TY - JOUR
T1 - The DEL-1/β3 integrin axis promotes regulatory T cell responses during inflammation resolution
AU - Li, Xiaofei
AU - Colamatteo, Alessandra
AU - Kalafati, Lydia
AU - Kajikawa, Tetsuhiro
AU - Wang, Hui
AU - Lim, Jong Hyung
AU - Bdeir, Khalil
AU - Chung, Kyoung Jin
AU - Yu, Xiang
AU - Fusco, Clorinda
AU - Porcellini, Antonio
AU - de Simone, Salvatore
AU - Matarese, Giuseppe
AU - Chavakis, Triantafyllos
AU - de Rosa, Veronica
AU - Hajishengallis, George
N1 - Funding Information:
This work was supported by grants from the NIH (DE024153, DE024716, and DE029436 to GH; DE028561 and DE026152 to GH and TC; NS091793 to KB), the German Research Foundation (SFB1181 to TC), the European Research Council (DEMETINL to TC), Fondazione Italiana Sclerosi Multipla (FISM no. 2018/R/4 to VDR, FISM n. 2016/R/18 and FISM no. 2018/S/5 to GM), the Universita degli Studi di Napoli “Federico II” (STAR Program Linea 1-2018 funded by UniNA and by Compagnia di San Paolo to VDR), Ministry of Health (Bando Ricerca Finalizzata 2016 (GR-2016-02363725 to VDR) and Ministry of Education, University and Research (MIUR) (Bando PRIN 2017 Prot. 2017K7FSYB to VDR and Bando PRIN 2017 Prot. 2017K55HLC to GM) and Telethon (no. GGP 17086 to GM).
Funding Information:
This work was supported by grants from the NIH (DE024153, DE024716, and DE029436 to GH; DE028561 and DE026152 to GH and TC; NS091793 to KB), the German Research Foundation (SFB1181 to TC), the European Research Council (DEMETINL to TC), Fondazione Italiana Sclerosi Multipla (FISM no. 2018/R/4 to VDR, FISM n. 2016/R/18 and FISM no. 2018/S/5 to GM), the Univer-sità degli Studi di Napoli “Federico II” (STAR Program Linea 1-2018 funded by UniNA and by Compagnia di San Paolo to VDR), Ministry of Health (Bando Ricerca Finalizzata 2016 (GR-2016-02363725 to VDR) and Ministry of Education, University and Research (MIUR) (Bando PRIN 2017 Prot. 2017K7FSYB to VDR and Bando PRIN 2017 Prot. 2017K55HLC to GM) and Telethon (no. GGP 17086 to GM).
Publisher Copyright:
© 2020, American Society for Clinical Investigation.
PY - 2020/12/1
Y1 - 2020/12/1
N2 - FOXP3+CD4+ regulatory T cells (Tregs) are critical for immune homeostasis and respond to local tissue cues, which control their stability and function. We explored here whether developmental endothelial locus-1 (DEL-1), which, like Tregs, increases during resolution of inflammation, promotes Treg responses. DEL-1 enhanced Treg numbers and function at barrier sites (oral and lung mucosa). The underlying mechanism was dissected using mice lacking DEL-1 or expressing a point mutant thereof, or mice with T cell–specific deletion of the transcription factor RUNX1, identified by RNA sequencing analysis of the DEL-1–induced Treg transcriptome. Specifically, through interaction with αvβ3 integrin, DEL-1 promoted induction of RUNX1-dependent FOXP3 expression and conferred stability of FOXP3 expression upon Treg restimulation in the absence of exogenous TGF-β1. Consistently, DEL-1 enhanced the demethylation of the Treg-specific demethylated region (TSDR) in the mouse Foxp3 gene and the suppressive function of sorted induced Tregs. Similarly, DEL-1 increased RUNX1 and FOXP3 expression in human conventional T cells, promoting their conversion into induced Tregs with increased TSDR demethylation, enhanced stability, and suppressive activity. We thus uncovered a DEL-1/αvβ3/RUNX1 axis that promotes Treg responses at barrier sites and offers therapeutic options for modulating inflammatory/autoimmune disorders.
AB - FOXP3+CD4+ regulatory T cells (Tregs) are critical for immune homeostasis and respond to local tissue cues, which control their stability and function. We explored here whether developmental endothelial locus-1 (DEL-1), which, like Tregs, increases during resolution of inflammation, promotes Treg responses. DEL-1 enhanced Treg numbers and function at barrier sites (oral and lung mucosa). The underlying mechanism was dissected using mice lacking DEL-1 or expressing a point mutant thereof, or mice with T cell–specific deletion of the transcription factor RUNX1, identified by RNA sequencing analysis of the DEL-1–induced Treg transcriptome. Specifically, through interaction with αvβ3 integrin, DEL-1 promoted induction of RUNX1-dependent FOXP3 expression and conferred stability of FOXP3 expression upon Treg restimulation in the absence of exogenous TGF-β1. Consistently, DEL-1 enhanced the demethylation of the Treg-specific demethylated region (TSDR) in the mouse Foxp3 gene and the suppressive function of sorted induced Tregs. Similarly, DEL-1 increased RUNX1 and FOXP3 expression in human conventional T cells, promoting their conversion into induced Tregs with increased TSDR demethylation, enhanced stability, and suppressive activity. We thus uncovered a DEL-1/αvβ3/RUNX1 axis that promotes Treg responses at barrier sites and offers therapeutic options for modulating inflammatory/autoimmune disorders.
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U2 - 10.1172/JCI137530
DO - 10.1172/JCI137530
M3 - Article
C2 - 32817592
AN - SCOPUS:85097112368
SN - 0021-9738
VL - 130
SP - 6261
EP - 6277
JO - Journal of Clinical Investigation
JF - Journal of Clinical Investigation
IS - 12
ER -