A change in cell morphology was also observed under the same GPCR Compound Library cost conditions, with N9 cells adopting a round shape characteristic of activated microglia. However,
a strong decrease in CD11b immunolabelling was observed upon miR-155 inhibition, even following LPS stimulation (Fig. 7), as well as a small number of round cells. Our findings clearly show that inhibition of miR-155 recapitulated almost completely the resting phenotype of microglia cells, even in the presence of LPS, suggesting that miR-155 has a pro-inflammatory role in microglia cells, and further supporting what has been previously described in other cells of the immune system. Although microglia activation, in the presence of an external or internal threat, can be beneficial in the CNS, it is now believed that the failure to terminate microglia-mediated immune responses at the appropriate moment can lead to the over-expression of inflammatory mediators and to the establishment of a chronic inflammatory state with deleterious consequences to the surrounding neurons. Our results establish a direct link among miR-155 expression, SOCS-1 inhibition and the production of inflammatory mediators, suggesting that the deregulation of miR-155 can selleck products constitute a contributing factor to inflammatory
processes in the CNS, by disturbing the normal function of SOCS-1 and increasing cytokine and NO production. Of note, we found that this miRNA is up-regulated in the brain of mice transgenic for Alzheimer’s disease, with respect to their wild-type littermates, in an age-dependent manner (manuscript in preparation), which further supports the hypothesis that miR-155 may play a role in neurodegenerative pathologies. If this is the case, miR-155 inhibition in microglia cells may constitute a new and promising anti-inflammatory approach to decrease microglia-mediated neuronal damage. Our findings suggest that miR-155 inhibition in N9 microglia cells before activation with LPS is sufficient to reduce neuronal damage induced upon cell exposure to microglia-conditioned medium (Fig. 8). The observed
increase in neuronal viability is most probably the result of a decrease in the levels of inflammatory cytokines and NO present in the conditioned medium, because Sitaxentan direct treatment of neuronal cultures with LPS did not decrease cell viability. Overall, our results demonstrate that miR-155 silencing is able to decrease microglia-mediated neurotoxicity and may, therefore, represent a valuable therapeutic strategy in the context of chronic inflammation. The authors would like to acknowledge Professor Carlos B. Duarte (Faculty of Science and Technology, University of Coimbra, Portugal) for his critical reading of this manuscript. Ana Cardoso is the recipient of a fellowship from the Portuguese Foundation for Science and Technology (SFRH/BPD/46228/2008).
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