KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation

KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation

Paolo Lazzari,1 Marco Spiga,1 Monica Sani,1,2 Matteo Zanda,2,3 Ian N Fleming4 1KemoTech s.r.l., Parco Scientifico della Sardegna, Pula, Cagliari, 2C.N.R. – Istituto di Chimica del Riconoscimento Molecolare, Sezione ‘A. Quilico’, Milano, Italy; 3Kosterlitz Centre for The...

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Main Authors: Lazzari P, Spiga M, Sani M, Zanda M, Fleming IN
Format: Article
Language:English
Published: Dove Medical Press 2017-05-01
Series:Hypoxia
Subjects:
breast cancer
tubulysin
anti-mitotic
hypoxia
cell death
reductase
Online Access:https://www.dovepress.com/kemtub012-ni2-a-novel-potent-tubulysin-analog-that-selectively-targets-peer-reviewed-article-HP
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spelling doaj-8c505a34ff1c4befa5eb309b232104a62020-11-24T22:40:56ZengDove Medical PressHypoxia2324-11282017-05-01Volume 5455933002KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulationLazzari PSpiga MSani MZanda MFleming INPaolo Lazzari,1 Marco Spiga,1 Monica Sani,1,2 Matteo Zanda,2,3 Ian N Fleming4 1KemoTech s.r.l., Parco Scientifico della Sardegna, Pula, Cagliari, 2C.N.R. – Istituto di Chimica del Riconoscimento Molecolare, Sezione ‘A. Quilico’, Milano, Italy; 3Kosterlitz Centre for Therapeutics, Institute of Medical Sciences, University of Aberdeen, 4Aberdeen Biomedical Imaging Centre, Institute of Medical Sciences, Foresterhill, Aberdeen, Scotland, UK Purpose: There is an urgent need to develop effective therapies and treatment strategies to treat hypoxic tumors, which have a very poor prognosis and do not respond well to existing therapies.Methods: A novel hypoxia-targeting agent, KEMTUB012-NI2, was synthesized by conjugating a 2-nitroimidazole hypoxia-targeting moiety to a synthetic tubulysin, a very potent antimitotic. Its hypoxic selectivity and mode of action were studied in breast cancer cell lines.Results: KEMTUB012-NI2 exhibited a similar selectivity for hypoxic cells to that of tirapazamine, a well-established hypoxia-targeting agent, but was >1,000 times more potent in cell cytotoxicity assays. The hypoxia-targeting mechanism for both KEMTUB012-NI2 and tirapazamine was selective and mediated by one-electron reductases. However, while cytochrome p450 reductase (POR) downregulation could inhibit tirapazamine cytotoxicity, it actually sensitized hypoxic cells to KEMTUB012-NI2.Conclusion: KEMTUB012-NI2 is a potent new agent that can selectively target hypoxic cancer cells. The hypoxia selectivity of KEMTUB012-NI2 and tirapazamine appears to be differentially activated by reductases. Since reductases are heterogeneously expressed in tumors, the different activation mechanisms will allow these agents to complement each other. Combining POR downregulation with KEMTUB012-NI2 treatment could be a new treatment strategy that maximizes efficacy toward hypoxic tumor cells while limiting systemic toxicity. Keywords: breast cancer, tubulysin, anti-mitotic, hypoxia, cell death, reductasehttps://www.dovepress.com/kemtub012-ni2-a-novel-potent-tubulysin-analog-that-selectively-targets-peer-reviewed-article-HPbreast cancertubulysinanti-mitotichypoxiacell deathreductase
collection DOAJ
language English
format Article
sources DOAJ
author Lazzari P
Spiga M
Sani M
Zanda M
Fleming IN
spellingShingle Lazzari P
Spiga M
Sani M
Zanda M
Fleming IN
KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
Hypoxia
breast cancer
tubulysin
anti-mitotic
hypoxia
cell death
reductase
author_facet Lazzari P
Spiga M
Sani M
Zanda M
Fleming IN
author_sort Lazzari P
title KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
title_short KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
title_full KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
title_fullStr KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
title_full_unstemmed KEMTUB012-NI2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
title_sort kemtub012-ni2, a novel potent tubulysin analog that selectively targets hypoxic cancer cells and is potentiated by cytochrome p450 reductase downregulation
publisher Dove Medical Press
series Hypoxia
issn 2324-1128
publishDate 2017-05-01
description Paolo Lazzari,1 Marco Spiga,1 Monica Sani,1,2 Matteo Zanda,2,3 Ian N Fleming4 1KemoTech s.r.l., Parco Scientifico della Sardegna, Pula, Cagliari, 2C.N.R. – Istituto di Chimica del Riconoscimento Molecolare, Sezione ‘A. Quilico’, Milano, Italy; 3Kosterlitz Centre for Therapeutics, Institute of Medical Sciences, University of Aberdeen, 4Aberdeen Biomedical Imaging Centre, Institute of Medical Sciences, Foresterhill, Aberdeen, Scotland, UK Purpose: There is an urgent need to develop effective therapies and treatment strategies to treat hypoxic tumors, which have a very poor prognosis and do not respond well to existing therapies.Methods: A novel hypoxia-targeting agent, KEMTUB012-NI2, was synthesized by conjugating a 2-nitroimidazole hypoxia-targeting moiety to a synthetic tubulysin, a very potent antimitotic. Its hypoxic selectivity and mode of action were studied in breast cancer cell lines.Results: KEMTUB012-NI2 exhibited a similar selectivity for hypoxic cells to that of tirapazamine, a well-established hypoxia-targeting agent, but was >1,000 times more potent in cell cytotoxicity assays. The hypoxia-targeting mechanism for both KEMTUB012-NI2 and tirapazamine was selective and mediated by one-electron reductases. However, while cytochrome p450 reductase (POR) downregulation could inhibit tirapazamine cytotoxicity, it actually sensitized hypoxic cells to KEMTUB012-NI2.Conclusion: KEMTUB012-NI2 is a potent new agent that can selectively target hypoxic cancer cells. The hypoxia selectivity of KEMTUB012-NI2 and tirapazamine appears to be differentially activated by reductases. Since reductases are heterogeneously expressed in tumors, the different activation mechanisms will allow these agents to complement each other. Combining POR downregulation with KEMTUB012-NI2 treatment could be a new treatment strategy that maximizes efficacy toward hypoxic tumor cells while limiting systemic toxicity. Keywords: breast cancer, tubulysin, anti-mitotic, hypoxia, cell death, reductase
topic breast cancer
tubulysin
anti-mitotic
hypoxia
cell death
reductase
url https://www.dovepress.com/kemtub012-ni2-a-novel-potent-tubulysin-analog-that-selectively-targets-peer-reviewed-article-HP
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