Abstract

Suidasia pontifica (Sp) is a House Dust Mite (HDM) species found in tropical urban residential areas which causes sensitization of up to 75% of allergic patients. Cloning of allergens from Sp is a significant initial step in understanding the clinical significance of this HDM species. The study describes the cloning and in silico characterization of the group 2 allergen gene from Sp (Sui p 2) with significant homology to Myeloid Differentiation 2 (MD-2) lipid-binding (ML domain) protein allergens. Sui p 2 gene was amplified by Reverse Transcription – PCR using gene-specific primers designed from known HDM group 2 allergens. The amplicons were characterized using NCBI BLAST, ExPASy, MEGA7 and Chimera. Sui p 2 cDNA gene exhibits percent identity to Tyrophagus putrescentiae (65.84%), Aleuroglyphus ovatus (65.69%) and Blomia tropicalis (62.98%). Sui p 2 gene contains 405 bp open reading frame with untranslated regions on its 5’ and 3’ end. Furthermore, structure-based percent identity of Sui p 2 to the group 2 allergen of D. farinae and D. pteronyssinus is 47.62% and 46.83%, respectively. Predicted protein structure reveals a putative immunoglobulin fold consisting of preserved cysteine residues, hydrophobic core and two antiparallel β-sheets containing several TLR4, LPS and IgE binding sites. The results suggest that Sui p 2 may play an important role in HDM induced allergy and may be involved in the induction of the innate immune system. Characterization of Sui p 2 is important to evaluate properly its use for allergy component resolved diagnosis and allergen-specific immunotherapy.

Highlights

  • Allergy is a hypersensitivity reaction commonly characterized by excessive production of IgE that is specific to environmental proteins called allergens (Peters et al, 2013)

  • We described in this paper, the cloning and in silico characterization of an myeloid differentiation-2-like (ML) lipid-binding domainhomolog allergen from Suidasia pontifica (Sp) (Sui p 2)

  • The sequences of the amplicons were compared to 25 known House Dust Mite (HDM) group 2 allergens from nine different HDM species

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Summary

Introduction

Allergy is a hypersensitivity reaction commonly characterized by excessive production of IgE that is specific to environmental proteins called allergens (Peters et al, 2013). Predisposition to allergy is highly dependent to the genetic background of an individual (Wang et al, 2012); sensitization of atopic patients are triggered by common environmental proteins called allergens (Lau et al, 2014; Hanski et al, 2012). It is important to study HDMs in a particular area to properly elucidate its clinical importance. One of these locally-isolated allergenic HDM species that has not yet been thoroughly studied is the Suidasia pontifica (Sp)

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