Effect of different helminth extracts on the development of asthma in mice: the influence of early-life exposure and the role of IL-10 response.

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Effect of different helminth extracts on the development of asthma in mice: the influence of early-life exposure and the role of IL-10 response.

Exp Parasitol. 2015 Jun 17;

Authors: Pitrez PM, Gualdi LP, Barbosa GL, Sudbrack S, Ponzi D, Cao RG, Silva AC, Machado DC, Jones MH, Stein RT, Graeff-Teixeira C

Abstract
It is not currently clear whether different parasites have distinct effects on the airway inflammatory response in asthma and whether exposure in early life to helminths have a stronger impact in a potential inhibitory effect on asthma. The aim of this study is to evaluate the effect of exposure to different helminth extracts on the development of allergic pulmonary response in mice, including early-life exposure. Different helminth extracts (Angiostrongylus costaricensis, Angiostrongylus cantonensis and Ascaris lumbricoides) were studied in female adult BALB/c and C57BL/6 IL-10-deficient mice in a protocol of murine asthma, injected intraperitoneally in different periods of exposure (early, pre-sensitization and post-sensitization). Cell counts in bronchoalveolar lavage (BAL), eosinophil peroxidase (EPO) from lung tissue, cytokine levels from BAL/spleen cell cultures, and lung histology were analyzed. Airway cellular influx induced by OVA was significantly inhibited by extracts of A. cantonensis and A. lumbricoides. Extracts of A. lumbricoides and A. costaricensis led to a significant reduction of IL-5 in BAL (p<0.001). Only the exposure to A. lumbricoides led to an increased production of IL-10 in the lungs (p<0.001). In IL-10-deficient mice exposed to A. costaricensis pre-sensitization, eosinophil counts and IL-5 levels in BAL and EPO in lung tissue were significantly reduced. In the early exposure to A. cantonensis, lung inflammation was clearly inhibited. In conclusion, different helminth extracts inhibit allergic lung inflammation in mice. IL-10 may not play a central role in some helminth-host interactions. Early exposure to helminth extracts could be a potential strategy to explore primary prevention in asthma.

PMID: 26093162 [PubMed – as supplied by publisher]

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Effects of early-life exposure to allergens and bacteria on recurrent wheeze and atopy in urban children.

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Effects of early-life exposure to allergens and bacteria on recurrent wheeze and atopy in urban children.

J Allergy Clin Immunol. 2014 May 28;

Authors: Lynch SV, Wood RA, Boushey H, Bacharier LB, Bloomberg GR, Kattan M, O’Connor GT, Sandel MT, Calatroni A, Matsui E, Johnson CC, Lynn H, Visness CM, Jaffee KF, Gergen PJ, Gold DR, Wright RJ, Fujimura K, Rauch M, Busse WW, Gern JE

Abstract
BACKGROUND: Wheezing illnesses cause major morbidity in infants and are frequent precursors to asthma.
OBJECTIVE: We sought to examine environmental factors associated with recurrent wheezing in inner-city environments.
METHODS: The Urban Environment and Childhood Asthma study examined a birth cohort at high risk for asthma (n = 560) in Baltimore, Boston, New York, and St Louis. Environmental assessments included allergen exposure and, in a nested case-control study of 104 children, the bacterial content of house dust collected in the first year of life. Associations were determined among environmental factors, aeroallergen sensitization, and recurrent wheezing at age 3 years.
RESULTS: Cumulative allergen exposure over the first 3 years was associated with allergic sensitization, and sensitization at age 3 years was related to recurrent wheeze. In contrast, first-year exposure to cockroach, mouse, and cat allergens was negatively associated with recurrent wheeze (odds ratio, 0.60, 0.65, and 0.75, respectively; P ? .01). Differences in house dust bacterial content in the first year, especially reduced exposure to specific Firmicutes and Bacteriodetes, was associated with atopy and atopic wheeze. Exposure to high levels of both allergens and this subset of bacteria in the first year of life was most common among children without atopy or wheeze.
CONCLUSIONS: In inner-city environments children with the highest exposure to specific allergens and bacteria during their first year were least likely to have recurrent wheeze and allergic sensitization. These findings suggest that concomitant exposure to high levels of certain allergens and bacteria in early life might be beneficial and suggest new preventive strategies for wheezing and allergic diseases.

PMID: 24908147 [PubMed – as supplied by publisher]

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Early-Life Probiotics Reduce Allergies, Not Asthma – Monthly Prescribing Reference

Early-Life Probiotics Reduce Allergies, Not Asthma
Monthly Prescribing Reference
(HealthDay News) – Probiotic exposure in early life may reduce total immunoglobulin E level (IgE) and protect against atopic sensitization, but does not seem to protect against asthma/wheezing, according to a meta-analysis published online Aug.
Probiotics decreased atopic sensitization riskHealio
Giving Your Kids Probiotics May Decrease Allergies Later in LifeAbout .com: Ear, Nose and Throat Disorders

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Early-Life Air Pollution Strongly Linked To Asthma Development In Minority … – Medical Daily

Early-Life Air Pollution Strongly Linked To Asthma Development In Minority
Medical Daily
A new study looked at the causal relationship between air pollution and childhood asthma. Air pollution exposure prior to the development of asthma was noted in order for researchers to definitively determine a difference in a child's asthma condition.

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Early-life Air Pollution Linked with Childhood Asthma in Minorities, in Study – UCSF News Services


UCSF News Services

Early-life Air Pollution Linked with Childhood Asthma in Minorities, in Study
UCSF News Services
A research team led by UC San Francisco scientists has found that exposure in infancy to nitrogen dioxide (NO2), a component of motor vehicle air pollution, is strongly linked with later development of childhood asthma among African Americans and Latinos.

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Early-life air pollution linked with childhood asthma in minorities, in study – EurekAlert (press release)

Early-life air pollution linked with childhood asthma in minorities, in study
EurekAlert (press release)
A research team led by UCSF scientists has found that exposure in infancy to nitrogen dioxide (NO2), a component of motor vehicle air pollution, is strongly linked with later development of childhood asthma among African Americans and Latinos.

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Early-Life Air Pollution Linked With Childhood Asthma in Minorities – Science Daily (press release)

Early-Life Air Pollution Linked With Childhood Asthma in Minorities
Science Daily (press release)
June 18, 2013 — A research team led by UCSF scientists has found that exposure in infancy to nitrogen dioxide (NO2), a component of motor vehicle air pollution, is strongly linked with later development of childhood asthma among African Americans and 

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