Abstract
Pathogenic bacteria have evolved highly specialized systems to extract essential nutrients from their hosts and Mycobacterium tuberculosis (Mtb) scavenges lipids (cholesterol and fatty acids) to maintain infection in mammals. While the uptake of cholesterol by Mtb is mediated by the Mce4 transporter, the route(s) of uptake of fatty acids remain unknown. Here, we demonstrate that an uncharacterized protein LucA, integrates the assimilation of both cholesterol and fatty acids in Mtb. LucA interacts with subunits of the Mce1 and Mce4 complexes to coordinate the activities of these nutrient transporters. We also demonstrate that Mce1 functions as an important fatty acid transporter in Mtb and we determine that the integration of cholesterol and fatty acid transport by LucA is required for full bacterial virulence in vivo. These data establish that fatty acid and cholesterol assimilation are inexorably linked in Mtb and reveals a key role for LucA in coordinating both transport activities.