TAK1 inhibition subverts the osteoclastogenic action of TRAIL while potentiating its antimyeloma effects

Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic strategy against cancers, including multiple myeloma (MM). Osteoclastogenesis is highly induced in MM, which in turn enhances MM growth, ther...

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Published inBlood advances Vol. 1; no. 24; pp. 2124 - 2137
Main Authors Tenshin, Hirofumi, Teramachi, Jumpei, Oda, Asuka, Amachi, Ryota, Hiasa, Masahiro, Bat-Erdene, Ariunzaya, Watanabe, Keiichiro, Iwasa, Masami, Harada, Takeshi, Fujii, Shiro, Kagawa, Kumiko, Sogabe, Kimiko, Nakamura, Shingen, Miki, Hirokazu, Kurahashi, Kiyoe, Yoshida, Sumiko, Aihara, Kenichi, Endo, Itsuro, Tanaka, Eiji, Matsumoto, Toshio, Abe, Masahiro
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 14.11.2017
American Society of Hematology
Elsevier
Subjects
Immunobiology and Immunotherapy
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Abstract Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic strategy against cancers, including multiple myeloma (MM). Osteoclastogenesis is highly induced in MM, which in turn enhances MM growth, thereby forming a vicious cycle between MM tumor expansion and bone destruction. However, the effects of TRAIL on MM-enhanced osteoclastogenesis remain largely unknown. Here, we show that TRAIL induced apoptosis in MM cells, but not in osteoclasts (OCs), and that it rather facilitated receptor activator of NF-κB ligand–induced osteoclastogenesis along with upregulation of cellular FLICE inhibitory protein (c-FLIP). TRAIL did not induce death-inducing signaling complex formation in OCs, but formed secondary complex (complex II) with the phosphorylation of transforming growth factor β–activated kinase-1 (TAK1), and thus activated NF-κB signaling. c-FLIP knockdown abolished complex II formation, thus permitting TRAIL induction of OC cell death. The TAK1 inhibitor LLZ1640-2 abrogated the TRAIL-induced c-FLIP upregulation and NF-κB activation, and triggered TRAIL-induced caspase-8 activation and cell death in OCs. Interestingly, the TRAIL-induced caspase-8 activation caused enzymatic degradation of the transcription factor Sp1 to noticeably reduce c-FLIP expression, which further sensitized OCs to TRAIL-induced apoptosis. Furthermore, the TAK1 inhibition induced antiosteoclastogenic activity by TRAIL even in cocultures with MM cells while potentiating TRAIL's anti-MM effects. These results demonstrated that osteoclastic lineage cells use TRAIL for their differentiation and activation through tilting caspase-8–dependent apoptosis toward NF-κB activation, and that TAK1 inhibition subverts TRAIL-mediated NF-κB activation to resume TRAIL-induced apoptosis in OCs while further enhancing MM cell death in combination with TRAIL. •TRAIL enhances receptor activator of NF-κB ligand–induced osteoclastogenesis and c-FLIP upregulation without osteoclast apoptosis induction.•TAK1 inhibition triggers TRAIL-induced apoptosis in osteoclasts, while potentiating TRAIL-induced myeloma cell death.
AbstractList TRAIL enhances receptor activator of NF-κB ligand–induced osteoclastogenesis and c-FLIP upregulation without osteoclast apoptosis induction. TAK1 inhibition triggers TRAIL-induced apoptosis in osteoclasts, while potentiating TRAIL-induced myeloma cell death. Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic strategy against cancers, including multiple myeloma (MM). Osteoclastogenesis is highly induced in MM, which in turn enhances MM growth, thereby forming a vicious cycle between MM tumor expansion and bone destruction. However, the effects of TRAIL on MM-enhanced osteoclastogenesis remain largely unknown. Here, we show that TRAIL induced apoptosis in MM cells, but not in osteoclasts (OCs), and that it rather facilitated receptor activator of NF-κB ligand–induced osteoclastogenesis along with upregulation of cellular FLICE inhibitory protein (c-FLIP). TRAIL did not induce death-inducing signaling complex formation in OCs, but formed secondary complex (complex II) with the phosphorylation of transforming growth factor β–activated kinase-1 (TAK1), and thus activated NF-κB signaling. c-FLIP knockdown abolished complex II formation, thus permitting TRAIL induction of OC cell death. The TAK1 inhibitor LLZ1640-2 abrogated the TRAIL-induced c-FLIP upregulation and NF-κB activation, and triggered TRAIL-induced caspase-8 activation and cell death in OCs. Interestingly, the TRAIL-induced caspase-8 activation caused enzymatic degradation of the transcription factor Sp1 to noticeably reduce c-FLIP expression, which further sensitized OCs to TRAIL-induced apoptosis. Furthermore, the TAK1 inhibition induced antiosteoclastogenic activity by TRAIL even in cocultures with MM cells while potentiating TRAIL’s anti-MM effects. These results demonstrated that osteoclastic lineage cells use TRAIL for their differentiation and activation through tilting caspase-8–dependent apoptosis toward NF-κB activation, and that TAK1 inhibition subverts TRAIL-mediated NF-κB activation to resume TRAIL-induced apoptosis in OCs while further enhancing MM cell death in combination with TRAIL.
Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic strategy against cancers, including multiple myeloma (MM). Osteoclastogenesis is highly induced in MM, which in turn enhances MM growth, thereby forming a vicious cycle between MM tumor expansion and bone destruction. However, the effects of TRAIL on MM-enhanced osteoclastogenesis remain largely unknown. Here, we show that TRAIL induced apoptosis in MM cells, but not in osteoclasts (OCs), and that it rather facilitated receptor activator of NF-κB ligand–induced osteoclastogenesis along with upregulation of cellular FLICE inhibitory protein (c-FLIP). TRAIL did not induce death-inducing signaling complex formation in OCs, but formed secondary complex (complex II) with the phosphorylation of transforming growth factor β–activated kinase-1 (TAK1), and thus activated NF-κB signaling. c-FLIP knockdown abolished complex II formation, thus permitting TRAIL induction of OC cell death. The TAK1 inhibitor LLZ1640-2 abrogated the TRAIL-induced c-FLIP upregulation and NF-κB activation, and triggered TRAIL-induced caspase-8 activation and cell death in OCs. Interestingly, the TRAIL-induced caspase-8 activation caused enzymatic degradation of the transcription factor Sp1 to noticeably reduce c-FLIP expression, which further sensitized OCs to TRAIL-induced apoptosis. Furthermore, the TAK1 inhibition induced antiosteoclastogenic activity by TRAIL even in cocultures with MM cells while potentiating TRAIL's anti-MM effects. These results demonstrated that osteoclastic lineage cells use TRAIL for their differentiation and activation through tilting caspase-8–dependent apoptosis toward NF-κB activation, and that TAK1 inhibition subverts TRAIL-mediated NF-κB activation to resume TRAIL-induced apoptosis in OCs while further enhancing MM cell death in combination with TRAIL.
Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic strategy against cancers, including multiple myeloma (MM). Osteoclastogenesis is highly induced in MM, which in turn enhances MM growth, thereby forming a vicious cycle between MM tumor expansion and bone destruction. However, the effects of TRAIL on MM-enhanced osteoclastogenesis remain largely unknown. Here, we show that TRAIL induced apoptosis in MM cells, but not in osteoclasts (OCs), and that it rather facilitated receptor activator of NF-κB ligand–induced osteoclastogenesis along with upregulation of cellular FLICE inhibitory protein (c-FLIP). TRAIL did not induce death-inducing signaling complex formation in OCs, but formed secondary complex (complex II) with the phosphorylation of transforming growth factor β–activated kinase-1 (TAK1), and thus activated NF-κB signaling. c-FLIP knockdown abolished complex II formation, thus permitting TRAIL induction of OC cell death. The TAK1 inhibitor LLZ1640-2 abrogated the TRAIL-induced c-FLIP upregulation and NF-κB activation, and triggered TRAIL-induced caspase-8 activation and cell death in OCs. Interestingly, the TRAIL-induced caspase-8 activation caused enzymatic degradation of the transcription factor Sp1 to noticeably reduce c-FLIP expression, which further sensitized OCs to TRAIL-induced apoptosis. Furthermore, the TAK1 inhibition induced antiosteoclastogenic activity by TRAIL even in cocultures with MM cells while potentiating TRAIL's anti-MM effects. These results demonstrated that osteoclastic lineage cells use TRAIL for their differentiation and activation through tilting caspase-8–dependent apoptosis toward NF-κB activation, and that TAK1 inhibition subverts TRAIL-mediated NF-κB activation to resume TRAIL-induced apoptosis in OCs while further enhancing MM cell death in combination with TRAIL. •TRAIL enhances receptor activator of NF-κB ligand–induced osteoclastogenesis and c-FLIP upregulation without osteoclast apoptosis induction.•TAK1 inhibition triggers TRAIL-induced apoptosis in osteoclasts, while potentiating TRAIL-induced myeloma cell death.
Key Points TRAIL enhances receptor activator of NF-κB ligand–induced osteoclastogenesis and c-FLIP upregulation without osteoclast apoptosis induction. TAK1 inhibition triggers TRAIL-induced apoptosis in osteoclasts, while potentiating TRAIL-induced myeloma cell death.
Author Iwasa, Masami
Tenshin, Hirofumi
Teramachi, Jumpei
Harada, Takeshi
Sogabe, Kimiko
Tanaka, Eiji
Nakamura, Shingen
Abe, Masahiro
Hiasa, Masahiro
Aihara, Kenichi
Kagawa, Kumiko
Oda, Asuka
Yoshida, Sumiko
Matsumoto, Toshio
Amachi, Ryota
Miki, Hirokazu
Endo, Itsuro
Watanabe, Keiichiro
Fujii, Shiro
Kurahashi, Kiyoe
Bat-Erdene, Ariunzaya
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  organization: Department of Orthodontics and Dentofacial Orthopedics, Tokushima University Graduate School of Oral Sciences, Tokushima, Japan
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  givenname: Jumpei
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  fullname: Teramachi, Jumpei
  organization: Department of Hematology, Endocrinology and Metabolism
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  organization: Department of Hematology, Endocrinology and Metabolism
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  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Masami
  surname: Iwasa
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  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Takeshi
  surname: Harada
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  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Shiro
  surname: Fujii
  fullname: Fujii, Shiro
  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Kumiko
  surname: Kagawa
  fullname: Kagawa, Kumiko
  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Kimiko
  surname: Sogabe
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  organization: Department of Hematology, Endocrinology and Metabolism
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  organization: Department of Hematology, Endocrinology and Metabolism
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  fullname: Miki, Hirokazu
  organization: Division of Transfusion Medicine and Cell Therapy, Tokushima University Hospital, Tokushima, Japan; and
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  givenname: Kiyoe
  surname: Kurahashi
  fullname: Kurahashi, Kiyoe
  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Sumiko
  surname: Yoshida
  fullname: Yoshida, Sumiko
  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Kenichi
  surname: Aihara
  fullname: Aihara, Kenichi
  organization: Department of Hematology, Endocrinology and Metabolism
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  givenname: Itsuro
  surname: Endo
  fullname: Endo, Itsuro
  organization: Department of Hematology, Endocrinology and Metabolism
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  surname: Tanaka
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  organization: Department of Orthodontics and Dentofacial Orthopedics, and
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  surname: Matsumoto
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  organization: Fujii Memorial Institute of Medical Sciences, Tokushima University, Tokushima, Japan
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  givenname: Masahiro
  surname: Abe
  fullname: Abe, Masahiro
  email: masabe@tokushima-u.ac.jp
  organization: Department of Hematology, Endocrinology and Metabolism
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Snippet Tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic...
Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) agonists induce tumor-specific apoptosis indicating that they may be an attractive therapeutic...
Key Points TRAIL enhances receptor activator of NF-κB ligand–induced osteoclastogenesis and c-FLIP upregulation without osteoclast apoptosis induction. TAK1...
TRAIL enhances receptor activator of NF-κB ligand–induced osteoclastogenesis and c-FLIP upregulation without osteoclast apoptosis induction. TAK1 inhibition...
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Title TAK1 inhibition subverts the osteoclastogenic action of TRAIL while potentiating its antimyeloma effects
URI https://dx.doi.org/10.1182/bloodadvances.2017008813
https://www.ncbi.nlm.nih.gov/pubmed/29296860
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