Hemidesmus indicus induces apoptosis via proteasome inhibition and generation of reactive oxygen species.

Proteasome inhibition represents an important anticancer strategy. Here, we studied the mechanisms at the basis of the pro-apoptotic activity of the standardized decoction of Hemidesmus indicus, a plant evoking a complex anticancer activity, and explored its inhibition of proteasome activity in human leukemia cells. Additionally, we preliminary tested the cytotoxicity of some H.

Possible Effects of Dietary Anthocyanins on Diabetes and Insulin Resistance.

Diabetes is reaching epidemic proportions worldwide. Many dietary compounds have been found to exert health beneficial effects against different pathologies including diabetes. Most bioactive compounds have been identified in fruits and vegetables and their mechanisms of action explored both in vitro and in vivo.

Potential Effects of Pomegranate Polyphenols in Cancer Prevention and Therapy.

Cancer is the second leading cause of death and is becoming the leading one in old age. Vegetable and fruit consumption is inversely associated with cancer incidence and mortality. Currently, interest in a number of fruits high in polyphenols has been raised due to their reported chemopreventive and/or chemotherapeutic potential.

Natural compounds to overcome cancer chemoresistance: toxicological and clinical issues.

Introduction: Defects in initiating or executing cell death programs are responsible for cancer chemoresistance. The growing understanding of apoptotic programs suggests that compounds simultaneously inhibiting multiple signaling pathways might provide a better therapeutic outcome than that of individual inhibitors.

Areas Covered: Natural compounds can modulate different survival pathways, thus enhancing the therapeutic effects of anticancer treatments.

Exploiting RNA as a new biomolecular target for synthetic polyamines.

Anticancer chemotherapy is strongly hampered by the low therapeutic index of most anticancer drugs and the development of chemoresistance. Therefore, there is a continued need for the identification of new molecular targets in order to selectively hit cancer cells. RNA has been recently validated as a cancer target by the use of different specific ligands and/or by different agents able to destroy its diverse forms.

Metabolic and toxicological considerations of botanicals in anticancer therapy.

Introduction: Cancer is a complex disease, characterized by redundant aberrant signaling pathways as a result of genetic perturbations at different levels. Botanicals consist of a complex mixture of constituents and exhibit pharmacological effects by the interaction of many phytochemicals. The multitarget nature of botanicals could, therefore, be a relevant strategy to address the biological complexity that characterizes tumors.

Sulforaphane potentiates RNA damage induced by different xenobiotics.

Background: The isothiocyanate sulforaphane (SFN) possesses interesting anticancer activities. However, recent studies reported that SFN promotes the formation of reactive oxygen species (ROS) as well as DNA breakage.

Methodology/principal Findings: We investigated whether SFN is able to damage RNA, whose loss of integrity was demonstrated in different chronic diseases.

Design, synthesis and biological evaluation of new naphtalene diimides bearing isothiocyanate functionality.

The synthesis and the biological activities of new derivatives 1-3, characterized by the isothiocyanate (ITC) functionalities coming from sulforaphane (SFN), a well-known anticancer natural product, were reported. The most interesting compound of the series was 2. It was chemically characterized by two ITC functionalities mounted on the 1,4,5,8-naphthalentetracarboxylic diimide (NDI) scaffold through two polymethylene chains, each constituted by three carbon units.

Natural isothiocyanates: genotoxic potential versus chemoprevention.

Isothiocyanates, occurring in many dietary cruciferous vegetables, show interesting chemopreventive activities against several chronic-degenerative diseases, including cancer, cardiovascular diseases, neurodegeneration, diabetes. The electrophilic carbon residue in the isothiocyanate moiety reacts with biological nucleophiles and modification of proteins is recognized as a key mechanism underlying the biological activity of isothiocyanates. The nuclear factor-erythroid-2-related factor 2 system, which orchestrates the expression of a wide array of antioxidant genes, plays a role in the protective effect of isothiocyanates against almost all the pathological conditions reported above.

Mitochondrial pathway mediates the antileukemic effects of Hemidesmus indicus, a promising botanical drug.

Background: Although cancers are characterized by the deregulation of multiple signalling pathways, most current anticancer therapies involve the modulation of a single target. Because of the enormous biological diversity of cancer, strategic combination of agents targeted against the most critical of those alterations is needed. Due to their complex nature, plant products interact with numerous targets and influence several biochemical and molecular cascades.