TY - JOUR
T1 - TET2 regulates immune tolerance in chronically activated mast cells
AU - Rigo, Riccardo
AU - Chelbi, Rabie
AU - Agopian, Julie
AU - Letard, Sebastien
AU - Griffon, Aurélien
AU - Ghamlouch, Hussein
AU - Vernerey, Julien
AU - Ladopoulos, Vasileios
AU - Voisset, Edwige
AU - De Sepulveda, Paulo
AU - Guittard, Geoffrey
AU - Nunès, Jacques A.
AU - Bidaut, Ghislain
AU - Göttgens, Berthold
AU - Weber, Michael
AU - Bernard, Olivier A.
AU - Dubreuil, Patrice
AU - Soucie, Erinn
N1 - Publisher Copyright:
© 2022, Rigo et al.
PY - 2022/4/8
Y1 - 2022/4/8
N2 - Mutation of the TET2 DNA-hydroxymethylase has been associated with a number of immune pathologies. The disparity in phenotype and clinical presentation among these pathologies leads to questions regarding the role of TET2 mutation in promoting disease evolution in different immune cell types. Here we show that, in primary mast cells, Tet2 expression is induced in response to chronic and acute activation signals. In TET2-deficient mast cells, chronic activation via the oncogenic KITD816V allele associated with mastocytosis, selects for a specific epigenetic signature characterized by hypermethylated DNA regions (HMR) at immune response genes. H3K27ac and transcription factor binding is consistent with priming or more open chromatin at both HMR and non-HMR in proximity to immune genes in these cells, and this signature coincides with increased pathological inflammation signals. HMR are also associated with a subset of immune genes that are direct targets of TET2 and repressed in TET2-deficient cells. Repression of these genes results in immune tolerance to acute stimulation that can be rescued with vitamin C treatment or reiterated with a Tet inhibitor. Overall, our data support a model where TET2 plays a direct role in preventing immune tolerance in chronically activated mast cells, supporting TET2 as a viable target to reprogram the innate immune response for innovative therapies.
AB - Mutation of the TET2 DNA-hydroxymethylase has been associated with a number of immune pathologies. The disparity in phenotype and clinical presentation among these pathologies leads to questions regarding the role of TET2 mutation in promoting disease evolution in different immune cell types. Here we show that, in primary mast cells, Tet2 expression is induced in response to chronic and acute activation signals. In TET2-deficient mast cells, chronic activation via the oncogenic KITD816V allele associated with mastocytosis, selects for a specific epigenetic signature characterized by hypermethylated DNA regions (HMR) at immune response genes. H3K27ac and transcription factor binding is consistent with priming or more open chromatin at both HMR and non-HMR in proximity to immune genes in these cells, and this signature coincides with increased pathological inflammation signals. HMR are also associated with a subset of immune genes that are direct targets of TET2 and repressed in TET2-deficient cells. Repression of these genes results in immune tolerance to acute stimulation that can be rescued with vitamin C treatment or reiterated with a Tet inhibitor. Overall, our data support a model where TET2 plays a direct role in preventing immune tolerance in chronically activated mast cells, supporting TET2 as a viable target to reprogram the innate immune response for innovative therapies.
UR - http://www.scopus.com/inward/record.url?scp=85128479276&partnerID=8YFLogxK
U2 - 10.1172/jci.insight.154191
DO - 10.1172/jci.insight.154191
M3 - Article
C2 - 35393954
AN - SCOPUS:85128479276
SN - 2379-3708
VL - 7
JO - JCI Insight
JF - JCI Insight
IS - 7
M1 - e154191
ER -