Your search keyword '"CCL21"' showing total 2,248 results

1. Enhancing Th17 cells drainage through meningeal lymphatic vessels alleviate neuroinflammation after subarachnoid hemorrhage.

Author

Gao, Dandan, Zou, Bin, Zhu, Kunyuan, Bi, Shijun, Zhang, Wenxu, Yang, Xinyu, Lai, Jieyu, Liang, Guobiao, and Pan, Pengyu

Subjects

*T helper cells, *CEREBROSPINAL fluid, *ENZYME-linked immunosorbent assay, *SUBARACHNOID hemorrhage, *T cells

Abstract

Background: Subarachnoid hemorrhage (SAH) is a severe cerebrovascular disorder primarily caused by the rupture of aneurysm, which results in a high mortality rate and consequently imposes a significant burden on society. The occurrence of SAH initiates an immune response that further exacerbates brain damage. The acute inflammatory reaction subsequent to SAH plays a crucial role in determining the prognosis. Th17 cells, a subset of T cells, are related to the brain injury following SAH, and it is unclear how Th17 cells are cleared in the brain. Meningeal lymphatic vessels are a newly discovered intracranial fluid transport system that has been shown to drain large molecules and immune cells to deep cervical lymph nodes. There is limited understanding of the role of the meningeal lymphatic system in SAH. The objective of this research is to explore the impact and underlying mechanism of drainage Th17 cells by meningeal lymphatics on SAH. Methods: Treatments to manipulate meningeal lymphatic function and the CCR7-CCL21 pathway were administered, including laser ablation, injection of VEGF-C geneknockout, and protein injection. Mouse behavior was assessed using the balance beam experiment and the modified Garcia scoring system. Flow cytometry, enzyme-linked immunosorbent assays (ELISA), and immunofluorescence staining were used to study the impact of meningeal lymphatic on SAH drainage. Select patients with unruptured and ruptured aneurysms in our hospital as the control group and the SAH group, with 7 cases in each group. Peripheral blood and cerebrospinal fluid (CSF) samples were assessed by ELISA and flow cytometry. Results: Mice with SAH showed substantial behavioral abnormalities and brain damage in which immune cells accumulated in the brain. Laser ablation of the meningeal lymphatic system or knockout of the CCR7 gene leads to Th17 cell aggregation in the meninges, resulting in a decreased neurological function score and increased levels of inflammatory factors. Injection of VEGF-C or CCL21 protein promotes Th17 cell drainage to lymph nodes, an increased neurological function score, and decreased levels of inflammatory factors. Clinical blood and CSF results showed that inflammatory factors in SAH group were significantly increased. The number of Th17 cells in the SAH group was significantly higher than the control group. Clinical results confirmed Th17 cells aggravated the level of neuroinflammation after SAH. Conclusion: This study shows that improving the drainage of Th17 cells by meningeal lymphatics via the CCR7-CCL21 pathway can reduce brain damage and improve behavior in the SAH mouse model. This could lead to new treatment options for SAH. [ABSTRACT FROM AUTHOR]

Published

2024

2. CCL21 Induces Plasmacytoid Dendritic Cell Migration and Activation in a Mouse Model of Glioblastoma.

Author

Zhao, Lei, Shireman, Jack, Probelsky, Samantha, Rigg, Bailey, Wang, Xiaohu, Huff, Wei X., Kwon, Jae H., and Dey, Mahua

Subjects

*CHEMOKINES, *BIOLOGICAL models, *IMMUNOLOGICAL tolerance, *GLIOMAS, *CARRIER proteins, *T cells, *RESEARCH funding, *CELL motility, *CELLULAR signal transduction, *CELL lines, *MICE, *ANIMAL experimentation, *DENDRITIC cells, *IMMUNOSUPPRESSION

Abstract

Simple Summary: Glioblastoma is known to be highly immunosuppressive in nature. Plasmacytoid dendritic cell infiltration is known to be associated with glioblastoma progression and promotes tumor immunosuppression. We provide important details to indicate that glioblastoma cell-secreted CCL21 plays a dual role both in recruiting plasmacytoid dendritic cells via binding to CCR7 and activating plasmacytoid dendritic cells through the CCR7/ACKR4—β-arrestin/CIITA pathway. Our result also provides a rationale to therapeutically target CCL21 as a potential novel treatment for glioblastoma. Dendritic cells (DCs) are professional antigen-presenting cells that are traditionally divided into two distinct subsets: myeloid DCs (mDCs) and plasmacytoid DCs (pDCs). pDCs are known for their ability to secrete large amounts of cytokine type I interferons (IFN- α). In our previous work, we have demonstrated that pDC infiltration promotes glioblastoma (GBM) tumor immunosuppression through decreased IFN-α secretion via TLR-9 signaling and increased suppressive function of regulatory T cells (Tregs) via increased IL-10 secretion, resulting in poor overall outcomes in mouse models of GBM. Further dissecting the overall mechanism of pDC-mediated GBM immunosuppression, in this study, we identified CCL21 as highly upregulated by multiple GBM cell lines, which recruit pDCs to tumor sites via CCL21-CCR7 signaling. Furthermore, pDCs are activated by CCL21 in the GBM microenvironment through intracellular signaling of β-arrestin and CIITA. Finally, we found that CCL21-treated pDCs directly suppress CD8+ T cell proliferation without affecting regulatory T cells (Tregs) differentiation, which is considered the canonical pathway of immunotolerant regulation. Taken together, our results show that pDCs play a multifaced role in GBM immunosuppression, and CCL21 could be a novel therapeutic target in GBM to overcome pDC-mediated immunosuppression. [ABSTRACT FROM AUTHOR]

Published

2024

3. Enhancing Th17 cells drainage through meningeal lymphatic vessels alleviate neuroinflammation after subarachnoid hemorrhage

Author

Dandan Gao, Bin Zou, Kunyuan Zhu, Shijun Bi, Wenxu Zhang, Xinyu Yang, Jieyu Lai, Guobiao Liang, and Pengyu Pan

Subjects

Subarachnoid hemorrhage, Th17 cells, CCR7, CCL21, Meningeal lymphatic, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Subarachnoid hemorrhage (SAH) is a severe cerebrovascular disorder primarily caused by the rupture of aneurysm, which results in a high mortality rate and consequently imposes a significant burden on society. The occurrence of SAH initiates an immune response that further exacerbates brain damage. The acute inflammatory reaction subsequent to SAH plays a crucial role in determining the prognosis. Th17 cells, a subset of T cells, are related to the brain injury following SAH, and it is unclear how Th17 cells are cleared in the brain. Meningeal lymphatic vessels are a newly discovered intracranial fluid transport system that has been shown to drain large molecules and immune cells to deep cervical lymph nodes. There is limited understanding of the role of the meningeal lymphatic system in SAH. The objective of this research is to explore the impact and underlying mechanism of drainage Th17 cells by meningeal lymphatics on SAH. Methods Treatments to manipulate meningeal lymphatic function and the CCR7-CCL21 pathway were administered, including laser ablation, injection of VEGF-C geneknockout, and protein injection. Mouse behavior was assessed using the balance beam experiment and the modified Garcia scoring system. Flow cytometry, enzyme-linked immunosorbent assays (ELISA), and immunofluorescence staining were used to study the impact of meningeal lymphatic on SAH drainage. Select patients with unruptured and ruptured aneurysms in our hospital as the control group and the SAH group, with 7 cases in each group. Peripheral blood and cerebrospinal fluid (CSF) samples were assessed by ELISA and flow cytometry. Results Mice with SAH showed substantial behavioral abnormalities and brain damage in which immune cells accumulated in the brain. Laser ablation of the meningeal lymphatic system or knockout of the CCR7 gene leads to Th17 cell aggregation in the meninges, resulting in a decreased neurological function score and increased levels of inflammatory factors. Injection of VEGF-C or CCL21 protein promotes Th17 cell drainage to lymph nodes, an increased neurological function score, and decreased levels of inflammatory factors. Clinical blood and CSF results showed that inflammatory factors in SAH group were significantly increased. The number of Th17 cells in the SAH group was significantly higher than the control group. Clinical results confirmed Th17 cells aggravated the level of neuroinflammation after SAH. Conclusion This study shows that improving the drainage of Th17 cells by meningeal lymphatics via the CCR7-CCL21 pathway can reduce brain damage and improve behavior in the SAH mouse model. This could lead to new treatment options for SAH.

Published

2024

4. Mutant mice lacking alternatively spliced p53 isoforms unveil Ackr4 as a male-specific prognostic factor in Myc-driven B-cell lymphomas

Author

Anne Fajac, Iva Simeonova, Julia Leemput, Marc Gabriel, Aurélie Morin, Vincent Lejour, Annaïg Hamon, Jeanne Rakotopare, Wilhelm Vaysse-Zinkhöfer, Eliana Eldawra, Marina Pinskaya, Antonin Morillon, Jean-Christophe Bourdon, Boris Bardot, and Franck Toledo

Subjects

p53, Ackr4, Myc, Burkitt lymphoma, sex disparity in cancer, Ccl21, Medicine, Science, Biology (General), QH301-705.5

Abstract

The Trp53 gene encodes several isoforms of elusive biological significance. Here, we show that mice lacking the Trp53 alternatively spliced (AS) exon, thereby expressing the canonical p53 protein but not isoforms with the AS C-terminus, have unexpectedly lost a male-specific protection against Myc-induced B-cell lymphomas. Lymphomagenesis was delayed in Trp53+/+Eμ-Myc males compared to Trp53ΔAS/ΔAS Eμ-Myc males, but also compared to Trp53+/+Eμ-Myc and Trp53ΔAS/ΔAS Eμ-Myc females. Pre-tumoral splenic cells from Trp53+/+Eμ-Myc males exhibited a higher expression of Ackr4, encoding an atypical chemokine receptor with tumor suppressive effects. We identified Ackr4 as a p53 target gene whose p53-mediated transactivation is inhibited by estrogens, and as a male-specific factor of good prognosis relevant for murine Eμ-Myc-induced and human Burkitt lymphomas. Furthermore, the knockout of ACKR4 increased the chemokine-guided migration of Burkitt lymphoma cells. These data demonstrate the functional relevance of alternatively spliced p53 isoforms and reveal sex disparities in Myc-driven lymphomagenesis.

Published

2024

5. Chemokine CCL21 determines immunotherapy response in hepatocellular carcinoma by affecting neutrophil polarization.

Author

Xu, Wenxin, Weng, Jialei, Xu, Minghao, Zhou, Qiang, Liu, Shaoqing, Hu, Zhiqiu, Ren, Ning, Zhou, Chenhao, and Shen, Yinghao

Abstract

Background: The efficacy of immune checkpoint inhibitors (ICIs) in hepatocellular carcinoma (HCC) is poor and great heterogeneity among individuals. Chemokines are highly correlated with tumor immune response. Here, we aimed to identify an effective chemokine for predicting the efficacy of immunotherapy in HCC. Methods: Chemokine C‐C motif ligand 21 (CCL21) was screened by transcriptomic analysis in tumor tissues from HCC patients with different responses to ICIs. The least absolute shrinkage and selection operator (LASSO) regression analysis was conducted to construct a predictive nomogram. Neutrophils in vitro and HCC subcutaneous tumor model in vivo were applied to explore the role of CCL21 on the tumor microenvironment (TME) of HCC. Results: Transcriptome analysis showed that CCL21 level was much higher in HCC patients with response to immunotherapy. The predictive nomogram was constructed and validated as a classifier. CCL21 could inhibit N2 neutrophil polarization by suppressing the activation of nuclear factor kappa B (NF-κB) pathway. In addition, CCL21 enhanced the therapeutic efficacy of ICIs. Conclusion: CCL21 may serve as a predictive biomarker for immunotherapy response in HCC patients. High levels of CCL21 in TME inhibit immunosuppressive polarization of neutrophils. CCL21 in combination with ICIs may offer a novel therapeutic strategy for HCC. [ABSTRACT FROM AUTHOR]

Published

2024

6. Developmental conversion of thymocyte-attracting cells into self-antigen-displaying cells in embryonic thymus medulla epithelium

Author

Izumi Ohigashi, Andrea J White, Mei-Ting Yang, Sayumi Fujimori, Yu Tanaka, Alison Jacques, Hiroshi Kiyonari, Yosuke Matsushita, Sevilay Turan, Michael C Kelly, Graham Anderson, and Yousuke Takahama

Subjects

thymus, medullary thymic epithelial cell, CCL21, Aire, developmental pathway, Medicine, Science, Biology (General), QH301-705.5

Abstract

Thymus medulla epithelium establishes immune self-tolerance and comprises diverse cellular subsets. Functionally relevant medullary thymic epithelial cells (mTECs) include a self-antigen-displaying subset that exhibits genome-wide promiscuous gene expression promoted by the nuclear protein Aire and that resembles a mosaic of extrathymic cells including mucosal tuft cells. An additional mTEC subset produces the chemokine CCL21, thereby attracting positively selected thymocytes from the cortex to the medulla. Both self-antigen-displaying and thymocyte-attracting mTEC subsets are essential for self-tolerance. Here, we identify a developmental pathway by which mTECs gain their diversity in functionally distinct subsets. We show that CCL21-expressing mTECs arise early during thymus ontogeny in mice. Fate-mapping analysis reveals that self-antigen-displaying mTECs, including Aire-expressing mTECs and thymic tuft cells, are derived from CCL21-expressing cells. The differentiation capability of CCL21-expressing embryonic mTECs is verified in reaggregate thymus experiments. These results indicate that CCL21-expressing embryonic mTECs carry a developmental potential to give rise to self-antigen-displaying mTECs, revealing that the sequential conversion of thymocyte-attracting subset into self-antigen-displaying subset serves to assemble functional diversity in the thymus medulla epithelium.

Published

2024

7. Activation of CCL21-GPR174/CCR7 on cardiac fibroblasts underlies myocardial ischemia/reperfusion injury

Author

Meng, Xiao-Wen, Zhang, Mian, Hu, Jun-Kai, Chen, Xin-Yu, Long, Yu-Qin, Liu, Hong, Feng, Xiao-Mei, Ji, Fu-Hai, and Peng, Ke

Subjects

Biological Sciences, Genetics, Heart Disease, Cardiovascular, Heart Disease - Coronary Heart Disease, Biotechnology, Aetiology, 2.1 Biological and endogenous factors, myocardial ischemia/reperfusion injury, differentially expressed genes, CCL21, GPR174/CCR7, cardiac fibroblasts, transcriptome, Clinical Sciences, Law

Abstract

Background: The mechanisms underlying myocardial ischemia/reperfusion (I/R) injury are not fully understood. This study aims to explore key candidate genes and potential therapeutic targets for treatment of myocardial I/R injury. Methods: The transcriptional profiles of ventricular myocardium during cardiac arrest, ischemia, and reperfusion were obtained from the Gene Expression Omnibus database. Based on the transcriptional data of GSE6381, functional pathway and process enrichment analyses, protein-protein interaction network, and gene set enrichment analyses were conducted. In the animal experiments, we established the myocardial I/R injury model in mice. We validated the mRNA and protein expression of the key genes using the qPCR and western blots. We further assessed the expression and localization of CCL21 and its receptors using immunofluorescence staining experiments. Results: The microarray analyses identified five key genes (CCL21, XCR1, CXCL13, EDN1, and CASR). Myocardial I/R process in mice resulted in significant myocardial infraction, histological damage, and myocardial apoptosis. The results of qPCR and western blots showed that the expression of CCL21 and CXCL13 were increased following myocardial I/R injury in mice. Furthermore, the immunofluorescence staining results revealed that the expression of GPR174/CCR7 (CCL21 receptors), but not CXCR5 (CXCL13 receptor), was elevated following myocardial I/R injury. Moreover, the activated CCL21-GPR174/CCR7 signaling was located on the cardiac fibroblasts of the myocardium with I/R injury. Conclusion: This study revealed several key factors underlying myocardial I/R injury. Of these, the activation of CCL21-GPR174/CCR7 signaling on cardiac fibroblasts was highlighted, which provides potential therapeutic targets for cardioprotection.

Published

2022

8. CCL21‐Ser expression in melanoma cells recruits CCR7+ naïve T cells to tumor tissues and promotes tumor growth.

Author

Miyamoto, Megumi, Kawato, Yuki, Fujie, Ryonosuke, Kurowarabe, Kaoru, Fujiwara, Kakeru, Nobusawa, Reika, Hayashi, Ryota, Iida, Kei, Ohigashi, Izumi, and Hayasaka, Haruko

Abstract

CCL21‐Ser, a chemokine encoded by the Ccl21a gene, is constitutively expressed in the thymic epithelial cells and stromal cells of secondary lymphoid organs. It regulates immune cell migration and survival through its receptor CCR7. Herein, using CCL21‐Ser‐expressing melanoma cells and the Ccl21a‐deficient mice, we demonstrated the functional role of cancer cell‐derived CCL21‐Ser in melanoma growth in vivo. The B16‐F10 tumor growth was significantly decreased in Ccl21a‐deficient mice compared with that in wild‐type mice, indicating that host‐derived CCL21‐Ser contributes to melanoma proliferation in vivo. In Ccl21a‐deficient mice, tumor growth of melanoma cells expressing CCL21‐Ser was significantly enhanced, suggesting that CCL21‐Ser from melanoma cells promotes tumor growth in the absence of host‐derived CCL21‐Ser. The increase in tumor growth was associated with an increase in the CCR7+ CD62L+ T cell frequency in the tumor tissue but was inversely correlated with Treg frequency, suggesting that naïve T cells primarily promote tumor growth. Adoptive transfer experiments demonstrated that naïve T cells are preferentially recruited from the blood into tumors with melanoma cell‐derived CCL21‐Ser expression. These results suggest that CCL21‐Ser from melanoma cells promotes the infiltration of CCR7+ naïve T cells into the tumor tissues and creates a tumor microenvironment favorable for melanoma growth. [ABSTRACT FROM AUTHOR]

Published

2023

9. NMR indicates the N-termini of PSGL1 and CCR7 bind competitively to the chemokine CCL21

Author

Robin N. Witt, Kaileigh S. Nickel, John R. Binns, Alexander M. Gray, Alyssa M. Hintz, Noah F. Kofron, Steven F. Steigleder, Francis C. Peterson, and Christopher T. Veldkamp

Subjects

Chemokines, CCL21, CCR7, Metastasis, NMR, PSGL1, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Chemokines are from a family of secreted cytokines that direct the trafficking of immune cells to coordinate immune responses. Chemokines are involved in numerous disease states, including responding to infections, autoimmune disorders, and cancer metastasis. Ther are chemokines, like CCL21, that signal for cellular migration through the activation of G protein-coupled receptors, like CCR7, through interaction with the receptor's extracellular N-terminus, loops, and core of the receptor. CCL21 is involved in routine immune surveillance but can also attract metastasizing cancer cells to lymph nodes. P-selectin glycoprotein ligand 1 (PSGL1) has a role in cellular adhesion during chemotaxis and is a transmembrane signaling molecule. PSGL1 expression enhances chemotactic responses of T cells to CCL21. Here NMR studies indicate the binding sites on CCL21 for the N-termini or PSGL1 and CCR7 overlap, and binding of the N-termini of PSGL1 and CCR7 is competitive.

Published

2023

10. The medulla controls effector primed γδT‐cell development in the adult mouse thymus.

Author

James, Kieran D., White, Andrea J., Jenkinson, William E., and Anderson, Graham

Subjects

ADULT development, THYMUS, IMMUNE response, CD25 antigen, MICE

Abstract

γδT cells are produced in the thymus throughout life and provide immunity at epithelial‐rich sites. Unlike conventional αβT cells, γδT‐cell development involves intrathymic acquisition of effector function, with priming for either IL17 or IFN‐γ production occurring during embryonic or adult life, respectively. How the thymus controls effector‐primed γδT‐cell generation in adulthood is poorly understood. Here, we distinguished de novo γδT cells from those undergoing thymus recirculation and/or retention using Rag2GFP mice alongside markers of maturation/effector priming including CD24, CD25, CD73, and IFN‐γ, the latter by crossing with IFN‐γYFP GREAT mice. We categorize newly developing γδT‐cells into an ordered sequence where CD25+CD73−IFN‐γYFP− precursors are followed sequentially by CD25−CD73+IFN‐γYFP− intermediates and CD25−CD73+IFN‐γYFP+ effectors. To determine intrathymic requirements controlling this sequence, we examined γδT‐cell development in Relb−/− thymus grafts that lack medullary microenvironments. Interestingly, medulla deficiency did not alter CD25+ γδT‐cell precursor generation, but significantly impaired development of effector primed stages. This impact on γδT‐cell priming was mirrored in plt/plt mice lacking the medullary chemoattractants CCL19 and CCL21, and also Ccl21a−/− but not Ccl19−/− mice. Collectively, we identify the medulla as an important site for effector priming during adult γδT‐cell development and demonstrate a specific role for the medullary epithelial product CCL21 in this process. [ABSTRACT FROM AUTHOR]

Published

2023

11. ccl19 and ccl21 affect cell movements and differentiation in early Xenopus development.

Author

Goto, Toshiyasu, Michiue, Tatsuo, and Shibuya, Hiroshi

Subjects

*CELL motility, *CELL differentiation, *GASTRULATION, *XENOPUS, *XENOPUS laevis, *INVERSE relationships (Mathematics)

Abstract

We characterized Xenopus laevis C‐C motif chemokine ligand 19.L (ccl19.L) and C‐C motif chemokine ligand 21.L (ccl21.L) during early Xenopus embryogenesis. The temporal and spatial expression patterns of ccl19.L and ccl21.L tended to show an inverse correlation, except that the expression level was higher in the dorsal side at the gastrula stage. For example, even at the dorsal sector of the gastrulae, ccl19.L was expressed in the axial region and ccl21.L was expressed in the paraxial region. Dorsal overexpression of ccl19.L and ccl21.L and knockdown of Ccl19.L and Ccl21.L inhibited gastrulation, but their functions were different in cell behaviors during morphogenesis. Observation of Keller sandwich explants revealed that overexpression of both ccl19.L and ccl21.L and knockdown of Ccl21.L inhibited the convergent extension movements, while knockdown of Ccl19.L did not. ccl19.L‐overexpressing explants attracted cells at a distance and ccl21.L‐overexpressing explants attracted neighboring cells. Ventral overexpression of ccl19.L and ccl21.L induced secondary axis‐like structures and chrd.1 expression at the ventral side. Upregulation of chrd.1 was induced by ligand mRNAs through ccr7.S. Knockdown of Ccl19.L and Ccl21.L inhibited gastrulation and downregulated chrd.1 expression at the dorsal side. The collective findings indicate that ccl19.L and ccl21.L might play important roles in morphogenesis and dorsal–ventral patterning during early embryogenesis in Xenopus. [ABSTRACT FROM AUTHOR]

Published

2023

12. Regulation and impact of cardiac lymphangiogenesis in pressure-overload-induced heart failure.

Author

Heron, Coraline, Dumesnil, Anais, Houssari, Mahmoud, Renet, Sylvanie, Lemarcis, Theo, Lebon, Alexis, Godefroy, David, Schapman, Damien, Henri, Orianne, Riou, Gaetan, Nicol, Lionel, Henry, Jean-Paul, Valet, Manon, Pieronne-Deperrois, Marie, Ouvrard-Pascaud, Antoine, Hagerling, Réné, Chiavelli, Hélène, Michel, Jean-Baptiste, Mulder, Paul, and Fraineau, Sylvain

Subjects

*HEART failure, *CARDIAC hypertrophy, *MYELOID cells, *HEART cells, *T cells, *ALDOSTERONE antagonists, *DOBUTAMINE

Abstract

Aims Lymphatics are essential for cardiac health, and insufficient lymphatic expansion (lymphangiogenesis) contributes to development of heart failure (HF) after myocardial infarction. However, the regulation and impact of lymphangiogenesis in non-ischaemic cardiomyopathy following pressure-overload remains to be determined. Here, we investigated cardiac lymphangiogenesis following transversal aortic constriction (TAC) in C57Bl/6 and Balb/c mice, and in end-stage HF patients. Methods and results Cardiac function was evaluated by echocardiography, and cardiac hypertrophy, lymphatics, inflammation, oedema, and fibrosis by immunohistochemistry, flow cytometry, microgravimetry, and gene expression analysis. Treatment with neutralizing anti-VEGFR3 antibodies was applied to inhibit cardiac lymphangiogenesis in mice. We found that VEGFR3-signalling was essential to prevent cardiac lymphatic rarefaction after TAC in C57Bl/6 mice. While anti-VEGFR3-induced lymphatic rarefaction did not significantly aggravate myocardial oedema post-TAC, cardiac immune cell levels were increased, notably myeloid cells at 3 weeks and T lymphocytes at 8 weeks. Moreover, whereas inhibition of lymphangiogenesis did not aggravate interstitial fibrosis, it increased perivascular fibrosis and accelerated development of left ventricular (LV) dilation and dysfunction. In clinical HF samples, cardiac lymphatic density tended to increase, although lymphatic sizes decreased, notably in patients with dilated cardiomyopathy. Similarly, comparing C57Bl/6 and Balb/c mice, lymphatic remodelling post-TAC was linked to LV dilation rather than to hypertrophy. The striking lymphangiogenesis in Balb/c was associated with reduced cardiac levels of macrophages, B cells, and perivascular fibrosis at 8 weeks post-TAC, as compared with C57Bl/6 mice that displayed weak lymphangiogenesis. Surprisingly, however, it did not suffice to resolve myocardial oedema, nor prevent HF development. Conclusions We demonstrate for the first time that endogenous lymphangiogenesis limits TAC-induced cardiac inflammation and perivascular fibrosis, delaying HF development in C57Bl/6 but not in Balb/c mice. While the functional impact of lymphatic remodelling remains to be determined in HF patients, our findings suggest that under settings of pressure-overload poor cardiac lymphangiogenesis may accelerate HF development. [ABSTRACT FROM AUTHOR]

Published

2023

13. Plasma levels of CCL21, but not CCL19, independently predict future coronary events in a prospective population-based cohort.

Author

Katra, Pernilla, Hennings, Viktoria, Nilsson, Jan, Engström, Gunnar, Engelbertsen, Daniel, Bengtsson, Eva, and Björkbacka, Harry

Subjects

*HEART failure, *CORONARY disease, *CHEMOKINE receptors, *ODDS ratio, *DISEASE incidence, *CANCER-related mortality

Abstract

The homeostatic chemokines CCL21 and CCL19 have been explored as biomarkers in cardiovascular disease prediction in patients with established cardiovascular disease, but associations between these chemokines and first-time coronary event incidence have not been investigated before. Here, we explored associations between CCL21 or CCL19 and first-time incident coronary events in the general population-based Malmö Diet and Cancer cohort with two decades of follow-up. CCL21 and CCL19 levels in plasma were analysed with ELISA and proximity extension assay and associations with disease incidence were explored with conditional logistic regression in a nested case-control cohort (CCL21; n = 676) and with Cox regression in a population-based cohort (CCL19; n = 4636). High CCL21 levels in plasma were associated with incident first-time coronary events independently of traditional risk factors (odds ratio of 2.64 with 95% confidence interval 1.62–4.31, p < 0.001, comparing the highest versus the lowest tertile of CCL21), whereas CCL19 was not. CCL19 was, however, associated with incident heart failure, as well as increased all-cause, cardiovascular and cancer mortality independently of age and sex. Even though CCL21 and CCL19 both signal through CCR7, these chemokines may not be interchangeable as disease predictors and CCL21 could be used for prediction of future coronary events in individuals without any previous coronary heart disease history. [Display omitted] • Higher CCL21 & CCL19 levels at baseline in patients who suffered a coronary event. • High levels of CCL21 are associated with increased risk of incident coronary events. • High levels of CCL19 are associated with increased risk of mortality & heart failure. [ABSTRACT FROM AUTHOR]

Published

2023

14. Heparin Specifically Interacts with Basic BBXB Motifs of the Chemokine CCL21 to Define CCR7 Signaling.

Author

Artinger, Marc, Gerken, Oliver J., and Legler, Daniel F.

Subjects

*DENDRITIC cells, *EXTRACELLULAR matrix proteins, *GLYCOSAMINOGLYCANS, *CHEMOKINE receptors, *HEPARIN, *T cells, *CELL migration, *CHEMOKINES

Abstract

Chemokines are critically involved in controlling directed leukocyte migration. Spatiotemporal secretion together with local retention processes establish and maintain local chemokine gradients that guide directional cell migration. Extracellular matrix proteins, particularly glycosaminoglycans (GAGs), locally retain chemokines through electrochemical interactions. The two chemokines CCL19 and CCL21 guide CCR7-expressing leukocytes, such as antigen-bearing dendritic cells and T lymphocytes, to draining lymph nodes to initiate adaptive immune responses. CCL21—in contrast to CCL19—is characterized by a unique extended C-terminus composed of highly charged residues to facilitate interactions with GAGs. Notably, both chemokines can trigger common, but also ligand-biased signaling through the same receptor. The underlying molecular mechanism of ligand-biased CCR7 signaling is poorly understood. Using a series of naturally occurring chemokine variants in combination with newly designed site-specific chemokine mutants, we herein assessed CCR7 signaling, as well as GAG interactions. We demonstrate that the charged chemokine C-terminus does not fully confer CCL21-biased CCR7 signaling. Besides the positively charged C-terminus, CCL21 also possesses specific BBXB motifs comprising basic amino acids. We show that CCL21 variants where individual BBXB motifs are mutated retain their capability to trigger G-protein-dependent CCR7 signaling, but lose their ability to interact with heparin. Moreover, we show that heparin specifically interacts with CCL21, but not with CCL19, and thereby competes with ligand-binding to CCR7 and prevents signaling. Hence, we provide evidence that soluble heparin, but not the other GAGs, complexes with CCL21 to define CCR7 signaling in a ligand-dependent manner. [ABSTRACT FROM AUTHOR]

Published

2023

15. Chemokine/Interleukin Imbalance Aggravates the Pathology of Respiratory Syncytial Virus Infection.

Author

Mori, Kentaro, Sasamoto, Takeaki, Nakayama, Tetsuo, Morichi, Shinichiro, Kashiwagi, Yasuyo, Sawada, Akihito, and Kawashima, Hisashi

Subjects

*RESPIRATORY syncytial virus infections, *HUMAN metapneumovirus infection, *RESPIRATORY diseases, *MULTIPLE regression analysis, *RESPIRATORY infections, *CHEMOKINES

Abstract

(1) Background: Almost 100% of children are initially infected by respiratory syncytial virus (RSV) by the age of 2 years, with 30% to 40% of children developing lower respiratory tract infections, of which 1% to 3% become severe. The severity of RSV-induced disease correlates with the influx of leukocytes, which leads to damage of the airways. We hence performed an immunological study based on the assumption that a chemokine/interleukin imbalance affects respiratory disorders caused by bronchiolitis and severe pneumonia. (2) Methods: The subjects were 19 infants without any underlying diseases, who developed respiratory symptoms owing to RSV infection. The subjects were stratified by their symptom severity, and chemokine and interleukin levels in their serum and tracheal aspirate fluid (TAF) were measured. (3) Results: The data of TAF, which were only obtained from subjects with severe symptoms, indicated that levels of inflammatory interleukins were much lower than the levels of chemokines. Three out of 6 subjects with severe symptoms showed below detectable levels of IL-6. TNF-α and IFN-γ levels were also lower than those of chemokines. The main increased CCL chemokines were CCL21 and CCL25, and the main increased CXCL chemokines were CXCL5, 8, 10, 12, and CX3CL1 in the lower respiratory region. Multiple regression analysis demonstrated that serum CX3CL1 and IL-6 levels were most strongly associated with symptom severity. This is the first report to date demonstrating that serum CX3CL1 level is associated with the severity of RSV infection. (4) Conclusions: Our results demonstrated that specific chemokines and the imbalance of cytokines are suspected to be associated with aggravated symptoms of RSV infection. [ABSTRACT FROM AUTHOR]

Published

2022

16. Target organ expression and biomarker characterization of chemokine CCL21 in systemic sclerosis associated pulmonary arterial hypertension.

Author

Didriksen, Henriette, Molberg, Øyvind, Mehta, Adi, Jordan, Suzana, Palchevskiy, Vyacheslav, Fretheim, Håvard, Gude, Einar, Ueland, Thor, Brunborg, Cathrine, Garen, Torhild, Midtvedt, Øyvind, Andreassen, Arne K., Lund-Johansen, Fridtjof, Distler, Oliver, Belperio, John, and Hoffmann-Vold, Anna-Maria

Subjects

PULMONARY arterial hypertension, SYSTEMIC scleroderma, EPITHELIUM, BIOMARKERS, ENZYME-linked immunosorbent assay

Abstract

Introduction: Systemic sclerosis (SSc) is a heterogenous disorder that appears to result from interplay between vascular pathologies, tissue fibrosis and immune processes, with evidence for deregulation of chemokines, which normally control immune trafficking. We recently identified altered levels of chemokine CCL21 in SSc associated pulmonary arterial hypertension (PAH). Here, we aimed to define target organ expression and biomarker characteristics of CCL21. Materials and Methods: To investigate target organ expression of CCL21, we performed immunohistochemistry (IHC) on explanted lung tissues from SSc-PAH patients. We assessed serum levels of CCL21 by ELISA and Luminex in two well-characterized SSc cohorts from Oslo (OUH, n=552) and Zurich (n=93) University hospitals and in 168 healthy controls. For detection of anti-CCl21 antibodies, we performed protein array analysis applying serum samples from SSc patients (n=300) and healthy controls. To characterize circulating CCL21 in SSc, we applied immunoprecipitation (IP) with antibodies detecting both full length and tailless and a custom-made antibody detecting only the C-terminal of CCL21. IP products were analyzed by SDS-PAGE/western blot and Mass spectrometry (MS). Results: By IHC, we found that CCL21 was mainly expressed in the airway epithelial cells of SSc patients with PAH. In the analysis of serum levels of CCL21 we found weak correlation between Luminex and ELISA (r=0.515, p<0.001). Serum levels of anti-CCL21 antibodies were higher in SSc patients than in healthy controls (p<0.001), but only 5% of the SSc population were positive for anti-CCL21 antibodies in SSc, and we found no correlation between anti-CCl21 and serum levels of CCL21. By MS, we only identified peptides located within amino acid (aa) 23-102 of CCL21, indicating that CCL21 in SSc circulate as a truncated protein without the C-terminal tail. Conclusion: This study demonstrates expression of CCL21 in epithelial lung tissue from SSc patients with PAH, and indicate that CCL21 in SSc circulates as a truncated protein. We extend previous observations indicating biomarker potential of CCL21, but find that Luminex is not suitable as platform for biomarker analyses. Finally, in vivo generated anti-CCL21 antibodies exist in SSc, but do not appear to modify serum CCL21 levels in patients with SSc-PAH. [ABSTRACT FROM AUTHOR]

Published

2022

17. Activation of CCL21-GPR174/CCR7 on cardiac fibroblasts underlies myocardial ischemia/reperfusion injury.

Author

Xiao-Wen Meng, Mian Zhang, Jun-Kai Hu, Xin-Yu Chen, Yu-Qin Long, Hong Liu, Xiao-Mei Feng, Fu-Hai Ji, and Ke Peng

Subjects

MYOCARDIAL reperfusion, MYOCARDIAL ischemia, REPERFUSION injury, GENE expression, PROTEIN-protein interactions, CARDIAC arrest

Abstract

Background: The mechanisms underlying myocardial ischemia/reperfusion (I/R) injury are not fully understood. This study aims to explore key candidate genes and potential therapeutic targets for treatment of myocardial I/R injury. Methods: The transcriptional profiles of ventricular myocardium during cardiac arrest, ischemia, and reperfusion were obtained from the Gene Expression Omnibus database. Based on the transcriptional data of GSE6381, functional pathway and process enrichment analyses, protein-protein interaction network, and gene set enrichment analyses were conducted. In the animal experiments, we established the myocardial I/R injury model in mice. We validated the mRNA and protein expression of the key genes using the qPCR and western blots. We further assessed the expression and localization of CCL21 and its receptors using immunofluorescence staining experiments. Results: The microarray analyses identified five key genes (CCL21, XCR1, CXCL13, EDN1, and CASR). Myocardial I/R process in mice resulted in significant myocardial infraction, histological damage, and myocardial apoptosis. The results of qPCR and western blots showed that the expression of CCL21 and CXCL13 were increased following myocardial I/R injury in mice. Furthermore, the immunofluorescence staining results revealed that the expression of GPR174/CCR7 (CCL21 receptors), but not CXCR5 (CXCL13 receptor), was elevated following myocardial I/R injury. Moreover, the activated CCL21-GPR174/CCR7 signaling was located on the cardiac fibroblasts of the myocardium with I/R injury. Conclusion: This study revealed several key factors underlying myocardial I/R injury. Of these, the activation of CCL21-GPR174/CCR7 signaling on cardiac fibroblasts was highlighted, which provides potential therapeutic targets for cardioprotection. [ABSTRACT FROM AUTHOR]

Published

2022

18. Trichinella spiralis nurse cell formation is regulated via CCR7+ dendritic cells.

Author

Park, Mi‐Kyung, Kang, Shin Ae, Cho, Min‐Kyoung, and Yu, Hak Sun

Subjects

*TRICHINELLA spiralis, *DENDRITIC cells, *LYMPHOID tissue, *CELL receptors, *REGULATORY T cells, *IMMUNOGLOBULIN E

Abstract

The chemokine receptor CCR7 is a well‐established homing receptor for dendritic cells (DCs) and T‐cells. Interaction with the CCL19 and CCL21 ligands promotes priming of immune responses in lymphoid tissues; however, the mechanism underlying CCR7‐induced immune responses against helminth parasite infection remains unknown. Thus, we examined the role of CCR7 in generating protective immune responses against intracellular Trichinella spiralis infection. The results showed significantly increased CCR7, CCL19 and CCL21 expression in the muscle tissue compared to that in the intestinal tissue in T. spiralis‐infected mice. The CCR7‐expressing DC population increased in the mesenteric and peripheral lymph nodes (PLNs) during T. spiralis infection. Notably, the number of CCR7‐expressing cells in PLNs increased by more than 30% at 28 days post‐infection; however, this increase was significantly inhibited in CCR7‐blocked mice treated with CCR7‐specific antibodies. T helper 2 (Th2)‐and regulatory T (Treg)‐related cytokine levels were also reduced by CCR7‐specific antibody treatment. CCR7‐blocked mice lost their resistance to T. spiralis infection in the muscle phase but not in the intestinal phase. Furthermore, fewer eosinophils around the nurse cells and reduced total and T. spiralis‐specific IgE in the serum were observed in CCR7‐blocked mice compared to those infected with only T. spiralis. CCR7 blockade led to the T. spiralis infection‐induced suppression of Th2‐ and Treg‐related cytokine production in vitro. These results suggest that CCR7 in DCs might play an essential role in host defence mechanisms against T. spiralis infection, particularly in the muscle stage of the infection, by accelerating Th2 and Treg cell responses. [ABSTRACT FROM AUTHOR]

Published

2022

19. A subpopulation of green turtle suprabasal epidermal cells are Langerin+ and migrate under in vitro stimulation of the chemokine CCL21.

Author

Muñoz Tenería, Fernando A., Calderón-Amador, Juana, Negrete-Philippe, Ana C., and Flores-Romo, Leopoldo

Abstract

Dendritic cells form the link between the innate and adaptative immune response, particularly on mucosal and epidermal surfaces. The Langerhans, an epidermal dendritic cell subpopulation, play a key role in the skin immune response across several species. Scarse immune cell subpopulations, including Langerhans-like cells, have been identified in endangered green turtles thereby complicating the understanding of the pathogenesis of diseases such as fibropapillomatosis, which induces skin tumours in this species worldwide. In biopsies from green turtle skin, we demonstrated that the polyclonal anti-human Langerin antibodies strongly stained a Langerin+ cell population in epidermal sheets, the suprabasal layer of the epidermis in cryosections and in cells from cytospin preparation of migration assays. The morphology of these cells was round to amoeboid in normal skin; however, in skin with ulcerative dermatitis, Langerin+ cells aggregated around ulcers and adopted a more pleomorphic morphology. To our knowledge, this is the first identification of Langerin+ cells with a molecular marker in a reptile species. [ABSTRACT FROM AUTHOR]

Published

2022

20. Mutant mice lacking alternatively spliced p53 isoforms unveil Ackr4 as a male-specific prognostic factor in Myc-driven B-cell lymphomas.

Author

Fajac A, Simeonova I, Leemput J, Gabriel M, Morin A, Lejour V, Hamon A, Rakotopare J, Vaysse-Zinkhöfer W, Eldawra E, Pinskaya M, Morillon A, Bourdon JC, Bardot B, and Toledo F

Subjects

Animals, Mice, Male, Female, Lymphoma, B-Cell genetics, Prognosis, Humans, Sex Factors, Proto-Oncogene Proteins c-myc genetics, Proto-Oncogene Proteins c-myc metabolism, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 metabolism, Alternative Splicing, Protein Isoforms genetics, Protein Isoforms metabolism

Abstract

The Trp53 gene encodes several isoforms of elusive biological significance. Here, we show that mice lacking the Trp53 alternatively spliced (AS) exon, thereby expressing the canonical p53 protein but not isoforms with the AS C-terminus, have unexpectedly lost a male-specific protection against Myc-induced B-cell lymphomas. Lymphomagenesis was delayed in Trp53 +/+ Eμ-Myc males compared to Trp53 ΔAS/ΔAS Eμ-Myc males, but also compared to Trp53 +/+ Eμ-Myc and Trp53 ΔAS/ΔAS Eμ-Myc females. Pre-tumoral splenic cells from Trp53 +/+ Eμ-Myc males exhibited a higher expression of Ackr4, encoding an atypical chemokine receptor with tumor suppressive effects. We identified Ackr4 as a p53 target gene whose p53-mediated transactivation is inhibited by estrogens, and as a male-specific factor of good prognosis relevant for murine Eμ-Myc -induced and human Burkitt lymphomas. Furthermore, the knockout of ACKR4 increased the chemokine-guided migration of Burkitt lymphoma cells. These data demonstrate the functional relevance of alternatively spliced p53 isoforms and reveal sex disparities in Myc-driven lymphomagenesis., Competing Interests: AF, IS, JL, MG, AM, VL, AH, JR, WV, EE, MP, AM, JB, BB, FT No competing interests declared, (© 2024, Fajac et al.)

Published

2024

21. CCL21 Programs Immune Activity in Tumor Microenvironment

Author

Sharma, Sherven, Kadam, Pournima, Dubinett, Steven, Crusio, Wim E., Series Editor, Lambris, John D., Series Editor, Radeke, Heinfried H., Series Editor, Rezaei, Nima, Series Editor, and Birbrair, Alexander, editor

Published

2020

22. A formulated poly (I:C)/CCL21 as an effective mucosal adjuvant for gamma-irradiated influenza vaccine

Author

Ailar Sabbaghi, Masoud Malek, Sara Abdolahi, Seyed Mohammad Miri, Leila Alizadeh, Mehdi Samadi, Seyed Reza Mohebbi, and Amir Ghaemi

Subjects

Gamma-irradiated influenza vaccine, Adjuvants, Protective immunity, CCL21, Poly (I:C), Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Several studies on gamma-irradiated influenza A virus (γ-Flu) have revealed its superior efficacy for inducing homologous and heterologous virus-specific immunity. However, many inactivated vaccines, notably in nasal delivery, require adjuvants to increase the quality and magnitude of vaccine responses. Methods To illustrate the impacts of co-administration of the gamma-irradiated H1N1 vaccine with poly (I:C) and recombinant murine CCL21, either alone or in combination with each other, as adjuvants on the vaccine potency, mice were inoculated intranasally 3 times at one-week interval with γ-Flu alone or with any of the three adjuvant combinations and then challenged with a high lethal dose (10 LD50) of A/PR/8/34 (H1N1) influenza virus. Virus-specific humoral, mucosal, and cell-mediated immunity, as well as cytokine profiles in the spleen (IFN-γ, IL-12, and IL-4), and in the lung homogenates (IL-6 and IL-10) were measured by ELISA. The proliferative response of restimulated splenocytes was also determined by MTT assay. Results The findings showed that the co-delivery of the γ-Flu vaccine and CCL21 or Poly (I:C) significantly increased the vaccine immunogenicity compared to the non-adjuvanted vaccine, associated with more potent protection following challenge infection. However, the mice given a combination of CCL21 with poly (I:C) had strong antibody- and cell-mediated immunity, which were considerably higher than responses of mice receiving the γ-Flu vaccine with each adjuvant separately. This combination also reduced inflammatory mediator levels (notably IL-10) in lung homogenate samples. Conclusions The results indicate that adjuvantation with the CCL21 and poly (I:C) can successfully induce vigorous vaccine-mediated protection, suggesting a robust propensity for CCL21 plus poly (I:C) as a potent mucosal adjuvant.

Published

2021

23. Comparative Analysis of Commercial CCL21 and CCL21/IL1β Recombinant Proteins by in silico Tools

Author

Ahdiyeh Shahtaghi, Ali Alam Shahnabadi, Kamelia Kohannezhad, Neda Amini, and Maria Beihaghi

Subjects

cytokine, chemokine, ccl21, docking, molecular dynamics simulation, Biology (General), QH301-705.5

Abstract

One of the newest diagnostic methods and treatment of cancer is to design new drugs. It is now possible to design a drug with desired properties in theory and evaluate its therapeutic effects through bioinformatics tools. Among the studied drugs, those based on cytokine genes, which increase the body's immunity against cancer, are of great interest. Cytokines are small proteins that play an essential role in cell signaling and can affect the function and behavior of surrounding cells. CCL21 chemokine is one of the cytokines that possess antitumor properties has the potential for chemoattraction of T lymphocytes and dendritic cells. Interleukin 1 beta (IL1β) is a cytokine involving different cellular activities such as the activation of neutrophils, B-Cells, and T-Cells. In the present study, we designed a drug-based cytokine gene to activate T cells and B cells by inserting defined CCL21 epitope and IL1β peptide sequences into a protein construct. Molecular dynamics simulation was performed in Linux space using Gromex software. Results of RMSD, RMSF, and the radius of gyration obtained from the simulation showed the stability of both proteins, which indicated that there are no significant conformational differences between the commercial CCL21 and recombinant form. The interaction of synthetic construct and human CCL21 with the CCR7 receptor was also investigated by HADDOCK software. Obtained results showed no differences between these proteins, and recombinant protein has the same structural and conformational characteristics as human commercial CCL21.

Published

2021

24. Target organ expression and biomarker characterization of chemokine CCL21 in systemic sclerosis associated pulmonary arterial hypertension

Author

Henriette Didriksen, Øyvind Molberg, Adi Mehta, Suzana Jordan, Vyacheslav Palchevskiy, Håvard Fretheim, Einar Gude, Thor Ueland, Cathrine Brunborg, Torhild Garen, Øyvind Midtvedt, Arne K. Andreassen, Fridtjof Lund-Johansen, Oliver Distler, John Belperio, and Anna-Maria Hoffmann-Vold

Subjects

systemic sclerosis, CCL21, pulmonary arteria hypertension, ELISA Enzyme-linked immunosorbent assay, Luminex (xMAP) method, Anti-CCL21, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionSystemic sclerosis (SSc) is a heterogenous disorder that appears to result from interplay between vascular pathologies, tissue fibrosis and immune processes, with evidence for deregulation of chemokines, which normally control immune trafficking. We recently identified altered levels of chemokine CCL21 in SSc associated pulmonary arterial hypertension (PAH). Here, we aimed to define target organ expression and biomarker characteristics of CCL21.Materials and methodsTo investigate target organ expression of CCL21, we performed immunohistochemistry (IHC) on explanted lung tissues from SSc-PAH patients. We assessed serum levels of CCL21 by ELISA and Luminex in two well-characterized SSc cohorts from Oslo (OUH, n=552) and Zurich (n=93) University hospitals and in 168 healthy controls. For detection of anti-CCl21 antibodies, we performed protein array analysis applying serum samples from SSc patients (n=300) and healthy controls. To characterize circulating CCL21 in SSc, we applied immunoprecipitation (IP) with antibodies detecting both full length and tailless and a custom-made antibody detecting only the C-terminal of CCL21. IP products were analyzed by SDS-PAGE/western blot and Mass spectrometry (MS).ResultsBy IHC, we found that CCL21 was mainly expressed in the airway epithelial cells of SSc patients with PAH. In the analysis of serum levels of CCL21 we found weak correlation between Luminex and ELISA (r=0.515, p

Published

2022

25. Considerations for Novel COVID-19 Mucosal Vaccine Development.

Author

Alturaiki, Wael

Subjects

SARS-CoV-2, VACCINE development, IMMUNOLOGIC memory, COVID-19 vaccines, LYMPHOID tissue

Abstract

Mucosal surfaces are the first contact sites of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Most SARS-CoV-2 vaccines induce specific IgG responses but provide limited mucosal immunity. Cytokine B-cell activation factor (BAFF) and A proliferation-inducing ligand (APRIL) in the tumor necrosis factor (TNF) superfamily play key immunological functions during B cell development and antibody production. Furthermore, homeostatic chemokines, such as C-X-C motif chemokine ligand 13 (CXCL13), chemokine (C–C motif) ligand 19 (CCL19), and CCL21, can induce B- and T-cell responses to infection and promote the formation of inducible bronchus-associated lymphoid tissues (iBALT), where specific local immune responses and memory cells are generated. We reviewed the role of BAFF, APRIL, CXCL13, CCL19, and CCL21 in the activation of local B-cell responses and antibody production, and the formation of iBALT in the lung following viral respiratory infections. We speculate that mucosal vaccines may offer more efficient protection against SARS-CoV-2 infection than systematic vaccines and hypothesize that a novel SARS-CoV-2 mRNA mucosal vaccine using BAFF/APRIL or CXCL13 as immunostimulants combined with the spike protein-encoding mRNA may enhance the efficiency of the local immune response and prevent the early stages of SARS-CoV-2 replication and the rapid viral clearance from the airways. [ABSTRACT FROM AUTHOR]

Published

2022

26. Distinct Chemokine Receptor Expression Profiles in De Novo DLBCL, Transformed Follicular Lymphoma, Richter's Trans-Formed DLBCL and Germinal Center B-Cells.

Author

Uhl, Barbara, Prochazka, Katharina T., Pansy, Katrin, Wenzl, Kerstin, Strobl, Johanna, Baumgartner, Claudia, Szmyra, Marta M., Waha, James E., Wolf, Axel, Tomazic, Peter V., Steinbauer, Elisabeth, Steinwender, Maria, Friedl, Sabine, Weniger, Marc, Küppers, Ralf, Pichler, Martin, Greinix, Hildegard T., Stary, Georg, Ramsay, Alan G., and Apollonio, Benedetta

Subjects

*FOLLICULAR lymphoma, *CHEMOKINE receptors, *DIFFUSE large B-cell lymphomas, *GERMINAL centers, *BIOMARKERS, *RICHTER syndrome, *RITUXIMAB, *OVARIAN follicle

Abstract

Chemokine receptors and their ligands have been identified as playing an important role in the development of diffuse large B-cell lymphoma (DLBCL), follicular lymphoma, and Richter syndrome (RS). Our aim was to investigate the different expression profiles in de novo DLBCL, transformed follicular lymphoma (tFL), and RS. Here, we profiled the mRNA expression levels of 18 chemokine receptors (CCR1–CCR9, CXCR1–CXCR7, CX3CR1 and XCR1) using RQ-PCR, as well as immunohistochemistry of seven chemokine receptors (CCR1, CCR4–CCR8 and CXCR2) in RS, de novo DLBCL, and tFL biopsy-derived tissues. Tonsil-derived germinal center B-cells (GC-B) served as non-neoplastic controls. The chemokine receptor expression profiles of de novo DLBCL and tFL substantially differed from those of GC-B, with at least 5-fold higher expression of 15 out of the 18 investigated chemokine receptors (CCR1–CCR9, CXCR1, CXCR2, CXCR6, CXCR7, CX3CR1 and XCR1) in these lymphoma subtypes. Interestingly, the de novo DLBCL and tFL exhibited at least 22-fold higher expression of CCR1, CCR5, CCR8, and CXCR6 compared with RS, whereas no significant difference in chemokine receptor expression profile was detected when comparing de novo DLBCL with tFL. Furthermore, in de novo DLBCL and tFLs, a high expression of CCR7 was associated with a poor overall survival in our study cohort, as well as in an independent patient cohort. Our data indicate that the chemokine receptor expression profile of RS differs substantially from that of de novo DLBCL and tFL. Thus, these multiple dysregulated chemokine receptors could represent novel clinical markers as diagnostic and prognostic tools. Moreover, this study highlights the relevance of chemokine signaling crosstalk in the tumor microenvironment of aggressive lymphomas. [ABSTRACT FROM AUTHOR]

Published

2022

27. Nociception-Dependent CCL21 Induces Dorsal Root Ganglia Axonal Growth via CCR7-ERK Activation.

Author

Mesquida-Veny, Francina, Martínez-Torres, Sara, Antonio Del Rio, Jose, and Hervera, Arnau

Subjects

DORSAL root ganglia, CXCR4 receptors, CHEMOKINE receptors, CELL migration, NERVOUS system, NEUROGLIA

Abstract

While chemokines were originally described for their ability to induce cell migration, many studies show how these proteins also take part in many other cell functions, acting as adaptable messengers in the communication between a diversity of cell types. In the nervous system, chemokines participate both in physiological and pathological processes, and while their expression is often described on glial and immune cells, growing evidence describes the expression of chemokines and their receptors in neurons, highlighting their potential in auto- and paracrine signalling. In this study we analysed the role of nociception in the neuronal chemokinome, and in turn their role in axonal growth. We found that stimulating TRPV1+ nociceptors induces a transient increase in CCL21. Interestingly we also found that CCL21 enhances neurite growth of large diameter proprioceptors in vitro. Consistent with this, we show that proprioceptors express the CCL21 receptor CCR7, and a CCR7 neutralizing antibody dose-dependently attenuates CCL21-induced neurite outgrowth. Mechanistically, we found that CCL21 binds locally to its receptor CCR7 at the growth cone, activating the downstream MEK-ERK pathway, that in turn activates N-WASP, triggering actin filament ramification in the growth cone, resulting in increased axonal growth. [ABSTRACT FROM AUTHOR]

Published

2022

28. Distinct Fates of Chemokine and Surrogate Molecule Gradients: Consequences for CCR7-Guided Dendritic Cell Migration.

Author

Artinger, Marc, Gerken, Oliver J., Purvanov, Vladimir, and Legler, Daniel F.

Subjects

DENDRITIC cells, CELL migration, EXTRACELLULAR matrix proteins, DEXTRAN, CHEMOKINE receptors, MOLECULES

Abstract

Chemokine-guided leukocyte migration is a hallmark of the immune system to cope with invading pathogens. Intruder confronted dendritic cells (DCs) induce the expression of the chemokine receptor CCR7, which enables them to sense and migrate along chemokine gradients to home to draining lymph nodes, where they launch an adaptive immune response. Chemokine-mediated DC migration is recapitulated and intensively studied in 3D matrix migration chambers. A major caveat in the field is that chemokine gradient formation and maintenance in such 3D environments is generally not assessed. Instead, fluorescent probes, mostly labelled dextran, are used as surrogate molecules, thereby neglecting important electrochemical properties of the chemokines. Here, we used site-specifically, fluorescently labelled CCL19 and CCL21 to study the establishment and shape of the chemokine gradients over time in the 3D collagen matrix. We demonstrate that CCL19 and particularly CCL21 establish stable, but short-distance spanning gradients with an exponential decay-like shape. By contrast, dextran with its neutral surface charge forms a nearly linear gradient across the entire matrix. We show that the charged C-terminal tail of CCL21, known to interact with extracellular matrix proteins, is determinant for shaping the chemokine gradient. Importantly, DCs sense differences in the shape of CCL19 and CCL21 gradients, resulting in distinct spatial migratory responses. [ABSTRACT FROM AUTHOR]

Published

2022

29. Artesunate Therapy Alleviates Fracture-Associated Chronic Pain After Orthopedic Surgery by Suppressing CCL21-Dependent TREM2/DAP12 Inflammatory Signaling in Mice.

Author

Zhang, Linlin, Li, Nan, Zhang, Haoyue, Wang, Yigang, Gao, Tianyu, Zhao, Yuying, Wang, Guolin, Yu, Yonghao, Wang, Chunyan, and Li, Yize

Subjects

CHRONIC pain, ORTHOPEDIC surgery, POSTOPERATIVE pain, MICROGLIA, PAIN management, INTRATHECAL injections, FRACTURE healing, MALARIA

Abstract

Chronic pain after bone fracture and orthopedic surgery is often refractory to most analgesics currently in use, thus emphasizing the urgent need for improved therapeutic medications. Chemokine-dependent neuroinflammation is critical for excitatory synaptic plasticity and central nociception sensitization. Recent studies have focused on the inhibition of inflammatory responses by artesunate, the first anti-malaria drug extracted from artemisinin. The present study investigated the analgesic effects and potential targets of artesunate in a mouse model of chronic pain induced by tibial fracture and orthopedic surgery. Three injections of artesunate were intrathecally administered on a daily basis from days 4 to 6 after fracture. We reported that repetitive exposure to artesunate (10 and 100 μg but not 1 μg) dose-dependently prevented fracture-induced mechanical and cold allodynia. Moreover, single intrathecal injection of artesunate (100 μg) alleviated the established chronic pain on day 14 after fracture surgery. Intraperitoneal artesunate (10 and 50 mg kg−1) therapy was effective against chronic fracture pain. Intriguingly, artesunate inhibited the upregulation of spinal chemokine CCL21, triggering receptor expressed on myeloid cells 2 (TREM2) and DNAX-activating protein of 12 kDa (DAP12) expressions and microglia activation in fracture mice. Furthermore, spinal CCL21 neutralization attenuated the severity of fracture-associated post-surgical pain. Exogenous CCL21-induced acute inflammatory pain was impaired by artesunate therapy. Additionally, the pharmacological blockage of TREM2 reduced recombinant CCL21-elicited behavioral hypernociception. The present findings demonstrate that artesunate therapy reduces the initiation and maintenance of fracture-associated chronic postoperative pain by inhibiting CCL21-dependent TREM2/DAP12 inflammatory signaling and microglia activation, thus suggesting that artesunate could emerge as a therapeutic strategy for fracture pain management. [ABSTRACT FROM AUTHOR]

Published

2022

30. Urinary small extracellular vesicles derived CCL21 mRNA as biomarker linked with pathogenesis for diabetic nephropathy

Author

Ye Feng, Xin Zhong, Hai-Feng Ni, Cui Wang, Tao-Tao Tang, Li-Ting Wang, Kai-Yun Song, Ri-Ning Tang, Hong Liu, Bi-Cheng Liu, and Lin-Li Lv

Subjects

Extracellular vesicles, Exosomes, Diabetic nephropathy, Biomarker, CCL21, Urine, Medicine

Abstract

Abstract Background Diabetic nephropathy (DN) is a leading cause of renal failure, whereas the effective and early diagnostic biomarkers are still lacking. Methods Fourteen cytokines and chemokines mRNA were detected in urinary extracellular vesicles (EVs) from the screening cohort including 4 healthy controls (HC), 4 diabetes mellitus (DM) and 4 biopsy-proven DN patients, and was validated in another 16 HC and 15 DM and 28 DN patients. Correlation analysis was performed between the candidate biomarkers and clinic parameters as well as kidney histological changes. The findings were also confirmed in DN rat model with single injection of STZ. Results The number of small EVs secreted in urine was increased in DN patients compared to DM patients and healthy controls, with expression of AQP1 (a marker of proximal tubules) and AQP2 (a marker of distal/collecting tubules). Small EVs derived CCL21 mRNA increased significantly in DN patients and correlated with level of proteinuria and eGFR. Interestingly, elevated CCL21 mRNA from urine small EVs was observed in DN patients with normal renal function and could discriminate early DN patients from DM more efficiently compared to eGFR and proteinuria. CCL21 also showed an accurate diagnostic ability in distinguishing incipient from overt DN. Histologically, CCL21 mRNA expression increased progressively with the deterioration of tubulointerstitial inflammation and showed the highest level in nodular sclerosis group (class III) in DN patients. Remarkable infiltration of CD3 positive T cells including both CD4 and CD8 positive T cell population were observed in DN patients with high-CCL21 expression. Besides, accumulation of CD3 positive T cells correlated with level of urinary small EVs derived CCL21 and co-localized with CCL21 in the tubulointerstitium in DN patients. Finally, the correlation of CCL21 expression in renal cortex and urinary small EVs was confirmed in STZ-induced DN rat model. Conclusions Urinary small EVs derived CCL21 mRNA may serve as early biomarker for identifying DN linked with pathogenesis. CCL21 mRNA mediated T cell infiltration may constitute the key mechanism of chronic inflammation in DN.

Published

2021

31. The Multi-Functional Roles of CCR7 in Human Immunology and as a Promising Therapeutic Target for Cancer Therapeutics

Author

Faris Alrumaihi

Subjects

CC-chemokine receptor 7, CCL19, CCL21, immune tolerance, drug target, prognostic marker, Biology (General), QH301-705.5

Abstract

An important hallmark of the human immune system is to provide adaptive immunity against pathogens but tolerance toward self-antigens. The CC-chemokine receptor 7 (CCR7) provides a significant contribution in guiding cells to and within lymphoid organs and is important for acquiring immunity and tolerance. The CCR7 holds great importance in establishing thymic architecture and function and naïve and regulatory T-cell homing in the lymph nodes. Similarly, the receptor is a key regulator in cancer cell migration and the movement of dendritic cells. This makes the CCR7 an important receptor as a drug and prognostic marker. In this review, we discussed several biological roles of the CCR7 and its importance as a drug and prognostic marker.

Published

2022

32. Nociception-Dependent CCL21 Induces Dorsal Root Ganglia Axonal Growth via CCR7-ERK Activation

Author

Francina Mesquida-Veny, Sara Martínez-Torres, Jose Antonio Del Rio, and Arnau Hervera

Subjects

CCL21, CCR7, MEK-ERK, axonal growth, nociception, Immunologic diseases. Allergy, RC581-607

Abstract

While chemokines were originally described for their ability to induce cell migration, many studies show how these proteins also take part in many other cell functions, acting as adaptable messengers in the communication between a diversity of cell types. In the nervous system, chemokines participate both in physiological and pathological processes, and while their expression is often described on glial and immune cells, growing evidence describes the expression of chemokines and their receptors in neurons, highlighting their potential in auto- and paracrine signalling. In this study we analysed the role of nociception in the neuronal chemokinome, and in turn their role in axonal growth. We found that stimulating TRPV1+ nociceptors induces a transient increase in CCL21. Interestingly we also found that CCL21 enhances neurite growth of large diameter proprioceptors in vitro. Consistent with this, we show that proprioceptors express the CCL21 receptor CCR7, and a CCR7 neutralizing antibody dose-dependently attenuates CCL21-induced neurite outgrowth. Mechanistically, we found that CCL21 binds locally to its receptor CCR7 at the growth cone, activating the downstream MEK-ERK pathway, that in turn activates N-WASP, triggering actin filament ramification in the growth cone, resulting in increased axonal growth.

Published

2022

33. Artesunate Therapy Alleviates Fracture-Associated Chronic Pain After Orthopedic Surgery by Suppressing CCL21-Dependent TREM2/DAP12 Inflammatory Signaling in Mice

Author

Linlin Zhang, Nan Li, Haoyue Zhang, Yigang Wang, Tianyu Gao, Yuying Zhao, Guolin Wang, Yonghao Yu, Chunyan Wang, and Yize Li

Subjects

artesunate, bone fracture, CCL21, chronic pain, DAP12, TREM2, Therapeutics. Pharmacology, RM1-950

Abstract

Chronic pain after bone fracture and orthopedic surgery is often refractory to most analgesics currently in use, thus emphasizing the urgent need for improved therapeutic medications. Chemokine-dependent neuroinflammation is critical for excitatory synaptic plasticity and central nociception sensitization. Recent studies have focused on the inhibition of inflammatory responses by artesunate, the first anti-malaria drug extracted from artemisinin. The present study investigated the analgesic effects and potential targets of artesunate in a mouse model of chronic pain induced by tibial fracture and orthopedic surgery. Three injections of artesunate were intrathecally administered on a daily basis from days 4 to 6 after fracture. We reported that repetitive exposure to artesunate (10 and 100 μg but not 1 μg) dose-dependently prevented fracture-induced mechanical and cold allodynia. Moreover, single intrathecal injection of artesunate (100 μg) alleviated the established chronic pain on day 14 after fracture surgery. Intraperitoneal artesunate (10 and 50 mg kg−1) therapy was effective against chronic fracture pain. Intriguingly, artesunate inhibited the upregulation of spinal chemokine CCL21, triggering receptor expressed on myeloid cells 2 (TREM2) and DNAX-activating protein of 12 kDa (DAP12) expressions and microglia activation in fracture mice. Furthermore, spinal CCL21 neutralization attenuated the severity of fracture-associated post-surgical pain. Exogenous CCL21-induced acute inflammatory pain was impaired by artesunate therapy. Additionally, the pharmacological blockage of TREM2 reduced recombinant CCL21-elicited behavioral hypernociception. The present findings demonstrate that artesunate therapy reduces the initiation and maintenance of fracture-associated chronic postoperative pain by inhibiting CCL21-dependent TREM2/DAP12 inflammatory signaling and microglia activation, thus suggesting that artesunate could emerge as a therapeutic strategy for fracture pain management.

Published

2022

34. Distinct Fates of Chemokine and Surrogate Molecule Gradients: Consequences for CCR7-Guided Dendritic Cell Migration

Author

Marc Artinger, Oliver J. Gerken, Vladimir Purvanov, and Daniel F. Legler

Subjects

chemokine gradient formation and maintenance, CCL19, CCL21, CCR7, dendritic cell migration, fluorescent chemokines, Immunologic diseases. Allergy, RC581-607

Abstract

Chemokine-guided leukocyte migration is a hallmark of the immune system to cope with invading pathogens. Intruder confronted dendritic cells (DCs) induce the expression of the chemokine receptor CCR7, which enables them to sense and migrate along chemokine gradients to home to draining lymph nodes, where they launch an adaptive immune response. Chemokine-mediated DC migration is recapitulated and intensively studied in 3D matrix migration chambers. A major caveat in the field is that chemokine gradient formation and maintenance in such 3D environments is generally not assessed. Instead, fluorescent probes, mostly labelled dextran, are used as surrogate molecules, thereby neglecting important electrochemical properties of the chemokines. Here, we used site-specifically, fluorescently labelled CCL19 and CCL21 to study the establishment and shape of the chemokine gradients over time in the 3D collagen matrix. We demonstrate that CCL19 and particularly CCL21 establish stable, but short-distance spanning gradients with an exponential decay-like shape. By contrast, dextran with its neutral surface charge forms a nearly linear gradient across the entire matrix. We show that the charged C-terminal tail of CCL21, known to interact with extracellular matrix proteins, is determinant for shaping the chemokine gradient. Importantly, DCs sense differences in the shape of CCL19 and CCL21 gradients, resulting in distinct spatial migratory responses.

Published

2022

35. Integrated Multimodal Analysis: Evaluating the Impacts of Chemotherapy and Electroporation-Based Therapy on Lymphatic and Blood Microvasculature in Cancer

Author

Esparza, Savieay Luis

Subjects

interstitial fluid flow, high frequency irreversible electroporation, agent-based model, chemotherapy, breast cancer, lymphatic vasculature, habitat imaging, reactive oxygen species, CCL21

Abstract

The lymphatic and blood vascular systems are two important vessel networks that serve different roles in healthy states and in cancer. In breast cancer the most common cancer amongst women, mortality remains high despite increased treatment response due to metastatic spread, preferentially through the lymphatics. One aggressive subtype, triple negative breast cancer (TNBC) contributing to 15 to 30 percent of cases and is characterized by the absence of expression of three therapeutic biomarkers. As targeted therapy is limited, treatment relies on standard of care via surgery, radiotherapy, and chemotherapy with limited efficacy and increase in survival. Chemotherapies negatively alter the lymphatic vasculature benefiting the tumor, through lymphangiogenesis. This dissertation seeks to understand how the mechanisms of commonly used chemotherapeutics, like carboplatin, and a novel 2nd generation ablative therapy called High Frequency Irreversible Electroporation (H-FIRE), which utilizes electric pulses to ablate tumor cells, affect the lymphatic and blood microvasculature in the tumor, surrounding fat pad, tumor draining lymph node (TDLN) using multiple analysis methods. This occurred through three main methods 1) identification of oxidative stress effects of chemotherapeutic application of carboplatin on lymphatic endothelial cells in vitro, 2) characterization of lymphatic and blood microvascular dynamics in a 4T1 breast cancer mouse model treated with sub-ablative H-FIRE, 3) through the development of a novel habitat imaging method to identify treatment specific changes in the tumor draining lymph node, and the development of a hybrid agent-based model (ABM) to test cancer cell flow mediated invasion in brain cancer. Herin the work showed that carboplatin induced lymphatic phenotypic changes occurred through generation of reactive oxygen species dependent on VEGFR3 and was reversed through treatment with the antioxidant N-acetylcysteine. In the 4T1 model, sub ablation with H-FIRE induced temporal remodeling of the lymphatic and blood vasculature within the viable tumor, in the surrounding fat pad, and in the tumor draining lymph node over seven days, suggesting an optimal time of application of adjuvant therapy. The development of a habitat imaging analysis method to identify TDLN vascular habitats and the perturbation to treatment in a retrospective analysis of prior work. Lastly, the development of a hybrid ABM through the incorporation of experimentally measured fluid flow fields from dynamic contrast enhanced MRI imaging building upon existing work, and showing the usefulness in comparing mechanisms of cancer cell invasion mediated fluid flow. Altogether, this work presents novel insight into the lymphatic system in cancer within various treatments contexts and new methods of quantifying changes due to treatment. Hopefully, these findings can be used to further inform the field towards a more comprehensive understanding of treatment effects in breast cancer.

Published

2024

36. Modulating tenascin-C functions by targeting the MAtrix REgulating MOtif, "MAREMO".

Author

Loustau, Thomas, Abou-Faycal, Chérine, Erne, William, zur Wiesch, Pia Abel, Ksouri, Ayoub, Imhof, Thomas, Mörgelin, Matthias, Li, Chengbei, Mathieu, Malaurie, Salomé, Nathalie, Crémel, Gerard, Dhaouadi, Sayda, Bouhaouala-Zahar, Balkiss, Koch, Manuel, and Orend, Gertraud

Subjects

*MATRIX functions, *EXTRACELLULAR matrix, *DENDRITIC cells, *BINDING sites, *STRUCTURAL models, *FIBRONECTINS

Abstract

The extracellular matrix molecule Tenascin-C (TNC) promotes cancer and chronic inflammation by multiple mechanisms. Recently, TNC was shown to promote an immune suppressive tumor microenvironment (TME) through binding soluble chemoattracting factors, thus retaining leukocytes in the stroma. TNC also binds to fibronectin (FN) and other molecules, raising the question of a potential common TNC binding mechanism. By sequence comparison of two TNC-interacting domains in FN, the fifth (FN5) and thirteenth (FN13) fibronectin type III domains we identified a MAtrix REgulating MOtif "MAREMO" or M-motif that is highly conserved amongst vertebrates. By sequence analysis, structural modeling and functional analysis we found also putative M-motifs in TNC itself. We showed by negative staining electron microscopic imaging that the M-motif in FN mediates interactions with FN as well as with TNC. We generated two M-motif mimetic peptides P5 and P13 resembling the M-motif in FN5 and FN13, respectively. By using structural information we modelled binding of these M-motif mimetics revealing a putative MAREMO binding site MBS in FN5 and TN3, respectively overlapping with the M-motif. We further demonstrated that the M-motif mimetic peptides blocked several functions of TNC, such as binding of TNC to FN, cell rounding on a mixed FN/TNC substratum, FN matrix expression and subsequent assembly, TNC-induced signaling and gene expression, TNC chemokine binding and dendritic cell retention, thus providing novel opportunities to inhibit TNC actions. Our results suggest that targeting the MAREMO/MBS interaction could be exploited for reducing inflammation and matrix functions in cancer and fibrosis. [ABSTRACT FROM AUTHOR]

Published

2022

37. Maturation of Tertiary Lymphoid Structures.

Author

Shu DH and Sidiropoulos DN

Subjects

Humans, Animals, B-Lymphocytes immunology, B-Lymphocytes cytology, T-Lymphocytes immunology, Neoplasms immunology, Neoplasms pathology, Germinal Center immunology, Germinal Center cytology, Lymph Nodes immunology, Lymph Nodes pathology, Inflammation immunology, Inflammation pathology, Tertiary Lymphoid Structures immunology, Tertiary Lymphoid Structures pathology

Abstract

Tertiary lymphoid structures (TLS) are organized collections of B and T lymphocytes that arise in nonlymphoid tissue in response to chronic, unresolved inflammation. TLS have structural and functional similarities to germinal centers found in lymph nodes and are believed to support the establishment of lymph node-like adaptive immune responses at local sites of inflammation. However, understanding of the underlying biology of these structures remains limited, particularly the different stages of TLS life cycle and the signals governing the initiation, maturation, and termination of TLS. Here, we review current understanding of the maturation of TLS and the signals and cell types involved in various stages of development with particular emphasis on recent studies of TLS in cancer, where evidence suggests that TLS may play an important role in supporting antitumor immune responses in solid tumors., (© 2025. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2025

38. Intratumoral Dendritic Cell Vaccine Reprograms the Tumor Microenvironment and Enhances the Efficacy of Immune Checkpoint Blockade in Non-Small Cell Lung Cancer

Author

Lim, Raymond John S

Subjects

Immunology, Oncology, Cellular biology, CCL21, CXCL10, CXCL9, Dendritic Cell, Lung Cancer, T cell

Abstract

Lung cancer remains the most common cause of cancer death worldwide with approximately 85% of patients having non-small cell lung cancer (NSCLC). Checkpoint blockade immunotherapy has evolved the current treatment landscape with robust and durable responses in approximately 20% of patients with progressive, locally advanced, or metastatic NSCLC, as well as in treatment-na�ve advanced disease. Inefficient tumor antigen presentation, diminished T cell infiltration into tumor and LKB1-inactivating mutations contribute to the mechanisms of resistance to programmed death-ligand 1 (PD-L1) or programmed cell death protein 1 (PD-1) blockade in NSCLC. One approach to overcome this immunosuppressive tumor microenvironment (TME) is to utilize in situ vaccination with gene-modified functional antigen presenting cells (APCs) to enhance tumor antigen presentation and promote tumor-specific T cell activation. Here I address two potential therapies: 1) CCL21-genetically engineered dendritic cells (CCL21-DC) and 2) CXCL9/10-genetically engineered dendritic cells (CXCL9/10-DC), which are shown to remodel the tumor immune microenvironment and promote an anti-tumor immune response. In addition, the pre-clinical studies detailed here investigate the mechanisms of how these potential therapies can potentiate checkpoint blockade immunotherapy. These preclinical models serve as a platform to enhance our understanding of the molecular mechanisms of response and resistance to immunotherapy. In addition, these studies provide insights to anti-tumor immunity mediated by in situ DC vaccination and may in turn facilitate the improvement of novel vaccine therapies. The final chapter addresses the pressing need for the development of innovative approaches to detect and intercept lung cancer at its earliest stages of development. Using spatial multiplex immunofluorescence, this chapter highlights the efforts to understand the immune landscape in the tumor microenvironment associated with early-stage lung carcinogenesis and provides further understanding of the mechanism of lung cancer evolution. Research focusing on the development of novel strategies for cancer interception prior to the progression to advanced stages will potentially lead to a paradigm shift in the treatment of lung cancer and have a major impact on clinical outcomes.

Published

2022

39. A formulated poly (I:C)/CCL21 as an effective mucosal adjuvant for gamma-irradiated influenza vaccine.

Author

Sabbaghi, Ailar, Malek, Masoud, Abdolahi, Sara, Miri, Seyed Mohammad, Alizadeh, Leila, Samadi, Mehdi, Mohebbi, Seyed Reza, and Ghaemi, Amir

Subjects

*INFLUENZA vaccines, *INFLUENZA, *CELLULAR immunity, *VACCINE effectiveness, *INFLAMMATORY mediators, *INTERLEUKIN-10

Abstract

Background: Several studies on gamma-irradiated influenza A virus (γ-Flu) have revealed its superior efficacy for inducing homologous and heterologous virus-specific immunity. However, many inactivated vaccines, notably in nasal delivery, require adjuvants to increase the quality and magnitude of vaccine responses. Methods: To illustrate the impacts of co-administration of the gamma-irradiated H1N1 vaccine with poly (I:C) and recombinant murine CCL21, either alone or in combination with each other, as adjuvants on the vaccine potency, mice were inoculated intranasally 3 times at one-week interval with γ-Flu alone or with any of the three adjuvant combinations and then challenged with a high lethal dose (10 LD50) of A/PR/8/34 (H1N1) influenza virus. Virus-specific humoral, mucosal, and cell-mediated immunity, as well as cytokine profiles in the spleen (IFN-γ, IL-12, and IL-4), and in the lung homogenates (IL-6 and IL-10) were measured by ELISA. The proliferative response of restimulated splenocytes was also determined by MTT assay. Results: The findings showed that the co-delivery of the γ-Flu vaccine and CCL21 or Poly (I:C) significantly increased the vaccine immunogenicity compared to the non-adjuvanted vaccine, associated with more potent protection following challenge infection. However, the mice given a combination of CCL21 with poly (I:C) had strong antibody- and cell-mediated immunity, which were considerably higher than responses of mice receiving the γ-Flu vaccine with each adjuvant separately. This combination also reduced inflammatory mediator levels (notably IL-10) in lung homogenate samples. Conclusions: The results indicate that adjuvantation with the CCL21 and poly (I:C) can successfully induce vigorous vaccine-mediated protection, suggesting a robust propensity for CCL21 plus poly (I:C) as a potent mucosal adjuvant. [ABSTRACT FROM AUTHOR]

Published

2021

40. Chemokine C-C motif ligand 21 synergized with programmed death-ligand 1 blockade restrains tumor growth.

Author

Qiangda Chen, Hanlin Yin, Ning Pu, Jicheng Zhang, Guochao Zhao, Wenhui Lou, and Wenchuan Wu

Abstract

Programmed death-ligand 1 (PD-L1) blockade has revolutionized the prognosis of several cancers, but shows a weak effect on pancreatic cancer (PC) due to poor effective immune infiltration. Chemokine C-C motif ligand 21 (CCL21), a chemokine promoting T cell immunity by recruiting and colocalizing dendritic cells (DCs) and T cells, serves as a potential antitumor agent in many cancers. However, its antitumor response and mechanism combined with PD-L1 blockade in PC remain unclear. In our study, we found CCL21 played an important role in leukocyte chemotaxis, inflammatory response, and positive regulation of PI3K-AKT signaling in PC using Metascape and gene set enrichment analysis. The CCL21 level was verified to be positively correlated with infiltration of CD8+ T cells by the CIBERSORT algorithm, but no significant difference in survival was observed in either The Cancer Genome Atlas or the International Cancer Genome Consortium cohort when stratified by CCL21 expression. Additionally, we found the growth rate of allograft tumors was reduced and T cell infiltration was increased, but tumor PD-L1 abundance elevated simultaneously in the CCL21-overexpressed tumors. Then, CCL21 was further verified to increase tumor PD-L1 level through the AKT-glycogen synthase kinase-3β axis in human PC cells, which partly impaired the antitumor T cell immunity. Finally, the combination of CCL21 and PD-L1 blockade showed superior synergistic tumor suppression in vitro and in vivo. Together, our findings suggested that CCL21 in combination with PD-L1 blockade might be an efficient and promising option for the treatment of PC. [ABSTRACT FROM AUTHOR]

Published

2021

41. CCL21-DC tumor antigen vaccine augments anti-PD-1 therapy in lung cancer.

Author

Sharma, Sherven, Kadam, Pournima, Singh, Ram P., Davoodi, Michael, St John, Maie, and Lee, Jay M.

Subjects

*TUMOR antigens, *IMMUNE checkpoint proteins, *CANCER vaccines, *LUNG cancer, *CANCER treatment

Abstract

Targeting inhibitory immune checkpoint molecules has highlighted the need to find approaches enabling the induction and activation of an immune response against cancer. Therapeutic vaccination, which can induce a specific immune response against tumor antigens, is an important approach to consider. Although this approach has shown low clinical efficacy when combined with other treatment modalities, therapeutic cancer vaccines will have a better outcome when combined with immune checkpoint blockade therapy with potential for cancer free survival. In this review, we will discuss the results of our two recent publications in preclinical lung cancer models. Our studies reveal that anti-PD-1 administered in combination with CCL21-DC tumor antigen therapeutic vaccines eradicate lung cancer. The results of these studies highlight the importance of combination therapy of immune checkpoint blockade and therapeutic cancer vaccines for lung cancer patients. [ABSTRACT FROM AUTHOR]

Published

2021

42. CAL-1 as Cellular Model System to Study CCR7-Guided Human Dendritic Cell Migration.

Author

Uetz-von Allmen, Edith, Samson, Guerric P. B., Purvanov, Vladimir, Maeda, Takahiro, and Legler, Daniel F.

Subjects

CELL migration, DENDRITIC cells, CHEMOKINE receptors, CELL surface antigens, IMMUNOMODULATORS, CXCR4 receptors, CYTOTOXIC T cells

Abstract

Dendritic cells (DCs) are potent and versatile professional antigen-presenting cells and central for the induction of adaptive immunity. The ability to migrate and transport peripherally acquired antigens to draining lymph nodes for subsequent cognate T cell priming is a key feature of DCs. Consequently, DC-based immunotherapies are used to elicit tumor-antigen specific T cell responses in cancer patients. Understanding chemokine-guided DC migration is critical to explore DCs as cellular vaccines for immunotherapeutic approaches. Currently, research is hampered by the lack of appropriate human cellular model systems to effectively study spatio-temporal signaling and CCR7-driven migration of human DCs. Here, we report that the previously established human neoplastic cell line CAL-1 expresses the human DC surface antigens CD11c and HLA-DR together with co-stimulatory molecules. Importantly, if exposed for three days to GM-CSF, CAL-1 cells induce the endogenous expression of the chemokine receptor CCR7 upon encountering the clinically approved TLR7/8 agonist Resiquimod R848 and readily migrate along chemokine gradients. Further, we demonstrate that CAL-1 cells can be genetically modified to express fluorescent (GFP)-tagged reporter proteins to study and visualize signaling or can be gene-edited using CRISPR/Cas9. Hence, we herein present the human CAL-1 cell line as versatile and valuable cellular model system to effectively study human DC migration and signaling. [ABSTRACT FROM AUTHOR]

Published

2021

43. CAL-1 as Cellular Model System to Study CCR7-Guided Human Dendritic Cell Migration

Author

Edith Uetz-von Allmen, Guerric P. B. Samson, Vladimir Purvanov, Takahiro Maeda, and Daniel F. Legler

Subjects

human dendritic cell line, cell migration, chemokine receptor CCR7, CCL19, CCL21, chemotaxis, Immunologic diseases. Allergy, RC581-607

Abstract

Dendritic cells (DCs) are potent and versatile professional antigen-presenting cells and central for the induction of adaptive immunity. The ability to migrate and transport peripherally acquired antigens to draining lymph nodes for subsequent cognate T cell priming is a key feature of DCs. Consequently, DC-based immunotherapies are used to elicit tumor-antigen specific T cell responses in cancer patients. Understanding chemokine-guided DC migration is critical to explore DCs as cellular vaccines for immunotherapeutic approaches. Currently, research is hampered by the lack of appropriate human cellular model systems to effectively study spatio-temporal signaling and CCR7-driven migration of human DCs. Here, we report that the previously established human neoplastic cell line CAL-1 expresses the human DC surface antigens CD11c and HLA-DR together with co-stimulatory molecules. Importantly, if exposed for three days to GM-CSF, CAL-1 cells induce the endogenous expression of the chemokine receptor CCR7 upon encountering the clinically approved TLR7/8 agonist Resiquimod R848 and readily migrate along chemokine gradients. Further, we demonstrate that CAL-1 cells can be genetically modified to express fluorescent (GFP)-tagged reporter proteins to study and visualize signaling or can be gene-edited using CRISPR/Cas9. Hence, we herein present the human CAL-1 cell line as versatile and valuable cellular model system to effectively study human DC migration and signaling.

Published

2021

44. Molecular and Cellular Requirements for the Assembly of Tertiary Lymphoid Structures

Author

Mueller, C. G., Nayar, S., Campos, J., Barone, F., COHEN, IRUN R., Series Editor, LAJTHA, ABEL, Series Editor, LAMBRIS, JOHN D., Series Editor, PAOLETTI, RODOLFO, Series Editor, REZAEI, NIMA, Series Editor, Owens, Benjamin M.J, editor, and Lakins, Matthew A., editor

Published

2018

45. Urinary small extracellular vesicles derived CCL21 mRNA as biomarker linked with pathogenesis for diabetic nephropathy.

Author

Feng, Ye, Zhong, Xin, Ni, Hai-Feng, Wang, Cui, Tang, Tao-Tao, Wang, Li-Ting, Song, Kai-Yun, Tang, Ri-Ning, Liu, Hong, Liu, Bi-Cheng, and Lv, Lin-Li

Subjects

*DIABETIC nephropathies, *EXTRACELLULAR vesicles, *EXOSOMES, *BIOMARKERS, *PATHOGENESIS, *KIDNEY cortex, *MESSENGER RNA

Abstract

Background: Diabetic nephropathy (DN) is a leading cause of renal failure, whereas the effective and early diagnostic biomarkers are still lacking.Methods: Fourteen cytokines and chemokines mRNA were detected in urinary extracellular vesicles (EVs) from the screening cohort including 4 healthy controls (HC), 4 diabetes mellitus (DM) and 4 biopsy-proven DN patients, and was validated in another 16 HC and 15 DM and 28 DN patients. Correlation analysis was performed between the candidate biomarkers and clinic parameters as well as kidney histological changes. The findings were also confirmed in DN rat model with single injection of STZ.Results: The number of small EVs secreted in urine was increased in DN patients compared to DM patients and healthy controls, with expression of AQP1 (a marker of proximal tubules) and AQP2 (a marker of distal/collecting tubules). Small EVs derived CCL21 mRNA increased significantly in DN patients and correlated with level of proteinuria and eGFR. Interestingly, elevated CCL21 mRNA from urine small EVs was observed in DN patients with normal renal function and could discriminate early DN patients from DM more efficiently compared to eGFR and proteinuria. CCL21 also showed an accurate diagnostic ability in distinguishing incipient from overt DN. Histologically, CCL21 mRNA expression increased progressively with the deterioration of tubulointerstitial inflammation and showed the highest level in nodular sclerosis group (class III) in DN patients. Remarkable infiltration of CD3 positive T cells including both CD4 and CD8 positive T cell population were observed in DN patients with high-CCL21 expression. Besides, accumulation of CD3 positive T cells correlated with level of urinary small EVs derived CCL21 and co-localized with CCL21 in the tubulointerstitium in DN patients. Finally, the correlation of CCL21 expression in renal cortex and urinary small EVs was confirmed in STZ-induced DN rat model.Conclusions: Urinary small EVs derived CCL21 mRNA may serve as early biomarker for identifying DN linked with pathogenesis. CCL21 mRNA mediated T cell infiltration may constitute the key mechanism of chronic inflammation in DN. [ABSTRACT FROM AUTHOR]

Published

2021

46. Comparative Analysis of Commercial CCL21 and CCL21/IL1β Recombinant Proteins by in silico Tools.

Author

Shahtaghi, Ahdiyeh, Shahnabadi, Ali Alam, Kohannezhad, Kamelia, Amini, Neda, and Beihaghi, Maria

Subjects

*RECOMBINANT proteins, *CANCER treatment, *CHEMOKINES, *MOLECULAR dynamics, *MOLECULAR docking

Abstract

One of the newest diagnostic methods and treatment of cancer is to design new drugs. It is now possible to design a drug with desired properties in theory and evaluate its therapeutic effects through bioinformatics tools. Among the studied drugs, those based on cytokine genes, which increase the body's immunity against cancer, are of great interest. Cytokines are small proteins that play an essential role in cell signaling and can affect the function and behavior of surrounding cells. CCL21 chemokine is one of the cytokines that possess antitumor properties has the potential for chemoattraction of T lymphocytes and dendritic cells. Interleukin 1 beta (IL1ß) is a cytokine involving different cellular activities such as the activation of neutrophils, B-Cells, and T-Cells. In the present study, we designed a drug-based cytokine gene to activate T cells and B cells by inserting defined CCL21 epitope and IL1ß peptide sequences into a protein construct. Molecular dynamics simulation was performed in Linux space using Gromex software. Results of RMSD, RMSF, and the radius of gyration obtained from the simulation showed the stability of both proteins, which indicated that there are no significant conformational differences between the commercial CCL21 and recombinant form. The interaction of synthetic construct and human CCL21 with the CCR7 receptor was also investigated by HADDOCK software. Obtained results showed no differences between these proteins, and recombinant protein has the same structural and conformational characteristics as human commercial CCL21. [ABSTRACT FROM AUTHOR]

Published

2021

47. T cell–depleted cultured pediatric thymus tissue as a model for some aspects of human age-related thymus involution.

Author

Hale, Laura P., Cheatham, Lynn, Macintyre, Andrew N., LaFleur, Bonnie, Sanders, Brittany, Troy, Jesse, Kurtzberg, Joanne, and Sempowski, Gregory D.

Subjects

THYMUS, TISSUE culture, ORGAN culture, TISSUE extracts, ADIPOSE tissues, YOUNG adults, OLDER people

Abstract

Human age-related thymus involution is characterized by loss of developing thymocytes and the thymic epithelial network that supports them, with replacement by adipose tissue. The mechanisms that drive these changes are difficult to study in vivo due to constant trafficking to and from the thymus. We hypothesized that the loss of thymocytes that occurs during human thymic organ cultures could model some aspects of thymus involution and begin to identify mechanisms that drive age-related changes in the thymic microenvironment. Potential mechanistically important candidate molecules were initially identified by screening conditioned media from human thymus organ cultures using antibody microarrays. These candidates were further validated using cultured tissue extracts and conditioned media. Results were compared with gene expression studies from a panel of well-characterized (non-cultured) human thymus tissues from human donors aged 5 days to 78 years. L-selectin released into conditioned media was identified as a biomarker for the content of viable thymocytes within the cultured thymus. Levels of the chemokines CCL21 and CXCL12, likely produced by surviving thymic epithelial cells, increased markedly in conditioned media as thymocytes were lost during culture. Native non-cultured thymus from adults older than 18 years also showed a strong trend toward increased CCL21 expression, in conjunction with significant decreases in thymocyte-related mRNAs compared with thymus from subjects younger than 18 years. Together, these findings demonstrate that use of postnatal human thymus organ cultures can model some aspects of human age-related thymic involution. [ABSTRACT FROM AUTHOR]

Published

2021

48. Functionally diverse thymic medullary epithelial cells interplay to direct central tolerance.

Author

Ushio, Aya, Matsuda-Lennikov, Mami, Kalle-Youngoue, Felix, Shimizu, Akihide, Abdelmaksoud, Abdalla, Kelly, Michael C., Ishimaru, Naozumi, and Takahama, Yousuke

Abstract

Medullary thymic epithelial cells (mTECs) are essential for the establishment of self-tolerance in T cells. Promiscuous gene expression by a subpopulation of mTECs regulated by the nuclear protein Aire contributes to the display of self-genomic products to newly generated T cells. Recent reports have highlighted additional self-antigen-displaying mTEC subpopulations, namely Fezf2-expressing mTECs and a mosaic of self-mimetic mTECs including thymic tuft cells. In addition, a functionally different subset of mTECs produces chemokine CCL21, which attracts developing thymocytes to the medullary region. Here, we report that CCL21+ mTECs and Aire+ mTECs non-redundantly cooperate to direct self-tolerance to prevent autoimmune pathology by optimizing the deletion of self-reactive T cells and the generation of regulatory T cells. We also detect cooperation for self-tolerance between Aire and Fezf2, the latter of which unexpectedly regulates thymic tuft cells. Our results indicate an indispensable interplay among functionally diverse mTECs for the establishment of central self-tolerance. [Display omitted] • Mice lacking CCL21+ mTECs and Aire+ mTECs exhibit a severe autoimmunity in C57BL/6 background • CCL21+ mTECs and Aire+ mTECs cooperate for autoreactive T cell deletion and Treg cell generation • Fezf2 has a modest but significant role in central tolerance in mice • Fezf2 regulates a fraction of mimetic mTECs including thymic tuft cells Ushio et al. show that functionally diverse medullary thymic epithelial cell (mTEC) subpopulations cooperate to prevent autoimmune pathology. The results demonstrate the interplay between diverse mTEC subpopulations, namely between CCL21+ mTECs and Aire+ mTECs and between Aire+ mTECs and Fezf2+ mTECs, for optimizing central tolerance. [ABSTRACT FROM AUTHOR]

Published

2024

49. Considerations for Novel COVID-19 Mucosal Vaccine Development

Author

Wael Alturaiki

Subjects

iBALT, BAFF, APRIL, CXCL13, CCL19, CCL21, Medicine

Abstract

Mucosal surfaces are the first contact sites of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Most SARS-CoV-2 vaccines induce specific IgG responses but provide limited mucosal immunity. Cytokine B-cell activation factor (BAFF) and A proliferation-inducing ligand (APRIL) in the tumor necrosis factor (TNF) superfamily play key immunological functions during B cell development and antibody production. Furthermore, homeostatic chemokines, such as C-X-C motif chemokine ligand 13 (CXCL13), chemokine (C–C motif) ligand 19 (CCL19), and CCL21, can induce B- and T-cell responses to infection and promote the formation of inducible bronchus-associated lymphoid tissues (iBALT), where specific local immune responses and memory cells are generated. We reviewed the role of BAFF, APRIL, CXCL13, CCL19, and CCL21 in the activation of local B-cell responses and antibody production, and the formation of iBALT in the lung following viral respiratory infections. We speculate that mucosal vaccines may offer more efficient protection against SARS-CoV-2 infection than systematic vaccines and hypothesize that a novel SARS-CoV-2 mRNA mucosal vaccine using BAFF/APRIL or CXCL13 as immunostimulants combined with the spike protein-encoding mRNA may enhance the efficiency of the local immune response and prevent the early stages of SARS-CoV-2 replication and the rapid viral clearance from the airways.

Published

2022

50. CCL21

Author

Sharma, Sherven, Srivastava, Minu K., White, Marni-Harris, Schaue, Dorthe, John, Maie St, Zhang, Gang, Lee, Percy, Lee, Jay M., Dubinett, Steven, and Marshall, John L., editor

Published

2017