Neutrophil-Mimetic MRI Enables Ultra-Early Detection of Vascular Inflammation After Stroke.

Le 01 Juil 2026

Auteur : Morvan MI, Levard D, Lemarchand E, Boublay A, Helaine C, Malherbe J, Naveau M, Goux D, Khalin I, Talukdar A, Pelleter C, Jacqmarcq C, Baudron E, Bardou I, Martinez de Lizarrondo S, Gauberti M, Vivien D, Fournier AP

Année : 2026

Journal : Adv Healthc Mater 2192-2659

PubMed Id : 42260622

Following ischemic stroke, neutrophil adhesion to activated cerebral endothelium triggers the initial inflammatory cascade. Real-time, quantitative in vivo detection of this early interaction could help identify individuals most likely to benefit from immunomodulatory therapies. To achieve this, we analyzed single-cell RNA sequencing data from brain tissue and identified E-selectin (Sele) as one of the earliest adhesion molecules selectively upregulated in activated endothelial cells with a venous-like transcriptional signature. We then developed iron oxide microparticles targeting E-selectin, designed to mimic neutrophil adhesion and to function as MRI probes for early endothelial activation. Within seconds of injection, these probes adhered to inflamed vessels in models of LPS-induced neuroinflammation and ischemic stroke, allowing rapid emergency imaging. We observed an MRI-detectable signal as early as 4 h following LPS stimulation and 8 h post-stroke. This binding was significantly associated with neutrophil infiltration, but not with lesion volume, blood-brain barrier disruption, or the accumulation of T cells and monocyte-derived cells. These findings demonstrate its specificity for neutrophil-driven inflammation and its relevance as a biomarker of ultra-early immune activation. These results suggest that neutrophil-mimetic MRI probes could represent a promising approach for detecting the initial phase of stroke-induced inflammation and for guiding personalized immunomodulatory strategies.