Upstream ORFs control TNFR1 abundance and tissue tolerance to TNF.

Tumor necrosis factor (TNF) orchestrates immune responses but can also drive inflammation-associated tissue damage. However, the mechanisms governing tissue tolerance to TNF remain poorly understood. Here, we reveal that TNF receptor 1 (TNFR1) abundance is regulated by two upstream open reading frames (uORFs) in the 5' untranslated region of TNFRSF1A and demonstrate that this is a key determinant of TNF tolerance. uORF2 dominantly limits TNFR1 translation, and its disruption increases TNFR1 levels, leading to excessive TNF-induced gene activation and cell death in cell culture. By contrast, uORF1 dynamically regulates TNFR1 levels in response to inflammatory and stress signals. In mice, uORF2 protects against TNF-driven systemic inflammatory response syndrome and liver pathology. We additionally report that the translation of other immune receptor messenger RNAs, including TLR4, IFNAR1, and IFNGR2, is also controlled by uORFs. Thus, regulation of TNFR1 levels and possibly of other immune receptors emerges as a mechanism safeguarding against excessive immune responses and tissue damage.