The mechanisms of susceptibility to particle-induced lung injury are not clearly understood. To evaluate the contribution of genetic background to pulmonary pathogenesis, we compared the lung injury responses to residual oil fly ash (ROFA) in inbred mouse strains, and calculated heritability estimates. Significant inter-strain (genetic) variation was observed in ROFA-induced lung inflammation and hyperpermeability phenotypes, and broad-sense heritability ranged from approximately 0.43-0.62, and the coefficient of genetic determination ranged from 0.28-0.45. C3H/HeJ (HeJ) mice were most resistant to the ROFA-induced injury responses. This was particularly important as HeJ mice contain a dominant negative mutation in Toll-like receptor 4 (Tlr4). We then characterized ROFA-induced injury and TLR4 signaling in HeJ and its coisogenic C3H/HeOuJ (OuJ; Tlr4 normal) mice to understand the potential role of Tlr4 in this model. ROFA-induced lung injury was significantly greater in OuJ mice compared with HeJ. ROFA also significantly enhanced transcript and protein levels of lung TLR4 in OuJ but not in HeJ mice. Greater activation of downstream signal molecules (i.e., MyD88, TRAF6, IRAK-1, NF-B, MAPK, AP-1) was observed in OuJ mice than in HeJ mice before the development of ROFA-induced pulmonary injury. Putative TLR4-dependent inflammatory genes that were differentially induced by ROFA in the two strains include interleukin (IL)-1 and tumor necrosis factor (TNF)-. Results support an important contribution of genetic background to particle-mediated lung injury and Tlr4 is a candidate susceptibility gene.