Author:
Singh Chhama,Pandey Mamta,Goud Emmagouni Sharath Kumar,Veerappa Vedamurthy G.,Singh Dheer,Onteru Suneel Kumar
Abstract
ABSTRACTDioxins are highly toxic environmental persistent organic pollutants. In several countries, their presence was also reported in cow and human milk samples in the range of 0.023-26.46 and 0.88-19.0 pg/gm of fat, respectively. The detection of dioxns in food samples has been relied on several expensive technologies, which do not represent their toxic effects on consumers. However, mammalian cell based bioassays have such potential to detect the toxins, while representing their toxic effects. Therefore, we tried a three-dimensionally (3D) cultured buffalo granulosa cell based RT-LAMP colour reaction for detecting the presence of added model dioxin, 2,3,7,8-tetrachlorodibenzodioxin (TCDD), in commercial milk. The 3D spheroids on the fifth day of culture were treated with different concentrations of TCDD (i.e. 0.02– 20 pg/ml) directly as well as indirectly through milk fat. After 24hrs of treatment, gene expression studies were performed on certain granulosa cell-specific (CYP19A1, ER-beta, FSHR and LHR) and selective TCDD-responsive (CYP1A1, CYP1B1 and AHR) genes to identify the potential dioxin responsive gene for further RT-LAMP reaction. As the AHR expression in 3D cultured buffalo granulosa cells appears to be a potential gene marker for sensing the added TCDD in the milk, a colour based RT-LAMP reaction was successfully attempted for its expression. However, future studies are needed to develop a dose-responsive colour reaction by considering the treatment time less than 24 hrs.
Publisher
Cold Spring Harbor Laboratory