Pro-apoptotic and pro-autophagic effects of the Aurora kinase A inhibitor alisertib (MLN8237) on human osteosarcoma U-2 OS and MG-63 cells through the activation of mitochondria-mediated pathway and inhibition of p38 MAPK/PI3K/Akt/mTOR signaling pathway.

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Pro-apoptotic and pro-autophagic effects of the Aurora kinase A inhibitor alisertib (MLN8237) on human osteosarcoma U-2 OS and MG-63 cells through the activation of mitochondria-mediated pathway and inhibition of p38 MAPK/PI3K/Akt/mTOR signaling pathway.

Author(s): Ning-Kui Niu ¹ , Zi-Li Wang ² , Shu-Ting Pan ³ , Hui-Qiang Ding ² , Giang H T Au ⁴ , Zhi-Xu He ⁵ , Zhi-Wei Zhou ⁶ , Guozhi Xiao ⁷ , Yin-Xue Yang ⁸ , Xueji Zhang ⁹ , Tianxin Yang ¹⁰ , Xiao-Wu Chen ¹¹ , Jia-Xuan Qiu ¹² , Shu-Feng Zhou ⁴

Publication date (Electronic): 2015

Journal: Drug design, development and therapy

Publisher: Informa UK Limited

Keywords: ALS, EMT, PI3K/Akt/mTOR pathway, apoptosis, autophagy, osteosarcoma

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Abstract

Osteosarcoma (OS) is the most common malignant bone tumor occurring mostly in children and adolescents between 10 and 20 years of age with poor response to current therapeutics. Alisertib (ALS, MLN8237) is a selective Aurora kinase A inhibitor that displays anticancer effects on several types of cancer. However, the role of ALS in the treatment of OS remains unknown. This study aimed to investigate the effects of ALS on the cell growth, apoptosis, autophagy, and epithelial to mesenchymal transition (EMT) and the underlying mechanisms in two human OS cell lines U-2 OS and MG-63. The results showed that ALS had potent growth inhibitory, pro-apoptotic, pro-autophagic, and EMT inhibitory effects on U-2 OS and MG-63 cells. ALS remarkably induced G2/M arrest and down-regulated the expression levels of cyclin-dependent kinases 1 and 2 and cyclin B1 in both U-2 OS and MG-63 cells. ALS markedly induced mitochondria-mediated apoptosis with a significant increase in the expression of key pro-apoptotic proteins and a decrease in main anti-apoptotic proteins. Furthermore, ALS promoted autophagic cell death via the inhibition of phosphatidylinositol 3-kinase (PI3K)/protein kinase B (Akt)/mammalian target of rapamycin (mTOR) and p38 mitogen-activated protein kinase (p38 MAPK) signaling pathways, and activation of 5'-AMP-dependent kinase (AMPK) signaling pathway. Inducers or inhibitors of apoptosis or autophagy simultaneously altered ALS-induced apoptotic and autophagic death in both U-2 OS and MG-63 cells, suggesting a crosstalk between these two primary modes of programmed cell death. Moreover, ALS suppressed EMT-like phenotypes with a marked increase in the expression of E-cadherin but a decrease in N-cadherin in U-2 OS and MG-63 cells. ALS treatment also induced reactive oxygen species (ROS) generation but inhibited the expression levels of sirtuin 1 and nuclear factor-erythroid-2-related factor 2 (Nrf2) in both cell lines. Taken together, these findings show that ALS promotes apoptosis and autophagy but inhibits EMT via PI3K/Akt/mTOR, p38 MAPK, and AMPK signaling pathways with involvement of ROS- and sirtuin 1-associated pathways in U-2 OS and MG-63 cells. ALS is a promising anticancer agent in OS treatment and further studies are needed to confirm its efficacy and safety in OS chemotherapy.

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Following pathogen infection or tissue damage, the stimulation of pattern recognition receptors on the cell surface and in the cytoplasm of innate immune cells activates members of each of the major mitogen-activated protein kinase (MAPK) subfamilies--the extracellular signal-regulated kinase (ERK), p38 and Jun N-terminal kinase (JNK) subfamilies. In conjunction with the activation of nuclear factor-κB and interferon-regulatory factor transcription factors, MAPK activation induces the expression of multiple genes that together regulate the inflammatory response. In this Review, we discuss our current knowledge about the regulation and the function of MAPKs in innate immunity, as well as the importance of negative feedback loops in limiting MAPK activity to prevent host tissue damage. We also examine how pathogens have evolved complex mechanisms to manipulate MAPK activation to increase their virulence. Finally, we consider the potential of the pharmacological targeting of MAPK pathways to treat autoimmune and inflammatory diseases.

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The successful treatment of patients with osteosarcoma requires close cooperation within an experienced multidisciplinary team including pediatric or medical oncologists, surgeons, pathologists and radiologists. Therefore, therapy should be performed in specialized centers able to provide access to the full spectrum of care. As in other rare malignancies, treatment should be administered within prospective multicenter trials. Therapy must include complete surgical removal of all detectable tumor sites as well as multiagent chemotherapy. The chemotherapy regimen should include several or all of the following four drugs: doxorubicin, high-dose methotrexate with leukovorin-rescue, cisplatin and ifosfamide. Preoperative (neoadjuvant) plus postoperative (adjuvant) polychemotherapy should be preferred, because it allows preparation for safe surgery and preparation of the appropriate prosthesis for the individual patient. The choice of the postponed definitive surgical procedure should be influenced by the anatomical site of the primary tumor, its relationship to neighboring structures, such as vessels and nerves, age and growth potential of the patient, and probably also by the response of the tumor to preoperative chemotherapy. A major, as yet unsolved, problem is the dismal prognosis for patients with unresectable or relapsed osteosarcomas. Novel approaches are needed in order to improve their prognosis.

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Author and article information

Journal

Journal ID (iso-abbrev): Drug Des Devel Ther

Title: Drug design, development and therapy

Publisher: Informa UK Limited

ISSN (Electronic): 1177-8881

ISSN (Print): 1177-8881

Publication date (Electronic): 2015

Volume: 9

Affiliations

[1 ] Department of Spinal Surgery, General Hospital of Ningxia Medical University, Yinchuan, People's Republic of China ; Department of Pharmaceutical Sciences, College of Pharmacy, University of South Florida, Tampa, FL, USA ; Department of Orthopedics, General Hospital of Tianjin Medical University, Tianjin, People's Republic of China.

[2 ] Department of Spinal Surgery, General Hospital of Ningxia Medical University, Yinchuan, People's Republic of China.

[3 ] Department of Pharmaceutical Sciences, College of Pharmacy, University of South Florida, Tampa, FL, USA ; Department of Oral and Maxillofacial Surgery, The First Affiliated Hospital of Nanchang University, Nanchang, Jiangxi, People's Republic of China.

[4 ] Department of Pharmaceutical Sciences, College of Pharmacy, University of South Florida, Tampa, FL, USA.

[5 ] Guizhou Provincial Key Laboratory for Regenerative Medicine, Stem Cell and Tissue Engineering Research Center and Sino-US Joint Laboratory for Medical Sciences, Guizhou Medical University, Guiyang, Guizhou, People's Republic of China.

[6 ] Department of Pharmaceutical Sciences, College of Pharmacy, University of South Florida, Tampa, FL, USA ; Guizhou Provincial Key Laboratory for Regenerative Medicine, Stem Cell and Tissue Engineering Research Center and Sino-US Joint Laboratory for Medical Sciences, Guizhou Medical University, Guiyang, Guizhou, People's Republic of China.

[7 ] Department of Biochemistry, Medical Center, Rush University, Chicago, IL, USA.

[8 ] Department of Colorectal Surgery, General Hospital of Ningxia Medical University, Yinchuan, People's Republic of China.

[9 ] Research Center for Bioengineering and Sensing Technology, University of Science and Technology Beijing, Beijing, People's Republic of China.

[10 ] Department of Internal Medicine, University of Utah and Salt Lake Veterans Affairs Medical Center, Salt Lake City, UT, USA.

[11 ] Department of General Surgery, The First People's Hospital of Shunde affiliated to Southern Medical University, Foshan, Guangdong, People's Republic of China.

[12 ] Department of Oral and Maxillofacial Surgery, The First Affiliated Hospital of Nanchang University, Nanchang, Jiangxi, People's Republic of China.