Impairment of lymphatic endothelial barrier function by X-ray irradiation.

PURPOSE: Although the microvascular system is a significant target for radiation-induced effects, the lymphatic response to radiation has not been extensively investigated. This is one of the first investigations characterizing the lymphatic endothelial response to ionizing radiation. MATERIALS AND METHODS: Rat mesenteric lymphatic endothelial cells (RMLECs) were exposed to X-ray doses of 0, 0.5, 1, 1.5, and 2 Gy. RMLEC cellular response was assessed 24 and 72-h post-irradiation via measures of cellular morphometry and junctional adhesion markers. RMLEC functional response was characterized through permeability experiments. RESULTS: Cell morphometry showed radiation sensitivity at all doses. Notably, there was a loss of cell-to-cell adhesion with irradiated cells increasing in size and cellular roundness. This was coupled with decreased ß-catenin and VE-cadherin intensity and altered F-actin anisotropy, leading to a loss of intercellular contact. RMLEC monolayers demonstrated increased permeability at all doses 24 h post-irradiation and at 2-Gy 72 h post-irradiation. CONCLUSIONS: In summary, lymphatics show radiation sensitivity in the context of these cell culture experiments. Our results may have functional implications of lymphatics in tissue, with endothelial barrier dysfunction due to loss of cell-cell adhesion leading to leaky vessels and lymphedema. These preliminary experiments will build the framework for future investigations towards lymphatic radiation exposure response.

CCBE1 is essential for mammalian lymphatic vascular development and enhances the lymphangiogenic effect of vascular endothelial growth factor-C in vivo.

RATIONALE: Collagen- and calcium-binding EGF domains 1 (CCBE1) has been associated with Hennekam syndrome, in which patients have lymphedema, lymphangiectasias, and other cardiovascular anomalies. Insight into the molecular role of CCBE1 is completely lacking, and mouse models for the disease do not exist. OBJECTIVE: CCBE1 deficient mice were generated to understand the function of CCBE1 in cardiovascular development, and CCBE1 recombinant protein was used in both in vivo and in vitro settings to gain insight into the molecular function of CCBE1. METHODS AND RESULTS: Phenotypic analysis of murine Ccbe1 mutant embryos showed a complete lack of definitive lymphatic structures, even though Prox1(+) lymphatic endothelial cells get specified within the cardinal vein. Mutant mice die prenatally. Proximity ligation assays indicate that vascular endothelial growth factor receptor 3 activation appears unaltered in mutants. Human CCBE1 protein binds to components of the extracellular matrix in vitro, and CCBE1 protein strongly enhances vascular endothelial growth factor-C-mediated lymphangiogenesis in a corneal micropocket assay. CONCLUSIONS: Our data identify CCBE1 as a factor critically required for budding and migration of Prox-1(+) lymphatic endothelial cells from the cardinal vein. CCBE1 probably exerts these effects through binding to components of the extracellular matrix. CCBE1 has little lymphangiogenic effect on its own but dramatically enhances the lymphangiogenic effect of vascular endothelial growth factor-C in vivo. Thus, our data suggest CCBE1 to be essential but not sufficient for lymphangiogenesis.

Characterizing the dynamics of CD4+ T cell priming within a lymph node.

Generating adaptive immunity postinfection or immunization requires physical interaction within a lymph node T zone between Ag-bearing dendritic cells (DCs) and rare cognate T cells. Many fundamental questions remain regarding the dynamics of DC-CD4+ T cell interactions leading to priming. For example, it is not known how the production of primed CD4+ T cells relates to the numbers of cognate T cells, Ag-bearing DCs, or peptide-MHCII level on the DC. To address these questions, we developed an agent-based model of a lymph node to examine the relationships among cognate T cell frequency, DC density, parameters characterizing DC-T cell interactions, and the output of primed T cells. We found that the output of primed CD4+ T cells is linearly related to cognate frequency, but nonlinearly related to the number of Ag-bearing DCs present during infection. This addresses the applicability of two photon microscopy studies to understanding actual infection dynamics, because these types of experiments increase the cognate frequency by orders of magnitude compared with physiologic levels. We found a trade-off between the quantity of peptide-major histocompatibility class II on the surface of individual DCs and number of Ag-bearing DCs present in the lymph node in contributing to the production of primed CD4+ T cells. Interestingly, peptide-major histocompatibility class II t(1/2) plays a minor, although still significant, role in determining CD4+ T cell priming, unlike the primary role that has been suggested for CD8+ T cell priming. Finally, we identify several pathogen-targeted mechanisms that, if altered in their efficiency, can significantly effect the generation of primed CD4+ T cells.

Enhanced FTY720-mediated lymphocyte homing requires G alpha i signaling and depends on beta 2 and beta 7 integrin.

The immunomodulatory drug FTY720 interferes with sphingosine-1-phosphate (S1P) receptor signaling leading to lymphocyte retention in secondary lymphoid organs and consequently to profound lymphopenia in the peripheral blood. The molecular mechanisms transduced by S1P receptors upon being triggered by its native ligand, S1P, or by FTY720, are largely unknown. In this study we analyze the role of beta2 and beta7 integrin and their ligands ICAM-1, VCAM-1, and MadCAM-1 on lymphocyte homing in the presence of FTY720. We demonstrate that this drug facilitates homing of lymphocytes single-deficient of either beta2 or beta7 integrin but not of beta2-deficient lymphocytes, which in addition were blocked by anti-beta7 integrin Abs. Enhanced lymphocyte homing is preceded by increased adherence of integrin-deficient as well as wild-type lymphocytes to high endothelial venules (HEV) in FTY720-treated animals. Elevated adherence to HEV requires intact lymphocyte Galphai signaling that cannot be stably imprinted on lymphocytes even after prolonged exposure to FTY720. Thus, FTY720 influences lymphocyte homeostasis not only by suppressing lymphocyte egress from lymph nodes but also by facilitating lymphocyte homing across HEV in an integrin-dependent fashion.

Control of oxidative stress in microcirculation of spontaneously hypertensive rats.

One mechanism for organ damage in individuals with arterial hypertension may be due to oxygen free radical production. This study was designed to localize free radicals in a microvascular network of mature spontaneously hypertensive rats (SHRs) and normotensive Wistar-Kyoto (WKY) rats. Because glucocorticoids play a role in pressure elevation of SHRs, we investigated their role in microvascular free radical formation. Oxygen radical production in mesentery was detected by tetranitroblue tetrazolium reduction to formazan aided by digital light-absorption measurements. Formazan deposits were observed in the endothelial cells and lumens of all microvessels and in lymphatic endothelia but were fewer in tissue parenchyma. The formazan distribution in younger (14-16 wk old) WKY rats and SHRs was heterogeneous with low values in capillaries and small arterioles/venules (<30 microm) but enhanced deposits in larger venules. Adrenalectomy served to reduce the formazan density in SHRs to the level of WKY rats, whereas dexamethasone supplementation of the adrenalectomized rats caused elevation in the larger venules of SHRs. In older (40 wk old) SHRs, formazan levels were elevated in all hierarchies of microvessels. After pressure reduction was employed with chronic hydralazine treatment, the formazan deposits were reduced in all locations of the microcirculation in both WKY rats and SHRs. Elevated formazan deposits were also found in lymphatic endothelium. These results suggest that oxygen free radical production is elevated in both high- and low-pressure regions of SHR microcirculation via a process that is controlled by glucocorticoids. Older SHRs have higher formazan levels than younger SHRs in all microvessels. Chronic hydralazine treatment, which serves to reduce arterial blood pressure, attenuates tetranitroblue tetrazolium reduction in WKY rats and SHRs even in venules of the microcirculation, which has no micropressure elevation. Free radical production may be a more global condition in SHRs and may not be limited to arteries and arterioles.

Establishment of early lymphoid organ infrastructure in transplanted tumors mediated by local production of lymphotoxin alpha and in the combined absence of functional B and T cells.

Lymphoid organogenesis is a highly coordinated process involving orchestrated expression of a number of genes. Although the essential role of lymphotoxin alpha (LTalpha) for the normal development of secondary lymphoid organs is well established, it is not clear to which extent it depends upon cooperation with T and B lymphocytes for lymphoid neo-organogenesis. To determine whether LTalpha is sufficient to mediate recruitment of basic elements needed for lymphoid organogenesis, we made use of a LTalpha-transfected cell line as an experimental tool and established tumors in nude and SCID mice. Our data showed that high endothelial venules formed and follicular dendritic cells accumulated and differentiated in response to LTalpha in the absence of lymphocytes. A CD4(+)CD3(-)CD11c(+) cell population that is found in the secondary lymphoid organ was also recruited into tumors expressing LTalpha. Furthermore, in nude mice, B cells migrated in response to LTalpha and formed intratumoral follicles. These B cell follicles were structurally well equipped with follicular dendritic cell networks and high endothelial venules; however, they were not functionally active; e.g., those B cells specific for a surrogate Ag expressed by the tumor were found in the spleen, but not in the tumor. We show that, even in the absence of functional T and B lymphocytes, local expression of LTalpha in transplanted tumors induced typical stromal characteristics of lymphoid tissue, emphasizing that LTalpha is a critically important cytokine for formation of lymphoid organ infrastructure.

Cutting edge: the B cell chemokine CXC chemokine ligand 13/B lymphocyte chemoattractant is expressed in the high endothelial venules of lymph nodes and Peyer's patches and affects B cell trafficking across high endothelial venules.

While CCR7 ligands direct T cell trafficking into lymph nodes (LNs) and Peyer's patches (PPs), chemokines that regulate B cell trafficking across high endothelial venules (HEVs) remain to be fully elucidated. Here we report that CXC chemokine ligand (CXCL)13 (B lymphocyte chemoattractant) is detected immunohistologically in the majority of HEVs in LNs and PPs of nonimmunized mice. Systemically administered anti-CXCL13 Ab bound to the surface of approximately 50% of HEVs in LNs and PPs, but not to other types of blood vessels, indicating that CXCL13 is expressed in the HEV lumen. In CXCL13-null mice, B cells rarely adhered to PP HEVs, whereas T cells did efficiently. Superfusion of CXCL13-null PPs with CXCL13 restored the luminal presentation of CXCL13 and also B cell arrest in PP HEVs at least partially. Collectively, these results indicate that CXCL13 expressed in the HEV lumen plays a crucial role in B cell trafficking into secondary lymphoid tissues such as PPs.

A high endothelial venule secretory protein, mac25/angiomodulin, interacts with multiple high endothelial venule-associated molecules including chemokines.

We previously reported that mac25/angiomodulin (AGM), a 30-kDa secretory protein, is abundantly expressed in high endothelial venules (HEVs), which play a crucial role in lymphocyte trafficking to the lymph nodes and Peyer's patches. We report that mac25/AGM interacts preferentially with certain molecules that are expressed in or around HEVs. In particular, mac25/AGM interacted with not only the extracellular matrix proteins and glycosaminoglycans that are expressed in most blood vessels including HEVs, but also with some chemokines that are implicated in the regulation of lymphocyte trafficking, such as the secondary lymphoid-tissue chemokine (SLC; CCL21), IFN-gamma-inducible protein 10 (IP-10; CXCL10), and RANTES (CCL5). The binding of mac25/AGM to SLC and IP-10 was dose-dependent and saturable. The binding to IP-10 could be inhibited by SLC but not by a non-mac25/AGM-binding chemokine, EBI1-ligand chemokine (ELC; CCL19). Interestingly, mac25/AGM failed to interact with 18 other chemokines, suggesting that it binds to certain chemokines preferentially. Immunohistochemical analysis indicated that mac25/AGM colocalizes at least partially with SLC and IP-10 at the basal lamina of HEVs. Upon binding with mac25/AGM, SLC and IP-10 retained all their Ca(2+)-signaling activity in vitro, suggesting that mac25/AGM can hold and present chemokines in the basal lamina of HEVs. These results imply that mac25/AGM plays a multifunctional role, serving not only as an adhesion protein to interact with glycosaminoglycans and extracellular matrix proteins but also as a molecule to present chemokines so that lymphocytes extravasating through HEVs receive further directional cues subsequent to the luminal encounter with lymphoid chemokines.

Compartmentalization of Peyer's patch anlagen before lymphocyte entry.

We have shown that Peyer's patch (PP) first develops as a simple and even cell aggregation during embryogenesis. To investigate when and how such a simple cell aggregation forms the complex PP architecture, we analyzed the distribution of cells expressing IL-7R alpha (PP inducer cells), VCAM-1 (mesenchymal cells), CD11c (dendritic cells), and mature lymphocytes by whole-mount immunostaining of 17.5 days post coitus to 2 days postpartum mouse gut. Our results show that compartmentalization of PP anlagen commences at day 18.5 of gestation by clustering and subsequent follicle formation of IL-7R alpha(+), VCAM-1(+), and CD11c(+) cells. This process adds the primitive architecture of PP anlage with several follicles in which IL-7R alpha(+) cells localize in the center, while VCAM-1(+) and CD11c(+) cells localize at the fringe. This follicle formation is accompanied by the establishment of PP-specific vascular network expressing mucosal addressin cellular adhesion molecule-1. Mature B and T lymphocytes entering in the PP anlage are distributed promptly to their own target zones; B cells to the follicle and T cells to nonfollicular zones. Our analysis of scid/scid mouse indicate that the initial processes including formation of PP-specific vascular network occur in the absence of lymphocytes. These observations indicate that the basic architecture of PP is formed by a set of cell lineages assembled during the initial phase of induction of PP anlagen before entry of mature lymphocytes.

Lymphatic microvessel density in epithelial ovarian cancer: its impact on prognosis.

BACKGROUND: The influence of lymphatic microvessel density (MVD) on survival in epithelial ovarian cancer is still unknown, owing to the fact that until recently no reliable immunohistologic markers for lymphatic endothelium were available. MATERIALS AND METHODS: By using a polyclonal antibody staining podoplanin, a novel marker for lymphatic endothelium, lymphatic MVD in tissue samples of 90 patients with epithelial ovarian cancer treated by radical surgery and chemotherapy was investigated. Survival analysis was performed using univariate and multivariate analysis. Furthermore, lymphatic MVD was compared to MVD assessed by CD34 immunostaining. RESULTS: Lymphatic MVD was significantly lower than CD34 MVD (p < 0.0001). There was no significant association between lymphatic MVD and various histological and clinical parameters. Lymphatic MVD had no influence on overall survival and disease free survival (p = 0.4627 and p = 0.4337, respectively; log-rank test). CONCLUSION: The formation of lymphatic vessels has no influence on the progression of epithelial ovarian cancer.

The roles of L-selectin, beta 7 integrins, and P-selectin in leukocyte rolling and adhesion in high endothelial venules of Peyer's patches.

Lymphocyte trafficking into Peyer's patches requires beta 7 integrins and L-selectin. Here, we use intravital microscopy to examine leukocyte rolling and adhesion in Peyer's patch high endothelial venules (HEV) of wild-type, L-selectin-deficient (L-/-), beta 7 integrin-deficient (beta 7-/-), and beta 7/L(-/-) mice. Although the leukocyte rolling flux fraction was reduced by 70%, Peyer's patches in L-/- mice were of normal size and cellularity. In beta 7-/- mice, the rolling flux fraction was normal, but the number of adherent leukocytes in HEV was greatly reduced. The median leukocyte rolling velocity was reduced in L-/- mice and increased in beta 7-/- mice, suggesting that beta 7 integrins and L-selectin mediate rolling in Peyer's patch HEV at different velocities. beta 7/L(-/-) exhibited both a low rolling flux fraction and low adhesion and had severely reduced Peyer's patch size and cellularity. The residual rolling in these mice was completely blocked by a P-selectin mAb. A significant P-selectin component was also detected in the other genotypes. Twenty-six percent of B and T lymphocytes isolated from Peyer's patches of wild-type mice expressed functional ligands for P-selectin, and this fraction was increased to 57% in beta 7/L(-/-) mice. Peyer's patch HEV were found to express P-selectin under the conditions of intravital microscopy, but not in situ. Our data suggest a novel P-selectin dependent mechanism of lymphocyte homing to Peyer's patches. In situ, beta 7 integrins and L-selectin account for all lymphocyte homing to Peyer's patches, but P-selectin-dependent rolling, as induced by minimal trauma, may support trafficking of effector T lymphocytes to Peyer's patches.

Ultrastructural cytochemistry of anchoring filaments of human lymphatic capillaries and their relation to elastic fibers.

In previous studies "anchoring filaments" of human lymphatic capillaries have been shown to consist of microfibrils having histochemical and ultrastructural characteristics similar to elastin-associated microfibrils. When not associated with an elastin component, these microfibrils are referred to as "oxytalan microfibrils." In this study, alpha-glycol-containing carbohydrates and glycoconjugated sulfate groups, originating from sulphydryls and/or disulfide bridges, have been detected in anchoring filament microfibrils of human lymphatic capillaries by Thiery reaction (PA-TCH-SP) and "Hight Iron Diamine" cytochemical method (HID), respectively. Both of these chemical groups belong to the putative glycoprotein of which the microfibrils are constituted. Similar molecular characteristics have been demonstrated in elastic fiber microfibrils and oxytalan microfibrils of connective tissue. These findings suggest a close molecular similarity among these different types of microfibrils. Thus, whatever their individual location or denomination (anchoring filaments, oxytalan fibers, or elastin-associated microfibrils), these microfibrils form an uniform population of fibrous elements. These findings further support a structural (and functional) continuity between the lymphatic capillary wall and the elastic network of adjacent connective tissues previously described and termed "Fibrillar Elastic Apparatus" (FEA). Of interest, endothelial cells also selectively react positively to the PA-TCH-SP and HID methods.

[The ultrastructural characteristics of the organization of the postcapillary venules of a lymph node]. / Ul'trastrukturnye osobennosti organizatsii postkapilliarnykh venul limfaticheskogo uzla.

A comparative investigation has been undertaken to study the initial and terminal parts of the postcapillary venules (PCV) in the rat lymph nodes in order to reveal certain structural peculiarities of endothelium in the actively functioning venular zones at a transmural transport of lymphocytes. Certain morphological peculiarities have been detected in the endothelial lining at the place where it passes from the capillary into the PVC, as well as in the initial and terminal parts of the PVC. Decrease or/and absence of tight junction near apical surfaces of endotheliocytes has been stated in the terminal parts of the venule, while similar contacts are present in the initial parts of the vessel. It has also been proved that there are some specific peculiarities in the structure of the PVC lymph node: high endothelium, great number of lymphocytes in the wall of the venule. It has been stated that not all endotheliocytes, to the same extent, participate in the transmural transport of lymphocytes. It is demonstrated by different structural organization of these cells.