Langerhans Cells Control Lymphatic Vessel Function during Inflammation via LIGHT-LTβR Signaling.
Zhongnan WangWenjun WangQian ChaiMingzhao ZhuPublished in: Journal of immunology (Baltimore, Md. : 1950) (2019)
The lymphatic vasculature is an important route for dendritic cell (DC) or tumor cell migration from peripheral tissues to draining lymph nodes (DLNs). However, the underlying molecular and cellular mechanisms remain poorly understood. In this study, using conventional bone marrow chimeric mice and additional UVB radiation, we found that deficiency of LIGHT but not lymphotoxin (LT) α1β2, likely on radioresistant Langerhans cells (LCs), resulted in impaired skin DC migration to DLNs during LPS-induced inflammation. In addition, LT β receptor (LTβR), but not herpes virus entry mediator, was found to be the receptor of LIGHT controlling DC migration. Furthermore, conditional deficiency of LTβR in Tie2 cre or Lyve1 cre mice, but not in LTβR-deficient bone marrow chimeric mice, impaired DC migration, suggesting an important role of LTβR in radioresistant lymphatic endothelial cells (LECs), although the role of LTβR in blood endothelial cells remains intriguing. Mechanistically, the gene expression of both CCL21 and CCL19 was found to be reduced in skin LECs isolated from LC-LIGHT-conditionally deficient or Lyve1 cre Ltbr fl/fl mice compared with their controls upon LPS stimulation. Soluble recombinant LIGHT was able to upregulate CCL21 and CCL19 gene expression on SVEC4-10 endothelial cells. Doxycycline, an inhibitor of soluble LIGHT release in the inflamed skin, impaired skin CCL21 and CCL19 expression and DC migration. In addition, melanoma cell metastasis to DLNs was also inhibited in LC-LIGHT-conditionally deficient or Lyve1 cre Ltbr fl/fl mice. Together, our data suggest, to our knowledge, a previously unrecognized scenario in which LCs activate LECs via the LIGHT-LTβR signaling axis to promote DC migration or tumor cell metastasis.
Keyphrases
- dendritic cells
- gene expression
- endothelial cells
- lymph node
- bone marrow
- lps induced
- high fat diet induced
- cell therapy
- liver fibrosis
- liver injury
- induced apoptosis
- wild type
- inflammatory response
- mesenchymal stem cells
- oxidative stress
- soft tissue
- healthcare
- stem cells
- wound healing
- cell migration
- single cell
- early stage
- type diabetes
- high resolution
- insulin resistance
- regulatory t cells
- high glucose
- replacement therapy
- radiation therapy
- metabolic syndrome
- electronic health record
- artificial intelligence
- single molecule
- anti inflammatory