Checkpoint Receptor TIGIT Expressed on Tim-1+ B Cells Regulates Tissue Inflammation.

Tim-1, a phosphatidylserine receptor expressed on B cells, induces interleukin 10 (IL-10) production by sensing apoptotic cells. Here we show that mice with B cell-specific Tim-1 deletion develop tissue inflammation in multiple organs including spontaneous paralysis with inflammation in the central nervous system (CNS). Transcriptomic analysis demonstrates that besides IL-10, Tim-1+ B cells also differentially express a number of co-inhibitory checkpoint receptors including TIGIT. Mice with B cell-specific TIGIT deletion develop spontaneous paralysis with CNS inflammation, but with limited inflammation in other organs. Our findings suggest that Tim-1+ B cells are essential for maintaining self-tolerance and restraining tissue inflammation, and that Tim-1 signaling-dependent TIGIT expression on B cells is essential for maintaining CNS-specific tolerance. A possible critical role of aryl hydrocarbon receptor (AhR) in regulating the B cell function is discussed, as we find that AhR is among the preferentially expressed transcription factors in Tim-1+ B cells and regulates their TIGIT and IL-10 expression.

BPI Fold-Containing Family A Member 2/Parotid Secretory Protein Is an Early Biomarker of AKI.

AKI is a major cause of morbidity and mortality and an important contributor to the development and progression of CKD. Molecular biomarkers that improve the detection and prognostication of AKI are therefore required. We assessed the utility as such of BPI fold-containing family A member 2 (BPIFA2), also known as parotid secretory protein, which we identified via a multiplex quantitative proteomics screen of acutely injured murine kidneys. In physiologic conditions, BPIFA2 is expressed specifically in the parotid glands and is abundant in salivary secretions. In our study, AKI induced Bpifa2 expression in the kidneys of mice within 3 hours. Furthermore, we detected BPIFA2 protein in plasma and urine in these models as early as 6 hours after injury. However, renal injury did not induce the expression of Bpifa2 in mice lacking Nur77, an immediate early gene expressed in the kidneys during AKI. Notably, patients with AKI had higher blood and urine levels of BPIFA2 than did healthy individuals. Together, our results reveal that BPIFA2 is a potential early biomarker of AKI.