Antimyeloma effects of arsenic trioxide are enhanced by melphalan, bortezomib and ascorbic acid

Summary Arsenic trioxide (ATO) induces apoptosis of malignant plasma cells through multiple mechanisms, including inhibition of DNA binding by nuclear factor kappa‐B, a key player in the development of chemoresistance in multiple myeloma (MM). This activity suggests that ATO may be synergistic when...

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Published in:British journal of haematology 2007-08, Vol.138 (4), p.467-478
Main Authors: Campbell, Richard A., Sanchez, Eric, Steinberg, Jeffrey A., Baritaki, Stavroula, Gordon, Melinda, Wang, Cathy, Shalitin, Dror, Chen, Haiming, Pang, Shen, Bonavida, Benjamin, Said, Jonathan, Berenson, James R.
Format: Article
Language:English
Subjects:
Animals
Antineoplastic Combined Chemotherapy Protocols - therapeutic use
Antioxidants - therapeutic use
Apoptosis - drug effects
arsenic trioxide
Arsenicals - therapeutic use
Ascorbic Acid - therapeutic use
Biological and medical sciences
Boronic Acids - therapeutic use
Bortezomib
Cell Line, Tumor
Cell Proliferation - drug effects
Drug Synergism
Enzyme-Linked Immunosorbent Assay
Hematologic and hematopoietic diseases
Humans
Immunodeficiencies. Immunoglobulinopathies
Immunoglobulin G - analysis
Immunoglobulinopathies
Immunopathology
Leukemias. Malignant lymphomas. Malignant reticulosis. Myelofibrosis
Medical sciences
melphalan
Melphalan - therapeutic use
Mice
Mice, SCID
multiple myeloma
Multiple Myeloma - drug therapy
Oxides - therapeutic use
Pyrazines - therapeutic use
severe combined immunodeficient mice
Xenograft Model Antitumor Assays
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creator Campbell, Richard A.
Sanchez, Eric
Steinberg, Jeffrey A.
Baritaki, Stavroula
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Shalitin, Dror
Chen, Haiming
Pang, Shen
Bonavida, Benjamin
Said, Jonathan
Berenson, James R.
description Summary Arsenic trioxide (ATO) induces apoptosis of malignant plasma cells through multiple mechanisms, including inhibition of DNA binding by nuclear factor kappa‐B, a key player in the development of chemoresistance in multiple myeloma (MM). This activity suggests that ATO may be synergistic when combined with other active antimyeloma drugs. To evaluate this, we examined the antimyeloma effects of ATO alone and in combination with bortezomib, melphalan and ascorbic acid (AA) both in vitro and in vivo using a severe combined immunodeficient (SCID)‐hu murine myeloma model. Marked synergistic antimyeloma effects were demonstrated when human MM Los Angeles xenograft IgG lambda light chain (LAGλ‐1) cells were treated in vitro with ATO and any one of these agents. SCID mice bearing human MM LAGλ‐1 tumours were treated with single‐agent ATO, bortezomib, melphalan, or AA, or combinations of ATO with either bortezomib or melphalan and AA. Animals treated with any of these drugs alone showed tumour growth and increases in paraprotein levels similar to control mice, whereas animals treated with ATO‐containing combinations showed markedly suppressed tumour growth and significantly reduced serum paraprotein levels. These in vitro and in vivo results suggest that addition of ATO to other antimyeloma agents may result in improved outcomes for patients with relapsed or refractory MM.
doi_str_mv 10.1111/j.1365-2141.2007.06675.x
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This activity suggests that ATO may be synergistic when combined with other active antimyeloma drugs. To evaluate this, we examined the antimyeloma effects of ATO alone and in combination with bortezomib, melphalan and ascorbic acid (AA) both in vitro and in vivo using a severe combined immunodeficient (SCID)‐hu murine myeloma model. Marked synergistic antimyeloma effects were demonstrated when human MM Los Angeles xenograft IgG lambda light chain (LAGλ‐1) cells were treated in vitro with ATO and any one of these agents. SCID mice bearing human MM LAGλ‐1 tumours were treated with single‐agent ATO, bortezomib, melphalan, or AA, or combinations of ATO with either bortezomib or melphalan and AA. Animals treated with any of these drugs alone showed tumour growth and increases in paraprotein levels similar to control mice, whereas animals treated with ATO‐containing combinations showed markedly suppressed tumour growth and significantly reduced serum paraprotein levels. 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Immunoglobulinopathies</topic><topic>Immunoglobulin G - analysis</topic><topic>Immunoglobulinopathies</topic><topic>Immunopathology</topic><topic>Leukemias. Malignant lymphomas. Malignant reticulosis. 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subjects Animals
Antineoplastic Combined Chemotherapy Protocols - therapeutic use
Antioxidants - therapeutic use
Apoptosis - drug effects
arsenic trioxide
Arsenicals - therapeutic use
Ascorbic Acid - therapeutic use
Biological and medical sciences
Boronic Acids - therapeutic use
Bortezomib
Cell Line, Tumor
Cell Proliferation - drug effects
Drug Synergism
Enzyme-Linked Immunosorbent Assay
Hematologic and hematopoietic diseases
Humans
Immunodeficiencies. Immunoglobulinopathies
Immunoglobulin G - analysis
Immunoglobulinopathies
Immunopathology
Leukemias. Malignant lymphomas. Malignant reticulosis. Myelofibrosis
Medical sciences
melphalan
Melphalan - therapeutic use
Mice
Mice, SCID
multiple myeloma
Multiple Myeloma - drug therapy
Oxides - therapeutic use
Pyrazines - therapeutic use
severe combined immunodeficient mice
Xenograft Model Antitumor Assays
title Antimyeloma effects of arsenic trioxide are enhanced by melphalan, bortezomib and ascorbic acid
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