Interferon-inducible GTPases of the Immunity Related GTPase (IRG) and Guanylate Binding Protein (GBP) families provide resistance to intracellular pathogenic microbes. IRGs and GBPs stably associate with pathogen-containing vacuoles (PVs) and elicit immune pathways directed at the targeted vacuoles. Targeting of Interferon-inducible GTPases to PVs requires the formation of higher-order protein oligomers, a process negatively regulated by a subclass of IRG proteins called IRGMs. We found that the paralogous IRGM proteins Irgm1 and Irgm3 fail to robustly associate with ‘‘non-self’’ PVs containing either the bacterial pathogen Chlamydia trachomatis or the protozoan pathogen Toxoplasma gondii. Instead, Irgm1 and Irgm3 reside on ‘‘self’’ organelles including lipid droplets (LDs). Whereas IRGM-positive LDs are guarded against the stable association with other IRGs and GBPs, we demonstrate that IRGM-stripped LDs become high affinity binding substrates for IRG and GBP proteins. These data reveal that intracellular immune recognition of organelle-like structures by IRG and GBP proteins is partly dictated by the missing of ‘‘self’’ IRGM proteins from these structures. ; Fil: Haldar, Arun K. University Of Duke; Estados Unidos ; Fil: Saka, Hector Alex. University Of Duke; Estados Unidos. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Córdoba. Centro de Investigaciones en Bioquímica Clínica e Inmunología; Argentina ; Fil: Piro, Anthony S. University Of Duke; Estados Unidos ; Fil: Dunn, Joe Dan. University Of Duke; Estados Unidos ; Fil: Henry, Stanley C. University Of Duke; Estados Unidos. Veteran Affairs Medical Center; Estados Unidos ; Fil: Taylor, Gregory A. University Of Duke; Estados Unidos. Veteran Affairs Medical Center; Estados Unidos ; Fil: Frickel, Eva M. National Institute for Medical Research; Reino Unido ; Fil: Valdivia, Raphael H. University Of Duke; Estados Unidos ; Fil: Coers, Jörn. University Of Duke; Estados Unidos