The cys-cys (C-C) chemokine ligand 21 is a member of the C-C chemokines that constitute a group of heparin-binding cytokines with a pattern of four or six conserved cysteines. The CCL21 is known to be expressed in secondary lymphoid tissues, however it has rarely been reported for the expression on peripheral lymphatic vessels in somatic tissue. Here we investigated the expression of CCL21 on lymphatic vessels identified by anti-desmoplakin in uninflamed and inflamed human gingiva. In uninflamed tissue the expression of CCL21 was detected on lymphatic vessels in gingiva. In uninflamed gingiva the expression of CCL21 was detected on all lymphatic capillaries of the mucosal connective tissue papillae. There were two types of collecting lymphatic vessels in the lamina propria mucosae expressing CCL21 strongly or very weakly. In inflamed gingiva no expression of CCL21 was detected on lymphatic vessels. In all tissue sections no blood vessels expressing CCL21 were observed. These results may suggest that the expression of CCL21 is predominantly induced in the peripheral lymphatic endothelium of the uninflamed mucosal microcirculation, and that under inflamed conditions a reduction of CCL21 occurs in lymphatic endothelium.

During normal pregnancy, the thymus undergoes a severe reduction in size and thymocyte output, which may contribute to maternal-fetal tolerance. It is presently unknown whether the pregnancy-induced thymic involution also affects nonlymphoid thymic cell populations and whether these changes in stromal cells play a role in the reduction in thymocyte numbers. Here, we characterize the changes in thymic lymphoid and nonlymphoid cells and show that pregnancy results in a reduction of all major thymic lymphoid cell populations, including the early T-lymphoid progenitors (TLPs) and thymic regulatory T cells. In addition to the thymocytes, the thymic involution also includes all major nonlymphoid cell populations, which show a profound reduction in cell numbers. We also show that during pregnancy, the thymic nonlymphoid cells exhibit decreased expression of chemokines that are essential for TLP homing: CCL25, CXCL12, CCL21, and CCL19. In addition, the expression of these chemokines was substantially downregulated by short-term treatment with progesterone but not estrogen. Collectively, these findings suggest a novel mechanism for the pregnancy-induced reduction in TLP homing and the resulting thymic involution.

BACKGROUND

Dendritic cell (DC)-based vaccination has been investigated as immunotherapy for several types of cancer. A potential drawback to vaccination with autologous monocyte-derived DCs (MoDCs) could be that MoDCs from patients are functionally impaired. In case of androgen-independent prostate cancer (CaP), the cancer itself, diverse prior therapies, and the hormone manipulation may affect the immune system.

METHODS

MoDCs from patients suffering from androgen-independent CaP were generated according to a clinically applicable protocol to evaluate the phenotype, maturation capacity, migration, and T-cell stimulation of these cells compared with those generated from tumor-free donors.

RESULTS

MoDCs generated from CaP patients could be fully matured and efficiently migrated towards the chemokine CCL21. They had a strong potency to activate allogeneic CD4+ and CD8+ T-cells and to present antigens to specific CTL.

CONCLUSIONS

Our data suggest that MoDCs from patients with androgen-independent CaP are functionally intact and hence qualify as cellular vaccines for immunotherapy of advanced stage CaP.

To determine the extent to which splenic T cells were affected by Schistosoma mansoni infection, we investigated the ability of the T cells to produce interferon (IFN)-gamma, as well as their chemotactic ability 7 wk PI. In this study, we report that splenic T cells from Balb/c mice with S. mansoni infections were capable of producing levels of IFN-gamma comparable with splenic T cells from naive mice. However, the T cells exhibited altered chemotactic activity, as evidenced by an inability to respond to secondary lymphoid-tissue chemokine (SLC/CCL21). Although no difference in chemokine expression was found between the spleens of infected versus control mice, chemokine production was greater in the livers of infected versus control mice. Collectively, these data indicate that Balb/c mice with 7-wk S. mansoni infection possess splenic T cells with altered chemotactic activity and that the alterations may be a consequence of the granulomatous response in the liver.

BACKGROUND

Triptolide is an immunosuppressive fraction purified from a Chinese medicinal plant. In an effort to develop a new immunosuppressive strategy for vascularized composite allotransplantation, the authors investigated the effects of combined treatment with cyclosporin A and triptolide on the survival of rat groin flap allotransplants.

METHODS

Groin flap transplantation was performed from Brown Norway rats to Fischer 344 recipients, which were then treated with triptolide, cyclosporin A, or both. Flap biopsy specimens were harvested, stained, and submitted to histopathologic evaluation. Levels of CCR5, CCR7, CCL19, CCL21, and Foxp3 in spleen were examined by real-time polymerase chain reaction, and the percentage of CD4+CD25+ regulatory T cells was detected by flow cytometry.

RESULTS

The mean survival time for allografts in recipients receiving triptolide and cyclosporin A was 57 ± 7.7 days compared with 20.5 ± 2.3 days for cyclosporin A alone, 23.3 ± 3.6 days for triptolide alone, and 7.8 ± 0.8 days for no treatment. Histologic examination also showed that inflammatory cell infiltration was reduced in grafts with combination treatment. Down-regulation of CCR5, CCR7, and CCL19 in the combination treatment was accompanied by increased expression of Foxp3. Flow cytometric analysis also revealed that the percentage of CD4+CD25+ regulatory T cells in the combination treatment was higher than in the monotherapy groups.

CONCLUSIONS

Combination therapy with triptolide and cyclosporin A substantially prolonged allograft survival, which means calcineurin inhibitor-related drug-toxicity may be alleviated and treatment cost reduced. This immunosuppressive effect is mediated by inhibition of dendritic cells maturation and the expansion of regulatory T cells.

Cytokine LIGHT is a type II transmembrane protein belonging to the TNF family that was originally identified as a weak inducer of apoptosis. It plays a role in inducing maturation of dendritic cells, such as upregulating CD80, CD86 expression on dendritic cells. However, whether LIGHT induces CC chemokine expression in DC and promotes their migration remains unknown. In this study, we found that esDC express CCR7 and CCR10 (the receptor of CCL27) upon the LIGHT stimulation. LIGHT also upregulates CCL27, but not CCL19 and CCL21 expression in esDC. The esDC migration potential has been increased in LIGHT activated DCs compared with control cells. LIGHT activated DCs autocrine CCL27 which regulate their migration as Blockage of CCL27 on esDC using neutralizing antibody reduces migration potential. In signaling study, we identified that LIGHT activated NF-kappaB in esDC and inhibition of NF-kappaB activation by specific inhibitor can partly attenuate the effect of LIGHT in regulation of CCL27 expression. Moreover, Shp-2 is required in LIGHT activated NF-kappaB because Knockdown of Shp-2 affects the NF-kappaB activation induced by LIGHT and consequently influences LIGHT mediated CCL27 expression. TRAF6 is critical in DC maturation in recent reports; however, knockdown of TRAF6 expression using siRNA did not alter CCL27 expression in LIGHT matured DCs. Our study demonstrates that LIGHT stimulation enhances CCL27 expression through activation of NF-kappaB in DCs.

Treatment with high iodine concentrations can delay oncogenic activation effects, reduce cell growth and return thyroid-specific gene and protein expression levels to normal. During rearranged during transfection (RET)/papillary thyroid carcinoma (PTC) 3 activation, excess iodine can act as a protective agent in thyroid follicular cells. The chemokine receptor CCR7 serves a critical role in lymphocyte trafficking into and within lymph nodes, the preferential metastatic site for PTC. However, the potential associations between chemokine (C‑C motif) ligand 21 (CCL21)/C‑C chemokine receptor type 7 (CCR7) interaction and iodine concentrations in primary cultures of PTC with RET/PTC expression remain unclear. Proliferation assays of primary cultures of PTC cells with RET/PTC1 and RET/PTC3 expression indicated that CCR7 activation by its specific ligand, CCL21, was associated with significantly increased cell proliferation. Flow cytometry data indicated that CCL21/CCR7 interaction significantly increased the fraction of cells in the G2/M phase of the cell cycle. Western blotting indicated that CCL21/CCR7 interaction significantly upregulated cyclin A, cyclin B1 and cyclin‑dependent kinase 1 (CDK1) expression. Western blotting determined that CCL21/CCR7 interaction significantly enhanced the levels of phosphorylated extracellular signal‑regulated kinase (P‑ERK). Co-immunoprecipitation confirmed that there was interaction between P‑ERK and cyclin A, cyclin B1 or CDK1, particularly in the presence of CCL21. Sodium iodide (NaI, 10-5 M) significantly abolished the effects of exogenous CCL21. These results suggest that CCL21/CCR7 interaction contributes to G2/M progression of RET/PTC‑expressing cells via the ERK pathway in association with 10‑5 M NaI.

In multicellular organisms, cell migration is a complex process. Examples of this are observed during cell motility in the interstitial space, full of extracellular matrix fibers, or when cells pass through endothelial layers to colonize or exit specific tissues. A common parameter for both situations is the fast adaptation of the cellular shape to their irregular landscape. In this chapter, we describe two methods to study cell migration in complex environments. The first one consists in a multichamber device for the visualization of cell haptotaxis toward the collagen-binding chemokine CCL21. This method is used to study cell migration as well as deformations during directed motility, as in the interstitial space. The second one consists in microfabricated channels connected to small constrictions. This procedure allows the study of cell deformations when single cells migrate through small holes and it is analogous to passage of cells through endothelial layers, resulting in a simplified system to study the mechanisms operating during transvasation. Both methods combined provide a powerful hub for the study of cell plasticity during migration in complex environments.

Mantle cell lymphoma (MCL) is a rare but deadly subtype of non-Hodgkin's lymphomas because of it can progress rapidly and has a poor prognosis. MicroRNA-199a (miR-199a) is a potential diagnostic marker and therapeutic target for MCL patients. However, the function and molecular mechanisms of miRNA-199a in MCL cells are still unclear. In this study, we first analyzed the levels of miR-199a and C-C chemokine receptor 7 (CCR7) in the tumor tissues and tumor-adjacent tissues, and found that the level of miRNA-199a was lower, whereas the level of CCR7 was higher in tumor tissues. Moreover, overexpression of miR-199a in MCL cells downregulated the level of CCR7. Then, it was found that chemokine (C-C motif) ligand 21 (CCL21), a ligand of CCR7, promoted Granta-519 and Mino cell growth and migration in a concentration-dependent and time-dependent manner. Otherwise, the CCL21/CCR7 pair elevated the level of phosphorylation of protein kinase B and extracellular regulated protein kinases 1/2, upregulated the level of matrix metalloproteinases-2, matrix metalloproteinases-9, and the markers of the mesenchymal phenotype (N-cadherin and vimentin), as well as decreased the level of E-cadherin. However, the functions of CCL21/CCR7 in the growth, migration, and dissemination of MCL cells were decreased by overexpression of miR-199a. Thus, miR-199a inhibited the dissemination of MCL cells by reversing the function of CCL21/CCR7, providing a theoretical basis for miRNA-199a as a potential novel diagnostic marker and therapeutic target for MCL patients.

Dendritic cells (DCs) play a pivotal role in the regulation of the immune response. DC development and activation is finely orchestrated through transcriptional programs. GATA1 transcription factor is required for murine DC development, and data suggest that it might be involved in the fine-tuning of the life span and function of activated DCs. We generated DC-specific Gata1 knockout mice (Gata1-KODC), which presented a 20% reduction of splenic DCs, partially explained by enhanced apoptosis. RNA sequencing analysis revealed a number of deregulated genes involved in cell survival, migration, and function. DC migration toward peripheral lymph nodes was impaired in Gata1-KODC mice. Migration assays performed in vitro showed that this defect was selective for CCL21, but not CCL19. Interestingly, we show that Gata1-KODC DCs have reduced polysialic acid levels on their surface, which is a known determinant for the proper migration of DCs toward CCL21.

Patients with COPD develop lung cancer more frequently than healthy smokers. At the same time, molecular mediators promoting various aspects of cancer cell progression are still elusive. In this report, we examined whether COPD can be coupled with increased migration of non-small-cell lung cancer cells A549 and, if so, whether this effect may be related to altered production and activity of chemokines CCL21, CXCL5, and CXCL12. The study showed that the migration of A549 cells through the polycarbonate membrane and basement membrane extract toward a chemotactic gradient elicited by serum from patients with COPD was markedly higher as compared with serum from healthy donors. The concentration of CCL21 and CXCL12, but not CXCL5, in serum from patients with COPD was also increased. Experiments in which CCL21- and CXCL12-dependent signaling was blocked revealed that increased migration of the cancer cells upon treatment with serum from patients with COPD was mediated exclusively by CCL21. Collectively, our results indicate that COPD may contribute to the progression of lung cancer via CCL21-dependent intensification of cancer cell migration.

The CC chemokine receptor (CCR) 7 ligands CCL21 and CCL19 were recently described as essential elements for establishing the microenvironment needed to initiate optimal immune responses in secondary lymphoid tissues. In the present study we have kinetically investigated the primary responses of naive DO11.10 TCR-transgenic CD4+ T cells (OVA323-339 peptide specific) adoptively transferred into normal BALB/c mice given plasmid DNA encoding CCR7 ligands. The primary responses of CD4+ Tg-T cells in CCR7 ligand DNA recipients occurred more promptly, reaching levels higher than those observed in vector controls. In line with enhanced specific immunity, the T-cell population in CCR7 ligand recipients underwent more in vivo cell division following Ag stimulation, and a higher percentage of Ag-specific T cells expressed an activation phenotype. Moreover, the enhanced primary responses of naive CD4+ T cells appeared to act via affects on migration and maturation of CD11c+ dendritic cells in the draining lymph nodes. In addition following mucosal challenge of herpes simplex virus-immune mice with virus, those that had received CCL21 or CCL19 during priming contained a higher frequency of responding CD4 T cells in lymph nodes and the site of infection. Moreover, CCL21- and CCL19-treated mice showed less severe disease and better survival following challenge. Our results are discussed in terms of the relevance of CCR7 ligand preimmunization to improve vaccine.

OBJECTIVE

To obtain better insight into the modulation of lymphatic endothelial cells during the autoimmune process, alterations of the structures and histochemical features in the pancreatic lymphatics were studied in nonobese diabetic (NOD) mice.

METHODS

The expression of secondary lymphoid tissue chemokine (SLC/CCL21) and 5'-nucleotidase (5'-Nase) on pancreatic lymphatics was examined by histochemistry and immunoblot in NOD mice.

RESULTS

As insulitis developed, the increased expression of CCL21 and podoplanin on pancreatic lymphatics was consistent with the increased number of cytoplasmic protrusions and vesicles, whereas 5'-Nase activity of lymphatics seemed to become decreased. The expression of CCL21 protein also showed an age-dependent increase in NOD pancreas, even though it was undetectable in normal controls. During the period of severe infiltration, reaction products of CCL21 and podoplanin were detected in the nucleus and cytoplasm of lymphatic endothelial cells. Dendritic cells and T lymphocytes frequently penetrated through the slender walls of lymphatics and adhered to the lymphatic luminal surfaces, precipitating with few 5'-Nase particles. In contrast to wild-type NOD mice, complete Freund adjuvant administration reduced CCL21 expression in NOD pancreas, suppressing the entry of activated dendritic cells into lymphatics.

CONCLUSIONS

These findings suggest that CCL21 and 5'-Nase may be involved in the interaction between infiltrating cells and lymphatic vessels to induce the functional changes of lymphatic endothelial cells during insulitic and diabetic development.

The chemokine C receptor 7 (CCR7) is a G-protein-coupled heptahelical receptor (GPCR) that is expressed on a wide variety of cells including memory T cells, B cells, mature dendritic cells, and cancer cells. Activated by its ligands CCL19 or CCL21, CCR7 plays a major role in metastasis of cancer cells. Recent studies demonstrated the role of NF-κB and AP-1 transcription factors in addition to let-7 microRNA in CCR7 expression. Our ChIP assays further show the binding of Sp-1, Sp-3 and NFAT-1 transcription factors to their potential binding sites in the 1Kb promoter region with the later found to inhibit whilst Sp-1, and Sp-3 were found to stimulate CCR7 expression as demonstrated by transfection assays. On the other hand, in addition to the known let-7 regulation of CCR7, we found miR-21 to have a highly conserved target region in CCR7 3'UTR and to be significantly down-regulated during the course of dendritic cell maturation, allowing for high expression of CCR7.

Previously, we demonstrated that prostaglandin E2 (PGE2) induces C-C chemokine receptor type 7 (CCR7) expression on human monocytes, which stimulates their subsequent migration in response to the CCR7 natural ligands CCL19 and CCL21. In this study, we determined whether PGE2 affects CCR7 expression on macrophages. Flow cytometric analysis and chemotaxis assays were performed on Mono Mac-1-derived macrophage (MDMM-1) as well as unpolarized monocyte-derived macrophages (MDMs) to determine the CCR7 expression and functionality in the presence of PGE2. Data revealed that a MDMM-1 exhibited markedly downregulated CCR7 expression and functionality that were partially restored by treatment with PGE2. In MDMs, we observed a drastic downregulation of CCR7 expression and functionality that were unaffected following PGE2 treatment. Our data indicate that monocyte differentiation induces the loss of CCR7 expression and that PGE2 is unable to modulate CCR7 expression and functionality as shown previously in monocytes.

BACKGROUND

Dengue virus (DENV) infection is a serious public health issue without specific treatment. We examined the potential immunomodulatory effects of leflunomide, a dihydroorotate dehydrogenase inhibitor commonly prescribed for arthritis, in DENV-stimulated monocyte-derived dendritic cells (mo-DCs).

METHODS

mo-DCs were prepared from purified monocytes. Cytokine and chemokine concentrations were determined by enzyme-linked immunosorbent assay. Expression of cell surface markers or viral E protein was measured by flow cytometry. The activation of transcription factors and kinases was determined by electrophoretic mobility shift assays, Western blotting, or immunoprecipitation kinase assays. Chemotaxis assays were used to determine cell migration.

RESULTS

Leflunomide at therapeutic concentrations inhibited cytokine and chemokine production from DENV-infected mo-DCs. Leflunomide suppressed mo-DC maturation by downregulating the expression of both CD80 and CD86. In addition, leflunomide inhibited DENV-induced mo-DC migration and mo-DC response to chemoattractants CCL19 and CCL21. Inhibition of mo-DC migration was likely due to the suppression of CCR7 expression on mo-DCs. These events were associated with the suppression of nuclear factor kappa B and activator protein-1 signaling pathways by leflunomide.

CONCLUSIONS

Leflunomide preserves immunosuppressive effects, inhibiting activation of DENV-stimulated mo-DCs. Leflunomide may be helpful in the development of therapeutics for DENV infection.

Rationale: Transplant arteriosclerosis is the major limitation to long-term survival of solid organ transplantation. Although both immune and nonimmune cells have been suggested to contribute to this process, the complex cellular heterogeneity within the grafts, and the underlying mechanisms regulating the disease progression remain largely uncharacterized. Objective: We aimed to delineate the cellular heterogeneity within the allografts, and to explore possible mechanisms underlying this process. Methods and Results: Here, we reported the transcriptional profiling of 11,868 cells in a mouse model of transplant arteriosclerosis by single-cell RNA sequencing. Unbiased clustering analyses identified 21 cell clusters at different stages of diseases, and focused analysis revealed several previously unknown subpopulations enriched in the allografts. Interestingly, we found evidence of the local formation of tertiary lymphoid tissues and suggested a possible local modulation of alloimmune responses within the grafts. Intercellular communication analyses uncovered a potential role of several ligands and receptors, including Ccl21a and Cxcr3, in regulating lymphatic endothelial cell-induced early chemotaxis and infiltration of immune cells. In vivo mouse experiments confirmed the therapeutic potential of CCL21 and CXCR3 neutralizing antibodies in transplant arteriosclerosis. Combinational use of genetic lineage tracing and single-cell techniques further indicate the infiltration of host-derived c-Kit+ stem cells as heterogeneous populations in the allografts. Finally, we compared the immune response between mouse allograft and atherosclerosis models in scRNA-seq analysis. By analysing susceptibility genes of disease traits, we also identified several cell clusters expressing genes associated with disease risk. Conclusions: Our study provides a transcriptional and cellular landscape of transplant arteriosclerosis, which could be fundamental to understanding the initiation and progression of this disease. CCL21/CXCR3 was also identified as important regulators of immune response and may serve as potential therapeutic targets in disease treatment.

Keywords: allo-immunity; single-cell RNA-sequencing; transplant arteriosclerosis.

Tumors induce tolerance toward their antigens by producing the chemokine CCL21, leading to the formation of tertiary lymphoid organs (TLOs). Ins2-CCL21 transgenic, nonobese diabetic (NOD) mice express CCL21 in pancreatic β-cells and do not develop autoimmune diabetes. We investigated by which mechanisms CCL21 expression prevented diabetes. Ins2-CCL21 mice develop TLOs by 4 weeks of age, consisting of naive CD4⁺ T cells compartmentalized within networks of CD45^-gp38⁺CD31^- fibroblastic reticular cell (FRC)-like cells. Importantly, 12-week-old Ins2-CCL21 TLOs contained FRC-like cells with higher contractility, regulatory, and anti-inflammatory properties and enhanced expression of β-cell autoantigens compared with nontransgenic NOD TLOs found in inflamed islets. Consistently, transgenic mice harbored fewer autoreactive T cells and a higher proportion of regulatory T cells in the islets. Using adoptive transfer and islet transplantation models, we demonstrate that TLO formation in Ins2-CCL21 transgenic islets is critical for the regulation of autoimmunity, and although the effect is systemic, the induction is mediated locally likely by lymphocyte trafficking through TLOs. Overall, our findings suggest that CCL21 promotes TLOs that differ from inflammatory TLOs found in type 1 diabetic islets in that they resemble lymph nodes, contain FRC-like cells expressing β-cell autoantigens, and are able to induce systemic and antigen-specific tolerance leading to diabetes prevention.

Adoptive immunotherapy is based on ex vivo expansion and stimulation of T-cells, followed by their transfer into patients. The need for the ex vivo culturing step provides opportunities for modulating the properties of transferred T-cells, enhancing their antitumor abilities, and increasing their number. Here, we present a synthetic immune niche (SIN) that increases the number and antitumor activity of cytotoxic CD8+ T-cells. We first evaluated the effect of various SIN compositions that mimic the physiological microenvironment encountered by T-cells during their activation and expansion in the lymph node. We found that substrates coated with the chemokine CCL21 together with the adhesion molecule intercellular adhesion molecule 1 significantly increase the number of ovalbumin-specific murine CD8+ T-cells activated by antigen-loaded dendritic cells or activation microbeads. Notably, cells cultured on these substrates also displayed augmented cytotoxic activity toward ovalbumin-expressing melanoma cells, both in culture and in vivo. This increase in specific cytotoxic activity was associated with a major increase in the cellular levels of the killing-mediator granzyme B. Our results suggest that this SIN may be used for generating T-cells with augmented cytotoxic function, for use in cancer immunotherapy.

Monocytes, immunoselected using MMRI-1, a monoclonal antibody specific for CD300e, were used to generate dendritic cells (DC). These CD300e immunoselected monocyte-derived DC (MoDC) were compared phenotypically and functionally to CD14 immunoselected MoDC. CD300e and CD14 immunoselected mature MoDC expressed similar levels of the DC marker, CD83 and costimulatory molecules, CD80, CD86, and CD40. Both preparations took up soluble antigen with similar efficiency by pinocytosis and receptor mediated uptake. The CD300e and CD14 immunoselected MoDC also induced comparable CD4+ T lymphocyte allogeneic responses and recall responses to tetanus toxoid. Similar magnitude CD8 T lymphocyte responses to the naive antigen, MART-1 and the recall antigen, FMP, were induced by both MoDC preparations. Cytokine secretion by each type of MoDC preparation was similar; each secreted interleukin-12, tumor necrosis factor-alpha, and low levels of interferon-gamma but in most cases no interleukin-10. Migration studies confirmed that both types of MoDC migrated towards the chemokine, CCL21 although CD300e immunoselected showed greater migration. Overall, the CD14 immunoselected MoDC had higher spontaneous background migration, compared with the CD300e immunoselected MoDC. Differential signaling from the antibodies used to immunoselect the monocytes may account for the slight differences in migratory capacity. These data identify the CD300e antigen as another monocyte-specific marker that can be used to purify monocytes for differentiation into functionally active MoDC.

Lysophosphatidic acid (LPA) is a lipid mediator that is known to exhibit chemotactic activity toward a variety of cancer cells. However, its effect on the immune system has not been studied extensively. Another lipid mediator, sphingosine-1-phosphate (S1P), has been shown to influence lymphocyte recirculation by regulating lymphocyte egress from lymphoid organs. In this study, we found that LPA inhibits spontaneous migration of mouse splenic lymphocytes through a chemorepulsive effect. We also demonstrated that LPA inhibits chemokine CCL21-induced lymphocyte migration. This inhibitory effect on CCL21-induced migration was observed for both T and B cells. The involvement of a receptor, LPA(1), LPA(2) or LPA(3), in the inhibition of the CCL21-induced migration was confirmed with a synthetic agonist, oleyl thiophosphate. Considering that the signaling by CCL21 through cognate receptor CCR7 contributes to lymphocyte homing and dendritic cell trafficking to lymph nodes, LPA may play a role as a key regulator of these processes. The inhibitory effect of LPA is in remarkable contrast to the effect of S1P receptor signaling, which is known to potentiate lymphocyte chemotaxis involving CCR7.

Tissues of the central nervous system (CNS), including the optic nerve (ON), are considered a-lymphatic. However, lymphatic structures have been described in the dura mater of human ON sheaths. Since it is known that lymphatic markers are also expressed by single non-lymphatic cells, these results need confirmation according to the consensus statement for the use of lymphatic markers in ophthalmologic research. The aim of this study was to screen for the presence of lymphatic structures in the adult human ON using a combination of four lymphatic markers. Cross and longitudinal cryo-sections of human optic nerve tissue (n = 12, male and female, postmortem time = 15.8 ± 5.5 h, age = 66.5 ± 13.8 years), were obtained from cornea donors of the Salzburg eye bank, and analyzed using immunofluorescence with the following markers: FOXC2, CCL21, LYVE-1 and podoplanin (PDPN; lymphatic markers), Iba1 (microglia), CD68 (macrophages), CD31 (endothelial cell, EC), NF200 (neurofilament), as well as GFAP (astrocytes). Human skin sections served as positive controls and confocal microscopy in single optical section mode was used for documentation. In human skin, lymphatic structures were detected, showing a co-localization of LYVE-1/PDPN/FOXC2 and CCL21/LYVE-1. In the human ON however, single LYVE-1+ cells were detected, but were not co-localized with any other lymphatic marker tested. Instead, LYVE-1+ cells displayed immunopositivity for Iba1 and CD68, being more pronounced in the periphery of the ON than in the central region. However, Iba1+/LYVE-1- cells outnumbered Iba1+/LYVE-1+ cells. PDPN, revealed faint labeling in human ON tissue despite strong immunoreactivity in rat ON controls, showing co-localization with GFAP in the periphery. In addition, pronounced autofluorescent dots were detected in the ON, showing inter-individual differences in numbers. In the adult human ON no lymphatic structures were detected, although distinct lymphatic structures were identified in human skin tissue by co-localization of four lymphatic markers. However, single LYVE-1+ cells, also positive for Iba1 and CD68 were present, indicating LYVE-1+ macrophages. Inter-individual differences in the number of LYVE-1+ as well as Iba1+ cells were obvious within the ONs, most likely resulting from diverse medical histories of the donors.