Faculty Opinions recommendation of Preformed portals facilitate dendritic cell entry into afferent lymphatic vessels.

Inflammatory bowel disease (IBD) has a complex pathophysiology with limited treatments. Structural and functional changes in the intestinal lymphatic system have been associated with the disease, with increased risk of IBD occurrence linked to a history of acute intestinal injury. To examine the potential role of the lymphatic system in inflammation recurrence, we evaluated morphological and functional changes in mouse mucosal and mesenteric lymphatic vessels, and within the mesenteric lymph nodes during acute ileitis caused by a 7-day treatment with dextran sodium sulfate (DSS). We monitored whether the changes persisted during a 14-day recovery period and determined their potential consequences on dendritic cell (DC) trafficking between the mucosa and lymphoid tissues. DSS administration was associated with marked lymphatic abnormalities and dysfunctions exemplified by lymphangiectasia and lymphangiogenesis in the ileal mucosa and mesentery, increased mesenteric lymphatic vessel leakage, and lymphadenopathy. Lymphangiogenesis and lymphadenopathy were still evident after recovery from intestinal inflammation and correlated with higher numbers of DCs in mucosal and lymphatic tissues. Specifically, a deficit in CD103+ DCs observed during acute DSS in the lamina propria was reversed and further enhanced during recovery. We concluded that an acute intestinal insult caused alterations of the mesenteric lymphatic system, including lymphangiogenesis, which persisted after resolution of inflammation. These morphological and functional changes could compromise DC function and movement, increasing susceptibility to further gastrointestinal disease. Elucidation of the changes in mesenteric and intestinal lymphatic function should offer key insights for new therapeutic strategies in gastrointestinal disorders such as IBD. NEW & NOTEWORTHY Lymphatic integrity plays a critical role in small intestinal homeostasis. Acute intestinal insult in a mouse model of acute ileitis causes morphological and functional changes in mesenteric and intestinal lymphatic vessels. While some of the changes significantly regressed during inflammation resolution, others persisted, including lymphangiogenesis and altered dendritic cell function and movement, potentially increasing susceptibility to the recurrence of gastrointestinal inflammation.

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Dendritic-cell trafficking to lymph nodes through lymphatic vessels

Nature Reviews Immunology ◽

10.1038/nri1670 ◽

2005 ◽

Vol 5 (8) ◽

pp. 617-628 ◽

Cited By ~ 752

Author(s):

Gwendalyn J. Randolph ◽

Veronique Angeli ◽

Melody A. Swartz

Keyword(s):

Dendritic Cell ◽

Lymph Nodes ◽

Lymphatic Vessels ◽

Cell Trafficking ◽

Dendritic Cell Trafficking

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Mannosyl Glycodendritic Structure Inhibits DC-SIGN-Mediated Ebola Virus Infection in cis and in trans

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.47.12.3970-3972.2003 ◽

2003 ◽

Vol 47 (12) ◽

pp. 3970-3972 ◽

Cited By ~ 81

Author(s):

Fátima Lasala ◽

Eva Arce ◽

Joaquín R. Otero ◽

Javier Rojo ◽

Rafael Delgado

Keyword(s):

Dendritic Cell ◽

Virus Infection ◽

Adhesion Molecule ◽

Ebola Virus ◽

Cell Entry ◽

Intercellular Adhesion Molecule ◽

Ebov Infection ◽

In Trans ◽

In Cis ◽

Ebola Virus Infection

ABSTRACT We have designed a glycodendritic structure, BH30sucMan, that blocks the interaction between dendritic cell-specific intercellular adhesion molecule 3-grabbing nonintegrin (DC-SIGN) and Ebola virus (EBOV) envelope. BH30sucMan inhibits DC-SIGN-mediated EBOV infection at nanomolar concentrations. BH30sucMan may counteract important steps of the infective process of EBOV and, potentially, of microorganisms shown to exploit DC-SIGN for cell entry and infection.

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Tumor cell entry into the lymph node is controlled by CCL1 chemokine expressed by lymph node lymphatic sinuses

Journal of Experimental Medicine ◽

10.1084/jem.20111627 ◽

2013 ◽

Vol 210 (8) ◽

pp. 1509-1528 ◽

Cited By ~ 100

Author(s):

Suvendu Das ◽

Eliana Sarrou ◽

Simona Podgrabinska ◽

Melanie Cassella ◽

Sathish Kumar Mungamuri ◽

...

Keyword(s):

Cell Migration ◽

Lymph Node ◽

Lymph Nodes ◽

Tumor Cell ◽

Tumor Cells ◽

Lymphatic Vessels ◽

Cell Entry ◽

Human Malignant Melanoma ◽

Tumor Cell Migration ◽

Mouse Tissues

Lymphatic vessels are thought to contribute to metastasis primarily by serving as a transportation system. It is widely believed that tumor cells enter lymph nodes passively by the flow of lymph. We demonstrate that lymph node lymphatic sinuses control tumor cell entry into the lymph node, which requires active tumor cell migration. In human and mouse tissues, CCL1 protein is detected in lymph node lymphatic sinuses but not in the peripheral lymphatics. CCR8, the receptor for CCL1, is strongly expressed by human malignant melanoma. Tumor cell migration to lymphatic endothelial cells (LECs) in vitro is inhibited by blocking CCR8 or CCL1, and recombinant CCL1 promotes migration of CCR8+ tumor cells. The proinflammatory mediators TNF, IL-1β, and LPS increase CCL1 production by LECs and tumor cell migration to LECs. In a mouse model, blocking CCR8 with the soluble antagonist or knockdown with shRNA significantly decreased lymph node metastasis. Notably, inhibition of CCR8 led to the arrest of tumor cells in the collecting lymphatic vessels at the junction with the lymph node subcapsular sinus. These data identify a novel function for CCL1–CCR8 in metastasis and lymph node LECs as a critical checkpoint for the entry of metastases into the lymph nodes.

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Dendritic cell entry to lymphatic capillaries is orchestrated by CD44 and the hyaluronan glycocalyx

Life Science Alliance ◽

10.26508/lsa.202000908 ◽

2021 ◽

Vol 4 (5) ◽

pp. e202000908

Author(s):

Louise A Johnson ◽

Suneale Banerji ◽

B Christoffer Lagerholm ◽

David G Jackson

Keyword(s):

Lymph Nodes ◽

Gene Knockout ◽

Lymphatic Vessels ◽

Skin Inflammation ◽

Vital Role ◽

Cell Entry ◽

Peripheral Tissues ◽

Weak Binding ◽

Endothelial Receptor

DCs play a vital role in immunity by conveying antigens from peripheral tissues to draining lymph nodes, through afferent lymphatic vessels. Critical to the process is initial docking to the lymphatic endothelial receptor LYVE-1 via its ligand hyaluronan on the DC surface. How this relatively weak binding polymer is configured for specific adhesion to LYVE-1, however, is unknown. Here, we show that hyaluronan is anchored and spatially organized into a 400–500 nm dense glycocalyx by the leukocyte receptor CD44. Using gene knockout and by modulating CD44-hyaluronan interactions with monoclonal antibodies in vitro and in a mouse model of oxazolone-induced skin inflammation, we demonstrate that CD44 is required for DC adhesion and transmigration across lymphatic endothelium. In addition, we present evidence that CD44 can dynamically control the density of the hyaluronan glycocalyx, regulating the efficiency of DC trafficking to lymph nodes. Our findings define a previously unrecognized role for CD44 in lymphatic trafficking and highlight the importance of the CD44:HA:LYVE-1 axis in its regulation.

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Upregulation of VCAM-1 in lymphatic collectors supports dendritic cell entry and rapid migration to lymph nodes in inflammation

Journal of Experimental Medicine ◽

10.1084/jem.20201413 ◽

2021 ◽

Vol 218 (7) ◽

Author(s):

Jorge Arasa ◽

Victor Collado-Diaz ◽

Ioannis Kritikos ◽

Jessica Danielly Medina-Sanchez ◽

Mona Carina Friess ◽

...

Keyword(s):

Dendritic Cell ◽

Lymph Nodes ◽

Early Time ◽

Lymph Flow ◽

Cell Entry ◽

Dependent Manner ◽

Β1 Integrins ◽

Skin Explants ◽

Draining Lymph Nodes

Dendritic cell (DC) migration to draining lymph nodes (dLNs) is a slow process that is believed to begin with DCs approaching and entering into afferent lymphatic capillaries. From capillaries, DCs slowly crawl into lymphatic collectors, where lymph flow induced by collector contraction supports DC detachment and thereafter rapid, passive transport to dLNs. Performing a transcriptomics analysis of dermal endothelial cells, we found that inflammation induces the degradation of the basement membrane (BM) surrounding lymphatic collectors and preferential up-regulation of the DC trafficking molecule VCAM-1 in collectors. In crawl-in experiments performed in ear skin explants, DCs entered collectors in a CCR7- and β1 integrin–dependent manner. In vivo, loss of β1-integrins in DCs or of VCAM-1 in lymphatic collectors had the greatest impact on DC migration to dLNs at early time points when migration kinetics favor the accumulation of rapidly migrating collector DCs rather than slower capillary DCs. Taken together, our findings identify collector entry as a critical mechanism enabling rapid DC migration to dLNs in inflammation.

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Scavenging of soluble and immobilized CCL21 by ACKR4 regulates peripheral dendritic cell emigration

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.2025763118 ◽

2021 ◽

Vol 118 (17) ◽

pp. e2025763118

Author(s):

Cameron R. Bastow ◽

Mark D. Bunting ◽

Ervin E. Kara ◽

Duncan R. McKenzie ◽

Adriana Caon ◽

...

Keyword(s):

Steady State ◽

Dendritic Cell ◽

Lymphatic Vessels ◽

Peripheral Tissues ◽

T Cell Migration ◽

Chemokine Gradient ◽

Barrier Tissues ◽

Leukocyte Homing ◽

Deficient Mice

Leukocyte homing driven by the chemokine CCL21 is pivotal for adaptive immunity because it controls dendritic cell (DC) and T cell migration through CCR7. ACKR4 scavenges CCL21 and has been shown to play an essential role in DC trafficking at the steady state and during immune responses to tumors and cutaneous inflammation. However, the mechanism by which ACKR4 regulates peripheral DC migration is unknown, and the extent to which it regulates CCL21 in steady-state skin and lymph nodes (LNs) is contested. Specifically, our previous findings that CCL21 levels are increased in LNs of ACKR4-deficient mice [I. Comerford et al., Blood 116, 4130–4140 (2010)] were refuted [M. H. Ulvmar et al., Nat. Immunol. 15, 623–630 (2014)], and no differences in CCL21 levels in steady-state skin of ACKR4-deficient mice were reported despite compromised CCR7-dependent DC egress in these animals [S. A. Bryce et al., J. Immunol. 196, 3341–3353 (2016)]. Here, we resolve these issues and reveal that two forms of CCL21, full-length immobilized and cleaved soluble CCL21, exist in steady-state barrier tissues, and both are regulated by ACKR4. Without ACKR4, extracellular CCL21 gradients in barrier sites are saturated and nonfunctional, DCs cannot home directly to lymphatic vessels, and excess soluble CCL21 from peripheral tissues pollutes downstream LNs. The results identify the mechanism by which ACKR4 controls DC migration in barrier tissues and reveal a complex mode of CCL21 regulation in vivo, which enhances understanding of functional chemokine gradient formation.

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