The γδ IEL effector API5 masks genetic susceptibility to Paneth cell death.
Yu Matsuzawa-IshimotoXiaomin YaoAkiko KoideBeatrix M UeberheideJordan E AxelradBernardo Sgarbi ReisRoham ParsaJessica A NeilJoseph C DevlinEugene RudenskyM Zahidunnabi DewanMichael CammerRichard S BlumbergYi DingKelly V RugglesDaniel MucidaShohei KoideKen H CadwellPublished in: Nature (2022)
Loss of Paneth cells and their antimicrobial granules compromises the intestinal epithelial barrier and is associated with Crohn's disease, a major type of inflammatory bowel disease 1-7 . Non-classical lymphoid cells, broadly referred to as intraepithelial lymphocytes (IELs), intercalate the intestinal epithelium 8,9 . This anatomical position has implicated them as first-line defenders in resistance to infections, but their role in inflammatory disease pathogenesis requires clarification. The identification of mediators that coordinate crosstalk between specific IEL and epithelial subsets could provide insight into intestinal barrier mechanisms in health and disease. Here we show that the subset of IELs that express γ and δ T cell receptor subunits (γδ IELs) promotes the viability of Paneth cells deficient in the Crohn's disease susceptibility gene ATG16L1. Using an ex vivo lymphocyte-epithelium co-culture system, we identified apoptosis inhibitor 5 (API5) as a Paneth cell-protective factor secreted by γδ IELs. In the Atg16l1-mutant mouse model, viral infection induced a loss of Paneth cells and enhanced susceptibility to intestinal injury by inhibiting the secretion of API5 from γδ IELs. Therapeutic administration of recombinant API5 protected Paneth cells in vivo in mice and ex vivo in human organoids with the ATG16L1 risk allele. Thus, we identify API5 as a protective γδ IEL effector that masks genetic susceptibility to Paneth cell death.
Keyphrases
- cell cycle arrest
- cell death
- induced apoptosis
- endoplasmic reticulum stress
- oxidative stress
- mouse model
- pi k akt
- signaling pathway
- type diabetes
- mental health
- endothelial cells
- immune response
- gene expression
- mesenchymal stem cells
- dna methylation
- climate change
- skeletal muscle
- transcription factor
- health information
- ulcerative colitis