Violacein, a pigment isolated from Chromobacterium violaceum in the Amazon River, presents diverse biologic properties and attracts interest as a consequence of its antileukemic activity. Elucidation of the molecular mechanism mediating this activity will provide further relevant information for understanding its effects on the cellular physiology of untransformed cells and for considering its possible clinical application. Here, we show that violacein causes apoptosis in HL60 leukemic cells but is ineffective in this respect in other types of leukemia cells or in normal human lymphocytes and monocytes. Violacein cytotoxicity in HL60 cells was preceded by activation of caspase 8, transcription of nuclear factor B (NF-B) target genes, and p38 mitogenactivated protein (MAP) kinase activation. Thus, violacein effects resemble tumor necrosis factor ␣ (TNF-␣) signal transduction in these cells. Accordingly, infliximab, an antibody that antagonizes TNF-␣-induced signaling abolished the biologic activity of violacein. Moreover, violacein directly activated TNF receptor 1 signaling, because a violacein-dependent association of TNF receptor-associated factor 2 (TRAF2) to this TNF receptor was observed in coimmunoprecipitation experiments. Hence, violacein represents the first member of a novel class of cytotoxic drugs mediating apoptosis of HL60 cells by way of the specific activation of TNF receptor 1. IntroductionViolacein ( Figure 1A), a purple-colored pigment produced by one of the strains of Chromobacterium violaceum found in the Amazon River, Brazil, is an indole derivative characterized as 3-(1,2-dihydro-5-(5-hydroxy-1H-indol-3-yl)-2-oxo-3H-pyrrol-3-ilydene)-1,3-dihydro-2H-indol-2-one. 1 The biosynthesis and biologic properties of this pigment have been extensively studied; in particular, its antitumoral, antibacterial, antiulcerogenic, antileishmanial, and antiviral activities are of interest. [1][2][3][4][5][6] Its activity on acute myeloblastic leukemia (HL60) cells is of special interest because the compound effectively induces cell death in these cells.The development of violacein as a possible novel therapeutic avenue for the treatment of leukemia, however, depends on the establishment of the molecular basis for this cytotoxicity. Evidently, a possible future application of violacein as a therapeutic agent critically depends on its ability to target leukemia cells more effectively than normal blood cells. Hence, research comparing the cytotoxicity of violacein in transformed cells and the corresponding untransformed ones is urgently called for. In addition, identification of the molecular details mediating violacein effects on leukemic cells will provide insight into the possible benefit of this compound in comparison to existing therapeutics.The above-mentioned considerations prompted us to investigate the effects of violacein in HL60 cells. This cell line is generally accepted as a valid model for studying myeloid leukemia biology. 7,8 Melo et al 6 showed earlier that HL60 cells react to violacein with bo...
Natural-food-based compounds show substantial promise for prevention and biotherapy of cancers including leukemia. In general, their mechanism of action remains unclear, hampering rational use of these compounds. Herein we show that the common dietary flavonoid apigenin has anticancer activity, but also may decrease chemotherapy sensitivity, depending on the cell type. We analyzed the molecular consequences of apigenin treatment in two types of leukemia, the myeloid and erythroid subtypes. Apigenin blocked proliferation in both lineages through cell-cycle arrest in G2/M phase for myeloid HL60 and G0/G1 phase for erythroid TF1 cells. In both cell lines the JAK/STAT pathway was one of major targets of apigenin. Apigenin inhibited PI3K/PKB pathway in HL60 and induced caspase-dependent apoptosis. In contrast, no apoptosis was detected in TF1 cells, but initiation of autophagy was observed. The block in cell cycle and induction of autophagy observed in this erythroleukemia cell line resulted in a reduced susceptibility toward the commonly used therapeutic agent vincristine. Thus, this study shows that although apigenin is a potential chemopreventive agent due to the induction of leukemia cell-cycle arrest, caution in dietary intake of apigenin should be taken during disease as it potentially interferes with cancer treatment.
Nature is an inexhaustible source of natural compounds with interesting biological activities. In general, natural products are an important source of new compounds with a variety of structural arrangements and singular properties. Styryl lactones are a group of secondary metabolites ubiquitous in the genus Goniothalamus that have demonstrated to possess interesting biological properties, in particular antiproliferative activity against cancer cells. In general, the cytotoxicity of styryl lactones appears to be specific against cancer cells since insignificant effects of these compounds on normal cells are reported. A large body of evidence suggests that the antiproliferative activity of styryl lactones is associated with the induction of apoptosis in target cells. In the first part of this review we discuss the biological activities of styryl lactones focusing on cancer cells, the causal agent of Chagas' disease and the vectors for yellow fever and human lymphatic filariasis. Stru described in detail for ninety styryl lactones. The last part describes the molecular targets of styryl lactones for inducing apoptosis, as well as immunosuppressive and inflammatory processes. Overall, understanding how these compounds exert their activities in biological system is essential for future development and application of styryl lactones for human health.
Reversible tyrosine phosphorylation is a key posttranslational regulatory modification of proteins in all eukaryotic cells in normal and pathological processes. Recently a pivotal janus-faced biological role of the low molecular weight protein tyrosine phosphatase (LMWPTP) has become clear. On the one hand this enzyme is important in facilitating appropriate immune responses towards infectious agents, on the other hand it mediates exaggerated inflammatory responses toward innocuous stimuli. The evidence that LMWPTP plays a role in oncological processes has added a promising novel angle. In this review we shall focus on the regulation of LMWPTP enzymatic activity of signaling pathways of different immunological cells, the relation between genetic polymorphism of LMWPTP and predisposition to some type of inflammatory disorders and the contribution of this enzyme to cancer cell onset, growth and migration. Therefore, the LMWPTP is an interesting target for pharmacological intervention, thus modifying both inappropriate cellular immune responses and cancer cell aggressiveness.
Besides having a pivotal biological function as a component of coenzymes, riboflavin appears a promissing antitumoral agent, but the underlying molecular mechanism remains unclear. In this work, we demonstrate that irradiated riboflavin, when applied at microM concentrations, induces an orderly sequence of signaling events finally leading to leukemia cell death. The molecular mechanism involved is dependent on the activation of caspase 8 caused by overexpression of Fas and FasL and also on mitochondrial amplification mechanisms, involving the stimulation of ceramide production by sphingomyelinase and ceramide synthase. The activation of this cascade led to an inhibition of mitogen activated protein kinases: JNK, MEK and ERK and survival mediators (PKB and IAP1), upregulation of the proapoptotic Bcl2 member Bax and downregulation of cell cycle progression regulators. Importantly, induction of apoptosis by irradiated riboflavin was leukaemia cell specific, as normal human lymphocytes did not respond to the compound with cell death. Our data indicate that riboflavin selectively activates Fas cascade and also constitutes a death receptor-engaged drug without harmful side effects in normal cells, bolstering the case for using this compound as a novel avenue for combating cancerous disease.
The violet pigment violacein is an indole derivative, isolated mainly from bacteria of the genus Chromobacterium, which exhibits important antitumoral, antimicrobial and antiparasitary properties. Furthermore, the formulation of violacein in different polymeric carriers developed so far offers alternative approaches to overcoming physiological barriers and undesirable physicochemical properties in vivo, thus improving its efficacy.
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