Abstract
Papillomavirus L1 and L2, the major and minor capsid proteins, play significant roles in viral assembly, entry, and propagation. In the current study, we investigate the impact of L1 and L2 on viral life cycle and tumor growth with a newly established mouse papillomavirus (MmuPV1) infection model. MmuPV1 L1 knockout, L2 knockout, and L1 plus L2 knockout mutant genomes (designated as L1ATGko-4m, L2ATGko, and L1-L2ATGko respectively) were generated. The mutants were examined for their ability to generate lesions in athymic nude mice. Viral activities were examined by qPCR, immunohistochemistry (IHC), in situ hybridization (ISH), and transmission electron microscopy (TEM) analyses. We demonstrated that viral DNA replication and tumor growth occurred at both cutaneous and mucosal sites infected with each of the mutants. Infections involving L1ATGko-4m, L2ATGko, and L1-L2ATGko mutant genomes generally resulted in smaller tumor sizes compared to infection with the wild type. The L1 protein was absent in L1ATGko-4m and L1-L2ATGko mutant-treated tissues, even though viral transcripts and E4 protein expression were robust. Therefore, L1 is not essential for MmuPV1-induced tumor growth, and this finding parallels our previous observations in the rabbit papillomavirus model. Very few viral particles were detected in L2ATGko mutant-infected tissues. Interestingly, the localization of L1 in lesions induced by L2ATGko was primarily cytoplasmic rather than nuclear. The findings support the hypothesis that the L2 gene influences the expression, location, transport, and assembly of the L1 protein in vivo.
Highlights
L1 and L2, the papillomavirus major and minor capsid proteins, have been studied extensively in vitro [1,2]
We found that the cottontail rabbit papillomavirus (CRPV) L1ATGko mutant genome induced larger tumors than wild-type virus [8]
The mutant genome was encapsidated in HPV31 L1/L2 capsids to generate quasiviruses
Summary
L1 and L2, the papillomavirus major and minor capsid proteins, have been studied extensively in vitro [1,2]. We found that the CRPV L1ATGko mutant genome induced larger tumors than wild-type virus [8]. The laboratory domestic rabbit is not a natural host for CRPV infection, and only very low amounts of virus can be detected in the infected tissues, indicating that the viral life cycle may be compromised to some extent [7]. Using a raft culture system to mimic in vivo viral production, investigators studied the HPV31 life cycle and revealed some unique functions of L2 [11]. This system is unable to capture the full complexity of host involvement during natural viral infections [12]. The fractions containing higher levels of L1 and/or L2 were stored to be used for infections
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