Translational Fusion and Redirection to Thylakoid Lumen as Strategies to Enhance Accumulation of Human Papillomavirus E7 Antigen in Tobacco Chloroplasts

Human papillomavirus (HPV) is the causal agent of cervical cancer, one of the most common causes of death in women worldwide, and its E7 antigen is the major candidate for a therapeutic vaccine. The large scale production of E7 by molecular farming that would lead to the development of a safe and inexpensive vaccine is impaired by its low accumulation level in the plant cell. To enhance antigen production in the plastids, two alternative strategies were carried out: the expression of E7 as a translational fusion to β-glucuronidase enzyme and redirection of E7 into the thylakoid lumen. The use of the β-glucuronidase as a partner protein turned out to be a successful strategy, antigen expression levels were enhanced between 30 and 40 times relative to unfused E7. Moreover, best accumulation, albeit at a high metabolic cost that compromised biomass production, was obtained redirecting E7 into the thylakoid lumen by the incorporation of the N-terminal transit peptide, Str. Following this approach lumenal E7 production exceeded the stromal by two orders of magnitude. Our results highlight the relevance of exploring different strategies to improve recombinant protein stability for certain transgenes in order to exploit potential advantages of recombinant protein accumulation in chloroplasts.     

Resistance to Potato Virus X Infection in Transgenic Tobacco Plants with Coat Protein Gene of Virus

A major commercial cultivar of tobacco was transformed via Agrobacterium mediated procedure. Tobacco leaves started to form shoots on shoot inducing medium containing kanamycin after infected by Agrobacterium containing the plasmid with PVX CP gene. Regenerated plants were obtained in two weeks on hormone-free MS medium containing kanamycin. The transgenic tobacco plants were identified with nopaline detection,enzyme-linked immunosorbent assay and western blot analysis, symptom appearance was significantly delayed and virus accumulation was either absent or reduced in PVX CP gene transformed plants. Progenies of transgenic tobacco plants also gained resistance to PVX infection to a certain degree. These experiments demonstrate that CP protection is effective against PVX.     

Production of Human Papillomavirus Type 16 E7 Protein in Lactococcus lactis

The E7 protein of human papillomavirus type 16 was produced in Lactococcus lactis. Secretion allowed higher production yields than cytoplasmic production. In stationary phase, amounts of cytoplasmic E7 were reduced, while amounts of secreted E7 increased, suggesting a phase-dependent intracellular proteolysis. Fusion of E7 to the staphylococcal nuclease, a stable protein, resulted in a highly stable cytoplasmic protein. This work provides new candidates for development of viral screening systems and for oral vaccine against cervical cancer.     

表达人乳头瘤病毒16型E6/E7融合蛋白的非复制型重组痘苗病毒的构建及免疫效果观察

采用基因工程方法将HPV16E6、E7基因融合后插入痘苗病毒载体,通过同源重组构建表达人乳头瘤病毒16型E6/E7融合蛋白的非复制型重组痘苗病毒疫苗,用C57BL/6小鼠观察其免疫原性和抗肿瘤移植情况。测序结果表明融合的HPV16E6、E7基因序列与设计相符;构建的非复制型重组痘苗病毒经Dot blot鉴定,显示有E6、E7融合基因的插入;Western blot检测表明该重组病毒在鸡胚成纤维细胞中能表达HPV16型E6/E7融合蛋白。动物免疫试验表明,该重组病毒在小鼠体内可诱发E6、E7特异性抗体;被免疫小鼠能抵抗TC-1肿瘤细胞的攻击。此结果为将来进一步研制HPV16、18型联合疫苗打下了基础。     

人乳头瘤病毒16型 E7蛋白在子宫颈癌细胞内的定位

应用重组质粒在大肠杆菌中表达人乳头瘤病毒(HPV)16 型 E7 基因.以所产生的 E7 融合蛋白为抗原免疫家兔,制得抗 E7 蛋白抗血清.在子宫颈癌组织切片中用此抗血清作免疫组化染色(胶体金标记染色法).在光学显微镜下可观察到癌细胞中存在 E7 抗原黑色颗粒,位于细胞核内.主要附着于核膜,可证明 E7 基因在 HPV16 感染的子宫颈癌细胞中有强烈表达;提示 E7 基因可能即为 HPV16的癌基因.     

人乳头瘤病毒58型E6E7融合蛋白的原核表达、纯化及鉴定

目的:构建pET-42a(+)-HPV58E6E7原核表达质粒,诱导表达人乳头瘤病毒(HPV)58型E6E7融合蛋白。方法:采用PCR方法扩增出HPV58 E6E7融合基因的全长序列,利用DNA重组技术将其定向插入原核表达载体pET-42a(+)中,构建pET-42a(+)-HPV58E6E7原核表达质粒,用限制性内切酶酶切和核酸序列检测对重组质粒进行鉴定;将其转入宿主菌大肠杆菌BL21进行诱导以表达HPV58E6E7融合蛋白,并用谷胱甘肽琼脂糖树脂纯化回收HPV58E6E7融合蛋白,用SDS-PAGE及Western印迹鉴定表达蛋白的相对分子质量及抗原性。结果:PCR、限制性内切酶酶切和核酸序列检测证实重组质粒中插入的目的基因大小、方向正确;HPV58E6E7融合蛋白得到高效原核表达及纯化,表达蛋白的分子大小正确,抗原性良好。结论:pET-42a(+)-HPV58E6E7原核表达质粒构建成功,HPV58E6E7融合蛋白得到高效表达及有效纯化,为检测HPV58型治疗性疫苗的免疫效果提供了抗原。     

The Ubiquitin-Specific Peptidase USP15 Regulates Human Papillomavirus Type 16 E6 Protein Stability

Proteomic identification of human papillomavirus type 16 (HPV16) E6-interacting proteins revealed several proteins involved in ubiquitin-mediated proteolysis. In addition to the well-characterized E6AP ubiquitin-protein ligase, a second HECT domain protein (HERC2) and a deubiquitylating enzyme (USP15) were identified by tandem affinity purification of HPV16 E6-associated proteins. This study focuses on the functional consequences of the interaction of E6 with USP15. Overexpression of USP15 resulted in increased levels of the E6 protein, and the small interfering RNA-mediated knockdown of USP15 decreased E6 protein levels. These results implicate USP15 directly in the regulation of E6 protein stability and suggest that ubiquitylated E6 could be a substrate for USP15 ubiquitin peptidase activity. It remains possible that E6 could affect the activity of USP15 on specific cellular substrates, a hypothesis that can be tested as more is learned about the substrates and pathways controlled by USP15.Human papillomaviruses (HPVs) are associated with several human cancers, most notably human cervical cancer, the second most common cancer among women worldwide (43). Papillomaviruses cause proliferative squamous epithelial lesions, and more than 100 HPV types have been described (14). The HPV types associated with mucosal squamous epithelial lesions have been further classified into high- or low-risk types based on the propensity for the lesions with which they are associated to progress to cancer. Among the high-risk HPV types, HPV type 16 (HPV16) and HPV18 account for approximately 70% of cervical cancers (43). The high-risk HPV types carry two genes, the E6 and E7 genes, which have oncogenic properties and are always expressed in HPV-positive cancers. E6 and E7 interfere with the p53 and retinoblastoma (pRB) tumor suppressor pathways, respectively, and contribute directly to cell cycle alterations, protection from apoptosis, and transformation (14). The dysregulated expression of the E6 and E7 oncoproteins is an important step in the progression from a preneoplastic stage to cancer in HPV-infected cells and is often a consequence of the integration of the viral genome into the host chromosome.The interaction between E6 and p53 is mediated by the E3 ubiquitin ligase E6AP (15). E6, p53, and E6AP form a complex in which E6 directs the ligase activity of E6AP to p53, thereby targeting p53 for ubiquitin-mediated degradation (36). E6, however, has a number of other cellular partners and other functions. For instance, the C terminus of the high-risk E6 protein contains a PDZ binding motif (20, 25) that mediates the interaction with several PDZ domain-containing proteins, including discs large (Dlg), Scribble (Scrib), the MAGI family of proteins, MUPP1, and PATJ (9, 10, 29). Some of these proteins are also targeted for degradation in an E6AP-dependent manner (22, 29). While the major mechanism of oncogenesis revolves around E6''s ability to inhibit the proapoptotic effects of p53, recent work involving the PDZ domain proteins indicates that these interactions are also important to the oncogenic potential of E6 (38, 41). Furthermore, E6 has been reported to bind a number of other cellular proteins, including but not limited to Bak, CBP/p300, c-Myc, E6TP1, hADA3, IRF3, MCM7, PTPH1, and TNF-R1 (7, 8, 17, 23, 24, 32, 35, 39, 40). The importance of the binding of several of these proteins with regard to the transformation or other functions of E6 remains to be established. E6 itself is thought to be targeted for degradation by an ubiquitin-proteasome pathway (18), although how E6 protein stability is regulated has not been well studied.Many of the E6 binding partners have been identified using purified bacterially expressed E6 fusion proteins and cell lysates from various cell types or using yeast two-hybrid screenings. While some of these interactions with E6 have been validated, the physiologic relevance of a number of proposed E6 targets remains undetermined. In an effort to identify E6-interacting proteins, perhaps under more physiologic conditions, we employed tandem affinity purification (TAP) using tagged HPV16 E6 stably expressed in the HPV16-positive cervical cancer cell line SiHa. We have discovered several new interacting proteins, including an interaction between E6 and the cellular deubiquitylating enzyme (DUB) USP15. USP15 is not targeted for degradation by E6, but we found that USP15 stabilizes E6 protein levels, suggesting that E6 may itself be a target for USP15 DUB activity.     

Human Papillomavirus Type 16 E7 Oncoprotein Expressed in Peripheral Epithelium Tolerizes E7-Directed Cytotoxic T-Lymphocyte Precursors Restricted through Human (and Mouse) Major Histocompatibility Complex Class I Alleles

Mice which coexpress human papillomavirus type 16 E7 and HLA A2.1 in peripheral squamous epithelium and thymic cortical epithelium are tolerant at the cytotoxic T-lymphocyte (CTL) level to E7 epitopes restricted through HLA A*0201 and H-2^b (T. Doan, M. Chambers, M. Street, G. J. Fernando, K. Herd, P. Lambert, and R. Tindle, Virology 244:352–364, 1998). Here we used bone marrow-reconstituted radiation chimeras to distinguish whether E7-directed CTL tolerance was mediated peripherally by E7 expression in skin or centrally by E7 expression in thymus. In chimeric mice expressing E7 in skin and reconstituted with E7-naïve bone marrow and E7-naïve thymus, CTL responses to vaccine-administered E7 epitopes were not restored, i.e., the mice remained tolerant. In contrast, chimeric mice not expressing E7 in skin and reconstituted with E7-naïve bone marrow and E7-expressing thymus had full E7-directed CTL responses. These results demonstrate that E7 protein expression in peripheral squamous epithelium is sufficient to tolerize the E7-directed CTL precursor repertoire. The data have implications for E7-mediated tumorigenesis and for the development of E7-based immunotherapeutic strategies, since peripheral immunological tolerance of tumor-associated antigens may create a barrier to effective immunotherapy.The E7 oncoprotein of human papillomavirus type 16 (HPV16) is a tumor-specific antigen when expressed in HPV16-associated cervical epithelial tumors, to which immunomanipulative strategies are being directed, both experimentally (see, for example, references 7, 9, and 29) and in E7-based therapeutic vaccine clinical trials (5). We recently reported studies with mice expressing HPV16 E7 protein, driven from the keratin 14 (K14) promoter, in basal epithelium of skin and in the thymic cortex (8). We showed that immunization-induced cytotoxic T-lymphocyte (CTL) responses to each of three CTL epitopes in the E7 protein restricted through two major histocompatibility complex (MHC) class 1 haplotypes were down-regulated in these E7-transgenic mice compared with non-E7 syngeneic control mice. However, in these studies we did not determine whether the down-regulation (i.e., tolerance) was induced centrally by E7 expressed in the thymus or peripherally by E7 expressed in epithelium. In the present study, we distinguish between these two possibilities by specific immunization of bone marrow-reconstituted thymus-transplanted chimeric E7 transgenic mice. We report that chimeric mice expressing the E7 transgene in peripheral epithelium but not in the thymus showed E7-specific down-regulated CTL responses to each of two E7 CTL epitopes restricted through a human and a mouse MHC class I allele, respectively, when compared with sham chimeric but non-E7 control mice. In contrast, chimeric mice expressing the E7 transgene in thymus, but not peripheral epithelium, showed E7-directed CTL responses indistinguishable from those of non-E7 control mice. Thus, we show that the expression of E7 in peripheral squamous epithelium is sufficient to induce and maintain a state of tolerance against E7.

E7-directed bone marrow-derived precursor CTLs (pCTLs) are not tolerized in mice expressing E7 in thymus but not in skin.

(K14E7 × A2.1K^b)F₁ mice (designated KA mice) were derived by crossing male K14.HPV16E7(+/+) mice (16), which express an HPV16 E7 transgene perinatally and throughout life in skin and thymic cortical epithelium, with female HLA A2.1K^b(+/+) mice (30). (FVB × A2.1K^b)F₁ mice (designated FA) are syngeneic but do not possess the E7 transgene. KA (E7⁺) and FA (E7⁻) mice are on an H-2^b background. To inquire whether pCTLs from E7-transgenic mice were tolerized on E7-expressing thymus, we constructed thymus-transplanted radiation chimeras as described elsewhere (8) from immunologically depleted FA (E7⁻) mice reconstituted with KA (E7⁺) bone marrow cells. In half of the mice, [designated KA→FA(FA) mice], the bone marrow-derived T-cell precursors were made to mature through a thymus implant from an FA (E7⁻) donor mouse; in the other half of the mice [designated KA→FA(KA) mice], the bone marrow cells were made to mature through an E7-expressing KA thymus implant (Fig. ​(Fig.1,1, panel I). KA→FA(FA) mice, KA→FA(KA) mice, and control FA (E7⁻) and KA (E7⁺) mice were immunized for CTL response induction with a mix of peptides containing ⁸²LLMGTLGIV⁹⁰ (an HLA A*0201-restricted E7 CTL epitope [24]), ⁴⁹RAHYNIVTF⁵⁷ (an H-2D^b-restricted E7 CTL epitope [9]), and ⁵⁸GILGFVFTL⁶⁶ (an HLA A*0201-restricted influenza virus matrix CTL epitope [13]). Control mice underwent surgical procedures but without receiving cell and/or organ transplants (sham). KA (E7⁺) mice showed the previously documented (8) down-regulated CTL response to the E7 epitopes (but not to the irrelevant influenza virus matrix epitope) compared to FA (E7⁻) mice (Fig. ​(Fig.1,1, panels IIC and IID). In contrast, KA→FA(KA) mice exhibited E7 (and influenza virus matrix)-directed CTL responses of the same magnitude as those of KA→FA(FA) mice and FA (E7⁻) mice (Fig. ​(Fig.1,1, panels IIA to IIC). These data indicate that E7-directed pCTLs from E7 transgenic mice which mature through an E7-expressing thymus, and emerge into a non-E7-expressing peripheral epithelial environment, are not tolerized. Open in a separate windowFIG. 1(I) Derivation of KA→FA(FA) and KA→FA(KA) chimeric mice from immunologically ablated FA (E7⁻) mice. (II) CTL responses of splenocytes from chimeric mice and sham control FA (E7⁻) and KA (E7⁺) mice (three per group) immunized with a mix of peptides containing E7 CTL epitopes LLMGTLGIV and RAHYNIVTF and influenza virus matrix CTL epitope GILGFVFTL. Immunizations were given in Quil A adjuvant and tetanus toxoid as described elsewhere (8). Spleen cells were restimulated with individual peptides in vitro. Targets were EL4.A2 cells (8) pulsed with individual peptides as indicated. EL4.A2 cells are susceptible to specific CTL lysis through both HLA A*0201 and H-2^b restriction elements. CTL assays were conducted as described elsewhere (8). bm, bone marrow; th, thymus; sk, skin.To eliminate the possibility that bone marrow-derived precursors from KA (E7⁺) mice had somehow previously encountered E7 protein before transfer to recipient mice, thereby influencing their immunological status in the above-described experiment, we asked whether bone marrow-derived pCTLs from FA (E7⁻) mice would be tolerized during maturation in an E7-expressing thymus. We constructed chimeras from immunologically ablated FA (E7⁻) mice by reconstitution with FA (E7⁻) bone marrow cells. In half the mice [designated FA→FA(KA) mice], the bone marrow cells were made to mature through an E7-expressing KA thymus implant. In the other half of the mice [designated FA→FA(FA) mice], the bone marrow cells were made to mature through a non-E7-expressing FA thymus implant (Fig. ​(Fig.2,2, panel I). FA→FA(KA) mice, FA→FA(FA) mice, and control FA (E7⁻) and KA (E7⁺) mice were immunized for CTL induction with a mix of peptides containing the HLA A*0201-restricted and H-2^b-restricted E7 CTL epitopes and influenza virus matrix CTL epitope. FA→FA(KA) mice exhibited E7-directed CTL responses of the same magnitude as those of FA→FA(FA) mice and FA (E7⁻) mice, while KA (E7⁺) mice exhibited the expected down-regulated E7-directed (but not down-regulated influenza virus matrix-directed) CTL responses (Fig. ​(Fig.2,2, panel II). These data indicated that E7-naïve bone marrow-derived pCTLs which mature through an E7-expressing thymus and emerge into a non-E7 peripheral epithelial environment are not tolerized to E7. Open in a separate windowFIG. 2(I) Derivation of FA→FA(FA) and FA→FA(KA) chimeric mice from immunologically ablated FA (E7⁻) mice. (II) CTL responses of splenocytes from chimeric mice and sham control mice (three per group) immunized with a mix of peptides containing E7 CTL epitopes LLMGTLGIV and RAHYNIVTF and influenza virus matrix CTL epitope GILGFVFTL. Spleen cells were restimulated with individual peptides in vitro. Targets were EL4.A2 cells pulsed with individual peptides as indicated. CTL assays were conducted as described elsewhere (8). bm, bone marrow; th, thymus; sk, skin.

Bone marrow-derived pCTLs are specifically tolerized in mice expressing E7 in skin but not in thymus.

To inquire whether E7-directed pCTLs were tolerized in mice expressing E7 in skin but not in thymus, we constructed chimeric mice in which bone marrow-derived precursors were made to mature through a non-E7-expressing thymus and to emerge into an E7-expressing peripheral epithelial environment. In a first experiment, immunologically ablated KA (E7⁺) mice were reconstituted with KA (E7⁺) bone marrow cells which were made to mature through a thymus implanted from an FA (E7⁻) mouse. The recipient mice, designated KA→KA(FA) (Fig. ​(Fig.3,3, panel I), and control FA (E7⁻) and KA (E7⁺) mice were immunized for CTL response induction with a mix of peptides containing the HLA A*0201-restricted and H-2^b-restricted E7 CTL epitopes and the influenza virus matrix CTL epitope. In KA→KA(FA) mice, E7-directed CTL responses to both E7 epitopes were down-regulated to the level seen in control KA (E7⁺) mice (Fig. ​(Fig.3,3, panel IIB), while control FA (E7⁻) mice showed the expected high responses to both E7 CTL epitopes. Open in a separate windowFIG. 3(I) Derivation of KA→KA(FA) chimeric mice from immunologically ablated KA (E7⁺) mice. (II) CTL responses of splenocytes from chimeric mice and sham control mice (three per group) immunized with a mix of peptides containing E7 CTL epitopes LLMGTLGIV and RAHYNIVTF and influenza virus matrix CTL epitope GILGFVFTL. Spleen cells were restimulated with individual peptides in vitro. Targets were EL4.A2 cells pulsed with individual peptides as indicated. CTL assays were conducted as described elsewhere (8). bm, bone marrow; th, thymus; sk, skin.In a second experiment, immunologically ablated KA (E7⁺) mice were reconstituted with bone marrow from FA (E7⁻) mice, which was made to mature through a non-E7-expressing FA thymus. These mice, designated FA→KA(FA) mice (Fig. ​(Fig.4,4, panel I), were immunized for CTL response induction with a mix of peptides containing the HLA A*0201-restricted and the H-2^b-restricted E7 CTL epitopes and the influenza virus matrix CTL epitope. As with KA→KA(FA) mice in the previous experiment, E7-directed CTL responses to both E7 epitopes were down-regulated as in KA (E7⁺) controls and in contrast to FA (E7⁻) controls, while the influenza virus matrix response confirmed adequate reconstitution. Open in a separate windowFIG. 4(I) Derivation of FA→KA(FA) chimeric mice from immunologically ablated KA (E7⁺) mice. (II) CTL responses of splenocytes from chimeric mice and sham control mice (three per group) immunized once with a mix of peptides containing E7 CTL epitopes LLMGTLGIV and RAHYNIVTF and influenza virus matrix CTL epitope GILGFVFTL. Spleen cells were restimulated with individual peptides in vitro. Targets were EL4.A2 cells pulsed with individual peptides as indicated. CTL assays were conducted as described elsewhere (8). bm, bone marrow; th, thymus; sk, skin.The results from these two experiments indicate that bone marrow-derived E7-directed pCTLs which mature through a non-E7-expressing thymus and emerge into an E7-expressing epithelial environment are specifically tolerized to E7.We have previously reported pCTL tolerance to epitopes of the HPV16 E7 oncoprotein in KA mice expressing a K14 promoter-driven E7 transgene perinatally and throughout life in the thymus and in basal and/or suprabasal cells of peripheral epithelium (8). In the present experiments, we demonstrate that the E7-directed pCTL repertoire is tolerized in mice expressing E7 in peripheral epithelium in the absence of thymic expression. Conversely, the repertoire is not tolerized in mice expressing E7 in the thymus, in the absence of E7 expression in peripheral epithelium. These data indicate that expression of E7 in peripheral epithelium, and not the thymus, is sufficient to induce and maintain a state of pCTL tolerance to E7. In the thymus, the K14 promoter directs transgene expression to the cortical epithelial compartment (19), which, in other mouse models, has been shown to contribute to the shaping of the T-cell repertoire by positive rather than negative selection (for example, see reference 20). Melero et al. (21) observed no functional down-regulation of the CTL responses induced by immunization with E7 peptide epitope RAHYNIVTF in H-2^b mice expressing HPV16 E7 from a K14 promoter and concluded that the mice remain immunologically ignorant of this epitope. This result contrasts with ours. Together, they provide further examples of T-cell tolerance to peripheral antigens in some systems (see, for example, references 1, 2, and 23) and T-cell ignorance in others (see, for example, references 14, 17, and 25). While determinants of immunological outcome of peripheral antigen expression are clearly complex (22), the level of expression (as well as timing and site of expression) can determine whether an antigen induces tolerance or is ignored by naïve T cells. This consideration may explain the difference between the results of Melero et al. and ours. The effect of the level of E7 expression on peripheral tolerance induction is under investigation in our laboratory.Specific CTL tolerance has implications for E7-mediated tumorigenesis. Nascent E7-expressing tumor cells will escape surveillance where little or no positive priming of cognate pCTLs by endogenous E7 occurs. Additionally, specific CTL tolerance which inhibits the generation of an immunization-induced CTL response will detract from effective immunotherapy (26). We have previously reported that (K14.E7 × C57)F₁ mice fail to control a challenge with an E7-expressing tumor following immunization with E7 CTL epitope RAHYNIVTF, whereas in immunized non-E7-transgenic control mice the tumors did not become established (12). Failure to control the tumor was correlated with a lack of an inducible RAHYNIVTF-directed CTL response in E7-transgenic mice, in contrast to non-E7-transgenic control mice, where a powerful CTL response was observed. In further experiments, multiple immunization of KA mice with E7 CTL epitopes or whole E7 protein failed to arrest the development of E7-associated endogenous tumors (8), again being correlated with a lack of E7-directed CTL responses.The current therapeutic vaccine strategy for HPV16-associated cervical carcinoma targets the E7 tumor-specific antigen by CTL induction (5, 28). The possibility arises that chronic expression of E7 in transformed cervical epithelial cells during the life of the tumor functionally tolerizes E7-directed pCTLs.Ongoing experiments in our laboratory will distinguish between presentation of E7 to pCTLs directly by keratinocytes and cross presentation of exogenously acquired E7 by bone marrow-derived professional antigen-presenting cells. Presentation of antigen by either of these routes can be tolerogenic (3, 6, 15, 27). Additionally, we will determine whether loss of functional E7-directed CTLs results from pCTL deletion (4, 11) or anergy (10, 25). Peripheral tolerance of tissue-specific antigen depends, at least in some cases, on the generation of regulatory CD4⁺ cells (see, for example, reference 18). That E7-directed CTL tolerance in KA (E7⁺) mice reflects an impairment of cognate CD4⁺ help is unlikely in view of our finding that (K14.E7 × C57)F₁ mice immunized with full-length E7 and displaying E7-specific pCTL tolerance showed concomitant enhanced E7-directed CD4⁺ T-helper responses (12).The data reported in the present study demonstrate the induction of peripheral tolerance in E7-directed pCTLs by HPV16 E7 expressed in squamous epithelial cells, in the context of human (and mouse) MHC class 1 haplotypes. There are direct implications for the development and progression of cervical cancers which express E7 in transformed squamous epithelium and for the design of E7-based immunotherapeutic strategies for cervical cancer. In the broader context, there are implications for CTL response induction to any foreign or aberrant protein expressed constitutively in squamous epithelial cells as a result of infection, tumorigenesis, or appearance of autoantigen.     

Molecular Analysis of the Interaction between Human PTPN21 and the Oncoprotein E7 from Human Papillomavirus Genotype 18

Human papillomaviruses (HPVs) cause cellular hyperproliferation-associated abnormalities including cervical cancer. The HPV genome encodes two major viral oncoproteins, E6 and E7, which recruit various host proteins by direct interaction for proteasomal degradation. Recently, we reported the structure of HPV18 E7 conserved region 3 (CR3) bound to the protein tyrosine phosphatase (PTP) domain of PTPN14, a well-defined tumor suppressor, and found that this intermolecular interaction plays a key role in E7-driven transformation and tumorigenesis. In this study, we carried out a molecular analysis of the interaction between CR3 of HPV18 E7 and the PTP domain of PTPN21, a PTP protein that shares high sequence homology with PTPN14 but is putatively oncogenic rather than tumor-suppressive. Through the combined use of biochemical tools, we verified that HPV18 E7 and PTPN21 form a 2:2 complex, with a dissociation constant of 5 nM and a nearly identical binding manner with the HPV18 E7 and PTPN14 complex. Nevertheless, despite the structural similarities, the biological consequences of the E7 interaction were found to differ between the two PTP proteins. Unlike PTPN14, PTPN21 did not appear to be subjected to proteasomal degradation in HPV18-positive HeLa cervical cancer cells. Moreover, knockdown of PTPN21 led to retardation of the migration/invasion of HeLa cells and HPV18 E7-expressing HaCaT keratinocytes, which reflects its protumor activity. In conclusion, the associations of the viral oncoprotein E7 with PTPN14 and PTPN21 are similar at the molecular level but play different physiological roles.     

Influence of Human Papillomavirus E7 Oncoprotein on Maturation and Function of Plasmacytoid Dendritic Cells In Vitro

The major difficulties of human papillomavirus(HPV) treatment are its persistence and recurrence. The HPV E7 oncoprotein-loaded dendritic cells have been evaluated as cellular vaccine in previous reports. Plasmacytoid dendritic cells(pDCs) play an essential role of connecting the innate immune response and adaptive immune response in the immune system. But they function in HPV E7 loading is unclear. To investigate whether loading of the HPV type 6b, 11, and 16 E7 proteins affects the activity of pDCs, human peripheral blood-separated pDCs and mouse bone marrow-derived pDCs were pulsed with the HPV E7 proteins. The expression levels of CD40, CD80, CD86, and MHC II were significantly upregulated in pDCs upon HPV 6b/11 E7 protein pulse. The secretion and gene expression of type I IFN and IL-6 were both upregulated by HPV 6b/11 E7 proteins, more significant than HPV 16 E7 protein. The expression of essential factors of TLR signaling pathway and JNK/p38 MAP kinase signaling pathway were all increased in HPV 6b/11 E7 proteins pulsed pDCs. Our results suggest that HPV E7 proteins could promote the differentiation and maturation of pDCs and activate the TLR and MAPK pathway to induce host innate immune response. It might be conducive to explore novel immunotherapy targeting HPV infection with HPV E7 loaded pDC.     

Degradation of the Retinoblastoma Tumor Suppressor by the Human Papillomavirus Type 16 E7 Oncoprotein Is Important for Functional Inactivation and Is Separable from Proteasomal Degradation of E7

The steady-state level and metabolic half-life of retinoblastoma tumor suppressor protein pRB are decreased in cells that express high-risk human papillomavirus (HPV) E7 proteins. Here we show that pRB degradation is a direct activity of E7 and does not reflect a property of cell lines acquired during the selection process for E7 expression. An amino-terminal domain of E7 that does not directly contribute to pRB binding but is required for transformation is also necessary for E7-mediated pRB degradation. Treatment with inhibitors of the 26S proteasome not only blocks E7-mediated pRB degradation but also causes the stabilization of E7. Mutagenic analyses, however, reveal that the processes of proteasomal degradation of E7 and pRB are not linked processes. HPV type 16 E7 also targets the pRB-related proteins p107 and p130 for destabilization by a proteasome-dependent mechanism. Using the SAOS2 flat-cell assay as a biological indicator for pRB function, we demonstrate that pRB degradation, not solely binding, is important for the E7-induced inactivation of pRB.     

马铃薯X病毒外壳蛋白的表达水平与变偶密码子使用频率的相关性

把经密码子修饰的马铃薯X病毒（Potato Virus X, PVX）外壳蛋白（Coat Protein, CP）基因和未修饰的野生型外壳蛋白基因与CaMV 35S启动子融合后,构建成相应的植物表达载体,利用农杆菌介导转化烟草。分别对修饰CP和野生CP的转基因烟草进行Western blot和ELISA分析,结果表明经密码子修饰的PVX外壳蛋白的表达量是野生型蛋白表达量的1/3～1/5。Northern blot结果表明修饰和未修饰的外壳蛋白在转录水平上是一致的。以上结果暗示外源基因中稀有密码子的数量可能是限制外源基因表达的一个因素。改变基因中稀有密码子的数量有可能成为控制基因表达的一种有效途径。     

不同佐剂对人乳头瘤病毒16型L2E7E6蛋白免疫效果的影响

目的:研究CpG佐剂、弗氏佐剂、聚肌胞苷酸佐剂及左旋咪唑、西米替丁作为佐剂对人乳头瘤病毒16型L2E7E6融合蛋白在小鼠体内产生的免疫效果的影响。方法:以单独蛋白组、蛋白加各佐剂组分别肌肉注射免疫C57BL/6小鼠,检测不同佐剂诱发小鼠产生的体液免疫和细胞免疫应答水平,并观察其对小鼠肿瘤生长的抑制作用。结果:各免疫组均能检测到高滴度的抗L2、E7、E6蛋白IgG抗体(以IgG1为主),其中弗氏佐剂能显著提高E6蛋白的IgG和IgG1抗体水平和E7蛋白的IgG1抗体水平(P<0.05),CpG佐剂明显提高了E7蛋白的IgG2a抗体水平(P<0.01);而西米替丁佐剂则降低了E7抗原的IgG抗体水平(P<0.05);同时可以检测到CpG佐剂组能诱发小鼠产生针对E7、E6较强的细胞免疫反应,且能抑制70%的荷瘤小鼠肿瘤生长;此外弗氏佐剂与聚肌胞苷酸佐剂可产生较弱的针对E7肽的细胞免疫反应,能延缓荷瘤小鼠肿瘤形成时间,与单纯蛋白组相比差异显著(P<0.05)。结论:CpG佐剂、弗氏佐剂和聚肌胞苷酸佐剂都能提高人乳头瘤病毒16型L2E7E6融合蛋白的细胞免疫反应水平和抑制肿瘤生长能力,其中CpG佐剂效果较好,为促进该蛋白作为疫苗的研发提供了实验依据。     

马铃薯S病毒外壳蛋白基因的克隆与原核表达

依据马铃薯S病毒 (PotatovirusS ,PVS)外壳蛋白 (CP)基因序列 (885bp)设计合成了两对引物 ,通过RT PCR扩增得到长 0 .8kb的目的片段 ,将目的片段转入大肠杆菌 ,酶切鉴定证明得到了含有目的片段的重组子 ,测定序列结果与其他PVS分离物CP基因的序列比较 ,发现其核苷酸同源性达 95 %左右 ;构建了含PVSCP基因的融合蛋白原核表达载体 ,并在大肠杆菌中得到表达 ,SDS PAGE测定融合蛋白的分子量为 5 8kD。     

Evidence of Diversifying Selection in Human Papillomavirus Type 16 E6 But Not E7 Oncogenes

Human papillomavirus type 16 is a common sexually transmitted pathogen capable of giving rise to cervical intraepithelial neoplasia and invasive carcinoma through the expression and activity of two adjacent oncogenes: E6 and E7. Naturally occurring amino acid variation is commonly observed in the E6 protein but to a much lesser extent in E7. In order to investigate the evolutionary mechanisms involved in the generation and maintenance of this variation, we examine 42 distinct E6-E7 haplotypes using codon-based genealogical techniques. These techniques involve estimation of the ratio of nonsynonymous to synonymous substitutions (dn/ds) and allow testing for directional (positive) natural selection. Positive selection was detected for four codon sites within the E6 oncogene but not in any E7 codons. The amino acid compositions and locations of selected sites are described. Possible sources of natural selection including antiviral immune pressure and polymorphism of host cellular proteins are discussed.