D-chiro-inositol and pinitol extend the life span of Drosophila melanogaster.

D-chiro-inositol, a member of the inositol family, and pinitol, a 3-methoxy analogue of D-chiro-inositol, have been proposed to have antidiabetic, antiinflammatory, anticancer and stamina enhancing effects. We found that supplementing the diet of Drosophila with D-chiro-inositol and pinitol extended adult longevity in both male and female flies. Life span extension was accompanied by protection against oxidative and starvation stresses, improvement in health span, and no reduction in fecundity. Pinitol increased the fly life span, both in dietary restriction and in ad libitum conditions, suggesting that pinitol increased life span in a manner that was independent of the dietary restriction pathway. Nuclear localization of dFOXO increased in D-chiro-inositol and pinitol-fed flies when compared with controls. Pinitol treatment significantly activated JNK and S6K, but not AKT, indicating that the activation of dFOXO by pinitol is acquired by the activation of S6K and JNK signaling. Hence, our study indicated that D-chiro-inositol and pinitol could be novel food-derived antiaging compounds.

CD40 stimulation induces vincristine resistance via AKT activation and MRP1 expression in a human multiple myeloma cell line.

Various co-stimulatory receptors are expressed in multiple myeloma (MM) both in immune microenvironment and in the tumor microenvironment in vivo. In relapsed human MM, these receptors are known to increase cell proliferation and induce conventional drug resistance. However, the mechanism of drug resistance induced via co-stimulatory receptors is poorly understood. In this study, we examined the role of CD40 expressed on MM cell lines. Out of all of the KMS MM cell lines, the KMS28BM cells expressed high levels of the CD40 receptor. When stimulated with anti-CD40 antibody or recombinant human CD40L, the proliferation of KMS28BM cells was increased 1.7 fold. In CD40-stimulated KMS28BM cells, signaling via the AKT pathway caused an increase in the expression of multidrug resistance-associated gene 1 (MRP1) and IL-6 by 2.2 fold and 30 fold, respectively, but not the MDR1 gene. Furthermore, CD40-stimulated KMS28BM cells were observed to be substantially resistant to the anticancer drug vincristine, and when cells were treated with the MRP1 specific inhibitor, MK-571, drug resistance was decreased. We also found that CD40-stimulated, MRP1-expressing KMS28BM cells significantly increased calcein efflux, and calcein efflux was inhibited through treatment with MK-571. Therefore, blocking CD40 and inhibiting MRP1 are potential targets to treat CD40-induced drug resistance in multiple myeloma.