Signaling pathways initiated at the external cell surface or within the cytoplasm regulate transactivation of transcription factors and gene expression that are causally related to a number of critical cellular outcomes including proliferation, apoptosis, cell survival, and production of inflammatory cytokines. Asbestos, a ubiquitous pathogenic group of mineral fibers, can stimulate gene expression in a variety of cell types in the lung via intracellular signaling pathways. These cell signaling cascades may be initiated through receptor-mediated events or integrins. Alternatively, they may be stimulated by oxidants generated both during phagocytosis of minerals and/or by redox reactions on the mineral surface. Once initiated, these pathways can lead to promotion of gene expression critical to cellular injury, proliferation and inflammation-events leading to the development of fibroproliferative diseases of the lung and pleura. The elucidation and relevance of critical signaling cascades to lung injury or repair following asbestos exposure could aid in developing strategies to prevent or treat asbestos-associated lung and pleural diseases.