Updated project metadata. Kaposi’s Sarcoma associated herpesvirus (KSHV) is an oncogenic human virus and leading cause of mortality in HIV infection. Reactivation of KSHV from latent to lytic stage infection initiates a cascade of viral gene expression, and here we show how these changes remodel the host cell proteome to enable viral replication. By undertaking a systematic and unbiased analysis of changes to the endothelial cell proteome following lytic KSHV reactivation, we quantify >7000 cellular and 71 viral proteins. Lytic KSHV infection resulted in >2-fold downregulation of 291 cellular proteins, including PKR, the key cellular sensor of double-stranded RNA. A complementary KSHV genome-wide CRISPR genetic screen identified K5 as the viral gene responsible for the downregulation of two novel KSHV targets, Nectin-2 and CD155, both ligands of the NK cell DNAM-1 receptor. Despite the high episome copy number, we show that CRISPR Cas9 provides a remarkably efficient way to target KSHV genomes.