The 3' region of Human Papillomavirus type 16 early mRNAs decrease expression

BACKGROUND: High risk human papillomavirus (HR-HPV) infects mucosal surfaces and HR-HPV infection is required for development of cervical cancer. Accordingly, enforced expression of the early HR-HPV proteins can induce immortalisation of human cells. In most cervical cancers and cervical cancer cell lines the HR-HPV double stranded DNA genome has been integrated into the host cell genome. METHODS: We have used a retroviral GUS reporter system to generate pools of stably transfected HaCaT and SiHa cells. The HPV-16 early sequences that are deleted upon integration of the HPV-16 genome was inserted into the 3' UTR of the reporter mRNA. Pools containing thousands of independent integrations were tested for the steady state levels of the reporter mRNA by Real Time PCR and reporter protein by a GUS enzymatic activity assays. In addition, we tested the cellular distribution and half lives of the reporter mRNAs. The integrity of the reporter mRNAs were tested by northern blotting. RESULTS: We show that the 3' region of the HPV-16 early mRNAs (HPV-16 nucleotide (nt.) 2582–4214) act in cis to decrease both mRNA and protein levels. This region seems to affect transcription from the exogenous minimal CMV promoter or processing of the reporter mRNA. The observed repression was most pronounced at the protein level, suggesting that this sequence may also affect translation. For the HPV types: 2, 6, 11, 13, 18, 30, 31, and 35 we have investigated the regulatory effect of the regions corresponding to the HPV-16 nt. 3358–4214. For all types, except HPV-18, the region was found to repress expression by posttranscriptional mechanisms. CONCLUSION: We find that the 3' region of HPV-16 early mRNAs interfere with gene expression. It is therefore possible that the deletion of the 3' part of early HPV-16 mRNAs occurring during cervical oncogenesis could contribute to transformation of cells through deregulation of the viral oncogene synthesis. Moreover, we find that the corresponding region from several other HPV types also repress expression, suggesting that the repression by this region may be a general feature of the HPV life cycle

The mechanisms of boronate ester formation and fluorescent turn-on in ortho-aminomethylphenylboronic acids

ortho-Aminomethylphenylboronic acids are used in receptors for carbohydrates and various other compounds containing vicinal diols. The presence of the o-aminomethyl group enhances the affinity towards diols at neutral pH, and the manner in which this group plays this role has been a topic of debate. Further, the aminomethyl group is believed to be involved in the turn-on of the emission properties of appended fluorophores upon diol binding. In this treatise, a uniform picture emerges for the role of this group: it primarily acts as an electron-withdrawing group that lowers the pK(a) of the neighbouring boronic acid thereby facilitating diol binding at neutral pH. The amine appears to play no role in the modulation of the fluorescence of appended fluorophores in the protic-solvent-inserted form of the boronic acid/boronate ester. Instead, fluorescence turn-on can be consistently tied to vibrational-coupled excited-state relaxation (a loose-bolt effect). Overall, this Review unifies and discusses the existing data as of 2019 whilst also highlighting why o-aminomethyl groups are so widely used, and the role they play in carbohydrate sensing using phenylboronic acids

Effect of tunicamycin on the synthesis of herpes simplex virus type 1 glycoproteins and their expression on the cell surface

Herpes simplex virus specifies five glycoproteins which have been found on the surface of both the intact, infected cells and the virion envelope. In the presence of the drug tunicamycin, glycosylation of the herpes simplex virus type 1 glycoproteins is inhibited. We present in this report evidence that the immunologically specificity of the glycoproteins designated gA, gB, and gD resides mainly in the underglycosylated "core" proteins, as demonstrated by the immunoblotting technique. We showed also that tunicamycin prevented exposure of the viral glycoproteins on the cell surface, as the individual glycoproteins lost their ability to participate as targets for the specific antibodies applied in the antibody-dependent, cell-mediated cytotoxicity test. Immunocytolysis was reduced between 73 and 97%, depending on the specificity of the antibodies used. The intracellular processing of the herpes simplex virus type 1-specific glycoprotein designated gC differed from the processing of gA, gB, and GD, as evidenced by the identification of an underglycosylated but immunochemically modified form of gC on the surface of infected cells grown in the presence of tunicamycin.</jats:p

Polyacrylamide gel electrophoretic analysis of herpes simplex virus type 1 immunoprecipitates obtained by quantitative immunoelectrophoresis in antibody-containing agarose gel

Crossed immunoelectrophoresis was used to characterize herpes simplex virus type 1 (HSV-1) antigens produced by infected HEp-2 cells. We report on a method for analyzing the polypeptide content in individual antigen-antibody precipitates eluted from the second-dimensional agarose gel. Four glycoprotein antigens of HSV-1, Ag-8, Ag-11, Ag-6, and Ag-3, were isolated and analyzed for polypeptide content. The molecular weights of the polypeptides are presented.</jats:p

Immunological reactivity of herpes simplex virus 1 and 2 polypeptides electrophoretically separated and transferred to diazobenzyloxymethyl paper

In this paper we report that viral polypeptides from herpes simplex virus 1 (HSV-1) and 2 (HSV-2)-infected cells electrophoretically separated in sodium dodecyl sulfate-polyacrylamide-agarose gels and transferred to diazobenzyloxymethyl paper can react with rabbit hyperimmune sera, both polyvalent and prepared against specific antigens. The polyvalent hyperimmune sera against HSV-1 reacted with 17 HSV-1 polypeptide bands and 8 HSV-2 polypeptide bands. Concordantly, polyvalent sera against HSV-2 reacted with at least 16 HSV-2 polypeptide bands and 8 HSV-1 polypeptide bands. The antisera prepared against the specific antigens reacted with a smaller number of polypeptide bands. Preimmune sera and immune sera did not react with electrophoretically separated polypeptides from infected and uninfected cells, respectively. The immune localization of separated antigens test provides a powerful technique for identification of immunogenic viral polypeptides, especially those which are normally insoluble and therefore unavailable for immunological reactivity in immune precipitation tests.</jats:p

Colonization of murine ganglia by a superinfecting strain of herpes simplex virus

We report on the colonization of murine trigeminal ganglia after sequential infection of mice by herpes simplex viruses (HSVs). In preliminary studies, we have established that whereas the HSV-1(F) strain efficiently colonizes ganglia when inoculated by either the ear or eye routes, the HSV-1 X HSV-2 recombinant C7D colonizes ganglia when inoculated by the eye route only. The experimental design consisted of inoculating the right eye with C7D on day 1 and with HSV-1(F) in both left and right eyes on day 26. Both right and left trigeminal ganglia were removed and analyzed independently for latent virus on day 52. Our studies indicate that HSV-1(F) viruses were recovered from all left trigeminal ganglia but from only a small number of right trigeminal ganglia. Some right trigeminal ganglia yielded no viruses, whereas others yielded both C7D and HSV-1(F) viruses identified on the basis of plaque morphology and restriction enzyme cleavage patterns of viral DNA. The results indicate that more than one virus may colonize the same ganglion and that trigeminal ganglia may be protected from colonization by a superinfecting virus by determinants acting at a local level in the absence of demonstrable virus.</jats:p