Lymph nodes (LNs) are highly confined environments with a cell-dense three-dimensional meshwork, in which lymphocyte migration is regulated by intracellular contractile proteins. However, the molecular cues directing intranodal cell migration remain poorly characterized. Here we demonstrate that lysophosphatidic acid (LPA) produced by LN fibroblastic reticular cells (FRCs) acts locally to LPA2 to induce T-cell motility. In vivo, either specific ablation of LPA-producing ectoenzyme autotaxin in FRCs or LPA2 deficiency in T cells markedly decreased intranodal T cell motility, and FRC-derived LPA critically affected the LPA2-dependent T-cell motility. In vitro, LPA activated the small GTPase RhoA in T cells and limited T-cell adhesion to the underlying substrate via LPA2. The LPA-LPA2 axis also enhanced T-cell migration through narrow pores in a three-dimensional environment, in a ROCK-myosin II-dependent manner. These results strongly suggest that FRC-derived LPA serves as a cell-extrinsic factor that optimizes T-cell movement through the densely packed LN reticular network.DOI:
http://dx.doi.org/10.7554/eLife.10561.001
Although the roles of acids in bone metabolism are well characterized, the function of proton-sensing receptors in bone metabolism remains to be explored. In this study, we evaluated the role of proton-sensing receptor T-cell death-associated gene 8 (TDAG8) in osteoclastic activity during bone loss after ovariectomy. Through observations of bone mineral content, we found that pathological bone resorption was significantly exacerbated in mice homozygous for a gene trap mutation in the Tdag8 gene. Furthermore, osteoclasts from the homozygous mutant mice resorbed calcium in vitro more than the osteoclasts from the heterozygous mice did. Impaired osteoclast formation under acidic conditions was ameliorated in cultures of bone marrow cells by Tdag8 gene mutation. Extracellular acidification changed the cell morphology of osteoclasts via the TDAG8-Rho signaling pathway. These results suggest that the enhancement of TDAG8 function represents a new strategy for preventing bone resorption diseases, such as osteoporosis.
Lysophosphatidic acid (LPA) is a pleiotropic lipid mediator that acts through G protein-coupled receptors (LPA1-6). Although several biological roles of LPA4 are becoming apparent, its role in hematopoiesis has remained unknown. Here, we show a novel regulatory role for LPA4 in hematopoiesis. Lpar4 mRNA was predominantly expressed in mouse bone marrow (BM) PDGFRα+ stromal cells, known as the components of the hematopoietic stem/progenitor cell (HSPC) niche. Compared with wild-type mice, LPA4-deficient mice had reduced HSPC numbers in the BM and spleen and were hypersusceptible to myelosuppression, most likely due to impairments in HSPC recovery and stem cell factor production in the BM. Analysis of reciprocal BM chimeras (LPA4-deficient BM into wild-type recipients and vice versa) indicated that stromal cells likely account for these phenotypes. Consistently, LPA4-deficient BM stromal cells showed downregulated mRNA expression of stem cell factor and tenascin-c in vitro. Taken together, these results suggest a critical and novel role for the LPA/LPA4 axis in regulating BM stromal cells.
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