Direct interactions of CEACAM1 and CD36 with LPS and each other

Lipopolysaccharide (LPS), a ubiquitous bacterial component of food, is neutralized by a variety of mechanisms that help to establish a threshold, which when exceeded results in an inflammatory TLR4 mediated response. Notably both CEACAM1 and CD36 affect downstream signaling of TLR4 to LPS. Furthermore, CEACAM1 associates with CD36 in hepatocytes, regulating lipid storage and bile acid (BA) secretion that includes reverse transport of LPS to the intestine. Direct binding of LPS-Ra micelles to soluble CEACAM1 or soluble CD36 was analyzed by surface plasmon resonance (SPR), size exclusion chromatography (SEC) and transmission electron microscopy (TEM). Direct binding of CEACAM1 to CD36 was analyzed by SPR and proximity ligation assays. Molecular models were generated by Alpha Fold and Molecular Dynamics. LPS Binding: SPR binding constants of KD= 1.04 x 10-10 M and KD= 3.38 x 10-10 M were obtained for LPS-Ra micelle binding to sCEACAM1 and sCD36, respectively. On SEC, the molecular sizes of LPS-Ra micelles bound to sCEACAM1 and sCD36 were approximately 500 and 800 kDa, respectively. In addition, LPS binding to both was reduced by sodium cholate and sodium deoxycholate. Alpha Fold predicted a binding site of LPS-Ra to CD36, while Molecular Dynamic studies of an N-domain mutant of CEACAM1, that breaks a conserved salt bridge, revealed the presence of an open form that is predicted to bind LPS. sCEACAM1 to sCD36 Binding: A KD of 5.28 x 10-8 M was obtained for sCEACAM1 binding to immobilized sCD36 by SPR. Antibody-based-proximity ligation demonstrated the association of the ectodomains of CEACAM1 and CD36 on hepatic cells and when co-expressed in HEK cells. In addition, biotin-based proximity ligation demonstrated association of the cytoplasmic domains of CEACAM1 and a CD36-BioID2 fusion protein when co-expressed in HEK cells. Alpha Fold predicted both head-to-head (trans) and side-to-side (cis) binding of the N-domain of CEACAM1 to CD36, from which a membrane model of their cis-interaction could account for the proximity ligation results. Both CEACAM1 and CD36 share a common LPS micelle binding function, as well as binding to each other, and together, may regulate uptake and excretion of micellar LPS.