Isolation of nine gene sequences induced by silica in murine macrophages.

Abstract

Macrophage activation by silica is the initial step in the development of silicosis. To identify genes that might be involved in silica-mediated activation, RAW 264.7 mouse macrophages were treated with silica for 48 h, and a subtracted cDNA library enriched for silica-induced genes (SIG) was constructed and differentially screened. Nine cDNA clones (designated SIG-12, -14, -20, -41, -61, -81, -91, -92, and -111) were partially sequenced and compared with sequences in GenBank/EMBL databases. SIG-12, -14, and -20 corresponded to the genes for ribosomal proteins L13a, L32, and L26, respectively. SIG-61 is the mouse homologue of p21 RhoC. SIG-91 is identical to the 67-kDa high-affinity laminin receptor. Four genes were not identified and are novel. All of the mRNAs corresponding to the nine cloned cDNAs were inducible by silica. Steady-state levels of mRNAs in RAW 264.7 cells treated with various macrophage activators and inducers of signal transduction pathways were determined. A complex pattern of induction and repression was found, indicating that upon phagocytosis of silica particles, many regulatory mechanisms of gene expression are simultaneously triggered.