During retrovirus infection, a histone-free DNA copy of the viral RNA genome is synthesized and rapidly loaded with nucleosomes de novo upon nuclear entry. The potential role of viral accessory proteins in histone loading onto retroviral DNAs has not been extensively investigated. The p12 protein of Moloney murine leukemia virus (MMLV) is a virion protein critical for tethering the incoming viral DNA to host chromatin in the early stages of infection. Infection by virions containing a mutant p12 (PM14) defective in chromatin tethering results in the formation of viral DNAs that do not accumulate in the nucleus. In this report, we show that viral DNAs of these mutants are not loaded with histones. Moreover, the DNA genomes delivered by mutant p12 show prolonged association with viral structural proteins nucleocapsid (NC) and capsid (CA). The histone-poor viral DNA genomes do not become associated with the host RNA polymerase II machinery. These findings provide insights into fundamental aspects of retroviral biology, indicating that tethering to host chromatin by p12 and retention in the nucleus are required to allow loading of histones onto the viral DNA.
Importance:
Incoming retroviral DNAs are rapidly loaded with nucleosomal histones upon entry into the nucleus and before integration into the host genome. The entry of murine leukemia virus DNA into the nucleus only occurs upon dissolution of the nuclear membrane in mitosis, and retention in the nucleus requires the action of a viral protein, p12, which tethers the DNA to host chromatin. Data presented here show that the tethering activity of p12 is required for the loading of histones onto the viral DNA. p12 mutants lacking tethering activity fail to acquire histones, retain capsid and nucleocapsid proteins, and are poorly transcribed. The work defines a new requirement for a viral protein to allow chromatinization of viral DNA.
Moloney murine leukemia virus p12 is required for histone loading onto retroviral DNAs
