Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes

Sophie C. Larnaudie; Johannes C. Brendel; Isolda Romero-Canelón; Carlos Sanchez-Cano; Sylvain Catrouillet; Joaquin Sanchis; James P. C. Coverdale; Ji-Inn Song; Abraha Habtemariam; Peter J. Sadler; Katrina A. Jolliffe; Sébastien Perrier

doi:10.1021/acs.biomac.7b01491

Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes

Sophie C. Larnaudie, Johannes C. Brendel, Isolda Romero-Canelón, Carlos Sanchez-Cano, Sylvain Catrouillet, Joaquin Sanchis, James P. C. Coverdale, Ji-Inn Song, Abraha Habtemariam, Peter J. Sadler, Katrina A. Jolliffe, Sébastien Perrier

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

Functional drug carrier systems have potential for increasing solubility and potency of drugs while reducing side effects. Complex polymeric materials, particularly anisotropic structures, are especially attractive due to their long circulation times. Here, we have conjugated cyclic peptides to the biocompatible polymer poly(2-hydroxypropyl methacrylamide) (pHPMA). The resulting conjugates were functionalized with organoiridium anticancer complexes. Small angle neutron scattering and static light scattering confirmed their self-assembly and elongated cylindrical shape. Drug-loaded nanotubes exhibited more potent antiproliferative activity toward human cancer cells than either free drug or the drug-loaded polymers, while the nanotubes themselves were nontoxic. Cellular accumulation studies revealed that the increased potency of the conjugate appears to be related to a more efficient mode of action rather than a higher cellular accumulation of iridium.

Original language	English
Pages (from-to)	239-247
Journal	Biomacromolecules
Volume	19
Issue number	1
Early online date	20 Nov 2017
DOIs	https://doi.org/10.1021/acs.biomac.7b01491
Publication status	Published - 8 Jan 2018

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Larnaudie, S. C., Brendel, J. C., Romero-Canelón, I., Sanchez-Cano, C., Catrouillet, S., Sanchis, J., Coverdale, J. P. C., Song, J-I., Habtemariam, A., Sadler, P. J., Jolliffe, K. A., & Perrier, S. (2018). Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes. Biomacromolecules, 19(1), 239-247. Advance online publication. https://doi.org/10.1021/acs.biomac.7b01491

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title = "Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes",

abstract = "Functional drug carrier systems have potential for increasing solubility and potency of drugs while reducing side effects. Complex polymeric materials, particularly anisotropic structures, are especially attractive due to their long circulation times. Here, we have conjugated cyclic peptides to the biocompatible polymer poly(2-hydroxypropyl methacrylamide) (pHPMA). The resulting conjugates were functionalized with organoiridium anticancer complexes. Small angle neutron scattering and static light scattering confirmed their self-assembly and elongated cylindrical shape. Drug-loaded nanotubes exhibited more potent antiproliferative activity toward human cancer cells than either free drug or the drug-loaded polymers, while the nanotubes themselves were nontoxic. Cellular accumulation studies revealed that the increased potency of the conjugate appears to be related to a more efficient mode of action rather than a higher cellular accumulation of iridium.",

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Larnaudie, SC, Brendel, JC, Romero-Canelón, I, Sanchez-Cano, C, Catrouillet, S, Sanchis, J, Coverdale, JPC, Song, J-I, Habtemariam, A, Sadler, PJ, Jolliffe, KA & Perrier, S 2018, 'Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes', Biomacromolecules, vol. 19, no. 1, pp. 239-247. https://doi.org/10.1021/acs.biomac.7b01491

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T1 - Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes

AU - Larnaudie, Sophie C.

AU - Brendel, Johannes C.

AU - Romero-Canelón, Isolda

AU - Sanchez-Cano, Carlos

AU - Catrouillet, Sylvain

AU - Sanchis, Joaquin

AU - Coverdale, James P. C.

AU - Song, Ji-Inn

AU - Habtemariam, Abraha

AU - Sadler, Peter J.

AU - Jolliffe, Katrina A.

AU - Perrier, Sébastien

PY - 2018/1/8

Y1 - 2018/1/8

N2 - Functional drug carrier systems have potential for increasing solubility and potency of drugs while reducing side effects. Complex polymeric materials, particularly anisotropic structures, are especially attractive due to their long circulation times. Here, we have conjugated cyclic peptides to the biocompatible polymer poly(2-hydroxypropyl methacrylamide) (pHPMA). The resulting conjugates were functionalized with organoiridium anticancer complexes. Small angle neutron scattering and static light scattering confirmed their self-assembly and elongated cylindrical shape. Drug-loaded nanotubes exhibited more potent antiproliferative activity toward human cancer cells than either free drug or the drug-loaded polymers, while the nanotubes themselves were nontoxic. Cellular accumulation studies revealed that the increased potency of the conjugate appears to be related to a more efficient mode of action rather than a higher cellular accumulation of iridium.

AB - Functional drug carrier systems have potential for increasing solubility and potency of drugs while reducing side effects. Complex polymeric materials, particularly anisotropic structures, are especially attractive due to their long circulation times. Here, we have conjugated cyclic peptides to the biocompatible polymer poly(2-hydroxypropyl methacrylamide) (pHPMA). The resulting conjugates were functionalized with organoiridium anticancer complexes. Small angle neutron scattering and static light scattering confirmed their self-assembly and elongated cylindrical shape. Drug-loaded nanotubes exhibited more potent antiproliferative activity toward human cancer cells than either free drug or the drug-loaded polymers, while the nanotubes themselves were nontoxic. Cellular accumulation studies revealed that the increased potency of the conjugate appears to be related to a more efficient mode of action rather than a higher cellular accumulation of iridium.

U2 - 10.1021/acs.biomac.7b01491

DO - 10.1021/acs.biomac.7b01491

M3 - Article

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JF - Biomacromolecules

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Cyclic Peptide–Polymer Nanotubes as Efficient and Highly Potent Drug Delivery Systems for Organometallic Anticancer Complexes

Abstract

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