Litcius/Paper detail

Transcriptional re-programming of insulin B-chain epitope-specific T-follicular helper cells into anti-diabetogenic T-regulatory type-1 cells

Patricia Solé, Daniel Parras, Jun Yamanouchi, Josep Garnica, Nahir Garabatos, Joel Moro, Javier Montaño, Debajyoti Mondal, César Fandos, Yang Yang, Pau Serra, Pere Santamaría

2023Frontiers in Immunology20 citationsDOIOpen Access PDF

Abstract

Systemic delivery of nanoparticles (NPs) coated with mono-specific autoimmune disease-relevant peptide-major histocompatibility complex class II (pMHCII) molecules can resolve organ inflammation in various disease models in a disease-specific manner without impairing normal immunity. These compounds invariably trigger the formation and systemic expansion of cognate pMHCII-specific T-regulatory type 1 (TR1) cells. By focusing on type 1 diabetes (T1D)-relevant pMHCII-NP types that display an epitope from the insulin B-chain bound to the same MHCII molecule (IA g7 ) on three different registers, we show that pMHCII-NP-induced TR1 cells invariably co-exist with cognate T-Follicular Helper (TFH)-like cells of quasi-identical clonotypic composition and are oligoclonal, yet transcriptionally homogeneous. Furthermore, these three different TR1 specificities have similar diabetes reversal properties in vivo despite being uniquely reactive against the peptide MHCII-binding register displayed on the NPs. Thus, pMHCII-NP treatment using nanomedicines displaying different epitope specificities results in the simultaneous differentiation of multiple antigen-specific TFH-like cell clones into TR1-like cells that inherit the fine antigenic specificity of their precursors while acquiring a defined transcriptional immunoregulatory program.

Topics & Concepts

EpitopeAntigenBiologyImmunogenicityMajor histocompatibility complexImmunologyCell biologyAutoimmunityChemistryImmune systemDiabetes and associated disordersImmune Cell Function and InteractionT-cell and B-cell Immunology