Temel Kavramlar
Regulatory T cells produce the analgesic peptide enkephalin, which modulates basal somatic sensitivity in mice.
Özet
This study investigates the role of regulatory T cells (Treg) in modulating pain sensitivity at steady state through the production of the analgesic peptide enkephalin.
Key highlights:
- A meta-analysis of Treg transcriptomes reveals that the proenkephalin gene (Penk), encoding the precursor of analgesic opioid peptides, is among the top genes most enriched in Treg compared to conventional T cells.
- Penk expression in Treg is regulated by TNFR signaling and the transcription factor BATF.
- Penk is predominantly expressed by Treg, especially in peripheral tissues like the skin and colon, compared to other T cell subsets.
- Deletion of Penk specifically in Treg leads to heat hyperalgesia in mice, without affecting the immunosuppressive functions of Treg.
- Treg producing enkephalins are observed in close contact with CGRP-expressing nociceptive neurons in the skin, suggesting a direct modulation of pain sensation.
Overall, the results indicate that Treg-derived enkephalins play a key role in the endogenous regulation of basal somatic sensitivity, revealing a novel non-immune function of Treg.
İstatistikler
Penk ranks among the top 25 genes most enriched in Treg compared to conventional T cells.
Penk expression is highly correlated with the expression of TNFR family members and the transcription factor BATF in Treg.
Deletion of Penk in Treg leads to a 20% reduction in the median latency period to heat stimulation compared to wild-type controls.
Alıntılar
"Treg-derived enkephalins might regulate pain at multiple sites, including the DRG and peripheral tissues, such as the skin or the colon."
"Penk expression is mostly detected in Treg and activated Tconv in non-inflammatory conditions in the colon and skin."
"Treg proficient or deficient for Penk suppress equally well the proliferation of effector T cells in vitro and autoimmune colitis in vivo."