Modi-2 a vaccine stimulating CD4 responses to homocitrullinated self epitopes as therapy for solid cancers

Abdullah A. Al-Omari; Katherine W. Cook; Peter Symonds; Anne Skinner; Alissa Wright; Yaling Zhu; Vincent L. Coble; Omar J. Mohammed; Ruhul H. Choudhury; Nazim Uddin; Priscilla Ranglani; Adrian Parry; Sally E. Adams; Geoffrey M. Lynn; Lindy G. Durrant; Victoria A. Brentville

doi:10.1038/s41541-024-01029-1

npj Vaccines (Nov 2024)

Modi-2 a vaccine stimulating CD4 responses to homocitrullinated self epitopes as therapy for solid cancers

Abdullah A. Al-Omari,
Katherine W. Cook,
Peter Symonds,
Anne Skinner,
Alissa Wright,
Yaling Zhu,
Vincent L. Coble,
Omar J. Mohammed,
Ruhul H. Choudhury,
Nazim Uddin,
Priscilla Ranglani,
Adrian Parry,
Sally E. Adams,
Geoffrey M. Lynn,
Lindy G. Durrant,
Victoria A. Brentville

Affiliations

Abdullah A. Al-Omari: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Katherine W. Cook: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Peter Symonds: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Anne Skinner: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Alissa Wright: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Yaling Zhu: Barinthus Biotherapeutics North America, Inc; 20400 Century Blvd, Suite 210
Vincent L. Coble: Barinthus Biotherapeutics North America, Inc; 20400 Century Blvd, Suite 210
Omar J. Mohammed: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Ruhul H. Choudhury: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Nazim Uddin: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Priscilla Ranglani: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Adrian Parry: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Sally E. Adams: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Geoffrey M. Lynn: Barinthus Biotherapeutics North America, Inc; 20400 Century Blvd, Suite 210
Lindy G. Durrant: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park
Victoria A. Brentville: Scancell Ltd; Bellhouse Building, Sanders Road, Oxford Science Park

DOI: https://doi.org/10.1038/s41541-024-01029-1
Journal volume & issue: Vol. 9, no. 1
pp. 1 – 13

Abstract

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Abstract Stresses within the tumour microenvironment can mediate post-translational modifications of self-proteins. Homocitrullination is the conversion of lysine to homocitrulline which generates neoepitopes and bypasses self-tolerance. In this study a vaccine targeting homocitrullinated antigens was assessed for stimulation of anti-tumour immunity. Peptides that bind HLA are often hydrophobic which can complicate large scale manufacture and solubility. Here we demonstrate the self-assembling nanoparticle technology (SNAPvaxTM) to co-deliver four homocitrullinated peptides and adjuvant in nanoparticles of a precise size and composition as a vaccine (“Modi-2”) that is optimized for manufacturing ease and T cell induction. Strong T cell responses and anti-tumour immunity in mouse tumour models was stimulated against against B16 melanoma (p = 0.0113), CT26 colorectal cancer (p < 0.0001) and 4T1 breast cancer (p = 0.0090). We demonstrate that human lung, colorectal, breast and prostate tumours express the Modi-2 target antigens and propose the Modi-2 vaccine has potential for translation into clinic in several cancer indications.

Published in npj Vaccines

ISSN: 2059-0105 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Immunologic diseases. Allergy; Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://www.nature.com/npjvaccines/

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