Luke Harris scite author profile

Tumor-selective delivery of cytotoxic agents in the form of antibody-drug conjugates (ADCs) is now a clinically validated approach for cancer treatment. In an attempt to improve the clinical success rate of ADCs, emphasis has been recently placed on the use of DNA-cross-linking pyrrolobenzodiazepine compounds as the payload. Despite promising early clinical results with this class of ADCs, doses achievable have been low due to systemic toxicity. Here we describe the development of a new class of potent DNA-interacting agents wherein changing the mechanism of action from a cross-linker to a DNA alkylator improves the tolerability of the ADC. ADCs containing the DNA alkylator displayed similar in vitro potency, but improved bystander killing and in vivo efficacy, compared to those of the cross-linker. Thus, the improved in vivo tolerability and anti-tumor activity achieved in rodent models with ADCs of the novel DNA alkylator could provide an efficacious, yet safer option for cancer treatment.on May 9, 2018.

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Development of Anilino-Maytansinoid ADCs that Efficiently Release Cytotoxic Metabolites in Cancer Cells and Induce High Levels of Bystander Killing

Widdison

Ponte

Coccia

et al. 2015

Bioconjugate Chem.

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Antibody anilino maytansinoid conjugates (AaMCs) have been prepared in which a maytansinoid bearing an aniline group was linked through the aniline amine to a dipeptide, which in turn was covalently attached to a desired monoclonal antibody. Several such conjugates were prepared utilizing different dipeptides in the linkage including Gly-Gly, l-Val-l-Cit, and all four stereoisomers of the Ala-Ala dipeptide. The properties of AaMCs could be altered by the choice of dipeptide in the linker. Each of the AaMCs, except the AaMC bearing a d-Ala-d-Ala peptide linker, displayed more bystander killing in vitro than maytansinoid ADCs that utilize disulfide linkers. In mouse models, the anti-CanAg AaMC bearing a d-Ala-l-Ala dipeptide in the linker was shown to be more efficacious against heterogeneous HT-29 xenografts than maytansinoid ADCs that utilize disulfide linkers, while both types of the conjugates displayed similar tolerabilities.

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Optimizing Lysosomal Activation of Antibody–Drug Conjugates (ADCs) by Incorporation of Novel Cleavable Dipeptide Linkers

et al. 2019

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Although peptide linkers are used in multiple clinical-stage ADCs, there are only few reports on optimizing peptide linkers for efficient lysosomal proteolysis and for stability in circulation. We screened multiple dipeptide linkers for efficiency of proteolysis and compared them to the dipeptide linkers currently being evaluated in the clinic: Val-Cit, Val-Ala, and Ala-Ala. Lead dipeptide linkers selected from the initial screen were incorporated into ADCs with indolinobenzodiazepine dimer (IGN) payloads to evaluate cellular processing, in vitro cytotoxic activity, plasma stability, and in vivo efficacy. ADCs with several dipeptide linkers bearing l-amino acids showed faster lysosomal processing in target cancer cells compared to the l-Ala-l-Ala linked ADC. These variances in linker processing rates did not result in different in vitro and in vivo activities among peptide linker ADCs, presumably due to accumulation of threshold cytotoxic catabolite levels for ADCs of several peptide linkers in the cell lines and xenografts tested. ADCs with l-amino acid dipeptide linkers exhibited superior in vitro cytotoxic potencies in multiple cell lines compared to an ADC with a d-Ala-d-Ala dipeptide linker and an ADC with a noncleavable linker. This work adds to the toolbox of stable, lysosomally cleavable peptide linkers for ADCs.

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Inhibitors of Plasmepsin II – Potential Antimalarial Agents

Boss¹,

Richard‐Bildstein²,

Furnari³

et al. 2004

Chimia

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Malaria is a very serious infectious disease affecting over two billion people worldwide. Currently available antimalarial drugs are losing effectiveness due to the emergence and the spread of resistant parasite strains. In order to regain control over the disease, new treatments are urgently needed. Drug discovery efforts in this direction are most likely to be successful if they target a novel mechanism of action. Such approaches will lead to antimalarial medicines that are functionally and structurally different from the existing drugs and therefore will have the potential to overcome existing resistances. Our own efforts are focused on the aspartic protease plasmepsin II (PMII) which is a promising new drug target for future antimalarial therapies. We have found structurally simple, moderately active, non-peptide inhibitors of plasmepsin II which offer ample opportunity for further optimization efforts.

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Effect of Linker Stereochemistry on the Activity of Indolinobenzodiazepine Containing Antibody–Drug Conjugates (ADCs)

Reid

Archer

Shizuka

et al. 2019

ACS Med. Chem. Lett.

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Antibody−drug conjugates (ADCs) that incorporate potent indolinobenzodiazepine DNA alkylators as the payload component are currently undergoing clinical evaluation. In one ADC design, the payload molecules are linked to the antibody through a peptidase-labile L-Ala-L-Ala linker. In order to determine the role of amino acid stereochemistry on antitumor activity and tolerability, we incorporated L-and D-alanyl groups in the dipeptide, synthesized all four diastereomers, and prepared and tested the corresponding ADCs. Results of our preclinical evaluation showed that the L-Ala-L-Ala configuration provided the ADC with the highest therapeutic index (antitumor activity vs toxicity).

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Luke Harris

A DNA-Interacting Payload Designed to Eliminate Cross-Linking Improves the Therapeutic Index of Antibody–Drug Conjugates (ADCs)

Development of Anilino-Maytansinoid ADCs that Efficiently Release Cytotoxic Metabolites in Cancer Cells and Induce High Levels of Bystander Killing

Optimizing Lysosomal Activation of Antibody–Drug Conjugates (ADCs) by Incorporation of Novel Cleavable Dipeptide Linkers

Inhibitors of Plasmepsin II – Potential Antimalarial Agents

Effect of Linker Stereochemistry on the Activity of Indolinobenzodiazepine Containing Antibody–Drug Conjugates (ADCs)

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