AbstractWe consecutively inactivated both alleles of the thrombomodulin (TM) gene in murine embryonic stem (ES) cells and generated TM-deficient (TM−/−) chimeric mice. Quantitation of an ES-cell marker and protein C cofactor activity indicates that up to 50% of pulmonary endothelial cells are ES-cell derived and therefore TM deficient. Infusions of 125I-fibrinogen into mice show a significant increase (fourfold, P < .005) in radiolabeled cross-linked fibrin in TM−/− chimeric mouse lung as compared with wild-type mice. However, only chimeric mice that exhibit at least a 30% reduction in protein C cofactor activity and are at least 15 months old display this phenotype. Immunocytochemical localization of TM in chimeras shows a mosaic pattern of expression in both large and small blood vessels. Colocalization of cross-linked fibrin and neo (used to replace TM) reveals that fibrin is deposited in TM−/− regions. However, the fibrin deposits were largely restricted to pulmonary vessels with a lumenal area greater than 100 μm2. The hypercoagulable phenotype can be induced in younger chimeric mice by exposure to hypoxia, which causes a fivefold increase in β-fibrin levels in lung. Our findings show that TM chimerism results in spontaneous, intravascular fibrin deposition that is dependent on age and the magnitude of the TM deficiency.