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

Genini, Davide; Brambilla, Lara; Laurini, Erik; Merulla, Jessica; Civenni, Gianluca; Pandit, Shusil K.; D’Antuono, Rocco; Perez, Laurent; Levy, David E.; Pricl, Sabrina; Carbone, Giuseppina M.; Catapano, Carlo V.

doi:10.1073/pnas.1615730114

Cited by 81 publications

(97 citation statements)

References 69 publications

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“…LPS can potentially change the SASP by activating STAT3 signaling (Lin et al, ), which can synergize with NF‐κB, thereby changing gene expression patterns and promoting tumorigenesis (Grivennikov & Karin, ). In addition, STAT3 can promote mitochondrial functions required for cancer cell stemness and metabolism (Genini et al, ). IL‐6 activates STAT3 and promotes the development of PDAC from PanIN (Lesina et al, ).…”

Section: Discussionmentioning

confidence: 99%

Circumventing senescence is associated with stem cell properties and metformin sensitivity

et al. 2019

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Most cancers arise in old individuals, which also accumulate senescent cells. Cellular senescence can be experimentally induced by expression of oncogenes or telomere shortening during serial passage in culture. In vivo, precursor lesions of several cancer types accumulate senescent cells, which are thought to represent a barrier to malignant progression and a response to the aberrant activation of growth signaling pathways by oncogenes (oncogene toxicity). Here, we sought to define gene expression changes associated with cells that bypass senescence induced by oncogenic RAS. In the context of pancreatic ductal adenocarcinoma (PDAC), oncogenic KRAS induces benign pancreatic intraepithelial neoplasias (PanINs), which exhibit features of oncogene‐induced senescence. We found that the bypass of senescence in PanINs leads to malignant PDAC cells characterized by gene signatures of epithelial‐mesenchymal transition, stem cells, and mitochondria. Stem cell properties were similarly acquired in PanIN cells treated with LPS, and in primary fibroblasts and mammary epithelial cells that bypassed Ras‐induced senescence after reduction of ERK signaling. Intriguingly, maintenance of cells that circumvented senescence and acquired stem cell properties was blocked by metformin, an inhibitor of complex I of the electron transport chain or depletion of STAT3, a protein required for mitochondrial functions and stemness. Thus, our studies link bypass of senescence in premalignant lesions to loss of differentiation, acquisition of stemness features, and increased reliance on mitochondrial functions.

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Section: Discussionmentioning

confidence: 99%

Circumventing senescence is associated with stem cell properties and metformin sensitivity

et al. 2019

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“…STAT activity can also be suppressed by repurposing drugs that are not necessarily pathway specific, including agents such as pimozide, resveratrol, curcumin, and platinum‐based drugs, although it is unclear whether their inhibitory effects are due to direct interaction with STATs or indirect mechanisms. A number of these strategies have progressed to clinical trials including C188‐9 (NCT03195699), AZD9150 (NCT01563302 NCT01839604), a decoy STAT3 (NCT00696176), OPB‐31121 (NCT00955812), OPB‐ 11107 (NCT03063944), and OPB‐51602 (NCT02058017) . Napabucasin (BBI608) is a STAT inhibitor that progressed to a phase 3 study in gastrointestinal cancer but did not appear to be efficacious for this disorder.…”

Section: What's Aheadmentioning

confidence: 99%

“…A number of these strategies have progressed to clinical trials including C188-9 (NCT03195699), AZD9150 (NCT01563302 NCT01839604), a decoy STAT3 (NCT00696176), OPB-31121 (NCT00955812), OPB-11107 (NCT03063944), and OPB-51602 (NCT02058017). [188][189][190][191][192][193][194] Napabucasin (BBI608) is a STAT inhibitor that progressed to a phase 3 study in gastrointestinal cancer but did not appear to be efficacious for this disorder. Moreover, it is important to bear in mind that there are multiple endogenous inhibitors including the suppressor of cytokine signaling family of proteins (SOCS), which in principle could be capitalized upon therapeutically.…”

Section: What's Aheadmentioning

confidence: 99%

Translational and clinical advances in JAK-STAT biology: The present and future of jakinibs

Gadina

Johnson

Schwartz

et al. 2018

Journal of Leukocyte Biology

123

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In this era, it is axiomatic that cytokines have critical roles in cellular development and differentiation, immune homeostasis, and host defense. Equally, dysregulation of cytokines is known to contribute to diverse inflammatory and immune-mediated disorders. In fact, the past 20 years have witnessed the rapid translation of basic discoveries in cytokine biology to multiple successful biological agents (mAbs and recombinant fusion proteins) that target cytokines. These targeted therapies have not only fundamentally changed the face of multiple immune-mediated diseases but have also unequivocally established the role of specific cytokines in human disease; cytokine biologists have many times over provided remarkable basic advances with direct clinical benefit. Numerous cytokines rely on the JAK-STAT pathway for signaling, and new, safe, and effective small molecule inhibitors have been developed for a range of disorders. In this review, we will briefly summarize basic discoveries in cytokine signaling and briefly comment on some major unresolved issues. We will review clinical data pertaining to the first generation of JAK inhibitors and their clinical indications, discuss additional opportunities for targeting this pathway, and lay out some of the challenges that lie ahead.

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“…Previous studies have shown that STAT3 promotes tumorigenesis by at least two mechanisms: first, by acting as a nuclear transcription factor that alters expression of pro‐tumorigenic gene‐regulatory networks ; and second, by acting as a regulator of oxidative phosphorylation (OXPHOS) via interaction with complexes I and II of the mitochondrial electron transport chain . Given this broad involvement in tumorigenesis, significant effort has been devoted to the discovery of small‐molecule STAT3 inhibitors .…”

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confidence: 99%

“…Research continues to identify drivers of OPB-111077 clinical activity and synergistic combinations. Name NC/NA 1 2 3 4 5 All Grades n Nausea 40 50 32 5 0 0 87 127 Fatigue 51 30 42 4 0 0 76 127 Vomiting 66 44 13 4 0 0 61 127 Constipation 80 27 17 3 0 0 47 127 Dizziness 87 31 8 1 0 0 40 127 Anorexia 97 16 14 0 0 0 30 127 Diarrhea 102 17 7 1 0 0 25 127 Hypothyroidism 103 11 13 0 0 0 24 127 Dehydration 104 4 19 0 0 0 23 Previous studies have shown that STAT3 promotes tumorigenesis by at least two mechanisms: first, by acting as a nuclear transcription factor that alters expression of pro-tumorigenic gene-regulatory networks [1][2][3][4][5][6][7][8]; and second, by acting as a regulator of oxidative phosphorylation (OXPHOS) via interaction with complexes I and II of the mitochondrial electron transport chain [9][10][11][12]…”

mentioning

confidence: 99%

A First-in-Human Phase I Study of OPB-111077, a Small-Molecule STAT3 and Oxidative Phosphorylation Inhibitor, in Patients with Advanced Cancers

et al. 2018

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Lessons Learned. OPB‐111077 is a novel inhibitor of STAT3 and mitochondrial oxidative phosphorylation that exhibited promising anticancer activity in preclinical models.In this first‐in‐human phase I study of OPB‐111077 in unselected advanced cancers, treatment‐emergent adverse events, most frequently nausea, fatigue, and vomiting, were generally mild to moderate in intensity and could be medically managed.Overall, only modest clinical activity was observed after OPB‐111077 given as monotherapy. Notable antitumor activity was seen in a subject with diffuse large B‐cell lymphoma.Background.OPB‐111077 is a novel inhibitor of STAT3 and mitochondrial oxidative phosphorylation with promising anticancer activity in preclinical models.Methods.Open‐label, phase I trial of OPB‐111077 in advanced cancers with no available therapy of documented benefit. Initial dose escalation in unselected subjects was followed by dose expansion. Patients received oral OPB‐111077 daily in 28‐day cycles until loss of clinical benefit.Results.Eighteen subjects enrolled in dose escalation, and 127 in dose expansion. Dose‐limiting toxicities were observed at 300 mg and 400 mg QD; maximum tolerated dose was defined as 250 mg QD. Frequently reported treatment‐emergent adverse events (TEAEs) included nausea, fatigue, and vomiting. TEAEs were generally mild to moderate and could be medically managed. OPB‐111077 reached micromolar drug concentrations, had an elimination half‐life of approximately 1 day, and reached steady‐state by day 8. A durable partial response was observed in one subject with diffuse large B‐cell lymphoma. Seven subjects with diverse tumor types had stable disease or minor responses for at least eight treatment cycles (224 days).Conclusion.OPB‐111077 is generally well tolerated, and its pharmacokinetic profile is sufficient for further clinical development. Notable clinical activity was observed in a subject with diffuse large B‐cell lymphoma. Overall, modest efficacy was observed against unselected tumors.

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

Cited by 81 publications

References 69 publications

Circumventing senescence is associated with stem cell properties and metformin sensitivity

Circumventing senescence is associated with stem cell properties and metformin sensitivity

Translational and clinical advances in JAK-STAT biology: The present and future of jakinibs

A First-in-Human Phase I Study of OPB-111077, a Small-Molecule STAT3 and Oxidative Phosphorylation Inhibitor, in Patients with Advanced Cancers

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