The mechanism of multistep progression of the transcriptional cascade in activated microglia as approached by a proteome approach.

The ocular cytokine network plays pivotal roles in terms of the initiation and progression of retinal degeneration. Several types of immunocompetent cells such as microglia participate in inflammation, and a temporal transition in the molecular events of inflammation has been hypothesized. We previously found that the Csf2 gene was induced in the early phase of retinal degeneration. CSF2 participates in the transcriptional activation of several cytokines expressed by microglia; however, whether CSF2 is essential in this context is not known. In this work, we approach this question by using anti-CSF2 neutralizing bntibody and the protein synthesis inhibitor cycloheximide (CHX). We first revealed that CSF2 positively regulated the cytokine induction cascade using a CSF2-neutralizing antibody (anti-CSF2) to treat the microglial cell line that were activated by lipopolysaccharide (LPS). LPS or Lipid A stimulation in the presence of the protein synthesis inhibitor cycloheximide (CHX) led to cytokine superinduction, but suppression of the expression of a few cytokines was also noted in MG5 cells. To examine transitions of the molecular events within LPS-activated microglia, we next performed proteome analysis of MG5 cells stimulated with LPS for 0, 4, and 9 h. The Database for Annotation, Visualization, and Integrated Discovery analysis of differentially expressed proteins showed that various mRNA-modifying molecules were induced after LPS stimulation, in addition to molecules involved in inflammation. However, the numbers of common proteins founded in the comparison between the induced proteins of 4 and 9 h were only one-third and one-half of induced proteins at 4 and 9 h, respectively, suggesting dynamic transition of the induced proteins. LPS-induced mRNA-modifying proteins were almost completely suppressed by CHX, as expected, suggesting that transient induction of transcription-editing proteins plays an important role in terms of the phenotype of inflammation that develops in microglia after LPS stimulation.