Curcumin Suppresses M2 Macrophage-derived Paclitaxel Chemoresistance through Inhibition of PI3K-AKT/STAT3 Signaling.

BACKGROUND: Breast cancer is the leading cancer in women worldwide. The development of chemoresistance that leads to recurrence and mortality remains a major concern. M2-type tumor-associated macrophages (TAMs), present in the breast tumor microenvironment, secrete various cytokines and growth factors that induce chemoresistance. Curcumin, isolated from Curcuma longa, is known to sensitize cancer cells and increase the efficacy of standard chemotherapeutic agents. However, the effect of curcumin on the chemoresistancegenerating ability of M2 TAMs is not known. OBJECTIVE: The study aimed to determine whether curcumin could modulate M2 macrophages and suppress their ability to induce resistance to paclitaxel in breast cancer cells. METHODS: THP-1 cells were differentiated to M2 macrophages using PMA and IL-4/IL-13 in the presence or absence of curcumin in vitro. The effect of the conditioned medium of M2 macrophages on inducing resistance towards paclitaxel in MCF-7 or MDA-MB-231 cells was analyzed by cell proliferation assay, cell cycle analysis, wound healing and transwell migration assays. RT-PCR analysis was used to determine the mRNA expression of anti-inflammatory cytokines in M2 macrophages. The effect of curcumin on TGF-ß, pAKT, and pSTAT3 in M2 macrophages was analyzed by western blotting. RESULTS: Our data revealed that the M2 macrophages polarized in the presence of curcumin lacked the ability to generate chemoresistance to paclitaxel in breast cancer cell lines. Transcriptomic analysis revealed the expression of TGF-ß to be highest amongst M2 macrophage-secreted cytokines. We observed that purified recombinant TGF-ß generated chemoresistance in breast cancer cells. We found that curcumin treatment abrogated the expression of TGF-ß in M2 macrophages and suppressed their ability to induce chemoresistance in breast cancer cells. STITCH analysis showed strong interaction between curcumin and AKT/STAT3 pathway. Mechanistically, curcumin inhibited PI3K/AKT/STAT3 signaling in M2 macrophages. Western blot analysis revealed that M2 TAM CM, but not curcumin-treated macrophage CM, activated COX2/NF-κB in breast cancer cells. CONCLUSION: Our results showed that curcumin reduced the chemoresistance-generating ability of M2 TAMs. The study has revealed a non-cancer cell-autonomous mechanism by which curcumin partly overcomes the chemoresistance of paclitaxel in breast cancer.

Simple determination of dichlorvos in cases of fatal intoxication by gas Chromatography-Mass spectrometry.

Dichlorvos (DDVP) is an organophosphorous insecticide which is classified as "highly hazardous" Class 1B chemical by World Health Organization (WHO) and largely misused for the purpose of self-poisoning in developing countries. Forensic toxicology laboratories are routinely encountering cases of pesticide poisoning due to their fatal intoxication. Herein; a method is described based on vortex-assisted dispersive liquid-liquid microextraction (VA-DLLME) coupled with Gas Chromatography-Mass Spectrometry (GC-MS) for the determination of an organophosphorous insecticide; dichlorvos (DDVP) in human autopsy samples (blood, stomach content and liver). Under the optimum conditions, the method was found to be linear in the range of 0.5-10 µg mL-1 and 1.5-10 µg g-1 for blood and tissue samples, respectively. Limit of quantification was set at 0.55 µg mL-1 and 1.1 µg g-1 for blood and tissue samples, respectively. Intraday and inter-day precisions were less than 8 and 12 %, respectively. Good recoveries in the range of 86-95 % were obtained for the proposed procedure. The method has been satisfactorily applied for the determination of DDVP in autopsy samples from two different cases received in our laboratory. In comparison to previous methods; the proposed method is relatively short, high sample throughput, inexpensive and adheres to the principles of green analytical chemistry (GAC) for determination of DDVP in human autopsy samples. The method can be adopted in forensic toxicological laboratories for analysis of DDVP in autopsy samples. In addition, the green character of the proposed method was evaluated using ComplexGAPI procedure.