Literature DB >> 28584133

Mitochondrial dysfunction induced by a SH2 domain-targeting STAT3 inhibitor leads to metabolic synthetic lethality in cancer cells.

Davide Genini1, Lara Brambilla1,2, Erik Laurini3, Jessica Merulla1, Gianluca Civenni1, Shusil Pandit1, Rocco D'Antuono4, Laurent Perez4, David E Levy2, Sabrina Pricl3, Giuseppina M Carbone1, Carlo V Catapano5,6.   

Abstract

In addition to its canonical role in nuclear transcription, signal transducer and activator of transcription 3 (STAT3) is emerging as an important regulator of mitochondrial function. Here, we demonstrate that a novel inhibitor that binds with high affinity to the STAT3 SH2 domain triggers a complex cascade of events initiated by interference with mitochondrial STAT3 (mSTAT3). The mSTAT3-drug interaction leads to mitochondrial dysfunction, accumulation of proteotoxic STAT3 aggregates, and cell death. The cytotoxic effects depend directly on the drug's ability to interfere with mSTAT3 and mitochondrial function, as demonstrated by site-directed mutagenesis and use of STAT3 knockout and mitochondria-depleted cells. Importantly, the lethal consequences of mSTAT3 inhibition are enhanced by glucose starvation and by increased reliance of cancer cells and tumor-initiating cells on mitochondria, resulting in potent activity in cell cultures and tumor xenografts in mice. These findings can be exploited for eliciting synthetic lethality in metabolically stressed cancer cells using high-affinity STAT3 inhibitors. Thus, this study provides insights on the role of mSTAT3 in cancer cells and a conceptual framework for developing more effective cancer therapies.

Entities:  

Keywords:  OPB-51602; STAT3; mitochondria; small-molecule inhibitor; synthetic lethality

Mesh:

Substances:

Year:  2017        PMID: 28584133      PMCID: PMC5488915          DOI: 10.1073/pnas.1615730114

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  63 in total

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Review 8.  Structural Biology of STAT3 and Its Implications for Anticancer Therapies Development.

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