Your search keyword '"Leukocyte trafficking"' showing total 1,017 results

1. Integrated control of leukocyte compartments as a feature of adaptive physiology

Author

Jaschke, Nikolai P. and Wang, Andrew

Published

2025

2. CAMs in command: aging brain macrophages fine-tune stroke immune responses.

Author

Ritzel, Rodney M., Jiang, Danye, and McCullough, Louise D.

Subjects

*ISCHEMIC stroke, *ANTIGEN presentation, *STROKE, *CELL adhesion, *IMMUNE response

Abstract

Central nervous system-associated macrophages (CAMs) are a unique subset of immune cells located at the interface between the blood and the brain parenchyma. In a recent study in mice, Levard and colleagues found that CAMs regulate immune cell trafficking, endothelial activation, and antigen presentation following stroke exclusively in aged animals, underscoring the importance of using translationally relevant models for studying age-related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

3. Structural and Functional Characteristics of the Human Blood-Nerve Barrier with Translational Implications to Peripheral Nerve Autoimmune Disorders

Author

Ubogu, Eroboghene E., Mitoma, Hiroshi, editor, and Manto, Mario, editor

Published

2024

4. Cell-binding IgM in CSF is distinctive of multiple sclerosis and targets the iron transporter SCARA5.

Author

Callegari, Ilaria, Oechtering, Johanna, Schneider, Mika, Perriot, Sylvain, Mathias, Amandine, Voortman, Margarete M, Cagol, Alessandro, Lanner, Ulrike, Diebold, Martin, Holdermann, Sebastian, Kreiner, Victor, Becher, Burkhard, Granziera, Cristina, Junker, Andreas, Pasquier, Renaud Du, Khalil, Michael, Kuhle, Jens, Kappos, Ludwig, Sanderson, Nicholas S R, and Derfuss, Tobias

Subjects

*IMMUNOGLOBULIN M, *MULTIPLE sclerosis, *IRON, *CELL surface antigens, *RECOMBINANT antibodies, *CELL migration

Abstract

Intrathecal IgM production in multiple sclerosis is associated with a worse disease course. To investigate pathogenic relevance of autoreactive IgM in multiple sclerosis, CSF from two independent cohorts, including multiple sclerosis patients and controls, were screened for antibody binding to induced pluripotent stem cell-derived neurons and astrocytes, and a panel of CNS-related cell lines. IgM binding to a primitive neuro-ectodermal tumour cell line discriminated 10% of multiple sclerosis donors from controls. Transcriptomes of single IgM producing CSF B cells from patients with cell-binding IgM were sequenced and used to produce recombinant monoclonal antibodies for characterization and antigen identification. We produced five cell-binding recombinant IgM antibodies, of which one, cloned from an HLA-DR + plasma-like B cell, mediated antigen-dependent complement activation. Immunoprecipitation and mass spectrometry, and biochemical and transcriptome analysis of the target cells identified the iron transport scavenger protein SCARA5 as the antigen target of this antibody. Intrathecal injection of a SCARA5 antibody led to an increased T cell infiltration in an experimental autoimmune encephalomyelitis (EAE) model. CSF IgM might contribute to CNS inflammation in multiple sclerosis by binding to cell surface antigens like SCARA5 and activating complement, or by facilitating immune cell migration into the brain. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Pocket Guide to CCR5—Neurotropic Flavivirus Edition.

Author

Garg, Amit and Lim, Jean K.

Subjects

*WEST Nile virus, *CHEMOKINE receptors, *FLAVIVIRUSES

Abstract

CCR5 is among the most studied chemokine receptors due to its profound significance in human health and disease. The notion that CCR5 is a functionally redundant receptor was challenged through the demonstration of its unique protective role in the context of West Nile virus in both mice and humans. In the nearly two decades since this initial discovery, numerous studies have investigated the role of CCR5 in the context of other medically important neurotropic flaviviruses, most of which appear to support a broad neuroprotective role for this receptor, although how CCR5 exerts its protective effect has been remarkably varied. In this review, we summarize the mechanisms by which CCR5 controls neurotropic flaviviruses, as well as results from human studies evaluating a genetic link to CCR5, and propose unexplored areas of research that are needed to unveil even more exciting roles for this important receptor. [ABSTRACT FROM AUTHOR]

Published

2024

6. PEPITEM Treatment Ameliorates EAE in Mice by Reducing CNS Inflammation, Leukocyte Infiltration, Demyelination, and Proinflammatory Cytokine Production.

Author

Alassiri, Mohammed, Al Sufiani, Fahd, Aljohi, Mohammed, Alanazi, Asma, Alhazmi, Aiman Saud, Alrfaei, Bahauddeen M., Alnakhli, Hasan, Alshawakir, Yasser A., Alharby, Saleh M., Almubarak, Abdullah Y., Alasseiri, Mohammed, Alorf, Nora, and Abdullah, Mashan L.

Subjects

*LEUCOCYTES, *DEMYELINATION, *PEPTIDES, *PERTUSSIS toxin, *WESTERN immunoblotting, *NATALIZUMAB

Abstract

To investigate the effect of the therapeutic treatment of the immunopeptide, peptide inhibitor of trans-endothelial migration (PEPITEM) on the severity of disease in a mouse model of experimental autoimmune encephalomyelitis (EAE) as a model for human multiple sclerosis (MS), a series of experiments were conducted. Using C57BL/6 female mice, we dosed the PEPITEM in the EAE model via IP after observing the first sign of inflammation. The disease was induced using MOG35-55 and complete Freund's adjuvants augmented with pertussis toxin. The EAE score was recorded daily until the end of the experiment (21 days). The histological and immunohistochemistry analysis was conducted on the spinal cord sections. A Western blot analysis was performed to measure the protein concentration of MBP, MAP-2, and N-Cadherin, and ELISA kits were used to measure IL-17 and FOXP3 in the serum and spinal cord lysate. The therapeutic treatment with PEPITEM reduced the CNS infiltration of T cells, and decreased levels of the protein concertations of MBP, MAP-2, and N-Cadherin were observed, in addition to reduced concertations of IL-17 and FOXP3. Using PEPITEM alleviated the severity of the symptoms in the EAE model. Our study revealed the potential of PEPITEM to control inflammation in MS patients and to reduce the harmful effects of synthetic drugs. [ABSTRACT FROM AUTHOR]

Published

2023

7. β2-integrins in Immunity: New Roles for Old Players

Author

Uotila, Liisa M., Harjunpää, Heidi, Fagerholm, Susanna C., Karamanos, Nikos K., Series Editor, Kletsas, Dimitris, Editorial Board Member, Oh, Eok-Soo, Editorial Board Member, Passi, Alberto, Editorial Board Member, Pihlajaniemi, Taina, Editorial Board Member, Ricard-Blum, Sylvie, Editorial Board Member, Sagi, Irit, Editorial Board Member, Savani, Rashmin, Editorial Board Member, Watanabe, Hideto, Editorial Board Member, Gullberg, Donald, editor, and Eble, Johannes A., editor

Published

2023

8. Aging modulates homeostatic leukocyte trafficking to the peritoneal cavity in a sex-specific manner.

Author

Hopkin, Sophie J, Pezhman, Laleh, Begum, Jenefa, Kavanagh, Dean, McGettrick, Helen M, Iqbal, Asif J, and Chimen, Myriam

Subjects

PERITONEUM, HOMEOSTASIS, LEUKOCYTES, LEUKOCYTE count, B cells

Abstract

Aging is associated with exacerbated systemic inflammation (inflammaging) and the progressive loss of immune system function (immunosenescence). Leukocyte migration is necessary for effective immunity; however, dysregulated trafficking of leukocytes into tissue contributes to inflammaging and the development of age-related inflammatory diseases. Aging modulates leukocyte trafficking under inflammatory conditions; however, whether aging modulates leukocyte trafficking under homeostatic conditions remains to be elucidated. Although immune responses are evidently sexually dimorphic, limited studies have investigated the effect of sex on age-related changes to leukocyte trafficking processes. Here, we investigated age-related and sex-specific changes to the leukocyte populations within the peritoneal cavity of young (3-mo), middle-aged (18-mo) and old (21-mo) male and female wild-type mice in the steady state. We found an age-related increase in the number of leukocytes within the peritoneal cavity of female mice, predominantly B cells, which may reflect increased trafficking through this tissue with age. This was accompanied by an increased inflammatory environment within the aged cavity, including increased levels of chemoattractants, including B cell chemoattractants CXCL13 and CCL21, soluble adhesion molecules, and proinflammatory cytokines, which was more pronounced in aged female mice. Intravital microscopy techniques revealed altered vascular structure and increased vascular permeability within the peritoneal membrane of aged female mice, which may support increased leukocyte trafficking to the cavity with age. Together, these data indicate that aging affects homeostatic leukocyte trafficking processes in a sex-specific fashion. [ABSTRACT FROM AUTHOR]

Published

2023

9. Recruitment and Residence of Intestinal T Cells – Lessons for Therapy in Inflammatory Bowel Disease.

Author

Gordon, Hannah, Rodger, Beverley, Lindsay, James O, and Stagg, Andrew J

Abstract

Targeting leukocyte trafficking in the management of inflammatory bowel disease [IBD] has been a significant therapeutic advance over the past 15 years. However, as with other advanced therapies, phase III clinical trials report response to trafficking inhibitors in only a proportion of patients, with fewer achieving clinical remission or mucosal healing. Additionally, there have been significant side effects, most notably progressive multifocal leukoencephalopathy in association with the α4 inhibitor natalizumab. This article reviews the mechanisms underpinning T cell recruitment and residence, to provide a background from which the strength and limitations of agents that disrupt leukocyte trafficking can be further explored. The therapeutic impact of trafficking inhibitors is underpinned by the complexity and plasticity of the intestinal immune response. Pathways essential for gut homing in health may be bypassed in the inflamed gut, thus providing alternative routes of entry when conventional homing molecules are targeted. Furthermore, there is conservation of trafficking architecture between proinflammatory and regulatory T cells. The persistence of resident memory cells within the gut gives rise to local established pro-inflammatory populations, uninfluenced by inhibition of trafficking. Finally, trafficking inhibitors may give rise to effects beyond the intended response, such as the impact of vedolizumab on innate immunity, as well as on target side effects. With significant research efforts into predictive biomarkers already underway, it is ultimately hoped that a better understanding of trafficking and residence will help us predict which patients are most likely to respond to inhibition of leukocyte trafficking, and how best to combine therapies. [ABSTRACT FROM AUTHOR]

Published

2023

10. Vascular Endothelium

Author

Gao, Yuansheng and Gao, Yuansheng

Published

2022

11. The Role of Pericytes in Regulation of Innate and Adaptive Immunity.

Author

Dabravolski, Siarhei A., Andreeva, Elena R., Eremin, Ilya I., Markin, Alexander M., Nadelyaeva, Irina I., Orekhov, Alexander N., and Melnichenko, Alexandra A.

Subjects

PERICYTES, NATURAL immunity, ADAPTIVE modulation, BLOOD flow, AUTOIMMUNE diseases

Abstract

Pericytes are perivascular multipotent cells wrapping microvascular capillaries, where they support vasculature functioning, participate in tissue regeneration, and regulate blood flow. However, recent evidence suggests that in addition to traditionally credited structural function, pericytes also manifest immune properties. In this review, we summarise recent data regarding pericytes' response to different pro-inflammatory stimuli and their involvement in innate immune responses through expression of pattern-recognition receptors. Moreover, pericytes express various adhesion molecules, thus regulating trafficking of immune cells across vessel walls. Additionally, the role of pericytes in modulation of adaptive immunity is discussed. Finally, recent reports have suggested that the interaction with cancer cells evokes immunosuppression function in pericytes, thus facilitating immune evasion and facilitating cancer proliferation and metastasis. However, such complex and multi-faceted cross-talks of pericytes with immune cells also suggest a number of potential pericyte-based therapeutic methods and techniques for cancer immunotherapy and treatment of autoimmune and auto-inflammatory disorders. [ABSTRACT FROM AUTHOR]

Published

2023

12. New and Emerging Treatments for Inflammatory Bowel Disease.

Author

Higashiyama, Masaaki and Hokaria, Ryota

Subjects

*INFLAMMATORY bowel diseases, *INNATE lymphoid cells, *CROHN'S disease, *B cells, *IRRITABLE colon, *ANTI-NMDA receptor encephalitis

Abstract

Background: The specific etiopathogenesis of inflammatory bowel disease (IBD) is still unknown. Although the conventional anti-inflammatory or immunomodulatory drugs relatively nonspecific to pathogenesis have been quite useful in many cases, elucidating the pathogenesis has gradually facilitated developments of disease-specific therapies for refractory cases in the last 2 decades. Summary: With a greater understanding of the multiple overactive signaling pathways of the gut mucosal immune response and enhanced leukocyte trafficking, several biological agents or small molecule drugs following the first novel biologic, anti-tumor necrosis factor α (anti-TNFα), have been developed against several modes of action including adhesion molecules, sphingosine-1-phospate receptors, cytokines (IL-12/23, TL1A, and IL-36), Janus kinase (JAK), and phosphodiesterase. Although preceding biological agents have dramatically changed the IBD treatment strategy, many patients still require alternative therapies due to failure or side effects. Newer treatments are now expected to be provided for better efficacy with an improved adverse event profile. In addition, translational studies have highlighted the new therapeutic concepts' potential, including modulation of host-microbiome interactions, stem therapy for perianal fistula, regulation of fibrosis, regulation of the gut-brain axis, and control of previously less targeted immune cells (B cells and innate lymphoid cells). This paper comprehensively reviewed not only the latest already or shortly available therapies but also emerging promising treatments that will be hopefully established in the future for IBD. Key Messages: Many kinds of new treatments are available, and promising treatments with new perspectives are expected to emerge for refractory IBD in the future. [ABSTRACT FROM AUTHOR]

Published

2023

13. IL1R2 Acts as a Negative Regulator of Monocyte Recruitment During Inflammation.

Author

Cros A and Segura E

Subjects

Animals, Mice, Chemokine CCL2 metabolism, Chemokine CCL2 genetics, Mice, Inbred C57BL, Monocytes immunology, Monocytes metabolism, Inflammation immunology, Inflammation metabolism, Mice, Knockout, Peritonitis immunology, Peritonitis metabolism, Receptors, Interleukin-1 Type II metabolism, Receptors, Interleukin-1 Type II genetics

Abstract

IL1-β plays a central role in inflammation but its biological action needs to be tightly controlled. Such negative regulation can be exerted by the decoy receptor IL1R2. However, IL1R2 biology in immune cells remains poorly characterized, in particular in monocytes. Using conditional deficient mice, we show that Il1r2 deficiency in monocytes does not affect their steady-state life cycle but dysregulates their trafficking to inflamed tissues in models of peritonitis and neuro-inflammation. Mechanistically, we found that Il1r2 deficiency in monocytes increases CCL2 secretion in the inflamed peritoneum, thereby amplifying monocyte recruitment from blood. In autoimmune neuro-inflammation, Il1r2 deficiency in monocytes exacerbates disease severity. Our findings suggest that the specific action of IL1R2 in monocytes contributes to a feedback mechanism for fine-tuning the numbers of recruited monocytes during inflammation., (© 2024 The Author(s). European Journal of Immunology published by Wiley‐VCH GmbH.)

Published

2025

14. Prophylactic administration of PEPITEM in experimental autoimmune encephalomyelitis delays disease onset, inhibits leukocyte infiltration, and alleviates severity.

Author

Alassiri M, Al Sufiani F, Aljohi M, Alanazi A, Alhazmi AS, Alrfaei BM, Alnakhli H, Alasseiri M, Alorf N, and Abdullah ML

Abstract

Background: Multiple sclerosis (MS) is a chronic, immune-mediated neurological disorder in which the immune system mistakenly attacks the myelin sheath, affecting the communication between the brain and the rest of the body., Objective: This study investigated the prophylactic use of peptide inhibitor of trans-endothelial migration (PEPITEM), a novel peptide, in alleviating experimental autoimmune encephalomyelitis (EAE), a mouse model for Multiple Sclerosis (MS)., Methods: Female C57BL/6 female mice were assigned to the control, untreated EAE, or PEPITEM group. EAE was induced in mice in the untreated EAE and PEPITEM groups through immunization by injecting an emulsion containing myelin oligodendrocyte glycoprotein 35-55 in complete Freund's adjuvant. Mice in these groups subsequently received PEPITEM or scramble peptide injections daily for 21 days. Then, all mice were euthanized to obtain samples for histologic and immunohistochemical analyses of central nervous system lymphocytic infiltrate. Levels of biomarkers, including myelin basic protein, microtubule-associated protein 2 (MAP-2), interleukin-17 (IL-17), and forkhead box P3 (Foxp3), were evaluated in both serum and spinal cord lysates using western blotting and enzyme-linked immunosorbent assay., Results: In the PEPITEM group, EAE onset was significantly delayed and disease severity was reduced compared to the untreated EAE group. Analysis of spinal cord tissues revealed a marked reduction in inflammatory cell infiltration following PEPITEM administration. Furthermore, PEPITEM treatment led to significantly reduced IL-17 and Foxp3 levels, highlighting its potential in mitigating inflammatory responses., Conclusion: PEPITEM has potent prophylactic potential against MS, providing a robust foundation for further exploration., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (IJCEP Copyright © 2024.)

Published

2024

15. ICAMs are dispensable for influenza clearance and anti-viral humoral and cellular immunity

Author

Stav Kozlovski, Ofer Regev, Anita Sapoznikov, Marina Kizner, Hagit Achdout, Ekaterina Petrovich-Kopitman, Jacob Elkahal, Yoseph Addadi, Fernanda Vargas E. Silva Castanheira, Sara W. Feigelson, Paul Kubes, Noam Erez, Natalio Garbi, and Ronen Alon

Subjects

leukocyte trafficking, integrins, endothelium, inflammation, memory, Immunologic diseases. Allergy, RC581-607

Abstract

αLβ2 (LFA-1) mediated interactions with ICAM-1 and ICAM-2 predominate leukocyte-vascular interactions, but their functions in extravascular cell-cell communications is still debated. The roles of these two ligands in leukocyte trafficking, lymphocyte differentiation, and immunity to influenza infections were dissected in the present study. Surprisingly, double ICAM-1 and ICAM-2 knock out mice (herein ICAM-1/2-/- mice) infected with a lab adapted H1N1 influenza A virus fully recovered from infection, elicited potent humoral immunity, and generated normal long lasting anti-viral CD8+ T cell memory. Furthermore, lung capillary ICAMs were dispensable for both NK and neutrophil entry to virus infected lungs. Mediastinal lymph nodes (MedLNs) of ICAM-1/2-/- mice poorly recruited naïve T cells and B lymphocytes but elicited normal humoral immunity critical for viral clearance and effective CD8+ differentiation into IFN-γ producing T cells. Furthermore, whereas reduced numbers of virus specific effector CD8+ T cells accumulated inside infected ICAM-1/2-/- lungs, normal virus-specific TRM CD8+ cells were generated inside these lungs and fully protected ICAM-1/2-/- mice from secondary heterosubtypic infections. B lymphocyte entry to the MedLNs and differentiation into extrafollicular plasmablasts, producing high affinity anti-influenza IgG2a antibodies, were also ICAM-1 and ICAM-2 independent. A potent antiviral humoral response was associated with accumulation of hyper-stimulated cDC2s in ICAM null MedLNs and higher numbers of virus-specific T follicular helper (Tfh) cells generated following lung infection. Mice selectively depleted of cDC ICAM-1 expression supported, however, normal CTL and Tfh differentiation following influenza infection, ruling out essential co-stimulatory functions of DC ICAM-1 in CD8+ and CD4+ T cell differentiation. Collectively our findings suggest that lung ICAMs are dispensable for innate leukocyte trafficking to influenza infected lungs, for the generation of peri-epithelial TRM CD8+ cells, and long term anti-viral cellular immunity. In lung draining LNs, although ICAMs promote lymphocyte homing, these key integrin ligands are not required for influenza-specific humoral immunity or generation of IFN-γ effector CD8+ T cells. In conclusion, our findings suggest unexpected compensatory mechanisms that orchestrate protective anti-influenza immunity in the absence of vascular and extravascular ICAMs.

Published

2023

16. Modeling vascular inflammation and atherogenicity after inhalation of ambient levels of ozone: exploratory lessons from transcriptomics

Author

Tham, Andrea, Lullo, Dominic, Dalton, Sarah, Zeng, Siyang, van Koeverden, Ian, and Arjomandi, Mehrdad

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Aging, Genetics, Atherosclerosis, Cardiovascular, Climate-Related Exposures and Conditions, Lung, 2.1 Biological and endogenous factors, Good Health and Well Being, Air Pollutants, Bronchoalveolar Lavage Fluid, Cardiovascular Diseases, Gene Expression, Gene Expression Profiling, Humans, Inflammation, Inhalation Exposure, Matrix Metalloproteinase 2, Matrix Metalloproteinase 9, Ozone, Regression Analysis, Vascular inflammation, atherosclerosis, systemic inflammation, cardiovascular disease, air pollution, ozone, airway inflammation, gene expression, transcriptomics, leukocyte trafficking, matrix metalloproteinase-9, Toxicology, Pharmacology and pharmaceutical sciences

Abstract

BackgroundEpidemiologic studies have linked inhalation of air pollutants such as ozone to cardiovascular mortality. Human exposure studies have shown that inhalation of ambient levels of ozone causes airway and systemic inflammation and an imbalance in sympathetic/parasympathetic tone.MethodsTo explore molecular mechanisms through which ozone inhalation contributes to cardiovascular mortality, we compared transcriptomics data previously obtained from bronchoalveolar lavage (BAL) cells obtained from healthy subjects after inhalational exposure to ozone (200 ppb for 4 h) to those of various cell samples from 11 published studies of patients with atherosclerotic disease using the Nextbio genomic data platform. Overlapping gene ontologies that may be involved in the transition from pulmonary to systemic vascular inflammation after ozone inhalation were explored. Local and systemic enzymatic activity of an overlapping upregulated gene, matrix metalloproteinase-9 (MMP-9), was measured by zymography after ozone exposure.ResultsA set of differentially expressed genes involved in response to stimulus, stress, and wounding were in common between the ozone and most of the atherosclerosis studies. Many of these genes contribute to biological processes such as cholesterol metabolism dysfunction, increased monocyte adherence, endothelial cell lesions, and matrix remodeling, and to diseases such as heart failure, ischemia, and atherosclerotic occlusive disease. Inhalation of ozone increased MMP-9 enzymatic activity in both BAL fluid and serum.ConclusionsComparison of transcriptomics between BAL cells after ozone exposure and various cell types from patients with atherosclerotic disease reveals commonly regulated processes and potential mechanisms by which ozone inhalation may contribute to progression of pre-existent atherosclerotic lesions.

Published

2017

17. Chemokines and chemokine receptors in inflammatory bowel disease: Recent findings and future perspectives.

Author

Camba-Gómez, Miguel, Arosa, Laura, Gualillo, Oreste, and Conde-Aranda, Javier

Subjects

*INFLAMMATORY bowel diseases, *CHEMOKINE receptors, *CHEMOKINES, *ANIMAL models of inflammation, *INTESTINAL mucosa

Abstract

• Chemokines participate in leukocyte recruitment among other biological functions. • Chemokines have a clear impact on intestinal inflammation in preclinical animal models. • Chemokine inhibitors and neutralising antibodies are being tested in IBD patients. Despite the benefits of current therapeutic options for treating inflammatory bowel disease (IBD), there are still patients who are refractory to these therapies. Moreover, the relapses caused by incomplete intestinal mucosa healing are frequent. Therefore, there is a need for novel pharmacological targets that can improve the existing IBD therapeutic armamentarium. Chemokine and chemokine receptors have emerged as appealing options to this end. As well as controlling leukocyte trafficking to inflamed tissues, these proteins regulate many other processes related to the development of intestinal inflammation. In this review, we summarise the most recent preclinical studies, along with the putative application of chemokine-based therapies in patients with IBD. [ABSTRACT FROM AUTHOR]

Published

2022

18. Interaction between stress hormones and phagocytic cells and its effect on the health status of dairy cows: A review

Author

Mohanned Naif Alhussien and Ajay Kumar Dang

Subjects

dairy cattle, inflammatory diseases, leukocyte trafficking, macrophages, neutrophils, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Dairy cows are exposed to various stressors during their production cycle that makes them more susceptible to various diseases. Phagocytes (neutrophils and macrophages) are important soldiers of the innate immune system. Neutrophils are the first responders to an inflammatory response and stress and kill pathogens by generating reactive oxygen species and by the release of various antimicrobial peptides, enzymes, neutrophil extracellular trap formation, etc. Macrophages, the other phagocytes, are also the cleanup crew for the innate immune system that removes debris, pathogens, and dead neutrophils later on after an inflammatory response. The neuroendocrine system along with phagocytes exhibits an immunomodulatory potential during stressful conditions. Neuroendocrine system directly affects the activity of phagocytes by communicating bidirectionally through shared receptors and messenger molecules such as hormones, neurotransmitters, or cytokines. Different immune cells may show variable responses to each hormone. Short time exposure to stress can be beneficial, but repeated or extended exposure to stress may be detrimental to the overall health and well-being of an animal. Although some stresses associated with farming practices in dairy cows are unavoidable, better understanding of the interactions occurring between various stress hormones and phagocytic cells can help to reduce stress, improve productivity and animal welfare. This review highlights the role played by various stress hormones in modulating phagocytic cell performance of dairy cattle under inflammatory conditions.

Published

2020

19. Molecular insights into kinase mediated signaling pathways of chemokines and their cognate G protein coupled receptors

Author

Deepak Kumar Tripathi and Krishna Mohan Poluri

Subjects

chemokines, chemokine receptors, kinases, g protein coupled receptors, molecular signaling, leukocyte trafficking, review, Biochemistry, QD415-436, Biology (General), QH301-705.5

Abstract

Chemokines are small regulatory proteins that play a crucial role in the coordinated migration of cell populations to the site of infection/inflammation by binding to their cognate receptors. In principle, chemokine receptors, which are serpentine G protein-coupled receptors (GPCRs), mediate the series of downstream intracellular signaling events that occur inside the cells to resolve the pathogenicity. Intracellular signaling pathways regulated by the kinase protein sub-families are the center of attention for chemokine derived functional responses. Kinases potentially influence cell migration, cell growth, transcriptional activation, and other essential molecular events. The regulation and flow of the signals by the kinases are different for each physiological and pathological event and are tightly regulated by the nature and pairing of chemokine(s) with its receptor(s). For example, phosphoinositide 3-kinase (PI3K) is activated during the initial steps of the chemokine induced signaling cascade to regulate chemotaxis, transcription, and cell survival. G protein-coupled receptor kinase (GRKs) plays a crucial role in the desensitization and internalization of the chemokine receptors. The regulation of chemokine receptor is also governed by kinases like protein kinase A (PKA), protein kinase C (PKC), mitogen-activated protein kinases / extracellular signal-regulated kinases (MAPK/ERK), etc. It was also established that tyrosine-protein kinases (TECs) such as ITK and RLK play a significant role in chemokine signaling in T lymphocytes. On a similar note, many others like janus kinases (JAKs), Protein kinase B (PKB), PKC, etc. are also studied in chemokine mediated disease models. The present review elucidates the role of different kinases involved in the chemokine/chemokine receptor mediated signaling cascade during various pathophysiological processes.

Published

2020

20. In vitro modeling of blood–brain barrier and interface functions in neuroimmune communication

Author

Michelle A. Erickson, Miranda L. Wilson, and William A. Banks

Subjects

Blood–brain barrier, Chemokines, Cytokines, In vitro, Leukocyte trafficking, Neuroimmune, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Neuroimmune communication contributes to both baseline and adaptive physiological functions, as well as disease states. The vascular blood–brain barrier (BBB) and associated cells of the neurovascular unit (NVU) serve as an important interface for immune communication between the brain and periphery through the blood. Immune functions and interactions of the BBB and NVU in this context can be categorized into at least five neuroimmune axes, which include (1) immune modulation of BBB impermeability, (2) immune regulation of BBB transporters, secretions, and other functions, (3) BBB uptake and transport of immunoactive substances, (4) immune cell trafficking, and (5) BBB secretions of immunoactive substances. These axes may act separately or in concert to mediate various aspects of immune signaling at the BBB. Much of what we understand about immune axes has been from work conducted using in vitro BBB models, and recent advances in BBB and NVU modeling highlight the potential of these newer models for improving our understanding of how the brain and immune system communicate. In this review, we discuss how conventional in vitro models of the BBB have improved our understanding of the 5 neuroimmune axes. We further evaluate the existing literature on neuroimmune functions of novel in vitro BBB models, such as those derived from human induced pluripotent stem cells (iPSCs) and discuss their utility in evaluating aspects of neuroimmune communication.

Published

2020

21. Intravital imaging of pulmonary lymphatics in inflammation and metastatic cancer.

Author

Cleary SJ, Qiu L, Seo Y, Baluk P, Liu D, Serwas NK, Cyster JG, McDonald DM, Krummel MF, and Looney MR

Abstract

Intravital microscopy has enabled the study of immune dynamics in the pulmonary microvasculature, but many key events remain unseen because they occur in deeper lung regions. We therefore developed a technique for stabilized intravital imaging of bronchovascular cuffs and collecting lymphatics surrounding pulmonary veins in mice. Intravital imaging of pulmonary lymphatics revealed ventilation-dependence of steady-state lung lymph flow and ventilation-independent lymph flow during inflammation. We imaged the rapid exodus of migratory dendritic cells through lung lymphatics following inflammation and measured effects of pharmacologic and genetic interventions targeting chemokine signaling. Intravital imaging also captured lymphatic immune surveillance of lung-metastatic cancers and lymphatic metastasis of cancer cells. To our knowledge, this is the first imaging of lymph flow and leukocyte migration through intact pulmonary lymphatics. This approach will enable studies of protective and maladaptive processes unfolding within the lungs and in other previously inaccessible locations., Competing Interests: Declaration of interests N.S. is now employed by Arcus Biosciences and M.F.K. is a Founder & Managing Member of Foundery Therapeutics, working on projects not related to this manuscript. The authors declare no other competing interests.

Published

2024

22. Structural and Functional Characteristics of the Human Blood-Nerve Barrier with Translational Implications to Peripheral Nerve Autoimmune Disorders

Author

Ubogu, Eroboghene E., Manto, Mario, Series Editor, and Mitoma, Hiroshi, editor

Published

2019

23. New Therapeutic Strategies

Author

Kok, Klaartje, Ibarra, Ana, Lindsay, James, Sturm, Andreas, editor, and White, Lydia, editor

Published

2019

24. Galectin-9 mediates neutrophil capture and adhesion in a CD44 and β2 integrin-dependent manner.

Author

Iqbal, Asif J., Krautter, Franziska, Blacksell, Isobel A., Wright, Rachael D., Austin-Williams, Shani N., Voisin, Mathieu-Benoit, Hussain, Mohammed T., Law, Hannah L., Toshiro Niki, Hirashima, Mitsuomi, Bombardieri, Michele, Pitzalis, Costantino, Tiwari, Alok, Nash, Gerard B., Norling, Lucy V., and Cooper, Dianne

Abstract

Neutrophil trafficking is a key component of the inflammatory response. Here, we have investigated the role of the immunomodulatory lectin Galectin-9 (Gal-9) on neutrophil recruitment. Our data indicate that Gal-9 is upregulated in the inflamed vasculature of RA synovial biopsies and report the release of Gal-9 into the extracellular environment following endothelial cell activation. siRNA knockdown of endothelial Gal-9 resulted in reduced neutrophil adhesion and neutrophil recruitment was significantly reduced in Gal-9 knockout mice in a model of zymosan-induced peritonitis. We also provide evidence for Gal-9 binding sites on human neutrophils; Gal-9 binding induced neutrophil activation (increased expression of ß2 integrins and reduced expression of CD62L). Intra-vital microscopy confirmed a pro-recruitment role for Gal-9, with increased numbers of transmigrated neutrophils following Gal-9 administration. We studied the role of both soluble and immobilized Gal-9 on human neutrophil recruitment. Soluble Gal-9 significantly strengthened the interaction between neutrophils and the endothelium and inhibited neutrophil crawling on ICAM-1. When immobilized, Gal-9 functioned as an adhesion molecule and captured neutrophils from the flow. Neutrophils adherent to Gal-9 exhibited a spread/activated phenotype that was inhibited by CD18 and CD44 neutralizing antibodies, suggesting a role for these molecules in the pro-adhesive effects of Gal-9. Our data indicate that Gal-9 is expressed and released by the activated endothelium and functions both in soluble form and when immobilized as a neutrophil adhesion molecule. This study paves the way for further investigation of the role of Gal-9 in leukocyte recruitment in different inflammatory settings. [ABSTRACT FROM AUTHOR]

Published

2022

25. The Role of Pericytes in Regulation of Innate and Adaptive Immunity

Author

Siarhei A. Dabravolski, Elena R. Andreeva, Ilya I. Eremin, Alexander M. Markin, Irina I. Nadelyaeva, Alexander N. Orekhov, and Alexandra A. Melnichenko

Subjects

pericyte, immune system, immunosuppression, leukocyte trafficking, Biology (General), QH301-705.5

Abstract

Pericytes are perivascular multipotent cells wrapping microvascular capillaries, where they support vasculature functioning, participate in tissue regeneration, and regulate blood flow. However, recent evidence suggests that in addition to traditionally credited structural function, pericytes also manifest immune properties. In this review, we summarise recent data regarding pericytes’ response to different pro-inflammatory stimuli and their involvement in innate immune responses through expression of pattern-recognition receptors. Moreover, pericytes express various adhesion molecules, thus regulating trafficking of immune cells across vessel walls. Additionally, the role of pericytes in modulation of adaptive immunity is discussed. Finally, recent reports have suggested that the interaction with cancer cells evokes immunosuppression function in pericytes, thus facilitating immune evasion and facilitating cancer proliferation and metastasis. However, such complex and multi-faceted cross-talks of pericytes with immune cells also suggest a number of potential pericyte-based therapeutic methods and techniques for cancer immunotherapy and treatment of autoimmune and auto-inflammatory disorders.

Published

2023

26. Identification of the Adult Hematopoietic Liver as the Primary Reservoir for the Recruitment of Pro-regenerative Macrophages Required for Salamander Limb Regeneration

Author

Ryan J. Debuque, Andrew J. Hart, Gabriela H. Johnson, Nadia A. Rosenthal, and James W. Godwin

Subjects

regeneration, macrophage, salamander, hematopoiesis, wound healing, leukocyte trafficking, Biology (General), QH301-705.5

Abstract

The lack of scar-free healing and regeneration in many adult human tissues imposes severe limitations on the recovery of function after injury. In stark contrast, salamanders can functionally repair a range of clinically relevant tissues throughout adult life. The impressive ability to regenerate whole limbs after amputation, or regenerate following cardiac injury, is critically dependent on the recruitment of (myeloid) macrophage white blood cells to the site of injury. Amputation in the absence of macrophages results in regeneration failure and scar tissue induction. Identifying the exact hematopoietic source or reservoir of myeloid cells supporting regeneration is a necessary step in characterizing differences in macrophage phenotypes regulating scarring or regeneration across species. Mammalian wounds are dominated by splenic-derived monocytes that originate in the bone marrow and differentiate into macrophages within the wound. Unlike mammals, adult axolotls do not have functional bone marrow but instead utilize liver and spleen tissues as major sites for adult hematopoiesis. To interrogate leukocyte identity, tissue origins, and modes of recruitment, we established several transgenic axolotl hematopoietic tissue transplant models and flow cytometry protocols to study cell migration and identify the source of pro-regenerative macrophages. We identified that although bidirectional trafficking of leukocytes can occur between spleen and liver tissues, the liver is the major source of leukocytes recruited to regenerating limbs. Recruitment of leukocytes and limb regeneration occurs in the absence of the spleen, thus confirming the dependence of liver-derived myeloid cells in regeneration and that splenic maturation is dispensable for the education of pro-regenerative macrophages. This work provides an important foundation for understanding the hematopoietic origins and education of myeloid cells recruited to, and essential for, adult tissue regeneration.

Published

2021

27. Vascular Endothelial Galectins in Leukocyte Trafficking

Author

Abbey Lightfoot, Helen M. McGettrick, and Asif J. Iqbal

Subjects

galectins, leukocyte trafficking, glycan-binding protein, endothelial cell, vascular biology, Immunologic diseases. Allergy, RC581-607

Abstract

Leukocyte recruitment to the site of injury is a crucial event in the regulation of an inflammatory response. Tight regulation of interactions between the endothelium and circulating leukocytes is necessary to ensure a protective response to injury does not result in inflammatory disease. Rising interest in the broad immunoregulatory roles displayed by members of the glycan-binding galectin family suggests that these proteins could be an attractive target for therapeutic intervention, since their expression is significantly altered in disease. The focus of this review is to summarize current knowledge on the role of galectins in leukocyte trafficking during inflammation and the clinical approaches being taken to target these interactions for treatment of inflammatory disease.

Published

2021

28. Binding of Rap1 and Riam to Talin1 Fine-Tune β2 Integrin Activity During Leukocyte Trafficking.

Author

Bromberger, Thomas, Klapproth, Sarah, Rohwedder, Ina, Weber, Jasmin, Pick, Robert, Mittmann, Laura, Min-Weißenhorn, Soo Jin, Reichel, Christoph A., Scheiermann, Christoph, Sperandio, Markus, and Moser, Markus

Subjects

LEUKOCYTES, INTEGRINS, T cells, LYMPH nodes, PHENOTYPES

Abstract

β2 integrins mediate key processes during leukocyte trafficking. Upon leukocyte activation, the structurally bent β2 integrins change their conformation towards an extended, intermediate and eventually high affinity conformation, which mediate slow leukocyte rolling and firm arrest, respectively. Translocation of talin1 to integrin adhesion sites by interactions with the small GTPase Rap1 and the Rap1 effector Riam precede these processes. Using Rap1 binding mutant talin1 and Riam deficient mice we show a strong Riam-dependent T cell homing process to lymph nodes in adoptive transfer experiments and by intravital microscopy. Moreover, neutrophils from compound mutant mice exhibit strongly increased rolling velocities to inflamed cremaster muscle venules compared to single mutants. Using Hoxb8 cell derived neutrophils generated from the mutant mouse strains, we show that both pathways regulate leukocyte rolling and adhesion synergistically by inducing conformational changes of the β2 integrin ectodomain. Importantly, a simultaneous loss of both pathways results in a rolling phenotype similar to talin1 deficient neutrophils suggesting that β2 integrin regulation primarily occurs via these two pathways. [ABSTRACT FROM AUTHOR]

Published

2021

29. Phase 1 study on the safety and efficacy of E6011, antifractalkine antibody, in patients with Crohn's disease.

Author

Matsuoka, Katsuyoshi, Naganuma, Makoto, Hibi, Toshifumi, Tsubouchi, Hirohito, Oketani, Kiyoshi, Katsurabara, Toshinori, Hojo, Seiichiro, Takenaka, Osamu, Kawano, Tetsu, Imai, Toshio, and Kanai, Takanori

Subjects

*CROHN'S disease, *DISEASE remission, *MONOCLONAL antibodies

Abstract

Background and Aim: E6011 is a humanized monoclonal antibody targeting fractalkine (FKN), a CX3C chemokine, which regulates leukocyte trafficking during inflammation. We evaluated the safety and pharmacokinetic profile of E6011 in patients with Crohn's disease (CD) and also performed preliminary pharmacodynamic (PD) and efficacy assessments. Methods: This study included a 12‐week multiple ascending dose (MAD) phase (2, 5, 10, and 15 mg/kg intravenously every 2 weeks, n = 6, 8, 7, and 7, respectively) and a 40‐week Extension phase (n = 12) at the same dose as the MAD phase. Serum E6011, serum total FKN (free soluble FKN and E6011‐FKN complex) as a PD marker and CD activity index were evaluated. The primary outcome was safety assessment in the MAD phase. Results: Twenty‐seven (96%) of 28 patients had previously been treated with anti‐tumor necrosis factor α agents. During the MAD phase, adverse events (AEs) occurred in 18 (64%). The most common AE was nasopharyngitis (five patients, 18%). No severe AEs occurred. Serious AEs occurred in three patients, progression of CD in two, and anemia in one. Serum E6011 concentrations increased dose‐dependently after infusion and reached a plateau around 4–6 weeks. Serum total FKN rose simultaneously. Five (18%) patients developed anti‐E6011 antibodies during the study. Overall, clinical response and clinical remission were observed at Week 12 in 40% (10/25) and 16% (4/25) of active CD patients, respectively. Conclusion: E6011 was well‐tolerated and might be effective in CD patients. These findings need to be clarified in a randomized controlled study. [ABSTRACT FROM AUTHOR]

Published

2021

30. Vascular Endothelial Galectins in Leukocyte Trafficking.

Author

Lightfoot, Abbey, McGettrick, Helen M., and Iqbal, Asif J.

Subjects

GALECTINS, LEUKOCYTES, INFLAMMATION, ENDOTHELIUM diseases, THERAPEUTICS, ENDOTHELIUM

Abstract

Leukocyte recruitment to the site of injury is a crucial event in the regulation of an inflammatory response. Tight regulation of interactions between the endothelium and circulating leukocytes is necessary to ensure a protective response to injury does not result in inflammatory disease. Rising interest in the broad immunoregulatory roles displayed by members of the glycan-binding galectin family suggests that these proteins could be an attractive target for therapeutic intervention, since their expression is significantly altered in disease. The focus of this review is to summarize current knowledge on the role of galectins in leukocyte trafficking during inflammation and the clinical approaches being taken to target these interactions for treatment of inflammatory disease. [ABSTRACT FROM AUTHOR]

Published

2021

31. Suppression of liver transplant rejection by anti-donor MHC antibodies via depletion of donor immunogenic dendritic cells.

Author

Ueta, Hisashi, Xu, Xue-Dong, Yu, Bin, Kitazawa, Yusuke, Yu, Enqiao, Hara, Yoshiaki, Morita-Nakagawa, Miwa, Zhou, Shu, Sawanobori, Yasushi, Ueha, Satoshi, Rokutan, Kazuhito, Tanaka, Toshiya, Tokuda, Nobuko, Matsushima, Kouji, and Matsuno, Kenjiro

Subjects

*GRAFT rejection, *LIVER transplantation, *DENDRITIC cells, *REGULATORY T cells, *IMMUNOGLOBULINS

Abstract

Background We previously found two distinct passenger dendritic cell (DC) subsets in the rat liver that played a central role in the liver transplant rejection. In addition, a tolerance-inducing protocol, donor-specific transfusion (DST), triggered systemic polytopical production of depleting alloantibodies to donor class I MHC (MHCI) antigen (DST-antibodies). Methods We examined the role of DST-antibodies in the trafficking of graft DC subsets and the alloresponses in a rat model. We also examined an anti-donor class II MHC (MHCII) antibody that recognizes donor DCs more selectively. Results Preoperative transfer of DST-antibodies or DST pretreatment eliminated all passenger leukocytes, including both DC subsets and depleted the sessile DCs in the graft to ~20% of control. The CD172a+CD11b/c+ immunogenic subset was almost abolished. The intrahost direct or semi-direct allorecognition pathway was successfully blocked, leading to a significant suppression of the CD8+ T-cell response in the recipient lymphoid organs and the graft with delayed graft rejection. Anti-donor MHCII antibody had similar effects without temporary graft damage. Although DST pretreatment had a priming effect on the proliferative response of recipient regulatory T cells, DST-primed sera and the anti-donor MHCII antibody did not. Conclusion DST-antibodies and anti-donor MHCII antibodies could suppress the CD8+ T-cell-mediated liver transplant rejection by depleting donor immunogenic DCs, blocking the direct or semi-direct pathways of allorecognition. Donor MHCII-specific antibodies may be applicable as a selective suppressant of anti-donor immunity for clinical liver transplantation without the cellular damage of donor MHCII– graft cells and recipient cells. [ABSTRACT FROM AUTHOR]

Published

2021

32. Pericytes regulate vascular immune homeostasis in the CNS.

Author

Török, Orsolya, Schreiner, Bettina, Schaffenrath, Johanna, Hsing-Chuan Tsai, Maheshwari, Upasana, Stifter, Sebastian A., Welsh, Christina, Amorim, Ana, Sridhar, Sucheta, Utz, Sebastian G., Mildenberger, Wiebke, Nassiri, Sina, Delorenzi, Mauro, Aguzzi, Adriano, Han, May H., Greter, Melanie, Becher, Burkhard, and Keller, Annika

Subjects

*PERICYTES, *HOMEOSTASIS, *NEUROLOGICAL disorders, *CENTRAL nervous system, *BLOOD-brain barrier

Abstract

Pericytes regulate the development of organ-specific characteristics of the brain vasculature such as the blood-brain barrier (BBB) and astrocytic end-feet. Whether pericytes are involved in the control of leukocyte trafficking in the adult central nervous system (CNS), a process tightly regulated by CNS vasculature, remains elusive. Using adult pericyte-deficient mice (Pdgfbret/ret), we show that pericytes limit leukocyte infiltration into the CNS during homeostasis and autoimmune neuroinflammation. The permissiveness of the vasculature toward leukocyte trafficking in Pdgfbret/ret mice inversely correlates with vessel pericyte coverage. Upon induction of experimental autoimmune encephalomyelitis (EAE), pericyte-deficient mice die of severe atypical EAE, which can be reversed with fingolimod, indicating that the mortality is due to the massive influx of immune cells into the brain. Additionally, administration of anti-VCAM-1 and anti-ICAM-1 antibodies reduces leukocyte infiltration and diminishes the severity of atypical EAE symptoms of Pdgfbret/ret mice, indicating that the proinflammatory endothelium due to absence of pericytes facilitates exaggerated neuroinflammation. Furthermore, we showthat the presence of myelin peptide-specific peripheral T cells in Pdgfbret/ret;2D2tg mice leads to the development of spontaneous neurological symptoms paralleled by the massive influx of leukocytes into the brain. These findings indicate that intrinsic changes within brain vasculature can promote the development of a neuroinflammatory disorder. [ABSTRACT FROM AUTHOR]

Published

2021

33. Dendritic cells steering antigen and leukocyte traffic in lymph nodes.

Author

Dotta E, Maciola AK, Baccega T, and Pasqual G

Abstract

Dendritic cells (DCs) play a central role in initiating and shaping the adaptive immune response, thanks to their ability to uptake antigens and present them to T cells. Once in the lymph node (LN), DCs can spread the antigen to other DCs, expanding the pool of cells capable of activating specific T-cell clones. Additionally, DCs can modulate the dynamics of other immune cells, by increasing naïve T-cell dwell time, thereby facilitating the scanning for cognate antigens, and by selectively recruiting other leukocytes. Here we discuss the role of DCs in orchestrating antigen and leukocyte trafficking within the LN, together with the implications of this trafficking on T-cell activation and commitment to effector function., (© 2024 The Author(s). FEBS Letters published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2024

34. A Novel Experimental Approach for In Vivo Analyses of the Salivary Gland Microvasculature

Author

Bernd Uhl, Constanze Braun, Julian Dominik, Joshua Luft, Martin Canis, and Christoph A. Reichel

Subjects

salivary gland, in vivo imaging, microcirculation, leukocyte trafficking, microvascular permeability, inflammation, Immunologic diseases. Allergy, RC581-607

Abstract

Microvascular dysfunction plays a fundamental role in the pathogenesis of salivary gland disorders. Restoring and preserving microvascular integrity might therefore represent a promising strategy for the treatment of these pathologies. The mechanisms underlying microvascular dysfunction in salivary glands, however, are still obscure, partly due to the unavailability of adequate in vivo models. Here, we present a novel experimental approach that allows comprehensive in vivo analyses of the salivary gland microvasculature in mice. For this purpose, we employed different microscopy techniques including multi-photon in vivo microscopy to quantitatively analyze interactions of distinct immune cell subsets in the submandibular gland microvasculature required for their infiltration into the surrounding parenchyma and their effects on microvascular function. Confocal microscopy and multi-channel flow cytometry in tissue sections/homogenates complemented these real-time analyses by determining the molecular phenotype of the participating cells. To this end, we identified key adhesion and signaling molecules that regulate the subset- and tissue-specific trafficking of leukocytes into inflamed glands and control the associated microvascular leakage. Hence, we established an experimental approach that allows in vivo analyses of microvascular processes in healthy and diseased salivary glands. This enables us to delineate distinct pathogenetic factors as novel therapeutic targets in salivary gland diseases.

Published

2021

35. Dim Light at Night Impairs Daily Variation of Circulating Immune Cells and Renal Immune Homeostasis

Author

Monika Okuliarova, Nikoleta Mazgutova, Miroslava Majzunova, Valentina Sophia Rumanova, and Michal Zeman

Subjects

chronodisruption, leukocyte trafficking, chemokines, monocytes, renal redox balance, Immunologic diseases. Allergy, RC581-607

Abstract

Dim light at night (dLAN) has become a pervasive part of the modern world, and growing evidence shows its association with increased health risks. Though this link is attributed to a disturbed circadian clock, the underlying mechanisms that can explain how circadian disruption from dLAN causes negative health effects remain unclear. Here, we exposed rats to a light–dark cycle (12:12 h) with low-intensity light at night (~2 lx) for 2 and 5 weeks and explored the steady-state pattern of circulating immune cells and renal immune-related markers, which are well controlled by the circadian clock. After 5 weeks, dLAN impaired the daily variation in several types of white blood cells, especially monocytes and T cells. Two-week dLAN caused a reduction in blood monocytes and altered gene expression of macrophage marker Cd68 and monocyte-attracting chemokine Ccl2 in the kidney. Interestingly, dLAN decreased renal 3-nitrotyrosine levels and resulted in up-regulation of the main endogenous antioxidant pathways, indicating a disturbance in the renal redox balance and an activation of compensatory mechanisms. These effects paralleled the altered renal expression of the molecular clock components and increased plasma corticosterone levels. Together, our results show that chronic exposure to dLAN weakened the circadian control of daily variation of circulating immune cells and disturbed renal immune and redox homeostasis. Consequences of this dLAN-disturbed immune balance on the ability of the immune system to cope with other challenges should by clarified in further studies.

Published

2021

36. Immunotherapy of Guillain-Barré syndrome

Author

Shuang Liu, Chaoling Dong, and Eroboghene Ekamereno Ubogu

Subjects

blood-nerve barrier, guillain-barré syndrome, leukocyte trafficking, immunopathology, immunotherapy, peripheral nerve inflammation, Immunologic diseases. Allergy, RC581-607, Therapeutics. Pharmacology, RM1-950

Abstract

Guillain-Barré syndrome (GBS), the most common cause of acute neuromuscular weakness and paralysis worldwide, encompasses a group of acute immune-mediated disorders restricted to peripheral nerves and roots. Immune-mediated attack of peripheral nervous system myelin, axons or both is presumed to be triggered by molecular mimicry, with both cell- and humoral-dependent mechanisms implicated in disease pathogenesis. Good circumstantial evidence exists for a pathogenic role for molecular mimicry in GBS pathogenesis, especially with its axonal forms, providing insights that could guide future immunotherapy. Intravenous immunoglobulin (IVIg) and plasma exchange (PE) are the most commonly prescribed immunotherapies for GBS with variable efficacy dependent on GBS subtype, severity at initial presentation and other clinical and electrophysiologic prognostic factors. The mechanisms of action of IVIg and PE are not known definitely. Despite recent significant advances in molecular biology that provide insights into GBS pathogenesis, no advances in therapeutics or significant improvements in patient outcomes have occurred over the past three decades. We summarize the clinical aspects of GBS, its current pathogenesis and immunotherapy, and highlight the potential of leukocyte trafficking inhibitors as novel disease-specific immunotherapeutic drugs.

Published

2018

37. Vascular Endothelium

Author

Gao, Yuansheng and Gao, Yuansheng

Published

2017

38. A Novel Experimental Approach for In Vivo Analyses of the Salivary Gland Microvasculature.

Author

Uhl, Bernd, Braun, Constanze, Dominik, Julian, Luft, Joshua, Canis, Martin, and Reichel, Christoph A.

Subjects

SALIVARY glands, SUBMANDIBULAR gland, CONFOCAL microscopy, FLOW cytometry, PHENOTYPES, SALIVARY gland cancer, ERDHEIM-Chester disease

Abstract

Microvascular dysfunction plays a fundamental role in the pathogenesis of salivary gland disorders. Restoring and preserving microvascular integrity might therefore represent a promising strategy for the treatment of these pathologies. The mechanisms underlying microvascular dysfunction in salivary glands, however, are still obscure, partly due to the unavailability of adequate in vivo models. Here, we present a novel experimental approach that allows comprehensive in vivo analyses of the salivary gland microvasculature in mice. For this purpose, we employed different microscopy techniques including multi-photon in vivo microscopy to quantitatively analyze interactions of distinct immune cell subsets in the submandibular gland microvasculature required for their infiltration into the surrounding parenchyma and their effects on microvascular function. Confocal microscopy and multi-channel flow cytometry in tissue sections/homogenates complemented these real-time analyses by determining the molecular phenotype of the participating cells. To this end, we identified key adhesion and signaling molecules that regulate the subset- and tissue-specific trafficking of leukocytes into inflamed glands and control the associated microvascular leakage. Hence, we established an experimental approach that allows in vivo analyses of microvascular processes in healthy and diseased salivary glands. This enables us to delineate distinct pathogenetic factors as novel therapeutic targets in salivary gland diseases. [ABSTRACT FROM AUTHOR]

Published

2021

39. Dim Light at Night Impairs Daily Variation of Circulating Immune Cells and Renal Immune Homeostasis.

Author

Okuliarova, Monika, Mazgutova, Nikoleta, Majzunova, Miroslava, Rumanova, Valentina Sophia, and Zeman, Michal

Subjects

LEUKOCYTES, HOMEOSTASIS, BLOOD groups, MOLECULAR clock, CELLS

Abstract

Dim light at night (dLAN) has become a pervasive part of the modern world, and growing evidence shows its association with increased health risks. Though this link is attributed to a disturbed circadian clock, the underlying mechanisms that can explain how circadian disruption from dLAN causes negative health effects remain unclear. Here, we exposed rats to a light–dark cycle (12:12 h) with low-intensity light at night (~2 lx) for 2 and 5 weeks and explored the steady-state pattern of circulating immune cells and renal immune-related markers, which are well controlled by the circadian clock. After 5 weeks, dLAN impaired the daily variation in several types of white blood cells, especially monocytes and T cells. Two-week dLAN caused a reduction in blood monocytes and altered gene expression of macrophage marker Cd68 and monocyte-attracting chemokine Ccl2 in the kidney. Interestingly, dLAN decreased renal 3-nitrotyrosine levels and resulted in up-regulation of the main endogenous antioxidant pathways, indicating a disturbance in the renal redox balance and an activation of compensatory mechanisms. These effects paralleled the altered renal expression of the molecular clock components and increased plasma corticosterone levels. Together, our results show that chronic exposure to dLAN weakened the circadian control of daily variation of circulating immune cells and disturbed renal immune and redox homeostasis. Consequences of this dLAN-disturbed immune balance on the ability of the immune system to cope with other challenges should by clarified in further studies. [ABSTRACT FROM AUTHOR]

Published

2021

40. In vitro modeling of blood–brain barrier and interface functions in neuroimmune communication.

Author

Erickson, Michelle A., Wilson, Miranda L., and Banks, William A.

Subjects

BLOOD-brain barrier, INDUCED pluripotent stem cells, IMMUNOREGULATION

Abstract

Neuroimmune communication contributes to both baseline and adaptive physiological functions, as well as disease states. The vascular blood–brain barrier (BBB) and associated cells of the neurovascular unit (NVU) serve as an important interface for immune communication between the brain and periphery through the blood. Immune functions and interactions of the BBB and NVU in this context can be categorized into at least five neuroimmune axes, which include (1) immune modulation of BBB impermeability, (2) immune regulation of BBB transporters, secretions, and other functions, (3) BBB uptake and transport of immunoactive substances, (4) immune cell trafficking, and (5) BBB secretions of immunoactive substances. These axes may act separately or in concert to mediate various aspects of immune signaling at the BBB. Much of what we understand about immune axes has been from work conducted using in vitro BBB models, and recent advances in BBB and NVU modeling highlight the potential of these newer models for improving our understanding of how the brain and immune system communicate. In this review, we discuss how conventional in vitro models of the BBB have improved our understanding of the 5 neuroimmune axes. We further evaluate the existing literature on neuroimmune functions of novel in vitro BBB models, such as those derived from human induced pluripotent stem cells (iPSCs) and discuss their utility in evaluating aspects of neuroimmune communication. [ABSTRACT FROM AUTHOR]

Published

2020

41. Being old and female is an inflammatory combination.

Author

Norling, Lucy V and Cooper, Dianne

Subjects

OLDER people, SEX trafficking, AUTOIMMUNE diseases, INFLAMMATORY mediators, RESEARCH personnel, FEMALES

Abstract

The article discusses the concept of "inflammaging," which refers to chronic low-grade inflammation commonly observed in older individuals. The study focuses on the impact of age and sex on leukocyte trafficking in mice. The researchers found significant differences in immune cell profiles, inflammatory mediators, and vascular integrity between young and aged mice, as well as between male and female mice. These findings may have implications for understanding autoimmune diseases and improving immune function in older individuals. Further research is needed to explore the functional consequences of these cellular changes and how lifestyle factors may influence immune cell profiles. [Extracted from the article]

Published

2023

42. The blood-brain barrier in Alzheimer's disease

Author

Elena Zenaro, Gennj Piacentino, and Gabriela Constantin

Subjects

Alzheimer's disease, Blood–brain barrier, Neurovascular unit, Vascular inflammation, Immune system cells, Leukocyte trafficking, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Alzheimer's disease (AD) is a chronic neurodegenerative disorder characterized by the pathological accumulation of amyloid beta (Aβ) peptides and neurofibrillary tangles containing hyperphosphorylated neuronal tau protein. AD pathology is also characterized by chronic brain inflammation, which promotes disease pathogenesis. In this context, the blood-brain barrier (BBB), a highly specialized endothelial cell membrane that lines cerebral microvessels, represents the interface between neural cells and circulating cells of the immune system. The BBB thus plays a key role in the generation and maintenance of chronic inflammation during AD. The BBB operates within the neurovascular unit (NVU), which includes clusters of glial cells, neurons and pericytes. The NVU becomes dysfunctional during AD, and each of its components may undergo functional changes that contribute to neuronal injury and cognitive deficit. In transgenic animals with AD-like pathology, recent studies have shown that circulating leukocytes migrate through the activated brain endothelium when certain adhesion molecules are expressed, penetrating into the brain parenchyma, interacting with the NVU components and potentially affecting their structural integrity and functionality. Therefore, migrating immune system cells in cerebral vessels act in concert with the modified BBB and may be integrated into the dysfunctional NVU. Notably, blocking the adhesion mechanisms controlling leukocyte–endothelial interactions inhibits both Aβ deposition and tau hyperphosphorylation, and reduces memory loss in AD models. The characterization of molecular mechanisms controlling vascular inflammation and leukocyte trafficking could therefore help to determine the basis of BBB dysfunction during AD and may lead to the development of new therapeutic approaches.

Published

2017

43. Editorial: Regulation of Immune Function by the Lymphatic Vasculature

Author

Beth Ann Jiron Tamburini, Timothy P. Padera, and Amanda W. Lund

Subjects

lymphatic vasculature, lymphatic endothelial cell (LEC), leukocyte trafficking, lymphedema, immune regulation, cancer lymphatics, Immunologic diseases. Allergy, RC581-607

Published

2019

44. Chemerin Suppresses Breast Cancer Growth by Recruiting Immune Effector Cells Into the Tumor Microenvironment

Author

Russell K. Pachynski, Ping Wang, Nicole Salazar, Yayue Zheng, Leona Nease, Jesse Rosalez, Weng-In Leong, Gurpal Virdi, Keith Rennier, Woo Jae Shin, Viet Nguyen, Eugene C. Butcher, and Brian A. Zabel

Subjects

chemerin, RARRES2, breast cancer, leukocyte trafficking, immunotherapy, NK cells, Immunologic diseases. Allergy, RC581-607

Abstract

Infiltration of immune cells into the tumor microenvironment (TME) can regulate growth and survival of neoplastic cells, impacting tumorigenesis and tumor progression. Correlations between the number of effector immune cells present in a tumor and clinical outcomes in many human tumors, including breast, have been widely described. Current immunotherapies utilizing checkpoint inhibitors or co-stimulatory molecule agonists aim to activate effector immune cells. However, tumors often lack adequate effector cell numbers within the TME, resulting in suboptimal responses to these agents. Chemerin (RARRES2) is a leukocyte chemoattractant widely expressed in many tissues and is known to recruit innate leukocytes. CMKLR1 is a chemotactic cellular receptor for chemerin and is expressed on subsets of dendritic cells, NK cells, and macrophages. We have previously shown that chemerin acts as a tumor suppressive cytokine in mouse melanoma models by recruiting innate immune defenses into the TME. Chemerin/RARRES2 is down-regulated in many tumors, including breast, compared to normal tissue counterparts. Here, using a syngeneic orthotopic EMT6 breast carcinoma model, we show that forced overexpression of chemerin by tumor cells results in significant recruitment of NK cells and T cells within the TME. While chemerin secretion by EMT6 cells did not alter their phenotypic behavior in vitro, it did significantly suppress tumor growth in vivo. To define the cellular effectors required for this anti-tumor phenotype, we depleted NK cells or CD8+ T cells and found that either cell type is required for chemerin-dependent suppression of EMT6 tumor growth. Finally, we show significantly reduced levels of RARRES2 mRNA in human breast cancer samples compared to matched normal tissues. Thus, for the first time we have shown that increasing chemerin expression within the breast carcinoma TME can suppress growth by recruitment of NK and T cells, thereby supporting this approach as a promising immunotherapeutic strategy.

Published

2019

45. Leukocyte Trafficking and Regulation of Murine Hematopoietic Stem Cells and Their Niches

Author

Daniel Lucas

Subjects

hematopoietic stem cell, niches, leukocyte trafficking, neutrophils, Tregs, Immunologic diseases. Allergy, RC581-607

Abstract

Hematopoietic stem cells (HSC) are the most powerful type of adult stem cell found in the body. Hematopoietic stem cells are multipotent and capable of giving rise to all other types of hematopoietic cells found in the organism. A single HSC is capable of regenerating a functional hematopoietic system when transplanted into a recipient. Hematopoietic stem cells reside in the bone marrow in specific multicellular structures called niches. These niches are indispensable for maintaining and regulating HSC numbers and function. It has become increasingly clearer that HSC and their niches can also be regulated by migrating leukocytes. Here we will discuss the composition of murine bone marrow niches and how HSC and their niches are regulated by different types of leukocytes that traffic between the periphery and the niche. Unless otherwise indicated all the studies discussed below were performed in mouse models.

Published

2019

46. The extracellular cyclophilin A-integrin β2 complex as a therapeutic target of viral pneumonia.

Author

Bai X, Yang W, Zhao Y, Cao T, Lin R, Jiao P, Li H, Li H, Min J, Jia X, Zhang H, Fan W, Jia X, Bi Y, Liu W, and Sun L

Subjects

Animals, Humans, Mice, CD18 Antigens metabolism, SARS-CoV-2, Pneumonia, Viral drug therapy, Pneumonia, Viral virology, Pneumonia, Viral metabolism, Pneumonia, Viral immunology, Cytokines metabolism, Antibodies, Monoclonal pharmacology, Signal Transduction, Influenza A virus, Disease Models, Animal, Cyclophilin A metabolism, COVID-19 metabolism, COVID-19 virology, COVID-19 immunology

Abstract

The acute respiratory virus infection can induce uncontrolled inflammatory responses, such as cytokine storm and viral pneumonia, which are the major causes of death in clinical cases. Cyclophilin A (CypA) is mainly distributed in the cytoplasm of resting cells and released into the extracellular space in response to inflammatory stimuli. Extracellular CypA (eCypA) is upregulated and promotes inflammatory response in severe COVID-19 patients. However, how eCypA promotes virus-induced inflammatory response remains elusive. Here, we observe that eCypA is induced by influenza A and B viruses and SARS-CoV-2 in cells, mice, or patients. Anti-CypA mAb reduces pro-inflammatory cytokines production, leukocytes infiltration, and lung injury in virus-infected mice. Mechanistically, eCypA binding to integrin β2 triggers integrin activation, thereby facilitating leukocyte trafficking and cytokines production via the focal adhesion kinase (FAK)/GTPase and FAK/ERK/P65 pathways, respectively. These functions are suppressed by the anti-CypA mAb that specifically blocks eCypA-integrin β2 interaction. Overall, our findings reveal that eCypA-integrin β2 signaling mediates virus-induced inflammatory response, indicating that eCypA is a potential target for antibody therapy against viral pneumonia., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

47. Biological Functions of C1GalT1 and Mucin-Type O-Glycans

Author

Bergstrom, Kirk, Fu, Jianxin, Xia, Lijun, Taniguchi, Naoyuki, editor, Endo, Tamao, editor, Hart, Gerald W., editor, Seeberger, Peter H., editor, and Wong, Chi-Huey, editor

Published

2015

48. Migration and Communication Patterns in Skin Rejection

Author

Grahammer, Johanna, Hautz, Theresa, Pratschke, Johann, Schneeberger, Stefan, Turksen, Kursad, Series editor, and Brandacher, Gerald, editor

Published

2015

49. Constitutive TNF-α signaling in neonates is essential for the development of tissue-resident leukocyte profiles at barrier sites.

Author

Bickes, Marie Sophie, Pirr, Sabine, Heinemann, Anna Sophie, Fehlhaber, Beate, Halle, Stephan, Völlger, Lena, Willers, Maike, Richter, Manuela, Böhne, Carolin, Albrecht, Melanie, Langer, Melissa, Pfeifer, Sandra, Jonigk, Danny, Vieten, Gertrud, Ure, Benno, von Kaisenberg, Constantin, Förster, Reinhold, von Köckritz-Blickwede, Maren, Hansen, Gesine, and Viemann, Dorothee

Abstract

Newborn infants have a high disposition to develop systemic inflammatory response syndromes (SIRSs) upon inflammatory or infectious challenges. Moreover, there is a considerable trafficking of hematopoietic cells to tissues already under noninflammatory conditions. These age-specific characteristics suggest a hitherto unappreciated crucial role of the vascular endothelium during the neonatal period. Here, we demonstrate that healthy neonates showed already strong endothelial baseline activation, which was mediated by a constitutively increased production of TNF-α. In mice, pharmacological inhibition of TNF-α directly after birth prevented subsequent fatal SIRS but completely abrogated the recruitment of leukocytes to sites of infection. Importantly, in healthy neonates, blocking TNF-α at birth disrupted the physiologic leukocyte trafficking, which resulted in persistently altered leukocyte profiles at barrier sites. Collectively, these data suggest that constitutive TNF-α-mediated sterile endothelial activation in newborn infants contributes to the increased risk of developing SIRS but is needed to ensure the postnatal recruitment of leukocytes to organs and interfaces. [ABSTRACT FROM AUTHOR]

Published

2019

50. Chemerin Suppresses Breast Cancer Growth by Recruiting Immune Effector Cells Into the Tumor Microenvironment.

Author

Pachynski, Russell K., Wang, Ping, Salazar, Nicole, Zheng, Yayue, Nease, Leona, Rosalez, Jesse, Leong, Weng-In, Virdi, Gurpal, Rennier, Keith, Shin, Woo Jae, Nguyen, Viet, Butcher, Eugene C., and Zabel, Brian A.

Subjects

CHEMERIN, BREAST cancer, TUMOR microenvironment, NEOPLASTIC cell transformation, CANCER invasiveness, LEUKOCYTES

Abstract

Infiltration of immune cells into the tumor microenvironment (TME) can regulate growth and survival of neoplastic cells, impacting tumorigenesis and tumor progression. Correlations between the number of effector immune cells present in a tumor and clinical outcomes in many human tumors, including breast, have been widely described. Current immunotherapies utilizing checkpoint inhibitors or co-stimulatory molecule agonists aim to activate effector immune cells. However, tumors often lack adequate effector cell numbers within the TME, resulting in suboptimal responses to these agents. Chemerin (RARRES2) is a leukocyte chemoattractant widely expressed in many tissues and is known to recruit innate leukocytes. CMKLR1 is a chemotactic cellular receptor for chemerin and is expressed on subsets of dendritic cells, NK cells, and macrophages. We have previously shown that chemerin acts as a tumor suppressive cytokine in mouse melanoma models by recruiting innate immune defenses into the TME. Chemerin/ RARRES2 is down-regulated in many tumors, including breast, compared to normal tissue counterparts. Here, using a syngeneic orthotopic EMT6 breast carcinoma model, we show that forced overexpression of chemerin by tumor cells results in significant recruitment of NK cells and T cells within the TME. While chemerin secretion by EMT6 cells did not alter their phenotypic behavior in vitro , it did significantly suppress tumor growth in vivo. To define the cellular effectors required for this anti-tumor phenotype, we depleted NK cells or CD8+ T cells and found that either cell type is required for chemerin-dependent suppression of EMT6 tumor growth. Finally, we show significantly reduced levels of RARRES2 mRNA in human breast cancer samples compared to matched normal tissues. Thus, for the first time we have shown that increasing chemerin expression within the breast carcinoma TME can suppress growth by recruitment of NK and T cells, thereby supporting this approach as a promising immunotherapeutic strategy. [ABSTRACT FROM AUTHOR]

Published

2019