The acute administration of THC increased CB1 density in rodent brains

binations of the six examined anti-neoplastic agents with DFO resulted in antagonistic effects with all studied anti-cancer drugs. The effects of the Fe complex of DFO in combination with most of the assayed PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/19645759 anti-cancer drugs did not differ markedly from those of uncomplexed DFO. Nonetheless, complexation did result in a general decrease in the CI value for all combinations, leading to slight antagonism to antagonism. The only statistically significant changes in CI values occured when the Fe complex of DFO was used in combination with DOX or 4HC, where slight antagonism occurred instead of the antagonism observed with uncomplexed DFO. Combination of most of the anti-cancer drugs with SIH displayed slight antagonistic to antagonistic activity, with CI values ranging from 1.14060.417 to 1.66660.218, while the combination of SIH with TMX demonstrated synergism. Formation of the SIH-Fe complex significantly reversed the interaction with DOX from antagonism to synergism, but also significantly attenuated the synergism observed for the combination of SIH with TMX, leading to antagonism. concentration changes, the combinations of chelators and anti-cancer drugs were also examined at fractions and multiples of their IC50 values. The complete results are shown in Figs. S4, S5, and S6. From these data, the FaCI plots were SKI II chemical information calculated using computer simulations. Our results indicated that the effects of Fe chelators on the antiproliferative action of anti-cancer drugs were generally dosedependent. Although DFO exhibited some synergism with the cytotoxic drugs at concentrations below the theoretical IC50 values of its combinations, there was a distinct shift toward antagonism with increasing dose. Generally, for each of the other 3 chelators examined, the response as a function of Fa was somewhat similar with each of the individual cytotoxic drugs except for PTX. Specifically, for the combinations of SIH with PTX, very low concentrations showed slight synergism with a rapid conversion to antagonism as the dose increased. For NHAPI and PTX, low and moderate concentrations were antagonistic with only very high concentrations leading to slight synergism. Interestingly, the combination of PTX and Dp44mT was nearly additive at all concentrations tested and this behavior was unique amongst all of the combinations tested. Although 5FU showed additive or even synergistic effects with most chelators when used at concentrations that were close to the respective IC50 values of the combinations, it displayed antagonistic effects at both extremely low and high concentrations. In the case of the combination of DOX and SIH, the effect was slightly different to the other 2 ligands, with a nearly additive response at low concentrations to an antagonistic effect at very high concentrations. Combination of DOX with NHAPI or Dp44mT led to similar behavior, with low doses being antagonistic or nearly additive, while high doses led to moderate Iron Chelators and Anti-Neoplastic Drugs synergism. For MTX, strong antagonism or antagonism was observed with all chelators at very low concentrations, while very high doses led to nearly additive activity, or even moderate synergism. Combination of 4HC with either of NHAPI, SIH or Dp44mT led to synergism at low doses and this converted to an antagonistic effect at the highest doses. Finally, TMX was shown to have the most pronounced tendency to enhance synergism with increasing dose, irrespective of the particular chelator utili