Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates

Martin Pabst; William McDowell; Anaïs Manin; Andrew Kyle; Nicolas Camper; Elena De Juan; Vimal Parekh; Felicity Rudge; Hiteshri Makwana; Terrence Kantner; Hemal Parekh; Aurelie Michelet; Xiao Bo Sheng; Gina Popa; Carolyn Tucker; Farzad Khayrzad; Derek Pollard; Katarzyna Kozakowska; Ricardo Resende; Alan Jenkins; Fabio Simoes; Dave Morris; Paul Williams; George Badescu; Matthew P. Baker; Matthew Bird; Mark Frigerio; Antony Godwin

doi:10.1016/j.jconrel.2017.02.027

Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates

Martin Pabst^*, William McDowell, Anaïs Manin, Andrew Kyle, Nicolas Camper, Elena De Juan, Vimal Parekh, Felicity Rudge, Hiteshri Makwana, Terrence Kantner, Hemal Parekh, Aurelie Michelet, Xiao Bo Sheng, Gina Popa, Carolyn Tucker, Farzad Khayrzad, Derek Pollard, Katarzyna Kozakowska, Ricardo Resende, Alan JenkinsFabio Simoes, Dave Morris, Paul Williams, George Badescu, Matthew P. Baker, Matthew Bird, Mark Frigerio, Antony Godwin

^*Corresponding author for this work

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

34 Citations (Scopus)

Abstract

Antibody-drug conjugates (ADCs) are a promising class of anticancer agents which have undergone substantial development over the past decade and are now achieving clinical success. The development of novel site-specific conjugation technologies enables the systematic study of architectural features within the antibody conjugated drug linker that may affect overall therapeutic indices. Here we describe the results of a systematic study investigating the impact of drug-linker design on the in vivo properties of a series of homogeneous ADCs with a conserved site of conjugation, a monodisperse drug loading, a lysosomal release functionality and monomethyl auristatin E as a cytotoxic payload. The ADCs, which differed only in the relative position of certain drug-linker elements within the reagent, were first evaluated in vitro using anti-proliferation assays and in vivo using mouse pharmacokinetics (PK). Regardless of the position of a discrete polymer unit, the ADCs showed comparable in vitro potencies, but the in vivo PK properties varied widely. The best performing drug-linker design was further used to prepare ADCs with different drug loadings of 4, 6 and 8 drugs per antibody and compared to Adcetris® in a Karpas-299 mouse xenograft model. The most efficacious ADC showed complete tumor regression and 10/10 tumor free survivors at a single 0.5 mg/kg dose. This study revealed drug-linker design as a critical parameter in ADC development, with the potential to enhance ADC in vivo potency for producing more efficacious ADCs.

Original language	English
Pages (from-to)	160-164
Number of pages	5
Journal	Journal of Controlled Release
Volume	253
DOIs	https://doi.org/10.1016/j.jconrel.2017.02.027
Publication status	Published - 10 May 2017

Keywords

Antibody-drug conjugates
Drug design
In vivo efficacy
Lysosomal release
Mouse xenograft
Pharmacokinetics

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10.1016/j.jconrel.2017.02.027

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Pabst, M., McDowell, W., Manin, A., Kyle, A., Camper, N., De Juan, E., Parekh, V., Rudge, F., Makwana, H., Kantner, T., Parekh, H., Michelet, A., Sheng, X. B., Popa, G., Tucker, C., Khayrzad, F., Pollard, D., Kozakowska, K., Resende, R., ... Godwin, A. (2017). Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates. Journal of Controlled Release, 253, 160-164. https://doi.org/10.1016/j.jconrel.2017.02.027

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title = "Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates",

abstract = "Antibody-drug conjugates (ADCs) are a promising class of anticancer agents which have undergone substantial development over the past decade and are now achieving clinical success. The development of novel site-specific conjugation technologies enables the systematic study of architectural features within the antibody conjugated drug linker that may affect overall therapeutic indices. Here we describe the results of a systematic study investigating the impact of drug-linker design on the in vivo properties of a series of homogeneous ADCs with a conserved site of conjugation, a monodisperse drug loading, a lysosomal release functionality and monomethyl auristatin E as a cytotoxic payload. The ADCs, which differed only in the relative position of certain drug-linker elements within the reagent, were first evaluated in vitro using anti-proliferation assays and in vivo using mouse pharmacokinetics (PK). Regardless of the position of a discrete polymer unit, the ADCs showed comparable in vitro potencies, but the in vivo PK properties varied widely. The best performing drug-linker design was further used to prepare ADCs with different drug loadings of 4, 6 and 8 drugs per antibody and compared to Adcetris{\textregistered} in a Karpas-299 mouse xenograft model. The most efficacious ADC showed complete tumor regression and 10/10 tumor free survivors at a single 0.5 mg/kg dose. This study revealed drug-linker design as a critical parameter in ADC development, with the potential to enhance ADC in vivo potency for producing more efficacious ADCs.",

keywords = "Antibody-drug conjugates, Drug design, In vivo efficacy, Lysosomal release, Mouse xenograft, Pharmacokinetics",

author = "Martin Pabst and William McDowell and Ana{\"i}s Manin and Andrew Kyle and Nicolas Camper and {De Juan}, Elena and Vimal Parekh and Felicity Rudge and Hiteshri Makwana and Terrence Kantner and Hemal Parekh and Aurelie Michelet and Sheng, {Xiao Bo} and Gina Popa and Carolyn Tucker and Farzad Khayrzad and Derek Pollard and Katarzyna Kozakowska and Ricardo Resende and Alan Jenkins and Fabio Simoes and Dave Morris and Paul Williams and George Badescu and Baker, {Matthew P.} and Matthew Bird and Mark Frigerio and Antony Godwin",

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Pabst, M, McDowell, W, Manin, A, Kyle, A, Camper, N, De Juan, E, Parekh, V, Rudge, F, Makwana, H, Kantner, T, Parekh, H, Michelet, A, Sheng, XB, Popa, G, Tucker, C, Khayrzad, F, Pollard, D, Kozakowska, K, Resende, R, Jenkins, A, Simoes, F, Morris, D, Williams, P, Badescu, G, Baker, MP, Bird, M, Frigerio, M & Godwin, A 2017, 'Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates', Journal of Controlled Release, vol. 253, pp. 160-164. https://doi.org/10.1016/j.jconrel.2017.02.027

TY - JOUR

T1 - Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates

AU - Pabst, Martin

AU - McDowell, William

AU - Manin, Anaïs

AU - Kyle, Andrew

AU - Camper, Nicolas

AU - De Juan, Elena

AU - Parekh, Vimal

AU - Rudge, Felicity

AU - Makwana, Hiteshri

AU - Kantner, Terrence

AU - Parekh, Hemal

AU - Michelet, Aurelie

AU - Sheng, Xiao Bo

AU - Popa, Gina

AU - Tucker, Carolyn

AU - Khayrzad, Farzad

AU - Pollard, Derek

AU - Kozakowska, Katarzyna

AU - Resende, Ricardo

AU - Jenkins, Alan

AU - Simoes, Fabio

AU - Morris, Dave

AU - Williams, Paul

AU - Badescu, George

AU - Baker, Matthew P.

AU - Bird, Matthew

AU - Frigerio, Mark

AU - Godwin, Antony

PY - 2017/5/10

Y1 - 2017/5/10

N2 - Antibody-drug conjugates (ADCs) are a promising class of anticancer agents which have undergone substantial development over the past decade and are now achieving clinical success. The development of novel site-specific conjugation technologies enables the systematic study of architectural features within the antibody conjugated drug linker that may affect overall therapeutic indices. Here we describe the results of a systematic study investigating the impact of drug-linker design on the in vivo properties of a series of homogeneous ADCs with a conserved site of conjugation, a monodisperse drug loading, a lysosomal release functionality and monomethyl auristatin E as a cytotoxic payload. The ADCs, which differed only in the relative position of certain drug-linker elements within the reagent, were first evaluated in vitro using anti-proliferation assays and in vivo using mouse pharmacokinetics (PK). Regardless of the position of a discrete polymer unit, the ADCs showed comparable in vitro potencies, but the in vivo PK properties varied widely. The best performing drug-linker design was further used to prepare ADCs with different drug loadings of 4, 6 and 8 drugs per antibody and compared to Adcetris® in a Karpas-299 mouse xenograft model. The most efficacious ADC showed complete tumor regression and 10/10 tumor free survivors at a single 0.5 mg/kg dose. This study revealed drug-linker design as a critical parameter in ADC development, with the potential to enhance ADC in vivo potency for producing more efficacious ADCs.

AB - Antibody-drug conjugates (ADCs) are a promising class of anticancer agents which have undergone substantial development over the past decade and are now achieving clinical success. The development of novel site-specific conjugation technologies enables the systematic study of architectural features within the antibody conjugated drug linker that may affect overall therapeutic indices. Here we describe the results of a systematic study investigating the impact of drug-linker design on the in vivo properties of a series of homogeneous ADCs with a conserved site of conjugation, a monodisperse drug loading, a lysosomal release functionality and monomethyl auristatin E as a cytotoxic payload. The ADCs, which differed only in the relative position of certain drug-linker elements within the reagent, were first evaluated in vitro using anti-proliferation assays and in vivo using mouse pharmacokinetics (PK). Regardless of the position of a discrete polymer unit, the ADCs showed comparable in vitro potencies, but the in vivo PK properties varied widely. The best performing drug-linker design was further used to prepare ADCs with different drug loadings of 4, 6 and 8 drugs per antibody and compared to Adcetris® in a Karpas-299 mouse xenograft model. The most efficacious ADC showed complete tumor regression and 10/10 tumor free survivors at a single 0.5 mg/kg dose. This study revealed drug-linker design as a critical parameter in ADC development, with the potential to enhance ADC in vivo potency for producing more efficacious ADCs.

KW - Antibody-drug conjugates

KW - Drug design

KW - In vivo efficacy

KW - Lysosomal release

KW - Mouse xenograft

KW - Pharmacokinetics

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U2 - 10.1016/j.jconrel.2017.02.027

DO - 10.1016/j.jconrel.2017.02.027

M3 - Article

AN - SCOPUS:85016163380

SN - 0168-3659

VL - 253

SP - 160

EP - 164

JO - Journal of Controlled Release

JF - Journal of Controlled Release

ER -

Modulation of drug-linker design to enhance in vivo potency of homogeneous antibody-drug conjugates

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Keywords

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