Interleukin-10 (IL-10) is a cytokine that plays a crucial role in regulating the inflammatory response and immune reactions. In the central nervous system (CNS), IL-10 is mainly produced by astrocytes and microglia and it is upregulated after various insults, such as experimental autoimmune encephalomyelitis, middle cerebral artery occlusion, excitotoxicity and traumatic brain injury. To better understand the effects of IL-10 in the normal and injured CNS, we generated transgenic mice (termed GFAP-IL-10Tg) that expressed the murine IL-10 gene under the transcriptional control of the glial fibrillary acidic protein (GFAP) promoter. Previous studies demonstrated marked changes in the microglial phenotype in these mice under basal conditions. The objective of the present study was to investigate the effects of local astrocyte-targeted IL-10 production on glial activation, neuronal degeneration and leukocyte recruitment after axotomy. GFAP-IL-10Tg mice had marked changes in the phenotype of activated microglial cells, as well as in the number of microglial clusters and in microglial cell density. These microglial changes are accompanied by a twofold increase in lymphocyte infiltration in GFAP-IL-10Tg mice and around twofold decrease in neuronal cell death at 21 dpi. Altogether, our findings suggested that astrocyte-targeted production of IL-10 impacted the microglial response and lymphocyte recruitment and culminated in a beneficial effect on neuronal survival.
Interleukin-6 (IL-6) is a pleiotropic cytokine with a key role in the control of inflammatory/immune responses. In the central nervous system (CNS), an increase in IL-6 occurs in a wide range of pathological conditions such as excitotoxicity and traumatic brain injury. We evaluated the effects of astrocyte-targeted production of IL-6 in the CNS in the sterile-nerve injury model of facial nerve axotomy. To accomplish this, facial nerve transection was performed in transgenic mice (glial fibrillary acidic protein [GFAP]-IL6Tg) with IL-6 production under the GFAP promoter. Neuronal death, glial activation, lymphocyte recruitment, and integrin expression were evaluated by immunohistochemistry and flow cytometry from 3 to 28 days postinjury. Our findings revealed an increase in motor neuron cell death in GFAP-IL6Tg mice correlating with changes in the microglial activation pattern, characterized principally by less attachment to neurons and reduced expression of both CD11b and CD18. We also found a higher CD4(+) T-lymphocyte recruitment in GFAP-IL6Tg mice. In addition, changes in the expression pattern of different integrins and their receptors were observed in transgenic animals. Specifically, alterations in osteopontin expression in motor neurons and its receptors CD44 and CD49e in lymphocytes and microglia, respectively, which may account for the variations related to glial reactivity and lymphocyte infiltration. In conclusion, our results indicated that forced local production of IL-6 has a direct impact on the outcome of nerve injury in the CNS inducing an increase in neurodegeneration, changes in glial response, and lymphocyte recruitment as well as in the expression of different integrins and their receptors.
Rare coding variants of the microglial triggering receptor expressed on myeloid cells 2 (TREM2) confer an increased risk for Alzheimer's disease (AD) characterized by the progressive accumulation of aggregated forms of amyloid β peptides (Aβ). Aβ peptides are generated by proteolytic processing of the amyloid precursor protein (APP). Heterogeneity in proteolytic cleavages and additional post-translational modifications result in the production of several distinct Aβ variants that could differ in their aggregation behavior and toxic properties. Here, we sought to assess whether post-translational modifications of Aβ affect the interaction with TREM2. Biophysical and biochemical methods revealed that TREM2 preferentially interacts with oligomeric Aβ, and that phosphorylation of Aβ increases this interaction. Phosphorylation of Aβ also affected the TREM2 dependent interaction and phagocytosis by primary microglia and in APP transgenic mouse models.Thus, TREM2 function is important for sensing phosphorylated Aβ variants in distinct aggregation states and reduces the accumulation and deposition of these toxic Aβ species in preclinical models of Alzheimer's disease.
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