ABSTRACT
Cervical cancer is the second most common cancer in women worldwide. It is clear that persistent infection of high-risk human papillomaviruses (HR-HPVs) is the main cause for this disease. Among the several HPV types associated with carcinoma, HPV-16 is the most prevalent type and present in about 50% of tumor specimens. The major capsid protein (L1) of HPV can self-assemble into virus-like particles (VLPs) with immunogenicity similar to infectious virions. Neutralizing epitopes are the structural basis of the current prophylactic HPV vaccines. The efficacy of HPV vaccines is critically dependent upon the integrity of type-specific neutralizing epitopes. Recently, considerable headway has been made in studying the epitopes of HPV16 based on neutralizing antibodies. Notably, more and more HPV16 variants have appeared along with increasing immune pressure. To study the phenotypic variations in HPV16 L1 protein, 1 204 naturally occurring sequences were analyzed and a phylogenetic tree was then constructed including four clades. Moreover, after compared the aforementioned sequences with the 114K reference sequence, eight "hot mutation sites" , six "specialized mutation sites" and 20 "epitope-related mutation sites" were found. Generally, sera raised against VLPs can neutralize the corresponding HPV types, but not other types. However, it is not known whether intragenotypic variants of human papillomavirus type 16 (HPV-16) can be neutralized by sera vaccinated with a single variant VLPs. It is, therefore, imperative to understand the neutralizing epitopes and intragenotypic variants of HPV-16 for the production of prophylactic vaccines with high potency and broad coverage.
ABSTRACT
Objective To detect the immunogenicity of conservative neutralizing epitope from human papilloma-virus type 31 ( HPV31) minor capsid protein L2, and analyze the neutralizing antibody spectrum of its immune sera.Methods Synthesize HPV31 L2 aa.17-40 peptide and conjugate with KLH by EDC.Immunize New Zeal-and white rabbits with HPV31 L2-KLH and Freud's Adjuvant.Analyze the neutralizing antibody titers of immune sera against HPVs from α4,α7,α9,α10 and β1 species by pseudovirus neutralization assay.Results In rabbits, HPV31 L2-KLH induced broad-spectrum neutralizing antibodies against at least 17 types of HPV, among which the neutralizing antibody titers against HPV31 are the highest, followed by that of HPV5/45/57. Conclusions The broad-spectrum neutralizing activity of the immune sera of HPV31 L2 is stimulated by conser-vative neutralizing epitope.The results lay the foundation of the development of broad-spectrum HPV vaccines based on HPV31 L2 neutralizing epitope.
ABSTRACT
Objective To construct a hexon-chimeric human adenovirus type 3 ( HAd3 ) vector expressing two neutralizing epitopes of hepatitis B surface antigen preS 1 (HBsAg-preS1) and to analyze the antigenicity of the chimeric epitopes .Methods Two neutralizing epitopes of HBsAg-preS1 including KR359 and KR127 were inserted into hypervariable region 1 ( HVR1) and hypervariable region 2 ( HVR2) of HAd3 hexon .Chimeric hexon gene encoding the two epitopes was amplified by overlap PCR and then subcloned in -to shuttle plasmid pBR322-L/R containing the homologous recombination regions .The digested shuttle plas-mid containing chimeric hexon gene was co-transfected into Escherichia coli BJ5183 cells together with back-bone plasmid pBRAdΔE3GFP to construct pBRAdΔE3GFP-preS1 vector.Then pBRAdΔE3GFP-preS1 vector was digested with AsiSⅠand transfected into AD293 cells to construct recombinant virus (rAD3E-preS1). CsCl gradient centrifugation was used for purification .Glutathione S-transferase ( GST ) fusion protein KR359KR127 ( GST-KR359KR127 ) was expressed in Escherichia coli BL21 by using expression vector pGEX-4T3.Female BALB/c mice at age 6-8 weeks were intraperitoneally injected with 1010 virus particles or 80 μg GST fusion protein .Serum samples were collected to analyze the antigenicity of two epitopes by ELISA and Western blot .Results ELISA showed that KR 359 and KR127 were successfully exposed on viral sur-faces by using hexon-chimeric HAd3 vector .The induced polyclonal antibodies in serum samples could rec-ognize GST fusion protein and native HBsAg from patients infected with hepatitis B virus .Conclusion The antigen capsid-incorporation strategy could be used to display epitopes on viral surface .Enhanced antigen-specific responses could be achieved through inserting multiple foreign epitopes into hexon HVRs .This study provided evidence for further application of hexon -chimeric human adenovirus type 3 vector in the developmentof vaccine, especially for the development of multivalent hepatitis B vaccine .
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Objective To search for the neutralizing epitopos on hepatitis E virus (HEV) capsid besides the known neutralizing epitope (aa459-606). Methods By analysis of several strains of monoclonal antibodies against HEV capsid and their recognized epitopes, the neutralizing activity of epitope (aa394-458) at N-terminus was compared with that of an immunodominant neutralizing epitope (an459-606). Re-suits The research showed a novel potential neutralizing epitope in aa423-437 of HEV ORF2 though detec-ting and comparing the characteristics of several antibodies and corresponding determinations. The epitope is a linear non-immunodominant epitope which is different from the other neutralizing epitope in aa459-606.And the amino acids sequence of this novel epitope is conservative. Conclusion ORF2 aa423-437 is a no-vel potential neutralizing leaner epitope of HEV. It is believed that the present work adds fundamental knowl-edge to our understanding of HEV capsid domain and contributes to the prevention and control of this dis-ease.
ABSTRACT
Human cytomegalovirus glycoprotein complex Ⅱ (gC Ⅱ ) consists of two glycoproteins, gM and gN. Although gC Ⅱ specific IgG purified from HCMV positive patient sera can neutralize HCMV, there has been no report on the generation of virus-neutralizing antibodies by immunizing with one epitope of gM. The epitope, termed MAD, was screened from random phage peptide library by subtractive strategy. The peptide sequence of MAD was highly homologous with 32~38 amino acids of HCMV gM. Mice immunized with MAD coupled with keyhole limpet hemocyanin (KLH) could produce specific antibodies against MAD, and the antibodies obtained could bind not only native HCMV particles, but also the recombinant gM30~78 peptide. ELISA analysis results showed that MAD could specifically bind HCMV-positive human serum samples. Virus-neutralizing assay results demonstrated that the antibodies against MAD could inhibit HCMV strain AD169 entering the human embryonic lung cells. The results suggested that MAD could be used as a new potential protective antigen in the development of HCMV vaccine.
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Objective To study the amino acid mutations in neutralizing antibody 2F5 and 4E10 conserved epitopes ELDKWA and NWFDIT of HIV-1 membrane proximal external region(MPER)in 92 HIV-infected individuals and AIDS patients in China,and to provide a basis for the neutralizing antobodies immunotherapy and a design of vaccines. Methods Nest-PCR methods were used to amplity genes of the HIV-1 env gp41 region.The amplified fragments were sequenced by double-deoxygen terminal method and translated into amino acids for analysis.The mutations of 2F5 and 4E10 neutralizing epitopes were identified by comparison with the epitopes reference data in HIV-1 Sequence Database.Results There were mutations on both 2F5 and 4E10 neutralizing epitopes.2F5 conserved neutralizing epitopes major mutations tocused on E662A(14.1%),K665S(17.4%),A667K(16.3%),and 4E10 conserved neutralizing epltopes major mutations included N671S(13.0%),D674S(3.3%),T676S(16.3%).The mutation rates of 2F5 and 4E10 epitopes were significanfly different between CRF_B'C-clade and B'-clade(P<0.05).The mutata rates of CRF_B'C-clade were higher than that of CRFOI_AE-clade in 2F5 epitopes(P<0.05).The mutation rates of B'-clade in 4E10 eiptopes showed significant difference in slow progressors,HIV-infected individuals and AIDS patients,respectively(P<0.05).Conclusion The HIV-1 patients in China are demonstrated diversified mutations in 2F5 and 4E10 neutralizing epitopes.The mutation degrees of amlno acids in conserved neutralizing epitopes are different in different subtypes.There may be a correlation between neutralizing epitopes mutations of 4E10 with disease progression.