Structural and biochemical analysis of the PTPN4 PDZ domain bound to the C-terminal tail of the human papillomavirus E6 oncoprotein.

High-risk genotypes of human papillomaviruses (HPVs) are directly implicated in various abnormalities associated with cellular hyperproliferation, including cervical cancer. E6 is one of two oncoproteins encoded in the HPV genome, which recruits diverse PSD-95/Dlg/ZO-1 (PDZ) domain-containing human proteins through its C-terminal PDZ-binding motif (PBM) to be degraded by means of the proteasome pathway. Among the three PDZ domain-containing protein tyrosine phosphatases, protein tyrosine phosphatase non-receptor type 3 (PTPN3) and PTPN13 were identified to be recognized by HPV E6 in a PBM-dependent manner. However, whether HPV E6 associates with PTPN4, which also has a PDZ domain and functions as an apoptosis regulator, remains undetermined. Herein, we present structural and biochemical evidence demonstrating the direct interaction between the PBM of HPV16 E6 and the PDZ domain of human PTPN4 for the first time. X-ray crystallographic structure determination and binding measurements using isothermal titration calorimetry demonstrated that hydrophobic interactions in which Leu158 of HPV16 E6 plays a key role and a network of intermolecular hydrogen bonds sustain the complex formation between PTPN4 PDZ and the PBM of HPV16 E6. In addition, it was verified that the corresponding motifs from several other high-risk HPV genotypes, including HPV18, HPV31, HPV33, and HPV45, bind to PTPN4 PDZ with comparable affinities, suggesting that PTPN4 is a common target of various pathogenic HPV genotypes.

Human papillomavirus 68 prevalence and genetic variability based on E6/E7 genes in Sichuan.

HPV68 is a common HR-HPV, its persistent infection is closely related with the occurrence of cervical cancer. In this study, 2939 (27.60%, 2939/10650) positive samples were detected, and 174 (5.92%, 174/2939) were HPV68. 150 HPV68 E6-E7 were successful sequenced, 4 non-synonymous mutations were detected in E6, and E7 were 12. N133S non-synonymous mutations of HPV 68 E6 and C67G, T68 A/M of HPV68 E7 are E6, E7 positive selection sites, they all located in the key domains and major motifs of E6/E7 protein, the above amino-acid substitutions changed the protein structure, disturbed the interaction with other protein or cellular factors and make a difference in epitopes affinity, may affect the pathogenicity and adaptability of HPV68 to the environment. The enrichment of HPV68 data is of great significance for understanding the inherent geographical and biological differences of HPV68 in China.

Stratifin em Tumores de Cabeça e Pescoço: Um alvo molecular identificado por Phage Display / Stratifin in head and neck tumors: a molecular target identified by Phage Display

Nos últimos anos, houve um aumento na frequência dos casos de tumores de cabeça e pescoço apesar da diminuição do consumo do tabaco e álcool, e isso tem sido atribuído, em parte, à infecção pelo Papilomavírus Humano HPV. Por apresentar baixa sobrevida em 5 anos e ter alta morbidade, tem se buscado novos alvos moleculares para terapias combinadas. Nesse contexto nosso grupo identificou, através da tecnologia de Phage Display, uma sequência peptídica com interação preferencial por células tumorais com relação à células não transformadas, e ensaios adicionais identificaram seu alvo como sendo a proteína Stratifin. Stratifin tem sido reportado como um oncogene em diversos modelos tumorais, entretanto seu papel em carcinoma de células escamosas de cabeça e pescoço (CCECP) permanece desconhecido e poucos trabalhos na literatura reportam sua atividade em CCECP e/ou outro tumores relacionados ao HPV. Dessa forma, o objetivo desse trabalho foi explorar o potencial valor clínico e o papel biológico da Stratifin em CCECP. Dados do perfil de expressão e de metilação assim como dados clínicos foram extraídos em base de dados do The Cancer Genoma Atlas TCGA. Paralelamente, o perfil de expressão de Stratifin foi verificado através de ensaios de RT/qPCR e Western Blot em um painel de linhagens celulares de CCECP que contempla as principais características moleculares para esses tipos tumorais. A partir da observação de que todas as linhagens expressam Stratifin, utilizou-se a tecnologia de CRISPR/Cas9 para modular sua expressão (nocauteando ou superexpressando o gene) de modo a se observar parâmetros relacionados ao processo tumorigênico. Dessa forma, foi possivel verificar os efeitos da Stratifin em ensaios de proliferação, viabilidade após tratamentos com quimioterápicos, irradiação, crescimento livre de ancoragem e clonogenicidade. Como resultados, observamos que expressão aumentada de Stratifin no tecido tumoral quando comparado ao tecido normal, foi positivamente relacionada com o grau histológico, negatividade para HPV, mutação em TP53 e CDKN2A. Biologicamente, o nocaute de Stratifin foi relacionado com maior sensibilidade à quimioterápicos, menor capacidade de formação de colônias, e reduzida capacidade de crescimento livre de ancoragem. Esses resultados sugerem que Stratifin atue como um oncogene em CCECP, entretanto ensaios adicionais devem ser realizados para corroborar esse achados

Over recent years, there has been an increase of head and neck tumors frequency despite the decrease in tobacco and alcohol consumption, and this has been attributed, in part, to Human Papillomavirus infection. Due to its low 5-year survival and high morbidity, new molecular targets for combined therapies have been sought. In this context, our group identified, through Phage Display technology, a peptide sequence with preferential interaction by tumor cells in relation to non-transformed cells, and further assays identified its target as the Stratifin protein. Stratifin has been reported as an oncogene in several tumor models, however its role in head and neck squamous cell carcinoma (HNSCC) remains unknown and few works in the literature report its activity in HNSCC and/or other HPV-related tumors. Therefore, the aim of this study was to explore the potential clinical value and biological role of Stratifin in HNSCC. Expression profile data as well as clinical data were extracted from The Cancer Genome Atlas - TCGA database. In parallel, the expression profile of Stratifin was verified through RT/qPCR and Western Blot assays in a panel of HNSCC cell lines that address the main molecular characteristics for these tumor types. Since all cell lines express Stratifin, CRISPR/Cas9 technology was used to modulate its expression (gene knocking out or overexpressing) in order to check parameters related to the tumorigenic process. Thus, it was possible to verify the Stratifin effects in proliferation assays, viability after chemotherapy treatments, irradiation, anchorage-free growth and clonogenicity. As a result, we observed an increased expression of Stratifin in tumor tissue when compared to normal tissue, which was positively related to histological grade, HPV negativity, mutation in TP53 and CDKN2A. Biologically, knockout of Stratifin was associated with greater sensitivity to chemotherapy, less colony-forming capacity, and reduced anchorage-free growth capacity. These results suggest that Stratifin acts as an oncogene in HNSCC, however additional assays should be performed to corroborate these findings

Aptima HPV messenger RNA testing and histopathologic follow-up in women with HSIL cytology: A study emphasizing additional review of HPV-negative cases.

BACKGROUND: High-risk human papillomavirus (hrHPV) messenger RNA (mRNA) testing, the Food and Drug Administration-approved testing platform since 2013, has been increasing as a cervical screening alternative to hrHPV DNA testing methods. This study reports the largest routine clinical follow-up study reported to date of hrHPV mRNA cotesting and histopathologic follow-up results for women with high-grade squamous intraepithelial lesion (HSIL) cytology results. METHODS: HSIL Papanicolaou test results for women cotested with Aptima hrHPV mRNA testing between June 2015 and November 2020 were analyzed along with recorded histopathologic follow-up results within 6 months of screening. RESULTS: Aptima hrHPV mRNA-positive results were reported for 95.2% of the cotested HSIL cytology cases (905 of 951). Histopathologic cervical intraepithelial neoplasia grade 2 or worse (CIN2+) was diagnosed on follow-up in 538 of 701 hrHPV mRNA-positive cases (76.8%) and in 15 of 36 hrHPV mRNA-negative cases (41.7%). Additional reviews of the hrHPV mRNA-negative HSIL cases showed variable interpretations, and confirmatory blinded-review interpretations of HSIL or atypical squamous cells, cannot exclude high-grade squamous intraepithelial lesion were more likely in cases with histopathologic CIN2+ (77.5% [93 of 120]) than those with cervical intraepithelial neoplasia grade 1 or negative findings (63.1% [101 of 160]; P < .01). CONCLUSIONS: This large routine-clinical-practice study confirms the previously reported high sensitivity of hrHPV mRNA testing for the detection of high-grade cervical dysplasia and cervical cancers. The blinded-review findings indicate that additional cytology review may be helpful for confirming an interpretation of HSIL in daily practice, especially for hrHPV-negative HSIL cases.

Pyrococcus furiosus Argonaute coupled with modified ligase chain reaction for detection of SARS-CoV-2 and HPV.

Infectious diseases caused by viruses such as SARS-CoV-2 and HPV have greatly endangered human health. The nucleic acid detection is essential for the early diagnosis of diseases. Here, we propose a method called PLCR (PfAgo coupled with modified Ligase Chain Reaction for nucleic acid detection) which utilizes PfAgo to only use DNA guides longer than 14-mer to specifically cleave DNA and LCR to precisely distinguish single-base mismatch. PLCR can detect DNA or RNA without PCR at attomolar sensitivities, distinguish single base mutation between the genome of wild type SARS-CoV-2 and its mutant spike D614G, effectively distinguish the novel coronavirus from other coronaviruses and finally achieve multiplexed detection in 70 min. Additionally, LCR products can be directly used as DNA guides without additional input guides to simplify primer design. With desirable sensitivity, specificity and simplicity, the method can be extended for detecting other pathogenic microorganisms.

Polystyrene Microparticles with Convergently Grown Mesoporous Silica Shells as a Promising Tool for Multiplexed Bioanalytical Assays.

Functional core/shell particles are highly sought after in analytical chemistry, especially in methods suitable for single-particle analysis such as flow cytometry because they allow for facile multiplexed detection of several analytes in a single run. Aiming to develop a powerful bead platform of which the core particle can be doped in a straightforward manner while the shell offers the highest possible sensitivity when functionalized with (bio)chemical binders, polystyrene particles were coated with different kinds of mesoporous silica shells in a convergent growth approach. Mesoporous shells allow us to obtain distinctly higher surface areas in comparison with conventional nonporous shells. While assessing the potential of narrow- as well as wide-pore silicas such as Mobil composition of matter no. 41 (MCM-41) and Santa Barbara amorphous material no. 15 (SBA-15), especially the synthesis of the latter shells that are much more suitable for biomolecule anchoring was optimized by altering the pH and both, the amount and type of the mediator salt. Our studies showed that the best performing material resulted from a synthesis using neutral conditions and MgSO4 as an ionic mediator. The analytical potential of the particles was investigated in flow cytometric DNA assays after their respective functionalization for individual and multiplexed detection of short oligonucleotide strands. These experiments revealed that a two-step modification of the silica surface with amino silane and succinic anhydride prior to coupling of an amino-terminated capture DNA (c-DNA) strand is superior to coupling carboxylic acid-terminated c-DNA to aminated core/shell particles, yielding limits of detection (LOD) down to 5 pM for a hybridization assay, using labeled complementary single-stranded target DNA (t-DNA) 15mers. The potential of the use of the particles in multiplexed analysis was shown with the aid of dye-doped core particles carrying a respective SBA-15 shell. Characteristic genomic sequences of human papillomaviruses (HPV) were chosen as the t-DNA analytes here, since their high relevance as carcinogens and the high number of different pathogens is a relevant model case. The title particles showed a promising performance and allowed us to unequivocally detect the different high- and low-risk HPV types in a single experimental run.

Bioinformatics Pipeline for Human Papillomavirus Short Read Genomic Sequences Classification Using Support Vector Machine.

We recently developed a test based on the Agilent SureSelect target enrichment system capturing genomic fragments from 191 human papillomaviruses (HPV) types for Illumina sequencing. This enriched whole genome sequencing (eWGS) assay provides an approach to identify all HPV types in a sample. Here we present a machine learning algorithm that calls HPV types based on the eWGS output. The algorithm based on the support vector machine (SVM) technique was trained on eWGS data from 122 control samples with known HPV types. The new algorithm demonstrated good performance in HPV type detection for designed samples with 25 or greater HPV plasmid copies per sample. We compared the results of HPV typing made by the new algorithm for 261 residual epidemiologic samples with the results of the typing delivered by the standard HPV Linear Array (LA). The agreement between methods (97.4%) was substantial (kappa= 0.783). However, the new algorithm identified additionally 428 instances of HPV types not detectable by the LA assay by design. Overall, we have demonstrated that the bioinformatics pipeline is an accurate tool for calling HPV types by analyzing data generated by eWGS processing of DNA fragments extracted from control and epidemiological samples.

Lineage distribution and E2 sequence variation of high-risk human papillomavirus types isolated from patients with cervical cancer in Sichuan province, China.

To explore the nucleotide sequence variability of the E2 gene in high-risk HPV types in cervical cancer patients from Sichuan province, China, the E2 genes of eight high-risk HPV types were amplified and sequenced. Several novel nucleotide substitutions and deletions were observed. The lineages to which the isolates belonged were determined by phylogenetic analysis, employing the sequence of the representative lineages/sublineages in the coherent classification and nomenclature system as references. This study updates the lineage distribution data on high-risk HPV types in Southwest China and helps broaden understanding of the polymorphism of the E2 gene.

The Human Papillomavirus E6 PDZ Binding Motif: From Life Cycle to Malignancy.

Cancer-causing HPV E6 oncoproteins are characterized by the presence of a PDZ binding motif (PBM) at their extreme carboxy terminus. It was long thought that this region of E6 had a sole function to confer interaction with a defined set of cellular substrates. However, more recent studies have shown that the E6 PBM has a complex pattern of regulation, whereby phosphorylation within the PBM can regulate interaction with two classes of cellular proteins: those containing PDZ domains and the members of the 14-3-3 family of proteins. In this review, we explore the roles that the PBM and its ligands play in the virus life cycle, and subsequently how these can inadvertently contribute towards the development of malignancy. We also explore how subtle alterations in cellular signal transduction pathways might result in aberrant E6 phosphorylation, which in turn might contribute towards disease progression.

Human papillomavirus 33 worldwide genetic variation and associated risk of cervical cancer.

Human papillomavirus (HPV) 33, a member of the HPV16-related alpha-9 species group, is found in approximately 5% of cervical cancers worldwide. The current study aimed to characterize the genetic diversity of HPV33 and to explore the association of HPV33 variants with the risk for cervical cancer. Taking advantage of the International Agency for Research on Cancer biobank, we sequenced the entire E6 and E7 open reading frames of 213 HPV33-positive cervical samples from 30 countries. We identified 28 HPV33 variants that formed 5 phylogenetic groups: the previously identified A1, A2, and B (sub)lineages and the novel A3 and C (sub)lineages. The A1 sublineage was strongly over-represented in cervical cases compared to controls in both Africa and Europe. In conclusion, we provide a classification system for HPV33 variants based on the sequence of E6 and E7 and suggest that the association of HPV33 with cervical cancer may differ by variant (sub)lineage.

Structural insights into a wildtype domain of the oncoprotein E6 and its interaction with a PDZ domain.

The high-risk human papilloma virus (HPV) oncoproteins E6 and E7 interact with key cellular regulators and are etiological agents for tumorigenesis and tumor maintenance in cervical cancer and other malignant conditions. E6 induces degradation of the tumor suppressor p53, activates telomerase and deregulates cell polarity. Analysis of E6 derived from a number of high risk HPV finally yielded the first structure of a wild-type HPV E6 domain (PDB 2M3L) representing the second zinc-binding domain of HPV 51 E6 (termed 51Z2) determined by NMR spectroscopy. The 51Z2 structure provides clues about HPV-type specific structural differences between E6 proteins. The observed temperature sensitivity of the well-folded wild-type E6 domain implies a significant malleability of the oncoprotein in vivo. Hence, the structural differences between individual E6 and their malleability appear, together with HPV type-specific surface exposed side-chains, to provide the structural basis for the different interaction networks reported for individual E6 proteins. Furthermore, the interaction of 51Z2 with a PDZ domain of hDlg was analyzed. Human Dlg constitutes a prototypic representative of the large family of PDZ proteins regulating cell polarity, which are common targets of high-risk HPV E6. Nine C-terminal residues of 51Z2 interact with the second PDZ domain of hDlg2. Surface plasmon resonance in conjunction with the NMR spectroscopy derived complex structure (PDB 2M3M) indicate that E6 residues N-terminal to the canonical PDZ-BM of E6 significantly contribute to this interaction and increase affinity. The structure of the complex reveals how residues outside of the classical PDZ-BM enhance the affinity of E6 towards PDZ domains. Such mechanism facilitates successful competition of E6 with cellular PDZ-binding proteins and may apply to PDZ-binding proteins of other viruses as well.

Human papillomavirus type 58 L1 virus-like particles purified by two-step chromatography elicit high levels of long-lasting neutralizing antibodies.

Human papillomavirus (HPV) type 58 is a high-risk type of HPV frequently detected in cervical cancers, especially in Eastern Asia. There are still no commercially available vaccines against HPV 58 infection. High levels of long-lasting neutralizing antibodies are crucial for long-term protection against HPV infection. Here, we have developed a two-step chromatography strategy and have purified highly pure HPV L1 proteins, which form more homogenous and uniform VLPs than those purified by CsCl ultracentrifugation. Low-dosage immunization with HPV 58 L1 VLPs alone or co-administrated with HPV 16 and HPV 18 L1 VLPs is sufficient to induce high levels of long-lasting neutralizing antibodies in mice. Our results suggest that the highly immunogenic HPV 58 L1 VLPs are a good candidate for use in developing effective vaccines against HPV 58 infection.

HPV E7 viral oncoprotein disrupts transcriptional regulation of L1Md retrotransposon.

Murine L1Md-A5 retrotransposon is a redox-inducible element regulated by Nrf-2/JunD and E2F/Rb-binding sites within its promoter (5'-UTR). Because the human papillomavirus (HPV) oncoprotein E7 interacts with retinoblastoma (pRb) and members of the AP1 family, studies were conducted to examine functional interactions between HPV E7, pRb, and histone deacetylase 2 (HDAC2) in the regulation of L1Md-A5. Using a transient heterologous transcription system we found that HPV E7 alone, or in combination with HDAC2, disrupted pRb-mediated L1MdA-5 transactivation. HPV E7 also ablated the transcriptional response of L1Md-A5 to genotoxic stress, but did not interfere with basal activity. We conclude that HPV E7 associates with proteins involved in the assembly of macromolecular complexes that regulate antioxidant and E2F/Rb sites within L1MdA-5 to regulate biological activity.

Nuclear export of human papillomavirus type 31 E1 is regulated by Cdk2 phosphorylation and required for viral genome maintenance.

The initiator protein E1 from human papillomavirus (HPV) is a helicase essential for replication of the viral genome. E1 contains three functional domains: a C-terminal enzymatic domain that has ATPase/helicase activity, a central DNA-binding domain that recognizes specific sequences in the origin of replication, and a N-terminal region necessary for viral DNA replication in vivo but dispensable in vitro. This N-terminal portion of E1 contains a conserved nuclear export signal (NES) whose function in the viral life cycle remains unclear. In this study, we provide evidence that nuclear export of HPV31 E1 is inhibited by cyclin E/A-Cdk2 phosphorylation of two serines residues, S92 and S106, located near and within the E1 NES, respectively. Using E1 mutant proteins that are confined to the nucleus, we determined that nuclear export of E1 is not essential for transient viral DNA replication but is important for the long-term maintenance of the HPV episome in undifferentiated keratinocytes. The findings that E1 nuclear export is not required for viral DNA replication but needed for genome maintenance over multiple cell divisions raised the possibility that continuous nuclear accumulation of E1 is detrimental to cellular growth. In support of this possibility, we observed that nuclear accumulation of E1 dramatically reduces cellular proliferation by delaying cell cycle progression in S phase. On the basis of these results, we propose that nuclear export of E1 is required, at least in part, to limit accumulation of this viral helicase in the nucleus in order to prevent its detrimental effect on cellular proliferation.

Genetic variability in E6, E7 and L1 protein of HPV81 from HIV-1 positive women in Italy.

The genetic variability of E6, E7 and L1 of HPV81 from HIV-1 positive women carrying multiple HPV infections was investigated by clonal analysis for E6 and E7. The range of maximal divergence from the prototype was 0.6%-2.6% for E6 and 1.0%-3.1% for E7. Compared to prototype HPV81, 13 and 10 mutations were identified in E6 and E7, respectively. In the pRB binding domain of E7, all HPV81 clones showed D21, as reported for prototype HPV81 and for HPV16 and 18, while G22 is reported in HPV6 and 11. In the CR3 region, CxxC motif was conserved in all but one clone. The L1 sequence of a single clone from 5 study patients was also established. The range of similarity with prototype HPV81 was 97.8%-99.2%, with 25 polymorphic sites. Two substitutions (R492K and T493S) were observed in 5/5, one (T287N) in 4/5 patients. Among L1 immune-related regions, BC loop presented T56N in 1/5, while FGb loop presented T287N in 4/5 patients. Our data indicate the presence of polymorphisms in all 3 HPV81 genes analyzed, with a certain degree of intra-patient diversity. The importance of polymorphisms on HPV81 persistence and pathogenicity needs to be addressed in longitudinal studies involving larger patient numbers.

Papillomavirus prophylactic vaccines: established successes, new approaches.

Vaccines against the human papillomaviruses (HPVs) most frequently associated with cancer of the cervix are now available. These prophylactic vaccines, based on virus-like particles (VLPs), are extremely effective, providing protection from infection in almost 100% of cases. However, the vaccines present some limitations: they are effective primarily against the HPV type present in the vaccine, are expensive to produce, and need a cold chain. Vaccines based on the minor capsid protein L2 have been very successful in animal models and have been shown to provide a good level of protection against different papillomavirus types. The potential of L2-based vaccines to protect against many types of HPVs is discussed.

Using the concept of Chou's pseudo amino acid composition for risk type prediction of human papillomaviruses.

High-risk types of human papillomaviruses (HPVs) are the etiological agents in nearly all cases (99.7%) of cervical cancer, and the HPV E6 protein is one of the two viral oncoproteins which is expressed in virtually all HPV-positive cancers. Therefore, classifying the risk type of HPVs is very useful and necessary for diagnosis and remedy of cervical cancer. To predict and to classify the risk types of HPV by bioinformatics analysis, 96 E6 protein sequences from available databases were obtained. To investigate the risk type of these sequences, PseAAC server, ROC curves and statistical analysis were applied. Our classification was based on some characters of HPV E6 proteins, such as hydrophobicity, hydrophilicity, side chain mass, PK of the alpha-COOH group, PK of the alpha-NH3(+) group and PI at 25 degrees C. Risk type of 4 unknown HPV types and 25 non-reported HPV types were also predicted. These results show that bioinformatics based theoretical approaches can direct and simplify experimental studies.

Human papillomavirus: E6 and E7 oncogenes.

The recognition of a causal relationship between human papillomaviruses and cancer almost 30 years ago led to a rapid expansion of knowledge in the field, resulting in the description of the main mediators of HPV-induced carcinogenesis, the viral proteins E6 and E7. These oncoproteins show a remarkable pleiotropism in binding host-cell proteins, with the tumour suppressor genes p53 and pRb as their major targets. These interactions induce proliferation, immortalization and malignant transformation of infected cells. The link between HPV and cervical cancer led to the development of molecular methods, often based on the detection of E6 and E7, for screening and diagnosis. Therapeutic vaccines and gene therapy are primarily directed at E6 and E7. Although prophylactic vaccines are available, further understanding of the viral life cycle and the mechanisms underlying HPV-induced oncogenesis is necessary to face the many challenges in the field of HPV and cancer.

Association of cervical cancer with the presence of CD4+ regulatory T cells specific for human papillomavirus antigens.

Because of their important role in the maintenance of self-tolerance, CD4(+) regulatory T cells prevent autoimmune diseases but also curtail the efficacy of T cell immune responses against cancers. We now show that this suppressive action of CD4(+) regulatory T cells is not limited to cancers displaying tumor-associated self antigens, such as melanomas, but also extends to human papillomavirus (HPV)-positive cervical cancers that express foreign tumor antigens. HPV-specific CD4(+) T cells isolated from lymph node biopsies of cervical cancer patients were found to suppress proliferation and cytokine (IFN-gamma, IL-2) production by responder T cells. The capacity of HPV-specific CD4(+) T cells to exert this suppressive effect depended on their activation by cognate HPV antigen and on close-range interactions with responder T cells. HPV-specific CD4(+) regulatory T cells were also retrieved from cervical cancer biopsies, suggesting that they interfere with the anti-tumor immune response at both the induction and effector levels. Our findings offer a plausible explanation for the observed failure of the tumor-specific immune response in patients with cervical carcinoma.

Formation of well-defined soluble aggregates upon fusion to MBP is a generic property of E6 proteins from various human papillomavirus species.

Protein aggregation is a main barrier hindering structural and functional studies of a number of interesting biological targets. The E6 oncoprotein of Human Papillomavirus strain 16 (E6(16)) is difficult to express under a native soluble form in bacteria. Produced as an unfused sequence, it forms inclusion bodies. Fused to the C-terminus of MBP, it is mainly produced in the form of soluble high molecular weight aggregates. Here, we produced as MBP-fusions seven E6 proteins from other HPV strains (5, 11, 18, 33, 45, 52, and 58) belonging to four different species, and we compared their aggregation state to that of MBP-E6(16). Using a fast mutagenesis method, we changed most non-conserved cysteines to the isosteric residue serine to minimize disulfide bridge-mediated aggregation during purification. Static and dynamic light scattering measurements, ultracentrifugation and electron microscopy demonstrated the presence in all MBP-E6 preparations of soluble high-molecular weight aggregates with a well-defined spherical shape. These aggregated particles are relatively monodisperse but their amount and their size vary depending on the conditions of expression and the strain considered. For all strains, minimal aggregate formation occurs when the expression is performed at 15 degrees C. Such observations suggest that the assembly of MBP-E6 aggregates takes place in vivo during protein biosynthesis, rather than occurring during purification. Finally, we show that all MBP-E6 preparations contain two zinc ions per protein monomer, suggesting that E6 domains within the high molecular weight aggregates possess a native-like fold, which enables correct coordination to the metal center.