Abstract
Viral entry is targeted by immunological and pharmacological measures to inhibit viral infection. Human cytomegalovirus (HCMV) entry into cells where it initiates productive infection has been well studied, but its entry into cell types where it establishes latency has not. Therefore, we examined the entry of HCMV into CD34+ hematopoietic progenitor cells where the virus establishes latency. We determined that HCMV enters into the primary CD34+ hematopoietic progenitor cells in which it establishes latency by macropinocytosis. The capsid-associated tegument protein pp150 is released from maturing endosomes and migrates to the nucleus, whereas other tegument proteins, including pp71, remain endosome associated in the cytoplasm. The inhibition of macropinocytosis impairs entry, thereby diminishing latency-associated transcription and reducing viral reactivation. We conclude that HCMV virions enter CD34+ cells by macropinocytosis but fail to fully uncoat or disassemble their tegument layers, leading to the establishment of latency.IMPORTANCE Virion entry is targeted by antivirals and natural immunity to prevent infection. Natural preexisting immunity is ineffective at clearing an HCMV infection, and an incomplete understanding of the viral glycoproteins and cellular receptors that mediate entry has hampered inhibitor development. Nevertheless, HCMV entry remains a viable drug target. Our characterization here of HCMV entry into primary CD34+ hematopoietic progenitor cells through macropinocytosis and our comparison to viral entry into fibroblast cells highlight virion uncoating and tegument disassembly as a divergence point between productive and latent infections. Further definition of tegument disassembly may permit the development of interventions to inhibit this process to block productive infection or to trigger it in incompletely differentiated cells to prevent the seeding of the latent reservoirs that make HCMV infections incurable.