Progressive collapse response of an RC building may be induced if one of its ground-story columns is destroyed by an abnormal loading. In this study, interior brick-infill partitions are simulated by equivalent compression struts to investigate their effect on the progressive collapse potential of an RC building. Linear and nonlinear static analyses of the column-removed building with and without brick infills are carried out. It is realized that more apparent flexural reduction may be obtained as the brick infills are placed in the shorter structural bay adjacent to the removed column. They may help to reduce the inelastic displacement response caused by column loss. However, the vertical collapse resistance of the column-removed building is not significantly influenced due to their brittle failure characteristic. For practical engineering, it may be reasonably conservative to consider the weight of brick-infill partitions in the structural analysis without accounting for their strength or stiffness.