Yasuko Satoh scite author profile

Alectinib/CH5424802 is a known inhibitor of anaplastic lymphoma kinase (ALK) and is being evaluated in clinical trials for the treatment of ALK fusion-positive non-small cell lung cancer (NSCLC). Recently, some RET and ROS1 fusion genes have been implicated as driver oncogenes in NSCLC and have become molecular targets for antitumor agents. This study aims to explore additional target indications of alectinib by testing its ability to inhibit the activity of kinases other than ALK. We newly verified that alectinib inhibited RET kinase activity and the growth of RET fusion-positive cells by suppressing RET phosphorylation. In contrast, alectinib hardly inhibited ROS1 kinase activity unlike other ALK/ROS1 inhibitors such as crizotinib and LDK378. It also showed antitumor activity in mouse models of tumors driven by the RET fusion. In addition, alectinib showed kinase inhibitory activity against RET gatekeeper mutations (RET V804L and V804M) and blocked cell growth driven by the KIF5B-RET V804L and V804M. Our results suggest that alectinib is effective against RET fusionpositive tumors. Thus, alectinib might be a therapeutic option for patients with RET fusion-positive NSCLC.

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Antibody to CD137 Activated by Extracellular Adenosine Triphosphate Is Tumor Selective and Broadly EffectiveIn Vivowithout Systemic Immune Activation

Kamata-Sakurai¹,

Narita²,

Hori³

et al. 2021

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Agonistic antibodies targeting CD137 have been clinically unsuccessful due to systemic toxicity. Since conferring tumor selectivity through tumor-associated antigen limits its clinical use to cancers that highly express such antigen, we exploited extracellular adenosine triphosphate (exATP), which is a hallmark of the tumor microenvironment and highly elevated in solid tumors, as a broadly tumor selective switch. We generated a novel anti-CD137 switch antibody, STA551, which exerts agonistic activity only in the presence of exATP. STA551 demonstrated potent and broad anti-tumor efficacy against all mouse and human tumors tested and a wide therapeutic window without systemic immune activation in mice. STA551 was well tolerated even at 150 mg/kg/week in cynomolgus monkeys. These results provide a strong rationale for the clinical testing of STA551 against a broad variety of cancers regardless of antigen expression, and for the further application of this novel platform to other targets in cancer therapy.

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Mechanism of Oncogenic Signal Activation by the Novel Fusion Kinase FGFR3–BAIAP2L1

Nakanishi¹,

Akiyama²,

Tsukaguchi³

et al. 2015

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Recent cancer genome profiling studies have identified many novel genetic alterations, including rearrangements of genes encoding FGFR family members. However, most fusion genes are not functionally characterized, and their potentials in targeted therapy are unclear. We investigated a recently discovered gene fusion between FGFR3 and BAI1-associated protein 2-like 1 (BAIAP2L1). We identified 4 patients with bladder cancer and 2 patients with lung cancer harboring the FGFR3-BAIAP2L1 fusion through PCR and FISH assay screens. To investigate the oncogenic potential of the fusion gene, we established an FGFR3-BAIAP2L1 transfectant with Rat-2 fibroblast cells (Rat-2_F3-B). The FGFR3-BAIAP2L1 fusion had transforming activity in Rat2 cells, and Rat-2_F3-B cells were highly tumorigenic in mice. Rat-2_F3-B cells showed in vitro and in vivo sensitivity in the selective FGFR inhibitor CH5183284/Debio 1347, indicating that FGFR3 kinase activity is critical for tumorigenesis. Gene signature analysis revealed that FGFR3-BAIAP2L1 activates growth signals, such as the MAPK pathway, and inhibits tumor-suppressive signals, such as the p53, RB1, and CDKN2A pathways. We also established Rat-2_F3-B-DBAR cells expressing an FGFR3-BAIAP2L1 variant lacking the Bin-Amphiphysin-Rvs (BAR) dimerization domain of BAIAP2L1, which exhibited decreased tumorigenic activity, FGFR3 phosphorylation, and F3-B-DBAR dimerization, compared with Rat-2_F3-B cells. Collectively, these data suggest that constitutive dimerization through the BAR domain promotes constitutive FGFR3 kinase activation and is essential for its potent oncogenic activity.

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YES1 Is a Targetable Oncogene in Cancers Harboring YES1 Gene Amplification

Hamanaka¹,

Nakanishi²,

Mizuno³

et al. 2019

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Targeting genetic alterations of oncogenes by moleculartargeted agents (MTA) is an effective approach for treating cancer. However, there are still no clinical MTA options for many cancers, including esophageal cancer. We used a short hairpin RNA library to screen for a new oncogene in the esophageal cancer cell line KYSE70 and identified YES proto-oncogene 1 (YES1) as having a significant impact on tumor growth. An analysis of clinical samples showed that YES1 gene amplification existed not only in esophageal cancer but also in lung, head and neck, bladder, and other cancers, indicating that YES1 would be an attractive target for a cancer drug. Because there is no effective YES1 inhibitor so far, we generated a YES1 kinase inhibitor, CH6953755. YES1 kinase inhibition by CH6953755 led to antitumor activity against YES1-amplified cancers in vitro and in vivo. Yes-associated protein 1 (YAP1) played a role downstream of YES1 and contributed to the growth of YES1amplified cancers. YES1 regulated YAP1 transcription activity by controlling its nuclear translocation and serine phosphorylation. These findings indicate that the regulation of YAP1 by YES1 plays an important role in YES1-amplified cancers and that CH6953755 has therapeutic potential in such cancers. Significance: These findings identify the SRC family kinase YES1 as a targetable oncogene in esophageal cancer and describe a new inhibitor for YES1 that has potential for clinical utility. See related commentary by Rai, p. 5702

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A Novel Mechanism of EML4-ALK Rearrangement Mediated by Chromothripsis in a Patient-Derived Cell Line

Kodama¹,

Motoi

Ninomiya

et al. 2014

Journal of Thoracic Oncology

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Yasuko Satoh

Alectinib Shows Potent Antitumor Activity againstRET-Rearranged Non–Small Cell Lung Cancer

Antibody to CD137 Activated by Extracellular Adenosine Triphosphate Is Tumor Selective and Broadly EffectiveIn Vivowithout Systemic Immune Activation

Mechanism of Oncogenic Signal Activation by the Novel Fusion Kinase FGFR3–BAIAP2L1

YES1 Is a Targetable Oncogene in Cancers Harboring YES1 Gene Amplification

A Novel Mechanism of EML4-ALK Rearrangement Mediated by Chromothripsis in a Patient-Derived Cell Line

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