The liver is essential for inducing immunological tolerance toward harmless antigens to maintain immune system homeostasis. However, the precise cellular mechanisms of tolerance induction against particle-bound antigens, the role of the local hepatic microenvironment, and implications for therapeutic targets in immune-mediated diseases are currently unclear. In order to elucidate cellular mechanisms of tolerance induction in healthy and injured liver, we developed a novel in vivo system combining the systemic delivery of low-dose peptide antigens coupled to inert particles, immunological readouts, and sophisticated intravital multiphoton microscopy-based imaging of liver in mice. We show that liver resident macrophages, Kupffer cells (KCs), but not hepatic monocytederived macrophages or dendritic cells (DCs), are the central cellular scavenger for circulating particle-associated antigens in homeostasis. KC-associated antigen presentation induces CD4 T-cell arrest, expansion of naturally occurring Foxp3 1 CD25 1 interleukin-10-producing antigen-specific regulatory T cells (Tregs) and tolerogenic immunity. Particle-associated tolerance induction in the liver protected mice from kidney inflammation in T-cell-mediated glomerulonephritis, indicating therapeutic potential of targeting KC for immune-mediated extrahepatic disorders. Liver inflammation in two independent experimental models of chronic liver injury and fibrosis abrogated tolerance induction and led to an immunogenic reprogramming of antigen-specific CD4 T cells. In injured liver, infiltrating monocyte-derived macrophages largely augment the hepatic phagocyte compartment, resulting in antigen redistribution between myeloid cell populations and, simultaneously, KCs lose signature markers of their tolerogenic phenotype. Conclusions: Hepatic induction of tissue-protective immunological tolerance against particulate antigens is dependent on KCs as well as on a noninflamed liver microenvironment, thereby providing mechanistic explanations for the clinical observation of immune dysfunction and tolerance break in patients with advanced liver diseases. (HEPATOLOGY 2015;62:279-291) T he liver plays a key role in inducing immunological tolerance that is critical for maintaining homeostasis in a healthy organism. In principle, tolerance needs to be induced against self-antigens from tissues, ingested food, or commensal bacteria to prevent immune-mediated diseases. 1 On the other hand, immunological tolerance triggered by the innate immune system has been recognized as an anti-
Fully Automated Evaluation of Total Glomerular Number and Capillary Tuft Size in Nephritic Kidneys Using Lightsheet Microscopy
The total number of glomeruli is a fundamental parameter of kidney function but very difficult to determine using standard methodology. Here, we counted all individual glomeruli in murine kidneys and sized the capillary tufts by combining in vivo fluorescence labeling of endothelial cells, a novel tissue-clearing technique, lightsheet microscopy, and automated registration by image analysis. Total hands-on time per organ was <1 hour, and automated counting/sizing was finished in <3 hours. We also investigated the novel use of ethyl-3-phenylprop-2-enoate (ethyl cinnamate) as a nontoxic solvent-based clearing reagent that can be handled without specific safety measures. Ethyl cinnamate rapidly cleared all tested organs, including calcified bone, but the fluorescence of proteins and immunohistochemical labels was maintained over weeks. Using ethyl cinnamate-cleared kidneys, we also quantified the average creatinine clearance rate per glomerulus. This parameter decreased in the first week of experimental nephrotoxic nephritis, whereas reduction in glomerular numbers occurred much later. Our approach delivers fundamental parameters of renal function, and because of its ease of use and speed, it is suitable for high-throughput analysis and could greatly facilitate studies of the effect of kidney diseases on whole-organ physiology.
An NLRP3-specific inflammasome inhibitor attenuates crystal-induced kidney fibrosis in mice
Intrarenal crystal formation activates the Nlrp3 inflammasome in myeloid cells and triggers a profound inflammatory response. Here, we studied whether a specific inhibitor of the Nlrp3 inflammasome, CP-456,773, can prevent kidney fibrosis in a murine model of crystal nephropathy induced by diets rich in oxalate or adenine. Inflammasome activation in renal dendritic cells and the resulting interleukin (IL)-1β and IL-18 production were markedly reduced by CP-456,773 treatment both ex vivo and in vivo. We directly visualized intrarenal inflammasome activation and its inhibition by CP-456,773 in vivo by adoptive transfer of bone marrow cells transduced with interleukin-1β-Gaussia luciferase, a proteolytic luciferase-based reporter for inflammasome activation, into irradiated mice. CP-456,773 treatment strongly attenuated kidney fibrosis when given early in the genesis of crystal nephropathy, but was unable to reverse established crystal-induced fibrosis. The urinary IL-18 concentration appeared to be a useful noninvasive biomarker for renal inflammasome activation. Finally, NLRP3 inhibition did not compromise adaptive immune responses as previously reported for the global inhibition of IL-1 signaling. Thus, early NLRP3 inhibition by CP-456,773 may be an effective treatment for crystal nephropathy. Use of iGLuc transfected cells introduces a novel imaging technique for inflammasome activation in mice.
Regulatory T cells use programmed death 1 ligands to directly suppress autoreactive B cells in vivo
The mechanisms by which regulatory T cells (T regs ) suppress autoantibody production are unclear. Here we have addressed this question using transgenic mice expressing model antigens in the kidney. We report that T regs were essential and sufficient to suppress autoreactive B cells in an antigen-specific manner and to prevent them from producing autoantibodies. Most of this suppression was mediated through the inhibitory cell-surface-molecule programmed death-1 (PD-1). Suppression required PD-1 expression on autoreactive B cells and expression of the two PD-1 ligands on T regs . PD-1 ligation inhibited activation of autoreactive B cells, suppressed their proliferation, and induced their apoptosis. Intermediate PD-1 + cells, such as T helper cells, were dispensable for suppression. These findings demonstrate in vivo that T regs use PD-1 ligands to directly suppress autoreactive B cells, and they identify a previously undescribed peripheral B-cell tolerance mechanism against tissue autoantigens. Regulatory T cells (T regs ) are powerful suppressors of autoreactive T cells with high therapeutic potential (1-3). T regs also suppress auto-Ab production (4, 5). We recently showed in vivo that they do so in an antigen-specific (Ag-specific) manner (6, 7). These studies used rat insulin promoter HEL/OVA (ROH) mice expressing ovalbumin (OVA) and hen egg lysozyme (HEL) in pancreatic islet β-cells. Autoreactive OVA-and HEL-specific B cells, but not B cells specific for a foreign antigen, failed to proliferate in response to in vivo autoantigen (auto-Ag) challenge and instead underwent apoptosis in a strictly T reg -dependent fashion. T regs can affect B cells indirectly by suppressing the T-helper (Th) cells required for antibody production (8, 9). This did not rule out that T regs might also suppress B cells directly. Cell culture systems have revealed that CD25 + T regs can kill cocultured B cells (10-12). A recent in vivo study showed that T regs enter germinal centers and suppress B cells in this site (13,14). The question whether this occurred directly or indirectly remained open (15). This question is difficult to address in vivo because it requires an experimental system where T regs can suppress B cells but not Th cells.Another open question concerns the molecular mechanisms by which T regs suppress. In principle, T regs may suppress other T cells by (i) secreting inhibitory mediators; (ii) deprivation of survival factors; (iii) killing target cells by granzyme/perforin; and (iv) modulation of DCs by ligating inhibitory T-cell receptors (16,17). The exact contribution of these mechanisms in relevant in vivo situations and the mechanisms by which T regs suppress are unclear.Programmed death-1 (PD-1, CD279) is an activation-induced member of the extended CD28/CTLA-4 family that suppresses T cells (18-21). It has been associated with exhausted memory T cells in chronic viral infection (22,23) and with cytotoxic T-cell cross-tolerance (24). PD-1 has two known ligands, PDL-1 (B7-H1, CD274) and PDL-2 (B7-DC, CD273) (25,...
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
