Vitamin D Receptor FokI, ApaI, and TaqI Polymorphisms in Lead Exposed Subjects From Saudi Arabia.

Abjal Pasha Shaik,Vamsee K Bammidi,Abbas H Alsaeed,Mikqdad A Alsaeed,Abdullah A Alyousef,Asma Sultana Shaik,M Faiyaz-Ul-Haque

doi:10.3389/fgene.2019.00388

Abjal Pasha Shaik, Vamsee K Bammidi + Show 5 more

Open Access

https://doi.org/10.3389/fgene.2019.00388

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Abstract

Vitamin D receptor (VDR) gene polymorphisms were reported to influence blood lead levels (BLL) and the response of subjects to the symptoms of lead toxicity. However, no studies have been conducted in the Saudi Arabian population which has unique ethnicity and socio-demographic features. This study examined the polymorphisms in exon 2 (allele 1) and intron 8 (allele 2 and allele 3) of VDR gene and their relation to BLLs. As per the CDC guidelines, the recruited lead-exposed workers (N = 130) were categorized to two groups viz., low BLL group (<10 μg/dL) and high BLL group (>10 μg/dL). The low BLL group had a mean BLL of 4.37 μg/dL, while the high BLL group had levels of 18.12 μg/dL (p < 0.001). Overall, the genetic variants, TC and CC in the VDR FokI were significantly associated with a risk of lead toxicity and the allele “C” was a risk factor (p = 0.00026). Furthermore, the TT genotype of VDR ApaI significantly increased the risk of developing lead poisoning (p = 0.0006). The VDR TaqI SNP was not significantly associated with lead toxicity. The highest BLLs for VDR FokI-CC, VDR ApaI-GG, and VDR TaqI-TT genotypes from High BLL group were 18.42, 15.26, and 18.75 μg/dL, respectively. Older age (51–60 years) was found to be a significant confounding factor for BLLs (p = 0.012). Additional studies in larger sample sizes are needed to firmly establish the role of VDR genotypes and genetic susceptibility to lead poisoning.

Highlights

The heavy metal lead (Pb) is used in battery manufacturing, smelting, mining, and various other occupations (ChemIDplus, 2005) including non-occupational uses in traditional folk medicine across Saudi Arabia
The current study evaluated the influence of vitamin D receptor (VDR) gene polymorphisms in subjects occupationally exposed to lead with relation to blood lead levels (BLL)
The primary objective was to evaluate if subjects with polymorphisms in certain SNPs at VDR gene may be directly associated with BLLs

Summary

INTRODUCTION

The heavy metal lead (Pb) is used in battery manufacturing, smelting, mining, and various other occupations (ChemIDplus, 2005) including non-occupational uses in traditional folk medicine across Saudi Arabia. The VDR gene regulates the production of calcium-binding proteins and accounts for up to 75% of the total genetic effects on bone density (He et al, 2015) This is consistent with the hypothesis that calcium levels reduce lead uptake, studies have identified an inverse correlation between low bone mineral density and whole blood lead concentration (HSDB, 2007; Xue and Fleet, 2008; Fleet and Schoch, 2010). Since VDR plays an important role in lead absorption, defining individuals susceptible to the toxic effects of lead was deemed necessary more so due to the heterogeneity of the Arab population which has unique ethnicity and socio-demographic features.

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