分子佐剂C3d3增强hCGβ蛋白疫苗免疫原性及其抗血清中和hCG生物学活性的作用

本文观察分子佐剂C3d3增强hCGβ蛋白避孕疫苗体液免疫效力的能力。采用分子生物学技术以phCMV1为载体分别构建分泌型、带有6个组氨酸纯化标签的真核表达质粒phCMV1-6His-hCGβ-C3d3和phCMV1-6His-hCGβ,在CHO 细胞中获得重组蛋白的稳定、高效表达,并用镍柱和凝胶过滤层析对其进行分离、纯化。分别用hCGβ-C3d3融合蛋白、hCGβ+弗氏佐剂和单用hCGβ免疫生育期雌性BALB/c 小鼠,共免疫两次,间隔4周。ELISA 测定血清中抗hCGβ抗体滴度,并对各组小鼠产生的抗血清中和hCG 生物学活性的能力进行比较。结果表明hCGβ单独免疫组在加强免疫后才见抗体生成,其抗体滴度比hCGβ-C3d3融合蛋白免疫组低1995倍,C3d3的佐剂能力是弗氏佐剂的10倍(初次免疫)-32倍(再次免疫),并且hCGβ-C3d3融合蛋白免疫小鼠产生的抗血清具有很强的中和hCG 生物学活性的作用。实验证明通过分子佐剂C3d3可以大幅提高机体对hCGβ的体液免疫应答能力。     

C3d3通过促进脾脏B细胞高表达CXCR4增强hCGβ DNA免疫体液免疫效应

本文旨在探讨分子佐剂C3d3与hCGβ融合在基因免疫中增强抗hCGβ体液免疫效应的机制。分别用质粒pCMV4-hCGB-C3d3、pCMV4-hCGβ和pCMV4免疫BALB/c小鼠,间接ELISA法检测免疫小鼠外周血IgG/IgA类抗hCGβ抗体水平;ELISPOT分析免疫鼠脾脏组织IgG/IgA类抗体分泌细胞水平(ASC);RT-PCR分析免疫鼠脾脏B细胞趋化因子受体表达,RT-PCR和FCM分析CXCR4表达水平;RT-PCR和ELISA检测脾脏组织CXCL12表达水平。结果显示,pCMV4- hCGβ-C3d3免疫组外周血IgG类抗hCGβ抗体水平明显高于pCMV4-hCGβ免疫组;而IgA类抗hCGβ抗体水平在两组间无明显差异。pCMV4-hCGβ-C3d3免疫组脾脏组织IgG类ASCs水平明显高于pCMV4-hCGβ组;两组间IgA类ASCs水平无明显差异。经pCMV4-hCGB、pCMV4-hCGβ- C3d3免疫鼠脾脏B细胞CXCR4表达明显高于对照组;且pCMV4-hCGβ-C3d3组明显高于pCMV4-hCGβ免疫组。CXCR4~ 细胞与ASCs呈正相关,r=0.966,(P<0.05)。pCMV4-hCGβ-C3d3和pCMV4-hCGβ组脾脏组织CXC L12表达均显著高于对照组。结果表明,分子佐剂C3d3与hCGβ基因融合,在基因免疫小鼠后能够显著升调节脾脏ASCs CXCR4表达,从而可能增强抗hcGβ基因疫苗的体液免疫效应。     

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。     

补体C3对大肠杆菌疫苗的免疫增强作用

从SPF鸡血清中分离纯化C3,用戊二醛将其与大肠杆菌抗原连接,免疫注射SPF鸡;对照组鸡免疫注射弗氏完全佐剂大肠杆菌疫苗。分别在免疫后的第2、3、4、5、6、7、8、9周采血,用ELISA方法测定血清中的抗体含量,同时测定血清中总补体活性。结果表明,免疫后3周,弗氏佐剂大肠杆菌疫苗诱导鸡体产生的抗体效价高于C3佐剂疫苗组,但至第4周,弗氏佐剂疫苗组的抗体水平达到高峰(OD值=0.270±0.004),然后迅速下降,到第9周降至0.200±0.005,而C3疫苗组鸡免疫后的抗体水平持续上升,从免疫后第2周的0.098±0.003上升到第8周的0.275±0.002。证明C3能够促进免疫记忆细胞的产生,并能够使细菌抗原给予免疫细胞持续稳定的刺激,从而使鸡体维持高水平抗体的时间延长。研究结果为研制有效的家禽细菌性疫苗提供了理论依据。     

分子佐剂C3d上调Raji细胞协同刺激分子B7-1和B7-2的表达(简报)

我们在以往研究中,引入选择性增强体液免疫效应的新型分子佐剂C3d,成功构建了重组避孕疫苗hCGB-C3d3,通过免疫Th2型优势的 BALB/c小鼠和,Th1型优势的C57BL/6小鼠,显示分子佐剂C3d在不同品系小鼠均使免疫效应从Th1型细胞免疫向Th2型体液免疫偏倚。     

利用抗原结合多肽嫁接抗体技术制备抗hCG单域抗体

本研究旨在人绒毛膜促性腺激素(hCG)的结合多肽的基础上应用嫁接抗体技术制备抗hCG单域抗体,简化单域抗体制备过程,提高多肽生化稳定性。利用单域抗体通用骨架(cAbBCII10),以hCG结合多肽取代互补决定区CDR1或CDR3,合成cAb BCII10嫁接抗体全基因序列并与sfGFP基因序列融合后,插入到带有His标签的原核表达载体pET30a(+)中,成功构建了pET30a-(His6)-cAbBCII10-CDR1/hCGBP1-sfGFP与pET30a-(His6)-cAbBCII10-CDR3/hCGBP3-sfGFP融合蛋白表达质粒。将重组质粒转化大肠杆菌BL21(DE3),用IPTG诱导表达融合蛋白,得到高表达量的可溶性融合蛋白。利用Ni-NTA亲和柱纯化得到纯蛋白,应用SDS-PAGE鉴定纯化的蛋白为正确表达的目标蛋白。通过抗原抗体结合实验,发现hCG结合多肽嫁接到单域抗体通用骨架的互补决定区CDR1或CDR3后都有抗原结合活性,具有相似的抗体滴度,且嫁接到CDR3后的抗原结合活性比CDR1要高(2–3倍)。嫁接抗体基本保留了所用单域抗体框架较为稳定的生化特性,具有一定的热稳定性和较好的碱耐受性,同时,所接入的hCG结合片段对hCG具有较特异的结合活性,为进一步优化抗原结合多肽嫁接抗体技术制备抗hCG单域抗体提供了可靠的实验基础     

不同佐剂条件下Aβ多肽B细胞表位疫苗诱导产生抗体的免疫反应特性分析

目的:研究阿尔茨海默病β淀粉样肽(Aβ)B细胞表位疫苗2Aβ1-15-PADRE(Aβ-T)诱导产生抗体的免疫反应特性,并探讨不同佐剂对该疫苗免疫反应效果的影响。方法:合成了含2个Aβ42的 B细胞表位—Aβ1-15及1个辅助T细胞表位—PADRE的多肽2Aβ1-15-PADRE。采用Al(OH)₃佐剂,弗氏佐剂,Abisco佐剂,MF59佐剂分别与多肽疫苗联合免疫小鼠,并另设3个对照组:无佐剂多肽免疫组(Mock),PBS免疫组(PBS),未免疫组(Native)。结果:5组多肽免疫组小鼠均产生了针对Aβ的特异性抗体,无佐剂多肽免疫组的IgG抗体滴度最低,Al(OH)₃佐剂组,MF59佐剂组,Abisco佐剂组小鼠IgG抗体滴度较高,弗氏佐剂组IgG抗体滴度最高。斑点杂交实验结果显示5组小鼠免疫后血清与Aβ42单体反应较弱,与寡聚体反应最明显,与纤维状Aβ42几乎不反应。结论:4种佐剂均能提高多肽疫苗的免疫反应,产生高水平抗Aβ的特异性抗体。5组免疫小鼠产生的抗体均与Aβ寡聚体反应较强,与纤维状Aβ42反应较弱,表明该多肽疫苗具有良好的应用前景。     

粘膜免疫戊型肝炎试验性疫苗的研究

采用原核表达的戊型肝炎病毒结构区基因(HEV ORF2)编码蛋白,与新型人用疫苗佐剂类MF59配制成试验性疫苗,通过粘膜免疫途径免疫实验小鼠,研究其产生粘膜免疫和体液免疫的效果。结果表明,通过滴鼻和灌胃两种粘膜免疫途径免疫BALB／c小鼠,均能诱导小鼠产生针对HEV ORF2试验性疫苗的血清IgG和IgA,血清IgG的抗体滴度为1：800～1：1600,血清IgA抗体滴度为1：100～1：200。对免疫小鼠血清中IgG的动态观察表明,血清抗体可持续存在至少6个月以上。比较类MF159佐剂和传统铝盐佐剂经注射免疫所诱导产生的血清IgG抗体滴度,发现类MF59佐剂可有效增强HEV0RF2重组蛋白的免疫原性4倍左右。类MF159佐剂可诱导粘膜免疫反应,在肠道粘膜部位产生SIgA,滴度为1：100。这些结果为新型戊型肝炎病毒基因工程重组疫苗的研制提供了一条新的思路。     

含分子内佐剂的SARS-CoV-2 RBD域重组蛋白制备及免疫效果评价北大核心CSCD

制备含破伤风毒素肽(tetanus toxin,TT)、促吞噬肽(tuftsin)和新型冠状病毒刺突蛋白(spike,S蛋白)受体结合域(receptor-binding domain,RBD)的融合蛋白,探讨分子内佐剂对RBD蛋白体液免疫和细胞免疫效果的影响。将破伤风毒素肽、促吞噬肽与S蛋白RBD区域通过柔性多肽串联,密码子优化后构建重组载体,原核表达纯化制备重组S-TT-tuftsin蛋白,与铝佐剂混合后免疫BALB/c小鼠,对其体液及细胞免疫效果进行评价。重组S-TT-tuftsin蛋白以包涵体形式表达,离子交换层析纯化后采用梯度透析进行复性,复性蛋白经Dot blotting鉴定,可与新冠亚单位疫苗(安徽智飞公司)免疫后人血清发生反应。小鼠免疫实验结果表明,免疫35 d时抗体水平到达平台期,含分子内佐剂重组蛋白(铝佐剂)免疫小鼠后血清ELISA抗体效价高达1︰66240,显著高于S-RBD蛋白(铝佐剂)免疫小鼠抗体效价(P<0.05)。同时,含分子内佐剂重组蛋白刺激小鼠产生更强的淋巴细胞增殖能力,刺激指数可达4.71±0.15,相较于S-RBD蛋白的刺激指数1.83±0.09具有显著性差异(P<0.0001)。分子内佐剂破伤风毒素肽和促吞噬肽可显著增强新冠S蛋白RBD域的体液免疫和细胞免疫效果,可为新冠亚单位疫苗和其他病毒亚单位疫苗的研制提供理论基础和参考。     

人乳头瘤病毒6/11型L2片段的高效表达及免疫效果评价

目的:原核表达人乳头瘤病毒(HPV)6型和11型L2 N端融合蛋白,并初步评价其免疫效果。方法:用重叠PCR将HPV6和HPV11次要衣壳蛋白L2基因5'端片段融合,并在大肠杆菌中表达融合蛋白,纯化后与Al(OH)3佐剂配伍肌肉注射免疫BALB/c小鼠,用ELISA检测血清抗体,以基于假病毒的体外中和试验评价中和抗体水平。结果:ELISA结果显示,3种融合蛋白均能产生针对同型别L2蛋白的高滴度特异性Ig G抗体,滴度为1∶10 000~1∶200 000;体外中和试验显示,3种融合蛋白均能诱发中和抗体和交叉中和抗体,针对同型别的滴度最高可达1∶3200,对于高危型能产生一定水平的交叉中和抗体,滴度为1∶50~1∶800。结论:HPV6/11 L2融合蛋白能够诱发较强的体液免疫反应,产生较高的中和抗体及交叉中和抗体,为HPV L2新型预防性疫苗的研究提供了初步的实验基础。     

Gene conjugation of molecular adjuvant C3d3 to hCGbeta increased the anti-hCGbeta Th2 and humoral immune response in DNA immunization

Human chorionic gonadotropin (hCG) has been used as an anti-fertility vaccine and as a target for cancer immunotherapy. We have explored the use of three copies of C3d in DNA vaccine as molecular adjuvant to improve the immunogenicity of this hormone in previous work and found that the immune response induced by pcDNA3-hCGbeta-C3d3 has been enhanced 243-fold compared with pcDNA3-hCGbeta following DNA immunization in BALB/c mice. In the present study, a new functionally active DNA vaccine of hCGbeta-C3d3 chimera based on pCMV4 vector has been described. We compared the expression efficiency of pCMV4 and pcDNA3 eukaryotic vectors for hCGbeta and hCGbeta-C3d3 fusion protein and the immune response of mice immunized with pcDNA3-hCGbeta, pCMV4-hCGbeta, pcDNA3-hCGbeta-C3d3 and pCMV4-hCGbeta-C3d3, respectively, at 25, 50 and 100 pmol dose, and further analyzed the levels of Th1 and Th2 cytokines produced by spleen lymphocytes of the immunized mice upon hCG restimulation in vitro. It was found that pCMV4 vector achieved 1.3-1.5-fold higher protein expression and raised 1.1-1.2 (primary) and 1.2-1.3 (booster) logs higher titer of anti-hCGbeta IgG than pcDNA3. Mice vaccinated with 50 pmol of hCGbeta-C3d3-DNAs elicited the highest titer of hCGbeta-specific antibody among the serial doses and the immune response induced by pCMV4-hCGbeta-C3d3 were, respectively, 1.3, 1.3 and 1.2 logs higher than that of pcDNA3-hCGbeta-C3d3 and 2.2, 2.9 and 2.4 logs higher than that of pCMV4-hCGbeta at week 2 following the booster immunization. Moreover, we observed that the production of IL-4 and IL-10 increased in mice vaccinated with hCGbeta-C3d3-DNAs and the ratio of IL-4/IFN-(gamma) showed a Th2 bias of immune response in the mice immunized with hCGbeta-C3d3-DNAs. These findings indicated that gene fusion of C3d3 to hCGbeta, as a means of harnessing the adjuvant potential of the innate immune system, may improve the antigen-specific Th2 humoral immune response of the hCGbeta DNA vaccine and the pCMV4 vector is a more ideal eukaryotic vector for DNA vaccine than pcDNA3.     

Fusion to C3d enhances the immunogenicity of the E2 glycoprotein of type 2 bovine viral diarrhea virus

The use of DNA and protein subunit vaccines in animals provides an opportunity to introduce vaccines that are arguably the safest that can be developed. For that reason, considerable effort is under way to devise methods of enhancing the immunogenicity of such vaccines. Seven years ago it was shown that fusing complement fragment C3d to hen egg lysozyme (HEL) enhanced the immunogenicity of HEL 10,000-fold. Based on this observation, we decided to evaluate the effect of C3d on the immunogenicity of the E2 protein of bovine viral diarrhea virus (BVDV). E2 is the major target of neutralizing antibody during BVDV infection. To test the effect of C3d on E2 immunogenicity, expression cassettes encoding a secreted form of E2 alone (E2s) or E2 fused to three copies of murine C3d (E2s-C3d) were constructed. The proteins were purified from the supernatants of transfected cells and used to immunize mice. The immune response was monitored by an enzyme-linked immunosorbent assay (ELISA) for E2s-specific antibody and by a virus neutralization test. The ELISA results indicated that the E2s-C3d protein is 10,000-fold more immunogenic than the E2s protein alone. The maximum primary immune response was elicited with <0.1 microg of E2s-C3d protein without an adjuvant. In addition, we have shown for the first time that high levels of anti-E2s and neutralizing antibodies can be elicited when this same low concentration of E2s-C3d is used to both prime and boost the immune response. We conclude that the E2s-C3d fusion protein has significant potential as a subunit vaccine against BVDV infection.     

Complement C3d conjugation to anthrax protective antigen promotes a rapid, sustained, and protective antibody response

B. anthracis is the causative agent of anthrax. Pathogenesis is primarily mediated through the exotoxins lethal factor and edema factor, which bind protective antigen (PA) to gain entry into the host cell. The current anthrax vaccine (AVA, Biothrax) consists of aluminum-adsorbed cell-free filtrates of unencapsulated B. anthracis, wherein PA is thought to be the principle target of neutralization. In this study, we evaluated the efficacy of the natural adjuvant, C3d, versus alum in eliciting an anti-PA humoral response and found that C3d conjugation to PA and emulsion in incomplete Freund's adjuvant (IFA) imparted superior protection from anthrax challenge relative to PA in IFA or PA adsorbed to alum. Relative to alum-PA, immunization of mice with C3d-PA/IFA augmented both the onset and sustained production of PA-specific antibodies, including neutralizing antibodies to the receptor-binding portion (domain 4) of PA. C3d-PA/IFA was efficacious when administered either i.p. or s.c., and in adolescent mice lacking a fully mature B cell compartment. Induction of PA-specific antibodies by C3d-PA/IFA correlated with increased efficiency of germinal center formation and plasma cell generation. Importantly, C3d-PA immunization effectively protected mice from intranasal challenge with B. anthracis spores, and was approximately 10-fold more effective than alum-PA immunization or PA/IFA based on dose challenge. These data suggest that incorporation of C3d as an adjuvant may overcome shortcomings of the currently licensed aluminum-based vaccine, and may confer protection in the early days following acute anthrax exposure.     

Immune Response against Hamster Erythrocytes in the Low-Responder Mouse Strains

C57BL/6 and AKR mice were treated with hamster erythrocytes (HRBC) in complete Freund's adjuvant (CFA) or incomplete Freund's adjuvant (IFA) and the development of delayed hypersensitivity and antibody production were examined. 1) Delayed hypersensitivity against HRBC antigen, as determined by the peritoneal macrophage disappearance test, was detected in mice sensitized with HRBC in CFA but not in those sensitized with HRBC in IFA. 2) Antibody production against HRBC or hapten TNP after a booster injection of HRBC or trinitrophenylated HRBC (TNP-HRBC) in saline was enhanced by pretreatment with HRBC in CFA or IFA. 3) Delayed hypersensitivity was not detectable after a booster sensitization with HRBC in CFA in mice which had been pretreated with HRBC in IFA 2 weeks earlier. In the mice treated with both HRBC in IFA (day ?21) and in CFA (day ?7), however, an enhanced antibody production against HRBC or TNP was detected after an intravenous injection with HRBC or TNP-HRBC in saline (day 0). These results suggest that sensitized effector lymphocytes in delayed hypersensitivity and helper cells in antibody production may be derived from the same pool of unprimed T cells. The pool of unprimed T cells with a capacity to differentiate into either type of primed T cells may be exhausted after pretreatment with the antigen in IFA, and the primed helper T cells may not be able to differentiate into sensitized lymphocytes even after sensitization with the antigen in CFA, which favors development of delayed hypersensitivity in normal controls.     

Immunogenicity of self-associated aggregates and chemically cross-linked conjugates of the 42 kDa Plasmodium falciparum merozoite surface protein-1

Self-associated protein aggregates or cross-linked protein conjugates are, in general, more immunogenic than oligomeric or monomeric forms. In particular, the immunogenicity in mice of a recombinant malaria transmission blocking vaccine candidate, the ookinete specific Plasmodium falciparum 25 kDa protein (Pfs25), was increased more than 1000-fold when evaluated as a chemical cross-linked protein-protein conjugate as compared to a formulated monomer. Whether alternative approaches using protein complexes improve the immunogenicity of other recombinant malaria vaccine candidates is worth assessing. In this work, the immunogenicity of the recombinant 42 kDa processed form of the P. falciparum merozoite surface protein 1 (MSP1(42)) was evaluated as a self-associated, non-covalent aggregate and as a chemical cross-linked protein-protein conjugate to ExoProtein A, which is a recombinant detoxified form of Pseudomonas aeruginosa exotoxin A. MSP1(42) conjugates were prepared and characterized biochemically and biophysically to determine their molar mass in solution and stoichiometry, when relevant. The immunogenicity of the MSP1(42) self-associated aggregates, cross-linked chemical conjugates and monomers were compared in BALB/c mice after adsorption to aluminum hydroxide adjuvant, and in one instance in association with the TLR9 agonist CPG7909 with an aluminum hydroxide formulation. Antibody titers were assessed by ELISA. Unlike observations made for Pfs25, no significant enhancement in MSP1(42) specific antibody titers was observed for any conjugate as compared to the formulated monomer or dimer, except for the addition of the TLR9 agonist CPG7909. Clearly, enhancing the immunogenicity of a recombinant protein vaccine candidate by the formation of protein complexes must be established on an empirical basis.     

C3d enhanced DNA vaccination induced humoral immune response to glycoprotein C of pseudorabies virus

Murine C3d were utilized to enhance immunogenicity of pseudorabies virus (PrV) gC DNA vaccination. Three copies of C3d and four copies of CR2-binding domain M28(4) were fused, respectively, to truncated gC gene encoding soluble glycoprotein C (sgC) in pcDNA3.1. BALB/c mice were, respectively, immunized with recombinant plasmids, blank vector, and inactivated vaccine. The antibody ELISA titer for sgC-C3d3 DNA was 49-fold more than that for sgC DNA, and the neutralizing antibody obtained 8-fold rise. Protection of mice from death after lethal PrV (316 LD50) challenge was augmented from 25% to 100%. Furthermore, C3d fusion increased Th2-biased immune response by inducing IL-4 production. The IL-4 level for sgC-C3d3 DNA immunization approached that for the inactivated vaccine. Compared to C3d, M28 enhanced sgC DNA immunogenicity to a lesser extent. In conclusion, we demonstrated that murine C3d fusion significantly enhanced gC DNA immunity by directing Th1-biased to a balanced and more effective Th1/Th2 response.     

The selection of an adjuvant emulsion for polyclonal antibody production using a low-molecular-weight antigen in rabbits.

Although Freund's adjuvant has been used for decades as an immune enhancer in rabbits, adverse physiologic side effects have prompted the search for more suitable alternatives. We used osteocalcin, a bovine bone protein (M.W. 5,800), as the test antigen to evaluate four adjuvant regimens: a) primary inoculation with complete Freund's adjuvant (CFA) followed by three boosts with incomplete Freund's adjuvant (IFA), b) four serial inoculations with RIBI MPL+TDM+CWS adjuvant, c) four serial inoculations with TiterMax #R-1, and d) primary inoculation (only) with TiterMax #R-1. The antibody yield associated with the CFA/IFA regimen (mean OD = 2.152) was at least sixfold that of either TiterMax (mean OD = 0.358) or RIBI (mean OD = 0.239) multiple injection regimens. No antibody response was observed after the single injection of TiterMax antigen emulsion. Maximal antibody production occurred rapidly in response to Freund's adjuvant (day 31) as compared with TiterMax (day 74) and RIBI (day 66).     

Human chorionic gonadotropin beta-core fragment is directly produced by cancer cells

The present study was undertaken to investigate whether hCG beta-core fragment (hCGbeta cf) was directly produced by cancer cells. Fifteen cell lines, including four choriocarcinoma and five ovarian cancer cell lines, were tested, and immunoreactivity of hCGbeta cf was present in the culture media of five of the cell lines. It was also present in the culture media of Chinese hamster ovary (CHO) cells transfected with hCGbeta gene. In addition to hCGbeta cf, gel chromatography and Western blot analysis of the culture media showed the presence of an hCGbeta cf immunoreactive material with a molecular weight of approximately 40 kDa. In an in vivo study, hCGbeta cf immunoreactivity was detected in the sera of the mice transplanted with NaUCC-3 choriocarcinoma cells, although the ratios of hCGbeta cf/hCG and hCGbeta cf/free hCGbeta were lower than those in the culture medium. Incubation experiments of purified hCGbeta cf in the serum showed no substantial decrease in its values, ruling out the possibility that formation of a macromolecule with serum components may mask hCGbeta cf immunoreactivity in the serum. Taken together, these results indicate that hCGbeta cf immunoreactive materials are directly produced by cancer cells and hCGbeta cf is not a urinary metabolite of hCG or hCGbeta alone. Also, reduced levels of hCGbeta cf in the serum compared with that of intact hCG or free hCGbeta are likely due to its short half-life.