The Impact of High-Fructose Diet and Co-Sensitization to House Dust Mites and Ragweed Pollen on the Modulation of Airway Reactivity and Serum Biomarkers in Rats.
Răzvan-Ionuț ZimbruElena-Larisa ZimbruValentin-Laurențiu OrdodiMaria-Florina BojinDaniela CrîsnicManuela GrijincuSilvia-Nicoleta MiricaGabriela TănasieMarius GeorgescuIoan HuțuLaura HaidarVirgil PăunescuCarmen PanaitescuPublished in: International journal of molecular sciences (2024)
The topic of ragweed pollen (RW) versus house dust mites (HDMs) has often been deliberated, but the increasing incidence of co-sensitization between them has been scarcely addressed. Utilizing Sprague Dawley rats, we explored the effects of co-sensitization with the combination of HDMs and RW pollen extracts in correlation with high-fructose diet (HFrD) by in vitro tracheal reactivity analysis in isolated organ bath and biological explorations. Our findings unveiled interrelated connections between allergic asthma, dyslipidemia, and HFrD-induced obesity, shedding light on their compounding role through inflammation. The increased CRP values and airway hyperresponsiveness to the methacholine challenge suggest a synergistic effect of obesity on amplifying the existing inflammation induced by asthma. One of the major outcomes is that the co-sensitization to HDMs and RW pollen led to the development of a severe allergic asthma phenotype in rats, especially in those with HFrD. Therefore, the co-sensitization to these allergens as well as the HFrD may play a crucial role in the modulation of systemic inflammation, obesity, and airway reactivity.
Keyphrases
- weight loss
- allergic rhinitis
- insulin resistance
- chronic obstructive pulmonary disease
- metabolic syndrome
- lung function
- type diabetes
- oxidative stress
- high fat diet induced
- weight gain
- physical activity
- health risk
- diabetic rats
- human health
- health risk assessment
- early onset
- drug induced
- heavy metals
- atopic dermatitis