Genome-wide DNA methylation profiling after Ayurveda intervention to bronchial asthmatics identifies differential methylation in several transcription factors with immune process related function.

BACKGROUND: The Indian traditional medicinal system, Ayurveda, describes several lifestyle practices, processes and medicines as an intervention to treat asthma. Rasayana therapy is one of them and although these treatment modules show improvement in bronchial asthma, their mechanism of action, particularly the effect on DNA methylation, is largely understudied. OBJECTIVES: Our study aimed at identifying the contribution of DNA methylation changes in modulating bronchial asthma phenotype upon Ayurveda intervention. MATERIALS AND METHODS: In this study, genome-wide methylation profiling in peripheral blood DNA of healthy controls and bronchial asthmatics before (BT) and after (AT) Ayurveda treatment was performed using array-based profiling of reference-independent methylation status (aPRIMES) coupled to microarray technique. RESULTS: We identified 4820 treatment-associated DNA methylation signatures (TADS) and 11,643 asthma-associated DNA methylation signatures (AADS), differentially methylated [FDR (≤0.1) adjusted p-values] in AT and HC groups respectively, compared to BT group. Neurotrophin TRK receptor signaling pathway was significantly enriched for differentially methylated genes in bronchial asthmatics, compared to AT and HC subjects. Additionally, we identified over 100 differentially methylated immune-related genes located in the promoter/5'-UTR regions of TADS and AADS. Various immediate-early response and immune regulatory genes with functions such as transcription factor activity (FOXD1, FOXD2, GATA6, HOXA3, HOXA5, MZF1, NFATC1, NKX2-2, NKX2-3, RUNX1, KLF11), G-protein coupled receptor activity (CXCR4, PTGER4), G-protein coupled receptor binding (UCN), DNA binding (JARID2, EBF2, SOX9), SNARE binding (CAPN10), transmembrane signaling receptor activity (GP1BB), integrin binding (ITGA6), calcium ion binding (PCDHGA12), actin binding (TRPM7, PANX1, TPM1), receptor tyrosine kinase binding (PIK3R2), receptor activity (GDNF), histone methyltransferase activity (MLL5), and catalytic activity (TSTA3) were found to show consistent methylation status between AT and HC group in microarray data. CONCLUSIONS: Our study reports the DNA methylation-regulated genes in bronchial asthmatics showing improvement in symptoms after Ayurveda intervention. DNA methylation regulation in the identified genes and pathways represents the Ayurveda intervention responsive genes and may be further explored as diagnostic, prognostic, and therapeutic biomarkers for bronchial asthma in peripheral blood.

Understanding the effects of Abhraka Bhasma on genotoxicity and its DNA repair potential in mouse model.

BACKGROUND: Metal toxicity is of major concern to human health. The metals may modulate molecular mechanisms of various pathways. Rasashastra, the branch of Ayurveda, narrates the properties, unique preparation, processing techniques, and therapeutic uses of minerals. The use of herbal metallic preparations has evoked concern for their potential to produce toxicity, interest in efficacy as therapeutic agents and safety related issues. Abhraka Bhasma, is one such incinerated herbo-metallic preparation of mica, widely used by traditional medicine practitioners. Although there are reports of Abhraka Bhasma on beneficial effects, clear evidence is lacking on the effect of Abhraka Bhasma on genotoxicity and DNA repair. OBJECTIVE: The present study aims to understand the effects of Abhraka Bhasma on geno toxicity, DNA repair, and other mechanisms in the mice test model. MATERIAL AND METHODS: The experiments were conducted in in vivo Swiss albino mice. The acute oral toxicity was performed as per the OECD guidelines. The mice were treated with Abhraka Bhasma (120 or 360 mg/kg body weight) for 7 days. They were then challenged with ethyl methanesulfonate and the DNA repair was analyzed. RESULTS: The data obtained indicated that the Abhraka Bhasma is not a genotoxic and reproductive toxic formulation. The selected higher concentration of Abhraka Bhasma showed a protective role against ethyl methanesulfonate induced chromosomal damages and enhanced constitutive DNA base excision repair in mice. CONCLUSION: The anti-oxidant, potentiation of DNA repair and hematinic properties of Abhraka Bhasma may be attributed to the synergistic actions of its bioactive components.