Paul R. van Ginkel scite author profile

Purpose: Neuroblastoma is an aggressive childhood disease of the sympathetic nervous system.Treatments are often ineffective and have serious side effects. Because resveratrol, a natural plant product, has been reported to have limited toxicity at chemotherapeutic levels, we investigated its efficacy in the treatment of neuroblastoma as well as its underlying mechanism of action.Experimental Design: Resveratrol was tested in mouse xenograft models of human neuroblastoma and in vitro using human cell lines. Results: Resveratrol inhibited the outgrowth of tumors by as much as 80%.The bioavailability of the drug in serum was in the low micromolar range (2-10 Amol/L) and no accumulation was observed in tumor tissue. When resveratrol levels were increased by peritumor injection, rapid tumor regression occurred. Resveratrol decreased tumor cell viability in vitro by 75% to 90%, resulting from an inhibition of cell proliferation and an induction of apoptosis. Loss of mitochondrial membrane potential was an early response to resveratrol. In addition, resveratrol treatment of isolated mitochondria also led to depolarization, suggesting that the drug may target mitochondria directly. Following depolarization, resveratrol caused the release of cytochrome c and Smac/ Diablo from the mitochondria and subsequently the activation of caspase-9 (4-to 8-fold) and caspase-3 (4-to 6-fold). Conclusions: These studies indicate that, despite low bioavailability, resveratrol is effective at inhibiting tumor growth. Elevated levels of resveratrol enhance its antitumor potency leading to tumor regression, associated with widespread tumor cell death, the underlying mechanism of which involves the direct activation of the mitochondrial intrinsic apoptotic pathway.

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Mitochondria as the Primary Target of Resveratrol-Induced Apoptosis in Human Retinoblastoma Cells

Sareen

Ginkel

Takach

et al. 2006

Invest. Ophthalmol. Vis. Sci.

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Resveratrol: Challenges in Translation to the Clinic — A Critical Discussion

Subramanian

Youssef

Bhattacharya

et al. 2010

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Low cancer survival rates and the serious side effects often associated with current chemotherapeutics highlight the need for new and effective nontoxic anticancer agents. Since 1997 when Jang and colleagues first described resveratrol's ability to inhibit carcinogenesis, it has consistently proven effective at tumor inhibition in diverse human cancer models. This finding has raised the hope that resveratrol would pioneer a novel class of nontoxic chemotherapeutics. As a consequence of initial basic and preclinical studies, resveratrol is now being extensively promoted in the unregulated nutraceutical sector. However, some fundamental aspects of resveratrol's action need to be understood before it can be developed into a clinically viable anticancer drug. These areas pertain to the key mechanism(s) by which resveratrol potentiates its antitumor effects. Current research suggests that these mechanisms might be through novel pathways, requiring an understanding of cellular uptake, sentinel targets, and in vivo biological networks. The metabolism of resveratrol and its bioavailablity also warrant further consideration in light of recent in vitro and in vivo studies. Finally, we need to appreciate the sorts of information about resveratrol that may translate between different disease entities. We present a critical discussion of these issues and suggest important experiments that could pave the way to the successful translation of resveratrol to the clinic.

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Resveratrol Inhibits Uveal Melanoma Tumor Growth via Early Mitochondrial Dysfunction

Ginkel

Darjatmoko

Sareen

et al. 2008

Invest. Ophthalmol. Vis. Sci.

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Paul R. van Ginkel

Resveratrol Inhibits Tumor Growth of Human Neuroblastoma and Mediates Apoptosis by Directly Targeting Mitochondria

Mitochondria as the Primary Target of Resveratrol-Induced Apoptosis in Human Retinoblastoma Cells

Resveratrol: Challenges in Translation to the Clinic — A Critical Discussion

Resveratrol Inhibits Uveal Melanoma Tumor Growth via Early Mitochondrial Dysfunction

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