the interest on the relationship between allergy and parasitic infections; envisaging new research work is needed not only to clarify many aspects which remain uncertain, but also to open the way to possible new strategies to control allergic diseases.