Genetic Variation in the Histamine Production, Response, and Degradation Pathway Is Associated with Histamine Pharmacodynamic Response in Children with Asthma.

Bridgette L Jones,Xiaoxi Liu,Catherine M T Sherwin,Hongying Dai,Carrie A Vyhlidal

doi:10.3389/fphar.2016.00524

Abstract

Introduction: There is growing knowledge of the wide ranging effects of histamine throughout the body therefore it is important to better understand the effects of this amine in patients with asthma. We aimed to explore the association between histamine pharmacodynamic (PD) response and genetic variation in the histamine pathway in children with asthma.Methods: Histamine Iontophoresis with Laser Doppler Monitoring (HILD) was performed in children with asthma and estimates for area under the effect curve (AUEC), maximal response over baseline (Emax), and time of Emax (Tmax) were calculated using non-compartmental analysis and non-linear mixed-effects model with a linked effect PK/PD model. DNA isolation and genotyping were performed among participants to detect known single nucleotide polymorphisms (SNPs) (n = 10) among genes (HDC, HNMT, ABP1, HRH1, HRH4) within the histamine pathway. General linear model was used to identify associations between histamine related genetic variants and measured histamine PD response parameters.Results: Genotyping and HILD response profiles were completed for 163 children. ABP1 47 C/T, ABP1 4107, and HNMT-1639 C/Twere associated with Emax (ABP1 47 CC genotype mean Emax 167.21 vs. CT/TT genotype mean Emax 139.20, p = 0.04; ABP1 4107 CC genotype mean Emax 141.72 vs. CG/GG genotype mean Emax 156.09, p = 0.005; HNMT-1639 CC genotype mean Emax 132.62 vs. CT/TT genotype mean Emax 155.3, p = 0.02). In a stratified analysis among African American children only, ABP1 and HNMT SNPs were also associated with PD response; HRH4 413 CC genotype was associated with lower Emax, p = 0.009.Conclusions: We show for the first time that histamine pathway genetic variation is associated with measureable changes in histamine response in children with asthma. The variability in histamine response and impact of histamine pathway genotype is important to further explore in patients with asthma so as to improve disease phenotyping leading to more personalized treatments.

Highlights

There is growing knowledge of the wide ranging effects of histamine throughout the body it is important to better understand the effects of this amine in patients with asthma
Emax and time of maximal response (Tmax) values were associated with genotype for ABP1 and HNMT after correcting for race and asthma type
We found an association between genotype and Tmax for HNMT 3′UTR A/T (AA 18.87, AT 18.48, TT 40.46, p = 0.001) (Supplementary Table 2)

Summary

Introduction

There is growing knowledge of the wide ranging effects of histamine throughout the body it is important to better understand the effects of this amine in patients with asthma. We aimed to explore the association between histamine pharmacodynamic (PD) response and genetic variation in the histamine pathway in children with asthma. It is important to better understand the inflammatory mediators involved in asthma pathogenesis so as to improve disease phenotyping and therapeutic outcomes. Histamine is an important mediator in the pathophysiology of asthma in children and adults. In addition to mediating symptoms of the allergic response (e.g., itching, sneezing, rhinitis), the amine exerts effects in the lung. Understanding histamine pharmacodynamic (PD) response profiles in patients with asthma may provide an important surrogate endpoint for improving phenotyping asthma and for the evaluation of the effects of histamine in disease pathogenesis and treatment response

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