Abstract
Toll-like receptors (TLRs) play a crucial role in the innate immune response. Although endosomal TLR7 recognizes single-stranded RNAs, their endogenous RNA ligands have not been fully explored. Here, we report 5′-tRNA half molecules as abundant activators of TLR7. Mycobacterial infection and accompanying surface TLR activation up-regulate the expression of 5′-tRNA half molecules in human monocyte-derived macrophages (HMDMs). The abundant accumulation of 5′-tRNA halves also occur in HMDM-secreted extracellular vehicles (EVs); the abundance of EV-5′-tRNAHisGUG half molecules is >200-fold higher than that of the most abundant EV-microRNA (miRNA). Sequence identification of the 5′-tRNA halves using cP-RNA-seq revealed abundant and selective packaging of specific 5′-tRNA half species into EVs. The EV-5′-tRNAHisGUG half was experimentally demonstrated to be delivered into endosomes in recipient cells and to activate endosomal TLR7. Up-regulation of the 5′-tRNA half molecules was also observed in the plasma of patients infected with Mycobacterium tuberculosis. These results unveil a novel tRNA-engaged pathway in the innate immune response and assign the role of “immune activators” to 5′-tRNA half molecules.
Highlights
There are many pathogenic microbes that induce a wide range of symptoms and diseases, including Mycobacterium tuberculosis (Mtb), one of the greatest threats to humans, causing more than 1.2 million deaths annually [1]
The induction of 50-transfer tRNA (tRNA) half expression was independent of the viability of Mycobacterium bovis BCG (BCG) (Fig 1A), suggesting that the induction could result from the pathway of surface Toll-like receptor (TLR), which recognize BCG pathogen-associated molecular pattern (PAMP), or from the process of endocytosis
Both BCG infection and PAMP-mediated surface TLR activation induced the expression of 50-tRNA halves in human monocyte-derived macrophage (HMDM)
Summary
There are many pathogenic microbes that induce a wide range of symptoms and diseases, including Mycobacterium tuberculosis (Mtb), one of the greatest threats to humans, causing more than 1.2 million deaths annually [1]. When a host is infected with pathogenic microbes, it has 2 essential arms of defense to eliminate them: the innate immune system and the adaptive immune system [2]. In the innate immune system, Toll-like receptors (TLRs) and other pathogen recognition receptors detect pathogen-associated molecular patterns (PAMPs) and initiate protective responses [3,4]. When TLRs recognize PAMPs, they recruit adaptor proteins, such as MyD88 and TRIF, to initiate signal transduction pathways that culminate in the activation of transcription factors such as NF-κB and AP-1, leading to the production of cytokines and chemokines for host defense [5,6].
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