1. Knockdown of COPA, Identified by Loss-of-Function Screen, Induces Apoptosis and Suppresses Tumor Growth in Mesothelioma Mouse Model
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Chizuru Sogawa, Tsuneo Saga, Chisato Yoshida, Yoshinobu Harada, Atsushi B. Tsuji, Okio Hino, Masakazu Kohda, Hitomi Sudo, and Aya Sugyo
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Mesothelioma ,Small interfering RNA ,Pleural Neoplasms ,Apoptosis ,Biology ,Coatomer Protein ,Mice ,RNA interference ,Cell Line, Tumor ,Functional screening ,Genetics ,medicine ,Animals ,Humans ,RNA, Small Interfering ,POLR2A ,neoplasms ,Cell proliferation ,Gene knockdown ,Cell growth ,respiratory system ,medicine.disease ,Molecular biology ,respiratory tract diseases ,Cell culture ,Gene Knockdown Techniques ,RNAi - Abstract
Malignant mesothelioma is a highly aggressive tumor arising from serosal surfaces of the pleura and is triggered by past exposure to asbestos. Currently, there is no widely accepted treatment for mesothelioma. Development of effective drug treatments for human cancers requires identification of therapeutic molecular targets. We therefore conducted a large-scale functional screening of mesothelioma cells using a genome-wide small interfering RNA library. We determined that knockdown of 39 genes suppressed mesothelioma cell proliferation. At least seven of the 39 genes— COPA, COPB2, EIF3D, POLR2A, PSMA6, RBM8A , and RPL18A —would be involved in anti-apoptotic function. In particular, the COPA protein was highly expressed in some mesothelioma cell lines but not in a pleural mesothelial cell line. COPA knockdown induced apoptosis and suppressed tumor growth in a mesothelioma mouse model. Therefore, COPA may have the potential of a therapeutic target and a new diagnostic marker of mesothelioma.
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