Publications

Drug targeting can be achieved by coupling drugs or their carriers to affinity molecules, mostly antibodies (Abs), which recognise specific protein targets. However, most proteins are not expressed in an exclusive configuration but as various isoforms. Hence, selected targeting molecules may fail to target with enough efficiency in clinical trials, which is overlooked. We illustrate this by targeting intercellular adhesion molecule 1 (ICAM-1), a cell-surface protein overexpressed in many pathologies. Most ICAM-1 targeting studies used Ab R6.5, which binds ICAM-1 domain 2 (D2). Yet, literature and our data show that D2 is frequently absent among ICAM-1 isoforms. We thus produced a battery of five new Abs (B4, B6, B11, C12 and G2) and tested their ability to recognise both full-length and -D2 ICAM-1. In solution, all Abs recognised both ICAM-1 forms (from 5.3 x 1011 to 4.2 x 1012 sum intensity/well). Coating them on nanocarriers (NCs) rendered G2 specific against -D2 ICAM-1 (4.2 x 106 NCs/well) while other Abs kept their dual recognition (from 6.4 x 106 to 2.2 x 107 NCs/well). All Abs induced NC intracellular uptake in respective cells (from 42% to 85%) and displayed good cross-species reactivity (from 4.4 x 1011 to 2.6 x 1012 sum intensity/well). These Abs represent valuable tools to target ICAM-1 and illustrate a new targeting paradigm that may improve classical strategies.

JTD Keywords: Adhesion, Antibody-targeted nanocarriers, Cross-species reactivit, Design, Domai, Endothelial delivery, Enlimomab, Icam-1, Icam-1 isoforms, Intercellular adhesion molecule 1, Nanocarriers, Nanoparticles, New recombinant antibodies, Pecam-1, Targeting and intracellular trafficking

Intercellular adhesion molecule-1 (ICAM-1) is a membrane protein whose expression is enhanced at pathological sites, supporting drug delivery using nanocarriers (NCs). Any of its five extracellular domains (D1 to D5) can be targeted, yet most NC studies have used antibody (Ab) R6.5, which targets domain D2. While this provided efficient NC targeting and intracellular transport, literature indicates the absence of D2 in about 50 % of ICAM-1 isoforms expressed in mouse models. In this study, we verified the presence of ICAM-1 isoforms lacking D2 in human cells at both mRNA and protein levels, supporting the need to test Abs targeting other ICAM-1 domains. We developed a new cell model specifically lacking ICAM-1 D2 and compared R6.5 to Abs targeting D1 (Ab 15.2), D3D4 (Ab G-5), and D5 (Ab H-4). Abs G-5 and H-4 showed best targeting results, for which they were coated on model polymeric NCs. Compared to non-specific IgG NCs, both anti-ICAM-1 formulations targeted recombinant cells expressing human ICAM-1 lacking D2 and also primary cells naturally expressing the whole ICAM-1 isoform pattern observed. Both formulations were efficiently internalized by cells and trafficked to lysosomes, as previously observed for ICAM-1-targeting systems. Furthermore, NCs coated with either one of these two Abs showed good cross-species reactivity, being amenable for future pre-clinical testing. Therefore, Abs G-5 or H-4 are good options to provide ICAM-1 targeting without missing ICAM-1 isoforms lacking D2, present in human.

JTD Keywords: Adhesion molecule-1 icam-1, Anti-icam-1 antibody, Antibody-targeted nanocarriers, Design, Different receptor epitopes, Domai, Endothelial delivery, Enlimomab, Icam-1 extracellular domains, Icam-1 isoforms, Identification, Intercellular adhesion molecule 1, Monoclonal-antibodies, Nanoparticles, Targeting and endocytosi, Transport