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Evaluation of two xenobiotic reductases fromPseudomonas putidafor their suitability for magnetic nanoparticle‐directed enzyme prodrug therapy as a novel approach to cancer treatment. / Ball, Patrick; Halliwell, Jennifer; Anderson, Simon et al.
In: MicrobiologyOpen, Vol. 9, No. 10, e1110, 17.10.2020.

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Ball P, Halliwell J, Anderson S, Gwenin V, Gwenin C. Evaluation of two xenobiotic reductases fromPseudomonas putidafor their suitability for magnetic nanoparticle‐directed enzyme prodrug therapy as a novel approach to cancer treatment. MicrobiologyOpen. 2020 Oct 17;9(10):e1110. Epub 2020 Sept 26. doi: 10.1002/mbo3.1110

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TY - JOUR

T1 - Evaluation of two xenobiotic reductases fromPseudomonas putidafor their suitability for magnetic nanoparticle‐directed enzyme prodrug therapy as a novel approach to cancer treatment

AU - Ball, Patrick

AU - Halliwell, Jennifer

AU - Anderson, Simon

AU - Gwenin, Vanessa

AU - Gwenin, Christopher

PY - 2020/10/17

Y1 - 2020/10/17

N2 - Directed enzyme prodrug therapy (DEPT) is a cancer chemotherapy strategy in which bacterial enzymes are delivered to a cancer site before prodrug administration, resulting in prodrug activation at the cancer site and more localized treatment. A major limitation to DEPT is the poor effectiveness of the most studied enzyme for the CB1954 prodrug, NfnB from Escherichia coli, at concentrations suitable for human use. Much research into finding alternative enzymes to NfnB has resulted in the identification of the Xenobiotic reductases, XenA and XenB, which have been shown in the literature to reduce environmentally polluting nitro-compounds. In this study, they were assessed for their potential use in cancer prodrug therapy strategies. Both proteins were cloned into the pET28a+ expression vector to give the genetically modified proteins XenA-his and XenB-his, of which only XenB-his was active when tested with CB1954. XenB-his was further modified to include a cysteine-tag to facilitate direct immobilization on to a gold surface for future magnetic nanoparticle DEPT (MNDEPT) treatments and was named XenB-cys. When tested using high-performance liquid chromatography (HPLC), XenB-his and XenB-cys both demonstrated a preference for reducing CB1954 at the 4-nitro position. Furthermore, XenB-his and XenB-cys successfully induced cell death in SK-OV-3 cells when combined with CB1954. This led to XenB-cys being identified as a promising candidate for use in future MNDEPT treatments.

AB - Directed enzyme prodrug therapy (DEPT) is a cancer chemotherapy strategy in which bacterial enzymes are delivered to a cancer site before prodrug administration, resulting in prodrug activation at the cancer site and more localized treatment. A major limitation to DEPT is the poor effectiveness of the most studied enzyme for the CB1954 prodrug, NfnB from Escherichia coli, at concentrations suitable for human use. Much research into finding alternative enzymes to NfnB has resulted in the identification of the Xenobiotic reductases, XenA and XenB, which have been shown in the literature to reduce environmentally polluting nitro-compounds. In this study, they were assessed for their potential use in cancer prodrug therapy strategies. Both proteins were cloned into the pET28a+ expression vector to give the genetically modified proteins XenA-his and XenB-his, of which only XenB-his was active when tested with CB1954. XenB-his was further modified to include a cysteine-tag to facilitate direct immobilization on to a gold surface for future magnetic nanoparticle DEPT (MNDEPT) treatments and was named XenB-cys. When tested using high-performance liquid chromatography (HPLC), XenB-his and XenB-cys both demonstrated a preference for reducing CB1954 at the 4-nitro position. Furthermore, XenB-his and XenB-cys successfully induced cell death in SK-OV-3 cells when combined with CB1954. This led to XenB-cys being identified as a promising candidate for use in future MNDEPT treatments.

KW - Microbiology

U2 - 10.1002/mbo3.1110

DO - 10.1002/mbo3.1110

M3 - Article

VL - 9

JO - MicrobiologyOpen

JF - MicrobiologyOpen

SN - 2045-8827

IS - 10

M1 - e1110

ER -