CCR7 Deficiency Research Articles

Pulmonary egress of CD8 T cells during influenza A virus infection. (49.10)

Abstract The capacity to migrate to and accumulate at infected sites is a requirement for antiviral effector functions of CD8 T cells. Memory/effector T cells efficiently enter sites of infection from the blood and subsequently leave the site via the afferent lymph. While T cell exit from extralymphoid tissue is regulated by the chemokine receptor CCR7 and alternative chemoattractant signals, it is controversial if effector T cells exit from the lung during acute respiratory infection. Here, we found that pulmonary T cells from influenza virus infected mice egress from the inflamed lung and migrate into draining lymph nodes. In addition, in vitro polarized (CD8+) Tc1 effector cells with the ability to protect against lethal influenza virus challenge were also able to egress from infected lungs upon intranasal transfer. Pulmonary egress of Tc1 cells was blocked by inhibition of chemoattractant signaling with pertussis toxin and significantly reduced by CCR7 deficiency. Our data demonstrate that effector T cell exit from the infected lungs is an active process, mediated by T cell expressed CCR7. We suggest that local T cell effector function and efficiency of host defense against influenza virus infection is controlled by the regulated expression of T cell exit receptors such as CCR7.

CCR7 Deficiency Leads to Leukocyte Activation and Increased Clearance in Response to Pulmonary Pseudomonas aeruginosa Infection

CCR7 is a chemokine receptor expressed on the surfaces of T cells, B cells, and mature dendritic cells that controls cell migration in response to the cognate ligands CCL19 and CCL21. CCR7 is critical for the generation of an adaptive T cell response. However, the roles of CCR7 in the host defense against pulmonary infection and innate immunity are not well understood. We investigated the role of CCR7 in the host defense against acute pulmonary infection with Pseudomonas aeruginosa. We intranasally infected C57BL/6 mice with P. aeruginosa and characterized the expression of CCR7 ligands and the surface expression of CCR7 on pulmonary leukocytes. In response to infection, expression of CCL19 and expression of CCL21 were oppositely regulated, and myeloid dendritic cells upregulated CCR7 expression. We further examined the effects of CCR7 deficiency on the inflammatory response to P. aeruginosa infection. We infected Ccr7(-/-) and wild-type mice with P. aeruginosa and characterized the accumulation of pulmonary leukocytes, production of proinflammatory mediators, neutrophil activation, and bacterial clearance. CCR7 deficiency led to an accumulation of myeloid dendritic cells and T cells in the lung in response to infection. CCR7 deficiency resulted in higher expression of CD80 and CD86 on dendritic cells; increased production of interleukin-12/23p40 (IL-12/23p40), gamma interferon (IFN-gamma), and IL-1 alpha; increased neutrophil respiratory burst; and, ultimately, increased clearance of acute P. aeruginosa infection. In conclusion, our results suggest that CCR7 deficiency results in a heightened proinflammatory environment in response to acute pulmonary P. aeruginosa infection and contributes to more efficient clearance.

CCR7 regulates lymphocyte egress and recirculation through body cavities

T and B lymphocytes recirculate among blood, lymph, and extralymphoid tissues to ensure immune surveillance and the establishment of self-tolerance. The underlying mechanisms regulating homeostatic lymphocyte recirculation through body cavities are not fully understood. Here, we demonstrate that the homeostatic chemokine receptor CCR7 regulates homeostatic recirculation of lymphocytes through body cavities. CCR7 deficiency results in massive accumulation of CD4(+) and CD8(+) T cells and B-2 B cells in the peritoneal and pleural cavities. The increase in B-2 B and T lymphocytes is not associated with an altered maturation and/or activation status of these cells. Mechanistically, an increase in peritoneal lymphocyte numbers is caused by impaired egress of CCR7-deficient lymphocytes from body cavities. These results establish that CCR7 plays a crucial role in lymphocyte exit from the PerC.

CCR7 Deficiency on Dendritic Cells Enhances Fungal Clearance in a Murine Model of Pulmonary Invasive Aspergillosis

Aspergillus fumigatus is a sporulating fungus found ubiquitously in the environment and is easily cleared from immunocompetent hosts. Invasive aspergillosis develops in immunocompromised patients, and is a leading cause of mortality in hematopoietic stem cell transplant recipients. CCR7 and its ligands, CCL19 and CCL21, are responsible for the migration of dendritic cells from sites of infection and inflammation to secondary lymphoid organs. To investigate the role of CCR7 during invasive aspergillosis, we used a well-characterized neutropenic murine model. During invasive aspergillosis, mice with a CCR7 deficiency in the hematopoietic compartment exhibited increased survival and less pulmonary injury compared with the appropriate wild-type control. Flow cytometric analysis of the chimeric mice revealed an increase in the number of dendritic cells present in the lungs of CCR7-deficient chimeras following infection with Aspergillus conidia. An adoptive transfer of dendritic cells into neutropenic mice provided a protective effect during invasive aspergillosis, which was further enhanced with the adoptive transfer of CCR7-deficient dendritic cells. Additionally, CCR7-deficient dendritic cells activated in vitro with Aspergillus conidia expressed higher TNF-alpha, CXCL10, and CXCL2 levels, indicating a more activated cellular response to the fungus. Our results suggest that the absence of CCR7 is protective during invasive aspergillosis in neutropenic mice. Collectively, these data demonstrate a potential deleterious role for CCR7 during primary immune responses directed against A. fumigatus.

CCR7 Deficiency in NOD Mice Leads to Thyroiditis and Primary Hypothyroidism

CCR7 is involved in the initiation of immune responses and has been recently implicated in the control of tolerance. To analyze the role of CCR7 in autoimmunity, we backcrossed CCR7(ko/ko) mice (in which ko signifies deficient) onto the autoimmune-prone NOD background. Surprisingly, NODCCR7(ko/ko) mice never developed diabetes, but showed severe inflammation in multiple tissues including thyroid, lung, stomach, intestine, uterus, and testis. NODCCR7(ko/ko) mice had a marked enlargement of the thyroid gland (goiter) that was associated with circulating autoantibodies against thyroglobulin, and development of primary hypothyroidism (decreased levels of serum thyroxin, and augmented levels of thyroid-stimulating hormone in the pituitary gland), features found in Hashimoto's thyroiditis. Cells isolated from diseased thyroids and activated splenocytes from NODCCR7(ko/ko) animals induced goiter in NOD.SCID recipients, demonstrating that autoreactive cells were generated in the absence of CCR7. Moreover, thyroid disease could be accelerated in young NODCCR7(ko/ko) mice by immunization with thyroglobulin. These results demonstrate the complexity in the generation of multiple autoimmune phenotypes in NOD mice and indicate that CCR7 is a key molecule in their development.

Distinctive role of CCR7 in migration and functional activity of naive‐ and effector/memory‐like Treg subsets

Foxp3+CD25+CD4+ Treg play a fundamental role in the maintenance of self tolerance and the control of inflammatory reactions. Previous data demonstrated a division of labor between naive- and effector/memory-like Treg subsets, which is largely based on their lymph node-recirculating and inflammation-seeking migration behavior, respectively. The chemokine receptor CCR7 is expressed on both types of Treg subsets, albeit at different levels. Whether it fulfills similar or distinct roles in these subsets has not been studied so far. We here show that the recirculation of naive-like Treg through LN and, to some extent, the gut is dependent on CCR7. Lack of CCR7 not only prevents recirculation, but also almost completely abolishes the ability of naive-like Treg to control the priming phase of an immune response. In contrast, CCR7 deficiency in effector/memory-like Treg promotes their accumulation in inflamed sites, compatible with a role of CCR7 for exit from the tissue. Local Treg accumulation was accompanied by an enhanced suppression of inflammation. Together, our findings provide conclusive evidence that CCR7 expression on Treg differentially controls in vivo function of the naive- and effector/memory-like subsets.

CC Chemokine Receptor 7 Contributes to Gi-Dependent T Cell Motility in the Lymph Node

Naive T cells migrate extensively within lymph node (LN) T zones to scan for Ag-bearing dendritic cells. However, the extracellular signals controlling T cell motility in LNs are not well defined. In this study, by real-time imaging of LNs, we show that the inhibition of Gi signaling in T cells severely impairs their migration. The chemokine CCL21, a ligand of CCR7, strongly induces chemokinesis in vitro, and T cell motility in LNs from CCR7 ligand-deficient plt/plt mice was reduced. CCR7-deficient T cells in wild-type LNs showed a similar reduction in motility, and antagonism of CXCR4 function did not further decrease their motility. The effect of CCR7 or CCR7-ligand deficiency could account for approximately 40% of the Gi-dependent motility. These results reveal a role for CCR7 in promoting T cell migration within lymphoid organ T zones, and they suggest the additional involvement of novel Gi-coupled receptors in promoting T cell motility at these sites.

CCR7 deficiency causes ectopic lymphoid neogenesis and disturbed mucosal tissue integrity

AbstractHomeostatic trafficking of lymphocytes through extralymphoid tissues has been recently observed, and a potential role in immune surveillance and the establishment of peripheral tolerance are considered. However, the mechanisms regulating lymphocyte recirculation through peripheral tissues under noninflammatory conditions are not well understood. Here, we demonstrate that the chemokine receptor CCR7 controls not only lymphocyte trafficking to and within secondary lymphoid organs but also homeostatic migration of T and B lymphocytes through nonlymphoid tissues. Lack of CCR7 results in a massive accumulation of lymphocytes in epithelial tissues. In particular, the gastrointestinal mucosal tissue of CCR7−/− mice is highly permissive for the formation of lymphoid aggregates, which develop into ectopic follicular structures with major topologic characteristics of lymph nodes. Flow cytometry analysis of CD4+ T cells derived from ectopic follicles revealed that CD44hiCD62Llo effector memory T cells predominate in the gastric lymphoid aggregates. In aged mice, lack of CCR7 induced age-dependent histomorphologic changes in the stomach with profound cystic hyperplasia and an increased rate of mucosal proliferation resembling Menetrier disease. Thus, CCR7 regulates the cellular organization of visceral tissue by governing life-long recirculation of naive and memory lymphocytes under homeostatic conditions.

Distinct and overlapping roles of CXCR5 and CCR7 in B-1 cell homing and early immunity against bacterial pathogens.

CXC chemokine receptor (CXCR)5 and CC chemokine receptor (CCR)7 are the major chemokine receptors required for B cell homing and microenvironmental localization during antigen-independent and -dependent B cell differentiation. Here, we show markedly decreased B-1 B cell numbers in the peritoneal cavity of CXCR5-/- and CXCR5-/-CCR7-/- double-deficient mice paralleled by reduced antigen-induced phosphorylcholine-specific immunoglobulin (Ig)M responses after intraperitoneal (i.p.) administration of streptococcal antigen. CCR7-/- mice also revealed a partial reduction in peritoneal B-1 cell numbers combined with a reduced humoral response to i.p. injected bacterial antigen. However, opposite roles of CXCR5 and CCR7 were observed when the frequency of peritoneal B-2 cells was analyzed. CXCR5-/- mice almost completely lacked B-2 cells, whereas CCR7 deficiency engendered an increase in peritoneal B-2 cells. In addition, CCR7-/- mice had enhanced, splenic IgM+ plasma cell responses, whereas the extrafollicular B cell response of the CXCR5-/- mice was not significantly altered compared with wild-type controls. Thus, the two chemokine receptors exert divergent forces at multiple levels of the innate immune response. CXCR5 plays a dominant role in peritoneal B-1 B cell homing and body cavity immunity, but both chemokine receptors are needed for a proportional peritoneal B-2 cell homing and balanced development of an early splenic B cell response.

The chemokine receptor CCR7 controls lymph node-dependent cytotoxic T cell priming in alloimmune responses.

The chemokine receptor CCR7 and its ligands regulate migration and colocalization of T cells and mature dendritic cells to and within secondary lymphoid organs. The requirement of CCR7 in efficient priming of allospecific cytotoxic CD8(+) T cells is poorly characterized. Here, we demonstrate a role for CCR7 in the initiation of an alloimmune response and in the development of transplant rejection. Remarkably, in a model of acute allogeneic tumor rejection, CCR7(-/-) mice completely failed to reject subcutaneously injected MHC class I mismatched tumor cells and cytotoxic activity of allospecific T cells was severely compromised. When solid tumors derived from wild-type mice were transplanted, recipient CCR7(-/-) mice were capable of rejecting the allografts. In contrast, tumor allografts transplanted from CCR7(-/-) donors onto CCR7(-/-) recipients showed allograft survival up to 28 days, suggesting a critical function of CCR7 on donor-type passenger leukocytes in the initiation of cytotoxic CD8(+) T cell responses. In a heterotopic heart transplantation model CCR7 deficiency resulted in significantly prolonged but not indefinite allograft survival. Additional prolongation of graft survival was observed when hearts from CCR7(-/-) mice were used as donor organs. Our results define a key role for CCR7 in allogeneic T cell priming within the context of draining lymph nodes.