Protein synthesis inhibitor omacetaxine is effective against hepatocellular carcinoma
Ling Li, Gilad Halpert, Michael G. Lerner, Haijie Hu, Peter Dimitrion, Matthew J. Weiss, Jin He, Benjamin Philosophe, Richard Burkhart, William R. Burns, Russell N. Wesson, Andrew MacGregor Cameron, Christopher L. Wolfgang, Christos Georgiades, Satomi Kawamoto, Nilofer S. Azad, Mark Yarchoan, Stephen J. Meltzer, Kiyoko Oshima, Laura M. Ensign, Joel S. Bader, Florin M. Selaru
Ling Li, Gilad Halpert, Michael G. Lerner, Haijie Hu, Peter Dimitrion, Matthew J. Weiss, Jin He, Benjamin Philosophe, Richard Burkhart, William R. Burns, Russell N. Wesson, Andrew MacGregor Cameron, Christopher L. Wolfgang, Christos Georgiades, Satomi Kawamoto, Nilofer S. Azad, Mark Yarchoan, Stephen J. Meltzer, Kiyoko Oshima, Laura M. Ensign, Joel S. Bader, Florin M. Selaru
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Research Article Hepatology Oncology

Protein synthesis inhibitor omacetaxine is effective against hepatocellular carcinoma

Abstract

Hepatocellular carcinoma (HCC) is the sixth most common and the fourth most deadly cancer worldwide. The development cost of new therapeutics is a major limitation in patient outcomes. Importantly, there is a paucity of preclinical HCC models in which to test new small molecules. Herein, we implemented potentially novel patient-derived organoid (PDO) and patient-derived xenografts (PDX) strategies for high-throughput drug screening. Omacetaxine, an FDA-approved drug for chronic myelogenous leukemia (CML), was found to be a top effective small molecule in HCC PDOs. Next, omacetaxine was tested against a larger cohort of 40 human HCC PDOs. Serial dilution experiments demonstrated that omacetaxine is effective at low (nanomolar) concentrations. Mechanistic studies established that omacetaxine inhibits global protein synthesis, with a disproportionate effect on short–half-life proteins. High-throughput expression screening identified molecular targets for omacetaxine, including key oncogenes, such as PLK1. In conclusion, by using an innovative strategy, we report — for the first time to our knowledge — the effectiveness of omacetaxine in HCC. In addition, we elucidate key mechanisms of omacetaxine action. Finally, we provide a proof-of-principle basis for future studies applying drug screening PDOs sequenced with candidate validation in PDX models. Clinical trials could be considered to evaluate omacetaxine in patients with HCC.

Authors

Ling Li, Gilad Halpert, Michael G. Lerner, Haijie Hu, Peter Dimitrion, Matthew J. Weiss, Jin He, Benjamin Philosophe, Richard Burkhart, William R. Burns, Russell N. Wesson, Andrew MacGregor Cameron, Christopher L. Wolfgang, Christos Georgiades, Satomi Kawamoto, Nilofer S. Azad, Mark Yarchoan, Stephen J. Meltzer, Kiyoko Oshima, Laura M. Ensign, Joel S. Bader, Florin M. Selaru

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Figure 6

Omacetaxine inhibits HCC growth and metastasis in vivo.

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Omacetaxine inhibits HCC growth and metastasis in vivo. (A–D) The effect...
(AD) The effects of omacetaxine in the 26-3 HCC PDX. (A) Omacetaxine dramatically inhibits the volumes of the tumors as recorded at the end of the experiment. (B) The difference in tumor weight between the 2 groups was significant. (C) There was a significant reduction in the size of the tumors treated with omacetaxine when compared with negative control–treated tumors. (D) Survival of mice bearing 26-3 PDX after treatment. Significance was determined with log-rank test. *P < 0.01. (E) H&E staining of 26-3 HCC PDX treated with omacetaxine and negative control. The untreated tumor demonstrated viable cells, while the treated tumor appears necrotic with no viable tumor cells. (F and G) Gross pictures and H&E staining of lung and intraliver metastases of 26-3 HCC PDX control group sacrificed at day 30. (F) Lung metastases. Gross picture shows 2 firm, white metastatic nodules (red arrows). Histology showed malignant tumor cells in the alveoli of the lung (right), similar to the primary liver tumor in 26-3 HCC PDX. (G) Liver metastasis. The gross picture shows a white nodule in the liver parenchyma (red arrow). The H&E image shows infiltrative neoplastic cells present in normal hepatic parenchyma. (HJ) Omacetaxine exhibits similar growth inhibition effects in the second PDX model (50 HCC PDX). (K) H&E staining of the original 50 HCC tissue and 50 HCC PDX treated with omacetaxine and negative control. Data were mean ± SEM from each group. Two-tailed Student’s t test was applied for the statistical analysis. *P < 0.001.