First-in-class ruthenium anticancer drug (KP1339/IT-139) induces an immunogenic cell death signature in colorectal spheroids <i>in vitro</i>

Wernitznig, Debora; Kiakos, Konstantinos; Favero, Giorgia Del; Harrer, Nathalie; Machat, Herwig; Oßwald, Annika; Jakupec, Michael A.; Wernitznig, Andreas; Sommergruber, Wolfgang; Keppler, Bernhard K.

doi:10.1039/c9mt00051h

Cited by 107 publications

(102 citation statements)

References 42 publications

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“…In this work, we could individuate the impact on biochemical pathways related to redox stress: glutathione metabolism (glutathione, oxidized glutathione and NADP+ are up-, glutamate down-regulated), purine metabolism, pentose phosphate pathway (ribulose 5-phosphate/ribose 5-phosphate down-regulated), which could be explained by the hypothesized reduction of the drug. Redox stress and elevation of ROS protective proteins [42,50] were confirmed by previous proteomics studies. Finally, pathways such as glycerophospholipid metabolism (strong choline down-regulation) and various amino acid metabolism-related pathways were pinpointed (glutamine and glutamate metabolism, alanine, aspartate and glutamate metabolism, arginine biosynthesis).…”

Section: Discussionsupporting

confidence: 71%

“…There are indications that this drug is a GRP78 inhibitor, an ER stress sensing chaperone [39,49]. It not only induces ER stress and unfolded protein response, but it has also been shown that it exhibits the hallmarks of immunogenic cell death, calreticulin exposure, and ATP secretion among others [42]. Less is known about the metabolic effects of this compound.…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, KP1339 shows a prodrug nature, as it is thought to be preferentially reduced in the more reductive milieu of solid tumors to the active Ru(II) form. Finally, while oxaliplatin is considered a bona fide immunogenic cell death inducer [40], KP1339 also exhibits the hallmarks of immunogenic cell death [41,42].…”

Section: Assessing Metabolic Shifts In Single Mts Exposed To Metal-bamentioning

confidence: 99%

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Single Spheroid Metabolomics: Optimizing Sample Preparation of Three-Dimensional Multicellular Tumor Spheroids

et al. 2019

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Tumor spheroids are important model systems due to the capability of capturing in vivo tumor complexity. In this work, the experimental design of metabolomics workflows using three-dimensional multicellular tumor spheroid (3D MTS) models is addressed. Non-scaffold based cultures of the HCT116 colon carcinoma cell line delivered highly reproducible MTSs with regard to size and other key parameters (such as protein content and fraction of viable cells) as a prerequisite. Carefully optimizing the multiple steps of sample preparation, the developed procedure enabled us to probe the metabolome of single MTSs (diameter range 790 ± 22 µm) in a highly repeatable manner at a considerable throughput. The final protocol consisted of rapid washing of the spheroids on the cultivation plate, followed by cold methanol extraction. 13C enriched internal standards, added upon extraction, were key to obtaining the excellent analytical figures of merit. Targeted metabolomics provided absolute concentrations with average biological repeatabilities of <20% probing MTSs individually. In a proof of principle study, MTSs were exposed to two metal-based anticancer drugs, oxaliplatin and the investigational anticancer drug KP1339 (sodium trans-[tetrachloridobis(1H-indazole)ruthenate(III)]), which exhibit distinctly different modes of action. This difference could be recapitulated in individual metabolic shifts observed from replicate single MTSs. Therefore, biological variation among single spheroids can be assessed using the presented analytical strategy, applicable for in-depth anticancer drug metabolite profiling.

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Section: Discussionsupporting

confidence: 71%

Section: Discussionmentioning

confidence: 99%

Section: Assessing Metabolic Shifts In Single Mts Exposed To Metal-bamentioning

confidence: 99%

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Single Spheroid Metabolomics: Optimizing Sample Preparation of Three-Dimensional Multicellular Tumor Spheroids

et al. 2019

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“…BOLD-100 is a novel small molecule that showed modest anti-tumor activity in a Phase I clinical trial [12]. Mechanistically, BOLD-100 has been shown to down-regulate GRP78 in thapsigargin-mediated stressed cancer cells [15] and trigger immunogenic cell death through the PERK/EIF2a branch of the UPR accompanied by ROS production, release of high mobility group box 1 (HMGB1) and ATP secretion via autophagy [31]. Sensitivity toBOLD-100 can vary in different cells and cellular responses including cell cycle (via G2 cell cycle arrest), DNA repair pathway, and cellular metabolism are known to be affected [17].…”

Section: Discussionmentioning

confidence: 99%

Inhibition of DNA Repair Pathways and Induction of ROS Are Potential Mechanisms of Action of the Small Molecule Inhibitor BOLD-100 in Breast Cancer

Bakewell

Conde

Fallah

et al. 2020

Cancers

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BOLD-100, a ruthenium-based complex, sodium trans-[tetrachloridobis (1H-indazole) ruthenate (III)] (also known as IT-139, NKP1339 or KP1339), is a novel small molecule drug that demonstrated a manageable safety profile at the maximum tolerated dose and modest antitumor activity in a phase I clinical trial. BOLD-100 has been reported to inhibit the upregulation of the endoplasmic reticulum stress sensing protein GRP78. However, response to BOLD-100 varies in different cancer models and the precise mechanism of action in high-response versus low-response cancer cells remains unclear. In vitro studies have indicated that BOLD-100 induces cytostatic rather than cytotoxic effects as a monotherapy. To understand BOLD-100-mediated signaling mechanism in breast cancer cells, we used estrogen receptor positive (ER+) MCF7 breast cancer cells to obtain gene-metabolite integrated models. At 100 μM, BOLD-100 significantly reduced cell proliferation and expression of genes involved in the DNA repair pathway. BOLD-100 also induced reactive oxygen species (ROS) and phosphorylation of histone H2AX, gamma-H2AX (Ser139), suggesting disruption of proper DNA surveillance. In estrogen receptor negative (ER−) breast cancer cells, combination of BOLD-100 with a PARP inhibitor, olaparib, induced significant inhibition of cell growth and xenografts and increased gamma-H2AX. Thus, BOLD-100 is a novel DNA repair pathway targeting agent and can be used with other chemotherapies in ER− breast cancer.

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“…Bortezomib is a specific inhibitor of the 26S proteasome subunit and induces apoptosis of various cancer cells, associated with enhanced phagocytosis and DC cross‐presentation of tumor antigens to T cells 116 . In preclinical CRC models, bortezomib, HSP inhibitors, mTOR/PI3K inhibitors, BET inhibitors or a GRP78 inhibitor induced ER stress‐associated cell death 85‐90 . Interestingly, several drug combinations were particularly effective in killing CRCs harboring mutant KRAS/BRAF or SPOP through elevated ER stress and DR5 expression 91,92 .…”

Section: Icd‐inducing Agents In Crc Prevention and Therapymentioning

confidence: 99%

Immunogenic cell death in colon cancer prevention and therapy

Ruan

Leibowitz

Zhang

et al. 2020

Molecular Carcinogenesis

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Colorectal cancer (CRC) is a leading cause of cancer-related death worldwide. The colonic mucosa constitutes a critical barrier and a major site of immune regulation. The immune system plays important roles in cancer development and treatment, and immune activation caused by chronic infection or inflammation is well-known to increase cancer risk.During tumor development, neoplastic cells continuously interact with and shape the tumor microenvironment (TME), which becomes progressively immunosuppressive. The clinical success of immune checkpoint blockade therapies is limited to a small set of CRCs with high tumor mutational load and tumor-infiltrating T cells. Induction of immunogenic cell death (ICD), a type of cell death eliciting an immune response, can therefore help break the immunosuppressive TME, engage the innate components, and prime T cellmediated adaptive immunity for long-term tumor control. In this review, we discuss the current understanding of ICD induced by antineoplastic agents, the influence of driver mutations, and recent developments to harness ICD in colon cancer. Mechanism-guided combinations of ICD-inducing agents with immunotherapy and actionable biomarkers will likely offer more tailored and durable benefits to patients with colon cancer. K E Y W O R D S cancer prevention, cancer therapy, colon cancer, immunogenic cell death 1 | INTRODUCTION Colorectal cancer (CRC) is a major cancer-related killer worldwide, with an increased incidence projected in many developing countries. The survival rate of metastatic CRC remains low at around 11%. 1 Most sporadic CRCs develop from benign preneoplastic polyp-like lesions following somatic inactivation of the APC tumor suppressor and progress with a series of genetic and epigenetic alterations accumulated over years or decades in KRAS/BRAF, SMAD/TGFBR2, p53, and PIKCA3 among others. 2 Existing research has highlighted critical interactions between the immune system and emerging tumor cells, and the complex changes in the tumor microenvironment (TME) during cancer progression toward immunosuppression and loss of immunosurveillance. 3 Cancer cell-intrinsic mechanisms are believed to play a key role in shaping local immune landscapes and therapeutic responses. 4 The breakthrough in immune checkpoint blockade (ICB), such as antibodies against programmed cell death-1 (PD-1), programmed death ligand 1 (PD-L1), and cytotoxic T lymphocyte associated antigen 4 (CTLA-4), 5,6 supports immune normalization or restoration in tumor control. 7 However, T-cell activating therapies have limited success in solid tumors. Induction of immunogenic cell death (ICD), a type of cell death eliciting an immune response, is,therefore, an attractive approach to break the immunosuppressive TME and re-establish immune surveillance by engaging both the innate and adaptive components. 8,9 ICD can be induced by a variety of chemopreventive agents, radiation, chemotherapeutics, and targeted therapies, and is shown to be critical for the antitumor effects in preclinical models through a...

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First-in-class ruthenium anticancer drug (KP1339/IT-139) induces an immunogenic cell death signature in colorectal spheroids in vitro

Cited by 107 publications

References 42 publications

Single Spheroid Metabolomics: Optimizing Sample Preparation of Three-Dimensional Multicellular Tumor Spheroids

Single Spheroid Metabolomics: Optimizing Sample Preparation of Three-Dimensional Multicellular Tumor Spheroids

Inhibition of DNA Repair Pathways and Induction of ROS Are Potential Mechanisms of Action of the Small Molecule Inhibitor BOLD-100 in Breast Cancer

Immunogenic cell death in colon cancer prevention and therapy

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