intravital microscopy
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2022 ◽  
Vol 12 ◽  
Author(s):  
Diego Ulisse Pizzagalli ◽  
Alain Pulfer ◽  
Marcus Thelen ◽  
Rolf Krause ◽  
Santiago F. Gonzalez

The migration of immune cells plays a key role in inflammation. This is evident in the fact that inflammatory stimuli elicit a broad range of migration patterns in immune cells. Since these patterns are pivotal for initiating the immune response, their dysregulation is associated with life-threatening conditions including organ failure, chronic inflammation, autoimmunity, and cancer, amongst others. Over the last two decades, thanks to advancements in the intravital microscopy technology, it has become possible to visualize cell migration in living organisms with unprecedented resolution, helping to deconstruct hitherto unexplored aspects of the immune response associated with the dynamism of cells. However, a comprehensive classification of the main motility patterns of immune cells observed in vivo, along with their relevance to the inflammatory process, is still lacking. In this review we defined cell actions as motility patterns displayed by immune cells, which are associated with a specific role during the immune response. In this regard, we summarize the main actions performed by immune cells during intravital microscopy studies. For each of these actions, we provide a consensus name, a definition based on morphodynamic properties, and the biological contexts in which it was reported. Moreover, we provide an overview of the computational methods that were employed for the quantification, fostering an interdisciplinary approach to study the immune system from imaging data.


2022 ◽  
pp. 102358
Author(s):  
Miguel Molina-Moreno ◽  
Iván González-Díaz ◽  
Jon Sicilia ◽  
Georgiana Crainiciuc ◽  
Miguel Palomino-Segura ◽  
...  

2021 ◽  
Vol 79 (3) ◽  
pp. 395-406
Author(s):  
Georg Hagn ◽  
Bruce Holbein ◽  
Juan Zhou ◽  
Christian Lehmann

BACKGROUND: Interstitial cystitis (IC) is a prevalent and debilitating chronic inflammatory disease of the urinary bladder. Currently there are no fully effective therapeutic agents available, in part due to the still obscure pathogenesis of IC. Lipopolysaccharide (LPS) also known as endotoxin from Gram negative bacteria elicits IC in mice and has formed the basis of model systems for investigation. Excess free iron plays an important role in inflammation through generation of reactive oxygen species (ROS). The novel iron chelator DIBI has been shown to sequester excess free iron and dampen excess inflammatory responses to systemic LPS administration and also to Gram negative bacterial infections. OBJECTIVE: The overall objective of this study was to evaluate the effects of DIBI on LPS induced IC in mice. Leukocyte activation, endothelial adhesion and functional capillary density were assessed by intravital microscopy of the bladder microcirculation following a single intravesical LPS administration with or without intravesical DIBI treatment. Clinical IC symptoms were also assessed through behavioral and pain threshold force measurements. METHODS: Four groups of female BALB/c mice (n = 5–6/group) were randomized in this study: control group, IC group without therapy, IC group with DIBI therapy and control group with DIBI therapy. The groups were examined using intravital microscopy (IVM) of the bladder for leukocyte-endothelial interactions (adherent leukocytes, temporarily interacting leukocytes) and functional capillary density (FCD). A modified behavioral score by Boucher et al. and Von-Frey-Aesthesiometry were used to evaluate key behavioral indices related to pain and visceral pain perception. RESULTS: LPS introduced intravesically induced an early (≤2h) inflammation of the bladder evidenced by leukocyte activation and adhesion to bladder capillary walls. Intravesical DIBI therapy of mice 30min following LPS administration and assessed after 1.5h treatment showed a significant decrease in the number of adherent leukocytes compared to IC animals without DIBI treatment. DIBI treated mice showed a significantly lowered increase in behavioral distress scores compared to IC mice without therapy. Untreated IC mice exhibited a significantly decreased threshold force value for evoked pain response and DIBI treatment improved the threshold pain response. A significant inverse correlation was found for the two pain and suffering evaluation methods results. CONCLUSION: DIBI reduced inflammatory endothelial leukocyte adhesion and key indices related to pain and suffering over those observed in untreated IC mice. Our findings suggest a potential therapeutic role for DIBI for IC treatment.


2021 ◽  
Vol 4 (1) ◽  
Author(s):  
Shannen K. Sharpe ◽  
Michelle M. Martinez ◽  
Kenneth W. Dunn

The foreign body response is the body’s response to the insertion of an object. The foreign body response consists of two components, the innate and adaptive immune response, and lasts for the life of the inserted object.  Accordingly, the foreign body response represents a significant challenge to the development of implanted medical devices.  In addition to triggering the damaging consequences of inflammation, the foreign body response acts to encapsulate and isolate inserted objects, limiting the functional lifetime of medical devices such as glucose monitors.  Accordingly, significant efforts have been devoted to understanding the cell biology of the foreign body response to identify approaches for limiting surface “biofouling”.  We have developed an indwelling window system that support longitudinal intravital microscopy of mice.  In studies of transgenic mice expressing fluorescent immune cells, we found that the window triggers a local inflammatory response.  To explore the utility of this window system as an experimental platform for characterizing the foreign body response, we conducted an intravital microscopy study of 8 mice expressing GFP in myeloid immune cells (Lys-EGFP mice) with surgically implanted abdominal imaging windows.  To identify differences in the responses to different surface chemistries, the windows were either left uncoated or coated with poly-L-lysine or type V mouse collagen prior to insertion. Intravital multiphoton microscopy studies conducted over a period of up to 3 weeks demonstrated that the window instigated a local recruitment of immune cells, followed by vascularization and giant cell formation that varied depending upon window surface treatment.  These studies demonstrate the utility of the abdominal window as a model system for studying the cell biology of the foreign body response and represent the template for subsequent studies designed to compare the foreign body response to different coating materials designed to extend the useful lifetime of implanted devices.


2021 ◽  
pp. 1-15
Author(s):  
Daniel Strüder ◽  
Christoph Lachmann ◽  
Sara Maria van Bonn ◽  
Eberhard Grambow ◽  
Sebastian P. Schraven ◽  
...  

<b><i>Background:</i></b> Tympanic membrane perforations (TMPs) are a common complication of trauma and infection. Persisting perforations result from the unique location of the tympanic membrane. The wound is surrounded by air of the middle ear and the external auditory canal. The inadequate wound bed, growth factor, and blood supply lead to circular epithelialization of the perforation’s edge and premature interruption of defect closure. Orthotopic animal models use mechanical or chemical tympanic membrane laceration to identify bioactive wound dressings and overcome premature epithelialization. However, all orthotopic models essentially lack repetitive visualization of the biomaterial-wound interface. Therefore, recent progress in 3D printing of customized wound dressings has not yet been transferred to the unique wound setup of the TMP. Here, we present a novel application for the mice dorsal skinfold chamber (DSC) with an epithelialized full-thickness defect as TMP model. <b><i>Methods:</i></b> A circular 2-mm defect was cut into the extended dorsal skinfold using a biopsy punch. The skinfold was either perforated through both skin layers without prior preparation or perforated on 1 side, following resection of the opposing skin layer. In both groups, the wound was sealed with a coverslip or left unclosed (<i>n</i> = 4). All animals were examined for epithelialization of the edge (histology), size of the perforation (planimetry), neovascularization (repetitive intravital fluorescence microscopy), and inflammation (immunohistology). <b><i>Results:</i></b> The edge of the perforation was overgrown by the cornified squamous epithelium in all pre­parations. Reduction in the perforation’s size was enhanced by application of a coverslip. Microsurgical preparation before biopsy punch perforation and sealing with a coverslip enabled repetitive high-quality intravital fluorescence microscopy. However, spontaneous reduction of the perforation occurred frequently. Therefore, the direct biopsy punch perforation without microsurgical preparation was favorable: spontaneous reduction did not occur throughout 21 days. Moreover, the visualization of the neovascularization was sufficient in intravital microscopy. <b><i>Conclusions:</i></b> The DSC full-thickness defect is a valuable supplement to orthotopic TMP models. Repetitive intravital microscopy of the epithelialized edge enables investigation of the underlying pathophysiology during the transition from the inflammation to the proliferation phase of wound healing. Using established analysis procedures, the present model provides an effective platform for the screening of bioactive materials and transferring progress in tissue engineering to the special conditions of tympanic membrane wound healing.


Blood ◽  
2021 ◽  
Vol 138 (Supplement 1) ◽  
pp. 856-856
Author(s):  
Lidiane S. Torres ◽  
Erica M.F. Gotardo ◽  
Flávia Costa Leonardo ◽  
Pamela L. Brito ◽  
Irmgard Förster ◽  
...  

Abstract The chronic inflammatory state associated with sickle cell disease (SCD) incurs pan-cellular activation and the recruitment of leukocytes to the activated endothelium of blood vessels. The resultant rheological alterations and red cell sickling culminate in acute vaso-occlusive processes. Cytokines IL-1β and IL-18, the bio-active products of the activated inflammasome, are elevated in the plasma of SCD patients (ASH Abstract (2016) 128 (22): 854), and a previous study reported that anti-IL1β therapy alleviated reperfusion injury and flow stasis in NY1DD transgenic sickle mice exposed to hypoxia/reoxygenation (ASH Abstract (2011) 118(21): 848). The aim of this study was to determine whether antibodies that neutralize IL-1β and IL-18 could individually, or synergistically, diminish inflammatory processes and leukocyte recruitment in mice with SCD. Townes mice (5-months old; N=4-7 per group) received an i.p. administration of either saline, 200 µg/mouse anti-murine IL-1β (01BSUR), and/or 250 or 500 µg/mouse anti-murine IL-18 (SK113AE-4), or an IgG1 control antibody (iProt105125; 200 or 500 µg/mouse). At 21h after treatments, vaso-occlusive-like processes were induced in mice by the injection of tumor necrosis factor-α (TNF; 0.5μg, i.p.). At 3h after TNF, the cremaster muscles of anesthetized mice were surgically exposed, and leukocyte TNF recruitment and extravasation in venules of the microcirculation were observed using intravital microscopy. Another set of Townes mice (N=4-12 per group) was submitted to the same procedures, with blood sampling for ELISA at 3h post TNF. Optimal concentrations of antibodies were determined by observing leukocyte recruitment by intravital microscopy (doses; 100, 200 µg/mouse anti-IL-1β [N=2; 3, respectively] and 250, 500 µg/mouse anti-IL-18, [N=2 each]) in TNF-stimulated C57BL/6J mice (data not shown). Figure 1 (A-C) demonstrates the extensive recruitment and extravasation of leukocytes that occurs in the microvasculature of Townes mice at 3h post-TNF (saline group). Pre-treatment of mice with either anti-IL-1β or anti-IL-18 significantly abrogated (P&lt;0.01) the TNF-induced adhesion (Fig. 1B) and extravasation (Fig. 1C) of leukocytes in venules, while only anti-IL-18 significantly reduced leukocyte rolling along the venule endothelium (Fig. 1A; P&lt;0.05). In contrast, the administration of 500 µg/mouse (Fig. 1) or 200 µg/mouse (data not shown) of a non-specific IgG1 did not significantly affect TNF-induced leukocyte recruitment/extravasation (P&gt;0.05). The combined use of the anti-IL-1β (200 µg/mouse) together with an intermediate dose of anti-IL-18 (250 µg/mouse) did not further reduce leukocyte recruitment and extravasation in this model, when compared with the effects of anti-IL-1β alone (Fig. 1A-C; P&gt;0.05). Investigating the effects of these biological agents on inflammatory molecules production in TNF-stimulated Townes mice, we found that the administration of anti-IL-1β (200 µg) reduced IL-6 production, a pleiotropic inflammatory molecule that is upregulated by IL-1β (Fig. 1D), as did the combination of anti-IL-1β plus anti-IL-18 (200 µg and 250 µg/mouse, respectively). Pre-treatment of TNF-stimulated SCD mice with anti-IL-1β plus anti-IL-18 decreased Interferon (IFN)-γ production, a molecule that is upregulated synergistically by IL-18 and IL-12 and that mediates early host immune defenses (Fig. 1E). In contrast, anti-inflammatory IL-10 production was not significantly modulated by the pre-treatment of TNF-stimulated mice with these biological agents (Fig. 1F). As such, IL-1β and IL-18 neutralization significantly reduced inflammatory processes and leukocyte recruitment in the microvasculature of mice with SCD, indicating that biological agents that inhibit the effects of inflammasome-processed cytokines may hold potential for reducing vaso-occlusive processes in patients with this disease. Figure 1 Figure 1. Disclosures Kovarik: Novartis Institutes for Biomedical Research: Current Employment. Costa: Novartis: Consultancy. Conran: Novartis Pharma AG: Research Funding.


2021 ◽  
Vol 72 ◽  
pp. 28-35
Author(s):  
Jacco van Rheenen ◽  
Colinda L.G.J. Scheele

Author(s):  
Bashir Bietar ◽  
Juan Zhou ◽  
Christian Lehmann

BACKGROUND: Stroke, traumatic brain injury, or other forms of central nervous system (CNS) injury initiate a local inflammatory response. Compensatory anti-inflammatory pathways are activated to limit secondary damage due to inflammation. The associated release of immunosuppressing neuromodulators can result in system-wide immune dysregulation (CNS injury-induced immune-depression syndrome –CIDS). OBJECTIVE: To establish an experimental stroke model where CIDS can be studied by intravital microscopy (IVM). METHODS: We used the photothrombotic stroke (PTS) model in C57BL/6 mice and studied its effects on peripheral immunity following challenge with lipopolysaccharide (LPS). Leukocyte activation, as well as capillary perfusion of the microcirculation, were assessed using intestinal intravital microscopy (IVM). RESULTS: PTS caused a significant reduction in the number of adhering leukocytes in submucosal venules of the terminal ileum of mice challenged with LPS compared to LPS-challenged animals without stroke. Leukocyte rolling was also impacted by PTS in the submucosal venules. Following stroke, we also observed decreased mucosal functional capillary density (FCD). CONCLUSIONS: Our results suggest that PTS with subsequent LPS challenge poses as a viable model to further study CIDS using intravital microscopy of the intestinal microcirculation.


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