Allicin May Promote Reversal of T-Cell Dysfunction in Periodontitis via the PD-1 Pathway.
Shankaragouda PatilMohammed E SayedMaryam H MugriKhalaf F AlsharifArif SalmanShilpa BhandiHosam Ali BaeshenThodur Madapusi BalajiPradeep Kumar YadalamSaranya VaradarajanR Srimathi R RadhaKamran Habib AwanVikrant R PatilA Thirumal RajPublished in: International journal of molecular sciences (2021)
We evaluated the role of allicin in periodontitis using an in silico and in vitro design. An in silico docking analysis was performed to assess the plausible interactions between allicin and PD-L1. The cytokine profile of gingival crevicular fluid (GCF) samples obtained from periodontitis patients was estimated by cytometric bead array. CD3+ lymphocytes isolated from the peripheral blood were sorted and characterized using immunomagnetic techniques. Cultured and expanded lymphocytes were treated with the GCF samples to induce T-cell exhaustion. Optimum concentrations of allicin were added to exhausted lymphocytes to compare the expression of TIM-3 and LAG-3 gene expression at baseline and post-treatment. Allicin was found to bind to the PD-L1 molecule as revealed by the in-silico experiment, which is possibly an inhibitory interaction although not proven. GCF from periodontitis patients had significantly higher concentrations of TNF-α, CCL2, IL-6, IFN-γ, and CXCL8 than controls. GCF treatment of CD3+ lymphocytes from the periodontitis patients significantly increased expression of T-cell exhaustion markers TIM-3 and LAG-3. Allicin administration with GCF treatment resulted in significant lowering of the expression of exhaustion markers. Allicin may exert an immunostimulatory role and reverse immune-destructive mechanisms such as T-cell exhaustion.
Keyphrases
- peripheral blood
- end stage renal disease
- gene expression
- newly diagnosed
- chronic kidney disease
- ejection fraction
- poor prognosis
- prognostic factors
- dna methylation
- rheumatoid arthritis
- oxidative stress
- molecular docking
- high resolution
- long non coding rna
- endothelial cells
- mass spectrometry
- binding protein
- molecular dynamics
- liver injury
- drug induced