Alpha-bisabolol, not a matter for cancer therapy. Commentary: “Research on the immunosuppressive activity of ingredients contained in sunscreens”

摘要

A recent paper showed that bisabolol contained in cosmetics drastically dampened peripheral blood lymphocyte proliferation induced by phytohemoagglutinin (PHA) and enhanced the production of tumor growth factor-beta 1 (TGF-β1) on NCTC 2544 keratinocytes, although it did not change the activity of monocytes and dendritic cells (Frikeche et al., 2015 ). The authors showed that some organic molecules present in sunscreens impaired DC maturation, or inhibited lymphocyte proliferation as well as increased of TGF-β1 in the cell environment. Alpha-bisabolol [6-methyl-2-(4-methylcycloex-3-en-1-yl)hept-5-en-2-ol] is a sesquiterpene alcohol, present in different isomers (Figure 1 ) that has been described since many years as a promising anti-tumoral compound (da Silva et al., 2010 ; Seki et al., 2011 ) It reduces mammary tumor mass in mice and promotes the natural killer (NK) cells response (Costarelli et al., 2010 ). Alpha-bisabolol is present in Matricaria chamomilla L. essential oils and a potent pro-apoptotic molecule (Cavalieri et al., 2011 ). The myth of treating cancer with chamomile extracts would find unexpected support, as this plant contains flavonoids, as apigenin-7-O-glucoside and other phytochemicals, which act as anti-proliferative and pro-apoptotic molecules, (Srivastava and Gupta, 2007 ). Frikeche et al. showed that bisabolol behaves as a potent immuno-suppressant, an evidence that should raise fundamental issues about the role of plant-derived molecules on the tumor microenvironment, besides their direct effect on malignant cells (Frikeche et al., 2015 ). Figure 1 Alpha-bisabolol different isomers and farnesol, a possible catabolyte . Darra et al., reported that the anti-neoplastic action exerted by α-bisabolol, derives fundamentally by its ability in inducing mitochondria-mediated apoptosis in cancer cells (Darra et al., 2007 , 2008 ; Cavalieri et al., 2009 ). In particular, α-bisabolol is preferentially incorporated into malignant cells through lipid rafts and directly interacts with Bid protein (Darra et al., 2008 ). This mechanism, which may account for the reported anti-tumoral effect, has never been assessed in vivo and particularly Darra's in vitro evidence did not include the role of immune cells in the tumor microenvironment during α-bisabolol treatment. Promising results showed that α-bisabolol is active against primary acute leukemia cells, in synergism with tyrosine inhibitors, suggesting that its main target is the hematopoietic cell (Cavalieri et al., 2011 ; Bonifacio et al., 2012 ). Frikeche et al. would suggest that the immunosuppressive action performed by α-bisabolol on lymphocytes may have dramatic consequences on tumor development (Frikeche et al., 2015 ). Yet, some concern is about α-bisabolol and lipid rafts. Actually, gamma-delta phenotype T cells (TCR-γδ cells), increase lipid rafts when activated by involving membrane cholesterol (Kabouridis et al., 2000 ; Mahammad et al., 2010 ; Cheng et al., 2013 ). Due to its preferential entry through lipid rafts, α-bisabolol may induce apoptosis in activated T cells, while simultaneously switches off lymphocyte activation (Frikeche et al., 2015 ). Alpha-bisabolol tropism for immune cells may have fundamental effects on tumor immune microenvironment, probably by impairing T-cell activation and lymphocyte switching and promoting cancer editing, causing evasion from inflammation and generating immune tolerance (Vinay et al., 2015 ). Immune suppression in the tumor microenvironment is fundamentally mediated by CD4~(+)CD25~(+)FoxP3~(+)regulatory T cells (Tregs), as the major mechanism of tumor immune escape, a crucial hurdle for tumor immunotherapy (Jacobs et al., 2012 ). Bisabolol enhances TGF-β in in vitro cultured keratinocytes (Frikeche et al., 2015 ) and the cytokine is necessary for the progression of tumors such as hepatocellular carcinoma, acting by inducing Tregs polarization (Shen et al., 2015 ). In melanoma models, cancer cells induce immune escape and suppression by up-regulating CD4~(+)CD25~(+)FoxP3~(+)regulatory T cells, through TGF-β expression (Baumgartner et al., 2007 ). If α-bisabolol is able to increase TGF-β release, its chemopreventive potential might appear therefore quite controversial. At least apparently, α-bisabolol might induce immune suppression and tolerance by increasing the release of cytokines promoting cancer editing. Furthermore, α-bisabolol does not affect the ability of dendritic cells (DCs) to produce IL-12p70 (Johansson et al., 2011 ; Frikeche et al., 2015 ). DCs produce IL-12p70 after engulfment of apoptotic lymphocytes and this mechanism should induce immune tolerance in the absence of lymphocyte activation (Johansson et al., 2011 ). Furthermore, TCR-γδ cells are able to recognize several unknown antigens on tumor cells. Some metabolites of the mevalonate pathway, among which is farnesol, a possible catabolyte of α-bisabolol (Dewick, 2002 ), should act as tumor ligands, which can activate TCR-γδ cells