Abstract 3041: APOB Gene Deletion Increases The Expression Of Vitamin D Binding Protein In Human Hepatoma Cells

High plasma apolipoprotein B (apoB)-containing lipoproteins are both a biomarker and a causal mediator of many metabolic diseases. Inhibition of APOB mRNA decreases plasma lipid levels but at a risk of lipid accumulation in tissues. To understand the global consequences of reduced apoB synthesis, we generated a human hepatoma (Huh-7) cell culture model system deficient in apoB. ApoB deficient Huh-7 cells (Ako) were generated using the CRISPR/Cas9 system. Total RNA for transcriptomics and overnight conditioned media for proteomics and lipidomics was obtained from the Ako and Huh-7 cells (n=3). Statistical analysis was done using Student’s t-test while comparing two groups, p < 0.05 was considered significant. APOB gene deletion significantly reduced APOB mRNA and protein levels in the Ako cells compared to control cells. Ako cells supported apoB48 secretion when transfected with apoB48 expression plasmids. These cells did not accumulate significant amounts of triglyceride. KEGG pathway analysis of RNA-Seq data showed a significant increase in DNA replication/repair pathway and complement/coagulation cascade in the Ako cells. The most downregulated pathways included the PI3k-Akt signaling and MAPK signaling pathways. Differential gene expression analysis identified vitamin D binding protein (VDB, gene GC ) mRNA as the most highly upregulated transcript in Ako cells. The Ako media secretome contained significantly higher amounts of VDB compared to control Huh-7. Furthermore, targeted lipidomics of the secretome showed significant increases in media ergocalciferol. Our qPCR and western blot analysis confirmed increased expression of VDB mRNA and protein secretion in the Ako cells as compared to the Huh-7 cells. We established a cell culture model deficient in secreting apoB-containing lipoproteins. These cells, however, support the assembly and secretion of apoB48 when transfected with apoB48 expression plasmid. A major consequence of apoB deficiency was upregulation of the VDB expression. We interpret these data to suggest that human hepatoma cells have two differentially regulated pathways for the transport of vitamin D. In the absence of apoB-lipoprotein assembly, these cells upregulate VDB to augment secretion of vitamin D.