Effect of Process Variations on Anticancerous Drug Intercalation in Ceramic Based Delivery System

Two methods have been attempted to intercalate an anionic anticancerous drug methotrexate (MTX) into Mg-Al layered double hydroxide (LDH): a) anion exchange method (sample A') and b) in situ coprecipitation method followed by a soft hydrothermal treatment (sample A `') to form a biohybrid material. Both the materials obtained were characterized by powdered sample X-ray diffraction (XRD), Fourier transform infrared spectra (FT-IR), thermogravimetric-differential thermal analysis (TG-DTA), particle size distribution (PSD) analysis and field emission scanning electron microscopy (FE-SEM). High performance liquid chromatography (HPLC) was used to determine the integrity of the MTX and to quantify the drug loading in the materials. HPLC data of sample A' confirms the integrity of the MTX moiety in the interlayer space of Mg-Al-LDH which has been further verified by XRD and FTIR spectroscopy and drug loading in the hybrid system was found to be 20.22 mg.g(-1). However, the HPLC data of sample A `' supports that under soft hydrothermal condition decomposition of MTX is operating and the major decomposition product was identified as N(10)-methyl folic acid that remains adsorbed on Mg-Al-LDH surface, primarily, as indicated by the TG-DTA study

First report on chlorophyllin to protect mammalian and fish muscle cells from pesticide toxicity via activation of p53 and PARP

Objectives: Pesticide toxicity has become one of the major environmental menaces affecting all types of life forms of the ecosystem. Pesticides get washed off from agricultural fields into nearby water bodies and enter the aquatic organisms. Their bio-accumulated form finally reaches the human race, through consumption of pesticide infested aquatic animals, causing several physiological dysfunctions. Hence it becomes necessary to find a therapeutic cure/a preventive measure to stop the health hazard issues of pesticide. With this projection a search for a phyto-based-product was made whose primary objective would be to lower the pesticidal toxicity in fish and simultaneously in the human race. Methods: In this study we tried to check whether the phyto-chemical, Chlorophyllin (CHL), known for its anti-genotoxic, anti-oxidant activities, could render any kind of protection against Cypermethrin (CM) induced-toxicity in fish model and mammalian cell line L6. Both the model L6 and fish were pre-treated with CHL prior to exposure of CM. Different scientific parameters like % cellular cytotoxicity, reactive oxygen species (ROS) generation, nuclear condensation, etc were checked to validate the possibility of CHL in protecting CM-induced toxicity. Results: The overall results revealed that pre-treatment with CHL could restrict the ROS generation leading to modulation in associated cytokine proteins expression NFkβ and IFNγ. Further, CHL lowered nuclear condensation and elevated expression of DNA repair proteins p53 and PARP, showing a kind of pre-activation of signalling cascades for overall protection against the severity of pesticidal toxicity. Conclusion: Thus, this phyto-based preventive approach would possibly solve many areas of human health issues related to pesticide toxicity in future