Secretory Transactivating Transcription-apoptin fusion protein induces apoptosis in hepatocellular carcinoma HepG2 cells

Han, Suxia; Ma, Jinlu; Lee, Yi; Huang, Chen; Liang, Haihua; Duan, Kangmin

doi:10.3748/wjg.14.3642

Cited by 10 publications

(18 citation statements)

References 26 publications

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“…This is consistent with the results of our previous study ( Fig. 1a) (9), indicating that a lentivirus-apoptin expression system is capable of dramatically up-regulating apoptin expression in HepG2 cells. Apoptin expression in HepG2 cells was further confirmed by Western blot analysis (Fig.…”

Section: Lentivirus-mediated Apoptin Expression In Hepg2 Cells Thesupporting

confidence: 82%

“…in our previous study, we demonstrated that apoptin promoted HepG2 cell apoptosis by a secretory transactivating transcription-apoptin fusion protein system (9). in the present study, concurrent treatment of HepG2 radio-resistant cells with radiation and apoptin lentivirus was shown to further increase apoptotic cell death compared to either treatment alone, suggesting that apoptin sensitizes radio-resistant HepG2 cells to radiation.…”

Section: Discussionmentioning

confidence: 89%

“…HepG2 cells prepared as above were collected at the desired time periods and stained with annexin V and Pi (Molecular Probes) following the manufacturer's protocol. Early apoptotic cells were analyzed immediately by flow cytometry as described previously (9).…”

Section: Cells and Reagentsmentioning

confidence: 99%

“…our previous study showed that secretory transactivating transcription apoptin fusion protein induces cell apoptosis in hepatocellular carcinoma HepG2 cells (9,10). in the present study, we sought to explore the anti-tumor effect of a combination of rT and apoptin gene therapy in radio-resistant hepatocellular carcinoma HepG2 cells, and to further investigate the mechanisms of apoptosis.…”

Section: Introductionmentioning

confidence: 99%

“…This protein was first isolated from the chicken anemia virus, and its potential anti-cancer effects appear to be tumor specific; transformed cells are specifically targeted, while primary and non-transformed cells are spared (6). The apoptotic activity of apoptin is suggested to occur via a p53-independent, Bcl-2-enhanced mechanism (7,8).our previous study showed that secretory transactivating transcription apoptin fusion protein induces cell apoptosis in hepatocellular carcinoma HepG2 cells (9,10). in the present study, we sought to explore the anti-tumor effect of a combination of rT and apoptin gene therapy in radio-resistant hepatocellular carcinoma HepG2 cells, and to further investigate the mechanisms of apoptosis.…”

mentioning

confidence: 99%

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Apoptin sensitizes radiation-induced cell death via classic mitochondrial, caspase and p53-dependent signaling in HepG2 cells

Han¹

2010

Mol Med Rep

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Abstract. resistance or insensitivity to radiation therapy is one of the hallmarks of hepatocellular carcinoma. Sensitizing radioresistant cancer by combining radiation with other therapeutics to induce apoptosis has been widely investigated. our previous study showed that chicken anaemia virus-derived apoptin protein induced the apoptosis of hepatic carcinoma HepG2 cells. in the present study, we demonstrated that apoptin sensitizes cells to radiation-induced apoptosis using a lentivirus-apoptin expression system in hepatic carcinoma HepG2 cells. combination therapy with radiation and apoptin dramatically induced mitochondrial cytochrome c release and the cleavage of caspases -9, -3 and -7. Our findings are also the first to show that the combination of radiation and apoptin up-regulates p53 expression. Thus, apoptin treatment represents a potential method for enhancing the effectiveness of radiotherapy in poorly responding hepatocellular carcinoma. IntroductionHepatocellular carcinoma is the sixth most common cancer worldwide and the third most common cause of cancer-related death, particularly in developing countries. Hepatocellular carcinoma patients have fairly poor outcomes, with only a 3-5% survival rate at the 5-year benchmark (1). Major treatment options for patients include liver resection and subsequent liver transplantation; however, these are not possible in many patients (2). reasons include poor liver function, macrovascular tumor invasion and extended wait times for donor organs (3). radiation therapy (rT) has historically played a minor role in the management of unresectable tumors, since these cancer cells are not sensitive to radiation. They also present a clinical challenge, since rT dose-escalation is not well-tolerated by the liver (4). researchers are therefore examining combination treatments using novel strategies that may allow for a decreased dosage and enhanced sensitivity to radiation. apoptin has increasingly been shown to be of value in specifically targeting and eliminating cancer cells (5). This protein was first isolated from the chicken anemia virus, and its potential anti-cancer effects appear to be tumor specific; transformed cells are specifically targeted, while primary and non-transformed cells are spared (6). The apoptotic activity of apoptin is suggested to occur via a p53-independent, Bcl-2-enhanced mechanism (7,8).our previous study showed that secretory transactivating transcription apoptin fusion protein induces cell apoptosis in hepatocellular carcinoma HepG2 cells (9,10). in the present study, we sought to explore the anti-tumor effect of a combination of rT and apoptin gene therapy in radio-resistant hepatocellular carcinoma HepG2 cells, and to further investigate the mechanisms of apoptosis. The results indicated that combination treatment with RT and apoptin has a beneficial effect on the apoptosis of radio-resistant hepatocellular carcinoma HepG2 cells through mitochondrial proteins, caspase activation and p53-dependent signaling. Materials and methods Cells an...

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Section: Lentivirus-mediated Apoptin Expression In Hepg2 Cells Thesupporting

confidence: 82%

Section: Discussionmentioning

confidence: 89%

Section: Cells and Reagentsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Apoptin sensitizes radiation-induced cell death via classic mitochondrial, caspase and p53-dependent signaling in HepG2 cells

Han¹

2010

Mol Med Rep

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PTD4‐apoptin protein therapy inhibits tumor growth in vivo

Sun

Yan

Wang

et al. 2009

Intl Journal of Cancer

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Apoptin protein harbors tumor-selective cell death activity, which makes it a potential anticancer therapy candidate. This study reports an apoptin therapy approach based on protein transduction domain 4 (PTD4)-mediated transduction of recombinant apoptin protein. In vitro, the PTD4-apoptin fusion protein is located in the nucleus and induces cell death in, e.g., human hepatocarcinoma HepG2 cells. In normal human L-02 hepatocytes, PTD4-apoptin protein retained mainly cytoplasmic and did not induce detectable levels of cell death, illustrating that the PTD4 domain does not affect apoptin's tumor-selective characteristics. In vivo, liver, cervix and gastric carcinoma xenografts treated with PTD4-apoptin protein for 6 days via the tumor epidermis exhibited a significant tumor growth inhibition because of apoptin-mediated cell death. In addition, treatment of human hepatocarcinoma xenografts during 3 weeks showed that PTD4-apoptin protein has significant anticancer activity, whereas control treatment with PTD4-enhanced green fluorescence protein or saline did not. Cell death and disruption of the tumor integrity were apparent in the PTD4-apoptin transduced xenografted tumors. As important, although PTD4-apoptin protein could be detected in the epidermal tissue covering the subcutaneous tumor tissue and in several organs, such as liver and brain, of the treated mice, no tissue disruption or signs of cell death could be detected. Our in vivo data reveal that apoptin protein delivery constitutes a novel powerful and safe anticancer therapy. ' UICCKey words: cell death; cervix tumor; gastric tumor; hepatocarcinoma; PTD4-mediated apoptin protein delivery Anticancer therapies are severely limited by, e.g., side toxicity to normal tissues. 1,2 The chicken anemia virus-derived apoptin protein harbors unique characteristics with potentials to become a novel anticancer therapy. 3,4 In vivo and in vitro data indicate that apoptin can induce selectively cell death in tumor cells and transformed cells. In fact, the absence of cell death induction in normal cells seems to be correlated with apoptin's normal-cell-specific neutralization. 5,6 Thus far, only vehicles have been developed for the in vivo delivery of the gene encoding apoptin. [7][8][9][10] To avoid the potential limitations related to exogenous gene transduction 11,12 and to expand apoptin's antitumor therapy potential, we have developed an apoptin protein therapy. Recently, Guelen et al. fused apoptin to the HIV-TAT protein transduction domain and delivered in vitro TAT-apoptin protein to human tumor and to normal cells. Strikingly, TAT-apoptin migrated from the cytoplasm to the nucleus of human tumor cells resulting in cell death, whereas in normal cells it remained in the cytoplasm and did not kill these normal cells. 13 In our study, we have fused apoptin to the transduction domain named protein transduction domain 4 (PTD4), which has shown to deliver proteins across the cellular membrane in a very efficient way. 14 The PTD4 domain consists of the amino acids YA...

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Viral genes as oncolytic agents for cancer therapy

Gupta

Gandham

Sahoo

et al. 2014

Cell. Mol. Life Sci.

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Many viruses have the ability to modulate the apoptosis, and to accomplish it; viruses encode proteins which specifically interact with the cellular signaling pathways. While some viruses encode proteins, which inhibit the apoptosis or death of the infected cells, there are viruses whose encoded proteins can kill the infected cells by multiple mechanisms, including apoptosis. A particular class of these viruses has specific gene(s) in their genomes which, upon ectopic expression, can kill the tumor cells selectively without affecting the normal cells. These genes and their encoded products have demonstrated great potential to be developed as novel anticancer therapeutic agents which can specifically target and kill the cancer cells leaving the normal cells unharmed. In this review, we will discuss about the viral genes having specific cancer cell killing properties, what is known about their functioning, signaling pathways and their therapeutic applications as anticancer agents.

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Secretory Transactivating Transcription-apoptin fusion protein induces apoptosis in hepatocellular carcinoma HepG2 cells

Cited by 10 publications

References 26 publications

Apoptin sensitizes radiation-induced cell death via classic mitochondrial, caspase and p53-dependent signaling in HepG2 cells

Apoptin sensitizes radiation-induced cell death via classic mitochondrial, caspase and p53-dependent signaling in HepG2 cells

PTD4‐apoptin protein therapy inhibits tumor growth in vivo

Viral genes as oncolytic agents for cancer therapy

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