Abstract
The bridge-like lipid transfer proteins (BLTPs) are a novel superfamily of rod-shaped lipid transporters that engage in bulk non-vesicular movement of lipids at organelle membrane contact sites. The molecular and cellular functions of these proteins are still emerging; however, it is clear that one key aspect that regulates BLTP function is targeting to the appropriate membrane contact site(s). Here, we use Drosophila as a model system to dissect the mechanisms that drive targeting of BLTP2 ( hobbit in Drosophila ) to endoplasmic reticulum-plasma membrane (ER-PM) contact sites. We demonstrate that a conserved adapter protein, which we name bilbobaggins ( bbo ), is required for targeting of Hobbit to ER-PM contacts; importantly, loss of bbo phenocopies loss of hobbit , indicating that bbo is required for hobbit function. Additionally, our structure-function analyses show that cis -acting sequences in the C-terminal tail of Hobbit are also required for ER-PM targeting. Crucially, our data indicates that that these cis -acting sequences and Bbo binding are independent and likely sequential mechanisms that we propose function like a "hook" and "latch" to govern Hobbit targeting. Thus, we define a new regulatory paradigm governing targeting of BLTPs to membrane contact sites.