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The Development of Vinylheteroarene Linkers for Proteinogenic Cysteine Modification and Studies Towards Applying (+)-Discodermolide as a Novel Payload in Antibody-Drug Conjugates


Type

Thesis

Change log

Authors

Seki, Hikaru 

Abstract

The Development of Vinylheteroarene Linkers for Proteinogenic Cysteine Modification and Studies Towards Applying (+)-Discodermolide as a Novel Payload in Antibody-Drug Conjugates

Hikaru Seki

Antibody-drug conjugates (ADCs) are an emerging class of anticancer agents which combine the cell-targeting properties of a monoclonal antibody and the cytotoxicity of a small molecule drug. The antibody, cytotoxin and the covalent linker which connects the two units must be optimised for the ADC to have favourable pharmacokinetic, toxicology, and overall pharmacological profiles.

The first project describes the design, synthesis, and evaluation of vinylheteroarene linkers for the post-translational modification of proteinogenic cysteine residues. It was hypothesised that the variable heteroarene ring electronics would greatly affect the conjugate addition reaction rate and resulting bioconjugate stability. Thus, a panel of vinylheteroarenes with differing heterocyclic groups were synthesised and evaluated for their suitability. Using small molecule model systems, vinylheteroarene linkers were assessed for cysteine reactivity and chemoselectivity, and conjugate stability to identify the optimum linker. The lead linker was utilised to modify a number of protein substrates with various functionality, including the synthesis of a homogeneous, stable and biologically active ADC. The reagent was also efficient in labelling proteome-wide cysteines in cell lysates. The efficiency and selectivity of these reagents as well as the stability of the products makes them suitable for the generation of biotherapeutics or studies in chemical biology.

The second project describes studies towards using (+)-discodermolide as a cytotoxic payload in ADCs. Discodermolide is a polyketide natural product which displays potent activity as an antimitotic agent and is known to be effective against a range of malignancy types. It was desired was to attach discodermolide to an antibody using a cleavable linker which would enable traceless release of the cytotoxin. The alcohol groups in discodermolide presented an opportunity to achieve this in a chemically tractable way. Thus, a valine-alanine-para-aminobenzylcarbonyl-hemiaminal linker was designed for the selective cleavage and payload release by lysosomal cathepsin enzymes. Importantly, this linker strategy allows the synthesis of linker-payloads in one synthetic step, making this a promising approach for the rapid assembly of ADCs using unexplored alcohol cytotoxins. Using this linker, a discodermolide ADC was successfully synthesised which can be used for biological evaluation.

Description

Date

2021-12-05

Advisors

Spring, David R

Keywords

protein modification, antibody-drug conjugates, biotherapeutics

Qualification

Doctor of Philosophy (PhD)

Awarding Institution

University of Cambridge
Sponsorship
Geoffrey Moorhouse Gibson Studentship in Chemistry Trinity College