CD300a is an inhibitory immunoreceptor expressed in lymphoid and myeloid cells. This study evaluates whether CD300a plays a role in the control of joint inflammation in a model of Aginduced arthritis (AIA) in mice. CD300a was found to be expressed mostly on neutrophils and its expression was enhanced on neutrophils that migrated to the inflamed synovial cavity. Joint inflammation, as characterized by neutrophil accumulation, was significantly greater in CD300a KO (CD300a −/− ) mice subjected to AIA, as compared to WT mice. This was associated with joint dysfunction, as measured by lower mechanical nociception threshold. There was greater production of the chemokine CXCL1 and the cytokine IL-6 in joints of CD300a −/− mice. In vitro, M s from CD300a −/− mice released higher concentrations of CXCL1 and IL-6 in response to LPS. Splenocytes from immunized CD300a −/− mice produced increased levels of IFN-and IL-17 and lower levels of IL-10 when challenged with Ag than cells from WT mice. Neutrophils lacking the CD300a gene had greater chemotactic activity in response to fMLP, CXCL1, and LTB4 than WT neutrophils.In conclusion, these results reveal that the absence of CD300a promotes exacerbation of inflammation in a model of Ag-induced arthritis, suggesting that CD300a is an important receptor for negatively controlling the inflammatory response in this model. Mechanistically, CD300a seems to regulate the activity of various immune cells types involved in the process, including neutrophils, M s, and lymphocytes. K E Y W O R D S joint inflammation, neutrophils, pain, cytokines, CD300a, inflammation, arthritis, regulation, mice of the ITIM are phosphorylated by Src kinases and serve as a docking point for phosphatases containing the src-homology 2 (SH2) domain. 8 Proteins containing consensus sequences for interaction with phosphorylated ITIMs include the SH2 domain-containing tyrosine phosphatase (SHP)-1, SHP-2, and the SH2 domain-containing inositol 5 ′ -phosphatase. 6 The recruitment of phosphatases to the J Leukoc Biol. 2019;106:957-966.
Nonphlogistic migration of macrophages contributes to the clearance of pathogens and apoptotic cells: critical steps for the resolution of inflammation and return to homeostasis. Angiotensin-(1-7) [Ang-(1-7)] is an heptapeptide of the Renin-Angiotensin system that acts through Mas receptor (MasR). Ang-(1-7) has recently emerged as a novel pro-resolving mediator, yet Ang-(1-7) resolution mechanisms are not fully determined. Herein, Ang-(1-7) stimulated migration of human and murine monocytes/macrophages in a MasR, CCR2 and MEK/ERK1/2-dependent manner. Pleural injection of Ang-(1-7) promoted nonphlogistic mononuclear cell influx alongside increased levels of CCL2, IL-10 and macrophage polarization towards a regulatory phenotype. Ang-(1-7) induction of CCL2 and mononuclear cell migration was also dependent on MasR and MEK/ERK. Noteworthy, MasR was upregulated during resolution phase of inflammation and their pharmacological inhibition or genetic deficiency impaired mononuclear cell recruitment during self-resolving models of LPS pleurisy and E. coli peritonitis. Inhibition/absence of MasR was associated with reduced CCL2 levels, impaired phagocytosis of bacteria, efferocytosis and delayed resolution of inflammation. In summary, we have uncovered a novel pro-resolving feature of Ang-(1-7), namely the recruitment of mononuclear cells favoring efferocytosis, phagocytosis and resolution of inflammation. Mechanistically, cell migration was dependent on MasR, CCR2 and the MEK/ERK pathway.
Both T cells and B cells have been shown to be generated after infection with SARS-CoV-2 yet protocols or experimental models to study one or the other are less common. Here, we generate a chimeric protein (SpiN) that comprises the receptor binding domain (RBD) from Spike (S) and the nucleocapsid (N) antigens from SARS-CoV-2. Memory CD4+ and CD8+ T cells specific for SpiN could be detected in the blood of both individuals vaccinated with Coronavac SARS-CoV-2 vaccine and COVID-19 convalescent donors. In mice, SpiN elicited a strong IFN-γ response by T cells and high levels of antibodies to the inactivated virus, but not detectable neutralizing antibodies (nAbs). Importantly, immunization of Syrian hamsters and the human Angiotensin Convertase Enzyme-2-transgenic (K18-ACE-2) mice with Poly ICLC-adjuvanted SpiN promotes robust resistance to the wild type SARS-CoV-2, as indicated by viral load, lung inflammation, clinical outcome and reduction of lethality. The protection induced by SpiN was ablated by depletion of CD4+ and CD8+ T cells and not transferred by antibodies from vaccinated mice. Finally, vaccination with SpiN also protects the K18-ACE-2 mice against infection with Delta and Omicron SARS-CoV-2 isolates. Hence, vaccine formulations that elicit effector T cells specific for the N and RBD proteins may be used to improve COVID-19 vaccines and potentially circumvent the immune escape by variants of concern.
Zika virus (ZIKV) is an arbovirus belonging to Flaviviridae family that emerged as a global health threat due to its association with microcephaly and other severe neurological complications, including Guillain-Barré Syndrome (GBS) and Congenital Zika Syndrome (CZS). ZIKV disease has been linked to neuroinflammation and neuronal cell death. Neurodegenerative processes may be exacerbated by metabolites produced by the kynurenine pathway, an important pathway for the degradation of tryptophan, which induces neuronal dysfunction due to enhanced excitotoxicity. Here, we exploited the hypothesis that ZIKV-induced neurodegeneration can be rescued by blocking a target enzyme of the kynurenine pathway, the Indoleamine 2,3-dioxygenase (IDO-1). RT-PCR analysis showed increased levels of IDO-1 RNA expression in undifferentiated primary neurons isolated from wild type (WT) mice infected by ZIKV ex vivo, as well as in the brain of ZIKV-infected A129 mice. Pharmacological inhibition of IDO-1 enzyme with 1-methyl-D-tryptophan (1-MT), in both in vitro and in vivo systems, led to significant reduction of ZIKV-induced neuronal death without interfering with the ability of ZIKV to replicate in those cells. Furthermore, in vivo analyses using both genetically modified mice (IDO-/- mice) and A129 mice treated with 1-MT resulted in reduced microgliosis, astrogliosis and Caspase-3 positive cells in the brain of ZIKV-infected A129 mice. Interestingly, increased levels of CCL5 and CXCL-1 chemokines were found in the brain of 1-MT treated-mice. Together, our data indicate that IDO-1 blockade provides a neuroprotective effect against ZIKV-induced neurodegeneration, and this is amenable to inhibition by pharmacological treatment.
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