Differential Recruitment of Host Proteins to the Coxiella Burnetii Vacuole in the Absence of the Sterol Reductase CBU1206

Abstract

Q fever is a heavily underdiagnosed and underreported infection caused by the obligate intracellular pathogen Coxiella burnetii. Following entry into the host cell, Coxiella replicates in the acidic phagolysosome-like parasitophorous vacuole termed the Coxiella Containing Vacuole (CCV). The CCV is a large and highly fusogenic compartment that actively fuses with the host endocytic pathway during maturation of the phagolysosome. Evidence suggests that the development of the CCV is sensitive to increasing cholesterol levels and leads to CCV acidification and bacterial death. Therefore, we hypothesize that CCV cholesterol concentration is carefully modulated through the Coxiella encoded sterol reductases (CBU1206 and CBU1158). A ∆CBU1206 mutant of Coxiella is hypersensitive to cholesterol and displays growth defects in intracellular replication and CCV development. Following fusion with the host endocytic pathway, the Coxiella NMII Phase II (WT) CCVs readily acquire host proteins such as LAMP1, CD63, Rab7, ORP1L, RILP, and LC3. These heterotypic events with the host endosomal cascade are presumed to provide selected subsets of endocytosed cargo and membrane. Therefore, I investigated whether ΔCBU1206 CCV heterotypic fusion events are defective due to altered lipid content on the CCV membrane. I observed increased accumulation of sterols on the ΔCBU1206 CCV membrane. Similar to WT, the mutant readily fuses host lysosomes and readily acquires the host glycoprotein LAMP1 but displays reduced localization of CD63 (LAMP3). Additionally, reduced localization of the late endosomal markers Rab7, ORP1L, and RILP was observed suggesting that late endosome fusion maybe defective in ΔCBU1206. Further, reduced localization of LC3 was also observed suggesting that the mutant may also be defective in fusing with autophagosomes. Finally, the mutant possesses a functional Type 4 Secretion System that secretes a moderate amount of effector proteins relative to WT. Considering the vast array of functions accomplished by the effectors secreted, the moderate effector secretion by the mutant could influence the endocytic pathway fusion processes as well as CCV development. Collectively, this body of work suggests that the lack of sterol reductase CBU1206 in Coxiella results in defective heterotypic fusion events of the CCV membrane that could alter pathogenesis and CCV expansion.