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Down‐regulation of intracellular anti‐apoptotic proteins, particularly c‐FLIP by therapeutic agents; the novel view to overcome resistance to TRAIL

Tumor necrosis factor‐related apoptosis‐inducing ligand (TRAIL or Apo2L) is a member of the tumor necrosis factor (TNF) superfamily that induces apoptosis in different types of cancer cells via activation of caspase cascade. TRAIL interacts with its cognate receptors that placed on cancer cells surf...

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Published in:	Journal of cellular physiology 2018-10, Vol.233 (10), p.6470-6485
Main Authors:	Hassanzadeh, Ali, Farshdousti Hagh, Majid, Alivand, Mohammad Reza, Akbari, Ali Akbar Movassaghpour, Shams Asenjan, Karim, Saraei, Raedeh, Solali, Saeed
Format:	Article
Language:	English
Subjects:	Activation Apoptosis Biocompatibility Biomedical materials Cancer Caspase Caspase-8 Cell proliferation Chemical compounds c‐FLIP FADD protein FLIP protein Intracellular intracellular anti‐apoptotic proteins Leukemia Mcl-1 protein Medical prognosis Osteoprotegerin Pharmacology Proteins Receptors resistance Survivin TRAIL TRAIL protein Tumor necrosis factor Tumor necrosis factor-TNF Tumors
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cited_by	cdi_FETCH-LOGICAL-c4195-b4960f6c4537811def793b6a1d9837b1ea7752167b88daa8a5dc91a07dc2be193
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container_title	Journal of cellular physiology
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creator	Hassanzadeh, Ali Farshdousti Hagh, Majid Alivand, Mohammad Reza Akbari, Ali Akbar Movassaghpour Shams Asenjan, Karim Saraei, Raedeh Solali, Saeed
description	Tumor necrosis factor‐related apoptosis‐inducing ligand (TRAIL or Apo2L) is a member of the tumor necrosis factor (TNF) superfamily that induces apoptosis in different types of cancer cells via activation of caspase cascade. TRAIL interacts with its cognate receptors that placed on cancer cells surface, including TRAIL‐R1 (death receptor 4, DR4), TRAIL‐R2 (death receptor 5, DR5), TRAIL‐R3 (decoy receptor 1, DcR1), TRAIL‐R4 (decoy receptor 2, DcR2), and osteoprotegerin (OPG). Despite high apoptosis‐inducing ability of TRAIL, various cancerous cells gain resistance to TRAIL gradually, and consequently TRAIL potential for apoptosis stimulation in these cells diminishes intensely. According to diverse ranges of examinations, intracellular anti‐apoptotic proteins, such as cellular‐FLICE inhibitory protein (c‐FLIP), apoptosis inhibitors (IAPs), myeloid cell leukemia sequence 1 (MCL‐1), BCL‐2, BCL‐XL, and survivin play key role in cancer cells resistance to TRAIL. These proteins attenuate cancer cells sensitivity to TRAIL via various functions, importantly through caspase cascade suppression. The c‐FLIP avoids from caspase 8 activation by FADD via binding to caspase 8 cleavage of FADD. Moreover, it activates signaling pathways that involved in cancer cells survival and proliferation. Intriguingly, it appears that the down‐regulation of intracellular anti‐apoptotic proteins, particularly c‐FLIP is effectiveness goal for TRAIL‐resistant cancers therapy, because their up‐regulation in association with poor prognosis has been observed in various types of TRAIL‐resistant cancers. In this review, we tried to collect and examine investigations that researchers have been able to sensitize cancer cells to TRAIL through targeting of c‐FLIP alone or with other intracellular anti‐apoptotic proteins directly or indirectly. It seems that co‐treatment of resistant cells by TRAIL with other therapeutic agents with the aim of intracellular anti‐apoptotic proteins inhibition is hopeful and attractive approach to overcome various TRAIL‐resistant cancers. Here we discussed about TRAIL importance as a potent apoptosis inducing factor and one of major inhibitors of its (c‐FLIP). also, we reviewed how to overcome c‐FLIP effects.
doi_str_mv	10.1002/jcp.26585
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TRAIL interacts with its cognate receptors that placed on cancer cells surface, including TRAIL‐R1 (death receptor 4, DR4), TRAIL‐R2 (death receptor 5, DR5), TRAIL‐R3 (decoy receptor 1, DcR1), TRAIL‐R4 (decoy receptor 2, DcR2), and osteoprotegerin (OPG). Despite high apoptosis‐inducing ability of TRAIL, various cancerous cells gain resistance to TRAIL gradually, and consequently TRAIL potential for apoptosis stimulation in these cells diminishes intensely. According to diverse ranges of examinations, intracellular anti‐apoptotic proteins, such as cellular‐FLICE inhibitory protein (c‐FLIP), apoptosis inhibitors (IAPs), myeloid cell leukemia sequence 1 (MCL‐1), BCL‐2, BCL‐XL, and survivin play key role in cancer cells resistance to TRAIL. These proteins attenuate cancer cells sensitivity to TRAIL via various functions, importantly through caspase cascade suppression. The c‐FLIP avoids from caspase 8 activation by FADD via binding to caspase 8 cleavage of FADD. Moreover, it activates signaling pathways that involved in cancer cells survival and proliferation. Intriguingly, it appears that the down‐regulation of intracellular anti‐apoptotic proteins, particularly c‐FLIP is effectiveness goal for TRAIL‐resistant cancers therapy, because their up‐regulation in association with poor prognosis has been observed in various types of TRAIL‐resistant cancers. In this review, we tried to collect and examine investigations that researchers have been able to sensitize cancer cells to TRAIL through targeting of c‐FLIP alone or with other intracellular anti‐apoptotic proteins directly or indirectly. It seems that co‐treatment of resistant cells by TRAIL with other therapeutic agents with the aim of intracellular anti‐apoptotic proteins inhibition is hopeful and attractive approach to overcome various TRAIL‐resistant cancers. 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TRAIL interacts with its cognate receptors that placed on cancer cells surface, including TRAIL‐R1 (death receptor 4, DR4), TRAIL‐R2 (death receptor 5, DR5), TRAIL‐R3 (decoy receptor 1, DcR1), TRAIL‐R4 (decoy receptor 2, DcR2), and osteoprotegerin (OPG). Despite high apoptosis‐inducing ability of TRAIL, various cancerous cells gain resistance to TRAIL gradually, and consequently TRAIL potential for apoptosis stimulation in these cells diminishes intensely. According to diverse ranges of examinations, intracellular anti‐apoptotic proteins, such as cellular‐FLICE inhibitory protein (c‐FLIP), apoptosis inhibitors (IAPs), myeloid cell leukemia sequence 1 (MCL‐1), BCL‐2, BCL‐XL, and survivin play key role in cancer cells resistance to TRAIL. These proteins attenuate cancer cells sensitivity to TRAIL via various functions, importantly through caspase cascade suppression. The c‐FLIP avoids from caspase 8 activation by FADD via binding to caspase 8 cleavage of FADD. Moreover, it activates signaling pathways that involved in cancer cells survival and proliferation. Intriguingly, it appears that the down‐regulation of intracellular anti‐apoptotic proteins, particularly c‐FLIP is effectiveness goal for TRAIL‐resistant cancers therapy, because their up‐regulation in association with poor prognosis has been observed in various types of TRAIL‐resistant cancers. In this review, we tried to collect and examine investigations that researchers have been able to sensitize cancer cells to TRAIL through targeting of c‐FLIP alone or with other intracellular anti‐apoptotic proteins directly or indirectly. It seems that co‐treatment of resistant cells by TRAIL with other therapeutic agents with the aim of intracellular anti‐apoptotic proteins inhibition is hopeful and attractive approach to overcome various TRAIL‐resistant cancers. 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Moreover, it activates signaling pathways that involved in cancer cells survival and proliferation. Intriguingly, it appears that the down‐regulation of intracellular anti‐apoptotic proteins, particularly c‐FLIP is effectiveness goal for TRAIL‐resistant cancers therapy, because their up‐regulation in association with poor prognosis has been observed in various types of TRAIL‐resistant cancers. In this review, we tried to collect and examine investigations that researchers have been able to sensitize cancer cells to TRAIL through targeting of c‐FLIP alone or with other intracellular anti‐apoptotic proteins directly or indirectly. It seems that co‐treatment of resistant cells by TRAIL with other therapeutic agents with the aim of intracellular anti‐apoptotic proteins inhibition is hopeful and attractive approach to overcome various TRAIL‐resistant cancers. 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subjects	Activation Apoptosis Biocompatibility Biomedical materials Cancer Caspase Caspase-8 Cell proliferation Chemical compounds c‐FLIP FADD protein FLIP protein Intracellular intracellular anti‐apoptotic proteins Leukemia Mcl-1 protein Medical prognosis Osteoprotegerin Pharmacology Proteins Receptors resistance Survivin TRAIL TRAIL protein Tumor necrosis factor Tumor necrosis factor-TNF Tumors
title	Down‐regulation of intracellular anti‐apoptotic proteins, particularly c‐FLIP by therapeutic agents; the novel view to overcome resistance to TRAIL
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