M. Ricci scite author profile

Learning Objectives After completing this course, the reader will be able to: List the multiple cell death pathways that are activated in response to chemotherapeutic agents. Identify signaling molecules involved and morphological changes that occur in the different types of cell death pathways. Describe mechanisms targeted by novel chemotherapeutic agents. Access and take the CME test online and receive 1 AMA PRA category 1 credit at http://CME.TheOncologist.com For several decades, apoptosis has taken center stage as the principal mechanism of programmed cell death in mammalian tissues. It also has been increasingly noted that conventional chemotherapeutic agents not only elicit apoptosis but other forms of nonapoptotic death such as necrosis, autophagy, mitotic catastrophe, and senescence. This review presents background on the signaling pathways involved in the different cell death outcomes. A re‐examination of what we know about chemotherapy‐induced death is vitally important in light of new understanding of nonapoptotic cell death signaling pathways. If we can precisely activate or inhibit molecules that mediate the diversity of cell death outcomes, perhaps we can succeed in more effective and less toxic chemotherapeutic regimens.

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Reduction of TRAIL-Induced Mcl-1 and cIAP2 by c-Myc or Sorafenib Sensitizes Resistant Human Cancer Cells to TRAIL-Induced Death

Ricci

et al. 2007

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Cells expressing oncogenic c-Myc are sensitized to TNF superfamily proteins. c-Myc also is an important factor in determining whether a cell is sensitive to TRAIL-induced apoptosis, and it is well established that the mitochondrial pathway is essential for apoptosis induced by c-Myc. We investigated whether c-Myc action on the mitochondria is required for TRAIL sensitivity and found that Myc sensitized cells with defective intrinsic signaling to TRAIL. TRAIL induced expression of antiapoptotic Mcl-1 and cIAP2 through activation of NF-kappaB. Both Myc and the multikinase inhibitor sorafenib block NF-kappaB. Combining sorafenib with TRAIL in vivo showed dramatic efficacy in TRAIL-resistant tumor xenografts. We propose the combination of TRAIL with sorafenib holds promise for further development.

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Direct Repression of FLIP Expression by c-myc Is a Major Determinant of TRAIL Sensitivity

Ricci

Jin

Dews

et al. 2004

Molecular and Cellular Biology

231

202

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M. Ricci

Chemotherapeutic Approaches for Targeting Cell Death Pathways

Reduction of TRAIL-Induced Mcl-1 and cIAP2 by c-Myc or Sorafenib Sensitizes Resistant Human Cancer Cells to TRAIL-Induced Death

Direct Repression of FLIP Expression by c-myc Is a Major Determinant of TRAIL Sensitivity

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