Incorporation of Phosphonate into Benzonaphthyridine Toll-like Receptor 7 Agonists for Adsorption to Aluminum Hydroxide

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 2016 Jun 9

PMID 27270029

Citations 18

Authors

Alex Cortez

Yongkai Li

Andrew T Miller

Xiaoyue Zhang

Kathy Yue

Jillian Maginnis

Janice Hampton

De Shon Hall

Michael Shapiro

Bishnu Nayak

Ugo DOro

Chun Li

David Skibinski

M Lamine Mbow

Manmohan Singh

Derek T OHagan

Michael P Cooke

Nicholas M Valiante

Tom Y-H Wu

Affiliations

Soon will be listed here.

Abstract

Small molecule Toll-like receptor 7 (TLR7) agonists have been used as vaccine adjuvants by enhancing innate immune activation to afford better adaptive response. Localized TLR7 agonists without systemic exposure can afford good adjuvanticity, suggesting peripheral innate activation (non-antigen-specific) is not required for immune priming. To enhance colocalization of antigen and adjuvant, benzonaphthyridine (BZN) TLR7 agonists are chemically modified with phosphonates to allow adsorption onto aluminum hydroxide (alum), a formulation commonly used in vaccines for antigen stabilization and injection site deposition. The adsorption process is facilitated by enhancing aqueous solubility of BZN analogs to avoid physical mixture of two insoluble particulates. These BZN-phosphonates are highly adsorbed onto alum, which significantly reduced systemic exposure and increased local retention post injection. This report demonstrates a novel approach in vaccine adjuvant design using phosphonate modification to afford adsorption of small molecule immune potentiator (SMIP) onto alum, thereby enhancing co-delivery with antigen.

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