Characterization of a variety of neutralizing anti-heparin-binding epidermal growth factor-like growth factor monoclonal antibodies by different immunization methods

Heparin-binding epidermal growth factor-like growth factor (HB-EGF) is a member of the epidermal growth factor family. The accumulated evidence on the tumor-progressing roles of HB-EGF has suggested that HB-EGF-targeted cancer therapy is expected to be promising. However, the generation of neutralizing anti-HB-EGF monoclonal antibodies (mAbs) has proved difficult. To overcome this difficulty, we performed a hybridoma approach using mice from different genetic backgrounds, as well as different types of HB-EGF immunogens. To increase the number of hybridoma clones to screen, we used an electrofusion system to generate hybridomas and a fluorometric microvolume assay technology to screen anti-HB-EGF mAbs. We succeeded in obtaining neutralizing anti-HB-EGF mAbs, primarily from BALB/c and CD1 mice, and these were classified into 7 epitope bins based on their competitive binding to the soluble form of HB-EGF (sHB-EGF). The mAbs showed several epitope bin-dependent characteristics, including neutralizing and binding activity to human sHB-EGF, cross-reactivity to mouse/rat sHB-EGF and binding activity to the precursor form of HB-EGF. The neutralizing activity was also validated in colony formation assays. Interestingly, we found that the populations of mAb bins and the production rates of the neutralizing mAbs were strikingly different by mouse strain and by immunogen type. We succeeded in generating a variety of neutralizing anti-HB-EGF mAbs, including potent sHB-EGF neutralizers that may have potential as therapeutic agents for treating HB-EGF-dependent cancers. Our results also suggest that immunization approaches using different mouse strains and immunogen types affect the biological activity of individual neutralizing antibodies.     

Identification of the Cancer Cell Proliferation and Survival Functions of proHB-EGF by Using an Anti-HB-EGF Antibody

Purpose

Heparin-binding epidermal growth factor-like growth factor (HB-EGF) is a member of the epidermal growth factor family. The membrane-bound proHB-EGF is known to be a precursor of the soluble form of HB-EGF (sHB-EGF), which promotes cell proliferation and survival. While the functions of sHB-EGF have been extensively studied, it is not yet fully understood if proHB-EGF is also involved in cellular signaling events. In this study, we utilized the anti-HB-EGF monoclonal antibodies Y-142 and Y-073, which have differential specificities toward proHB-EGF, in order to elucidate proHB-EGF functions in cancer cells.

Experimental Design

The biological activities of proHB-EGF were assessed in cell proliferation, caspase activation, and juxtacrine activity assays by using a 3D spheroid culture of NUGC-3 cells.

Results

Y-142 and Y-073 exhibited similar binding and neutralizing activities for sHB-EGF. However, only Y-142 bound to proHB-EGF. We could detect the function of endogenously expressed proHB-EGF in a 3D spheroid culture. Blocking proHB-EGF with Y-142 reduced spheroid formation, suppressed cell proliferation, and increased caspase activation in the 3D spheroid culture of NUGC-3 cells.

Conclusions

Our results show that proHB-EGF acts as a cell proliferation and cell survival factor in cancer cells. The results suggest that proHB-EGF may play an important role in tumor progression.     

Involvement of heparin-binding EGF-like growth factor and its processing by metalloproteinases in early epithelial morphogenesis of the submandibular gland

In the present study, the role of a member of the epidermal growth factor (EGF) family, heparin-binding EGF-like growth factor (HB-EGF), in organ development was investigated by using developing mouse submandibular gland (SMG), in which the EGF receptor signaling and heparan sulfate chains have been implicated. HB-EGF mRNA was detected in developing SMG by RT-PCR analysis and was expressed mainly in epithelium and weakly in mesenchyme of the embryonic SMG. Epithelial morphogenesis was inhibited by a synthetic peptide corresponding to the heparin-binding domain of HB-EGF and by anti-HB-EGF neutralizing antibody. An in vitro assay using an EGF receptor ligand-dependent cell line, EP170.7 cells, allowed us to detect the growth factor activity in SMG-conditioned media, which was significantly reduced by anti-HB-EGF antibody. Furthermore, treatment of SMG rudiments with the hydroxamate-based metalloproteinase inhibitor OSU8-1, which inhibits processing of EGFR ligands including HB-EGF, markedly diminished the growth factor activity in conditioned media and resulted in almost complete inhibition of SMG morphogenesis. The inhibitory effects on morphogenesis were reversed, though partially, by adding the soluble form of HB-EGF. Our results provide the first evidence that HB-EGF is a crucial regulator of epithelial morphogenesis during organ development, highlighting the importance of its processing by metalloproteinases.     

A Potent Anti-HB-EGF Monoclonal Antibody Inhibits Cancer Cell Proliferation and Multiple Angiogenic Activities of HB-EGF

Heparin-binding epidermal growth factor-like growth factor (HB-EGF) is a member of the epidermal growth factor family and has a variety of physiological and pathological functions. Modulation of HB-EGF activity might have a therapeutic potential in the oncology area. We explored the therapeutic possibilities by characterizing the in vitro biological activity of anti-HB-EGF monoclonal antibody Y-142. EGF receptor (EGFR) ligand and species specificities of Y-142 were tested. Neutralizing activities of Y-142 against HB-EGF were evaluated in EGFR and ERBB4 signaling. Biological activities of Y-142 were assessed in cancer cell proliferation and angiogenesis assays and compared with the anti-EGFR antibody cetuximab, the HB-EGF inhibitor CRM197, and the anti-vascular endothelial growth factor (VEGF) antibody bevacizumab. The binding epitope was determined with alanine scanning. Y-142 recognized HB-EGF as well as the EGFR ligand amphiregulin, and bound specifically to human HB-EGF, but not to rodent HB-EGF. In addition, Y-142 neutralized HB-EGF-induced phosphorylation of EGFR and ERBB4, and blocked their downstream ERK1/2 and AKT signaling. We also found that Y-142 inhibited HB-EGF-induced cancer cell proliferation, endothelial cell proliferation, tube formation, and VEGF production more effectively than cetuximab and CRM197 and that Y-142 was superior to bevacizumab in the inhibition of HB-EGF-induced tube formation. Six amino acids in the EGF-like domain were identified as the Y-142 binding epitope. Among the six amino acids, the combination of F115 and Y123 determined the amphiregulin cross-reactivity and that F115 accounted for the species selectivity. Furthermore, it was suggested that the potent neutralizing activity of Y-142 was derived from its recognition of R142 and Y123 and its high affinity to HB-EGF. Y-142 has a potent HB-EGF neutralizing activity that modulates multiple biological activities of HB-EGF including cancer cell proliferation and angiogenic activities. Y-142 may have a potential to be developed into a therapeutic agent for the treatment of HB-EGF-dependent cancers.     

Fine epitope mapping of anti-epidermal growth factor receptor antibodies through random mutagenesis and yeast surface display

Fine epitope mapping of therapeutically relevant monoclonal antibodies (mAbs) specific for the epidermal growth factor receptor (EGFR) was accomplished through random mutagenesis and yeast surface display. Using this method, we have identified key residues energetically important for the binding of EGFR to the mAbs 806, 225, and 13A9. A yeast-displayed library of single point mutants of an EGFR ectodomain fragment (residues 273-621) was constructed by random mutagenesis and was screened for reduced binding to EGFR mAbs. If an EGFR mutant showed loss of binding to a mAb, this suggested that the mutated residue was potentially a contact residue. The mAb 806 binding epitope was localized to one face of a loop comprised of EGFR residues Cys287-Cys302, which is constrained by a disulfide bond and two salt bridges. The mAb 806 epitope as identified here is not fully accessible in the autoinhibited EGFR monomer conformation, which is consistent with the hypothesis that mAb 806 binds to a transitional form of EGFR as it changes from an autoinhibited to extended monomer. The amino acids Lys465 and Ile467 were identified as energetic hot spot residues for mAb 225 binding to EGFR. These residues are adjacent to the EGFR ligand-binding site, which is consistent with the ability of mAb 225 to block binding of epidermal growth factor (EGF) and transforming growth factor-alpha (TGF-alpha) ligands. Ser468 and Glu472 were identified as energetically important for mAb 13A9 binding to EGFR, and the location of this epitope suggests that mAb 13A9 mediates observed TGF-alpha blocking effects through conformational perturbation of EGFR domain III. Combinatorial library screening of yeast-displayed mutagenic proteins is a novel method to identify discontinuous and heat-denaturable mAb binding epitopes with residue-level resolution.     

系统表达HB-EGF转基因小鼠的建立

目的建立系统表达肝素结合性表皮生长因子（HB-EGF）的转基因动物模型,利用转基因动物模型研究HB-EGF与组织纤维化的关系。方法RT-PCR法克隆小鼠HB-EGF基因,将其插入Chickenβ-actin启动子下游,构建Chickenβ-actin-HB-EGF表达载体,利用显微注射的技术把表达载体注射到受精卵的雄原核中,建立HB-EGF转基因小鼠。利用特异引物PCR的方法鉴定转基因的基因型,采用Western Blot方法鉴定HB-EGF基因在全身组织的表达。分别取HB-EGF转基因鼠与同窝阴性小鼠的肝、肾、肺及膀胱组织进行Massion染色。结果建立了系统表达HB-EGF转基因小鼠,Western Blot发现其HB-EGF在肝、肺、肾及膀胱的表达与同窝阴性对照小鼠相比明显增加。Massion染色结果表明转基因鼠肝、肺、肾及膀胱组织纤维化程度明显高于同窝阴性对照小鼠。结论成功建立了系统表达HB-EGF转基因小鼠,HB-EGF的过度表可显著加重组织纤维化程度。     

EGFR trans-activation mediates pleiotrophin-induced activation of Akt and Erk in cultured osteoblasts

Pleiotrophin (Ptn) plays an important role in bone growth through regulating osteoblasts’ functions. The underlying signaling mechanisms are not fully understood. In the current study, we found that Ptn induced heparin-binding epidermal growth factor (HB-EGF) release to trans-activate EGF-receptor (EGFR) in both primary osteoblasts and osteoblast-like MC3T3-E1 cells. Meanwhile, Ptn activated Akt and Erk signalings in cultured osteoblasts. The EGFR inhibitor AG1478 as well as the monoclonal antibody against HB-EGF (anti-HB-EGF) significantly inhibited Ptn-induced EGFR activation and Akt and Erk phosphorylations in MC3T3-E1 cells and primary osteoblasts. Further, EGFR siRNA depletion or dominant negative mutation suppressed also Akt and Erk activation in MC3T3-E1 cells. Finally, we observed that Ptn increased alkaline phosphatase (ALP) activity and inhibited dexamethasone (Dex)-induced cell death in both MC3T3-E1 cells and primary osteoblasts, such effects were alleviated by AG1478 or anti-HB-EGF. Together, these results suggest that Ptn-induced Akt/Erk activation and some of its pleiotropic functions are mediated by EGFR trans-activation in cultured osteoblasts.     

Effect of antigen-dependent clearance on pharmacokinetics of anti-heparin-binding EGF-like growth factor (HB-EGF) monoclonal antibody

Heparin-binding EGF-like growth factor (HB-EGF) is a member of the EGF family and is an important therapeutic target in some types of human cancers. KM3566 is a mouse anti-HB-EGF monoclonal antibody that neutralizes HB-EGF activity by inhibiting the binding of HB-EGF to its receptors. Based on the results of our pharmacokinetics study, a humanized derivative antibody, KHK2866, is rapidly cleared from serum and shows nonlinear pharmacokinetics in cynomolgus monkeys. In this study, we examined the antigen-dependent clearance of an anti-HB-EGF monoclonal antibody in vivo and in vitro in order to pharmacokinetically explain the rapid elimination of KHK2866. We revealed tumor size-dependent clearance of KM3566 in in vivo studies and obtained good fits between the observed and simulated concentrations of KM3566 based on the two-compartment with a saturable route of clearance model. Furthermore, in vivo imaging analyses demonstrated tumor-specific distribution of KM3566. We then confirmed rapid internalization and distribution to lysosome of KM3566 at a cellular level. Moreover, we revealed that the amounts of HB-EGF on cell surface membrane were maintained even while HB-EGF was internalized with KM3566. Recycled or newly synthesized HB-EGF, therefore, may contribute to a consecutive clearance of KM3566, which could explain a rapid clearance from serum. These data suggested that the rapid elimination in pharmacokinetics of KM3566 is due to antigen-dependent clearance. Given that its antigen is expressed in a wide range of normal tissue, it is estimated that the rapid elimination of KHK2866 from cynomolgus monkey serum is caused by antigen-dependent clearance.     

A novel plant-made monoclonal antibody enhances the synergetic potency of an antibody cocktail against the SARS-CoV-2 Omicron variant

This study describes a novel, neutralizing monoclonal antibody (mAb), 11D7, discovered by mouse immunization and hybridoma generation, against the parental Wuhan-Hu-1 RBD of SARS-CoV-2. We further developed this mAb into a chimeric human IgG and recombinantly expressed it in plants to produce a mAb with human-like, highly homogenous N-linked glycans that has potential to impart greater potency and safety as a therapeutic. The epitope of 11D7 was mapped by competitive binding with well-characterized mAbs, suggesting that it is a Class 4 RBD-binding mAb that binds to the RBD outside the ACE2 binding site. Of note, 11D7 maintains recognition against the B.1.1.529 (Omicron) RBD, as well neutralizing activity. We also provide evidence that this novel mAb may be useful in providing additional synergy to established antibody cocktails, such as Evusheld™ containing the antibodies tixagevimab and cilgavimab, against the Omicron variant. Taken together, 11D7 is a unique mAb that neutralizes SARS-CoV-2 through a mechanism that is not typical among developed therapeutic mAbs and by being produced in ΔXFT Nicotiana benthamiana plants, highlights the potential of plants to be an economic and safety-friendly alternative platform for generating mAbs to address the evolving SARS-CoV-2 crisis.     

Effect of antigen-dependent clearance on pharmacokinetics of anti-heparin-binding EGF-like growth factor (HB-EGF) monoclonal antibody

Heparin-binding EGF-like growth factor (HB-EGF) is a member of the EGF family and is an important therapeutic target in some types of human cancers. KM3566 is a mouse anti-HB-EGF monoclonal antibody that neutralizes HB-EGF activity by inhibiting the binding of HB-EGF to its receptors. Based on the results of our pharmacokinetics study, a humanized derivative antibody, KHK2866, is rapidly cleared from serum and shows nonlinear pharmacokinetics in cynomolgus monkeys. In this study, we examined the antigen-dependent clearance of an anti-HB-EGF monoclonal antibody in vivo and in vitro in order to pharmacokinetically explain the rapid elimination of KHK2866. We revealed tumor size-dependent clearance of KM3566 in in vivo studies and obtained good fits between the observed and simulated concentrations of KM3566 based on the two-compartment with a saturable route of clearance model. Furthermore, in vivo imaging analyses demonstrated tumor-specific distribution of KM3566. We then confirmed rapid internalization and distribution to lysosome of KM3566 at a cellular level. Moreover, we revealed that the amounts of HB-EGF on cell surface membrane were maintained even while HB-EGF was internalized with KM3566. Recycled or newly synthesized HB-EGF, therefore, may contribute to a consecutive clearance of KM3566, which could explain a rapid clearance from serum. These data suggested that the rapid elimination in pharmacokinetics of KM3566 is due to antigen-dependent clearance. Given that its antigen is expressed in a wide range of normal tissue, it is estimated that the rapid elimination of KHK2866 from cynomolgus monkey serum is caused by antigen-dependent clearance.     

Roles of Dppa2 in the regulation of the present status and future of pluripotent stem cells

Heparin-binding epidermal growth factor-like growth factor (HB-EGF) is synthesized as a membrane-anchored protein, known as proHB-EGF. ProHB-EGF is cleaved by metalloproteases through a process referred to as 'ectodomain shedding', resulting in the formation of soluble HB-EGF. Both proHB-EGF and soluble HB-EGF are biologically active; the former acts on neighbouring cells through juxtacrine signalling, whereas the latter can move to distant locations. Elevated HB-EGF expression has been observed in ovarian and some other cancers. CRM197, a diphtheria toxin (DT) mutant, binds directly to the epidermal growth factor (EGF)-like domain and represses the mitogenic activity of HB-EGF. Recently, monoclonal antibodies (mAbs) specific for human HB-EGF were generated by immunizing HB-EGF-deficient mice with human HB-EGF (Hamaoka et al. (2010) J. Biochem. 148, 55-69). Most of the mAbs can bind to the EGF-like domain of HB-EGF, but fail to inhibit the mitogenic activity of soluble HB-EGF. However, some mAbs prevented the ectodomain shedding of proHB-EGF and inhibited the proliferation of EGF receptor-expressing cells stimulated by proHB-EGF-expressing cells. Hamaoka et al. showed that CRM197 prevents the ectodomain shedding of proHB-EGF. Thus, these mAbs function as specific inhibitors for the ectodomain shedding of HB-EGF and may be useful for treating cancers exhibiting elevated levels of HB-EGF.     

HaCaT keratinocyte migration is dependent on epidermal growth factor receptor signaling and glycogen synthase kinase-3alpha

After epithelial disruption by tissue injury, keratinocytes migrate from the wound edge into a provisional matrix. This process is stimulated by growth factors that signal through epidermal growth factor (EGF) receptor, including EGF, heparin-binding EGF-like growth factor (HB-EGF) and transforming growth factor-alpha (TGF-alpha), and by for example keratinocyte growth factor (KGF) and TGF-beta1 that function through different receptors. We have previously shown that keratinocyte migration induced by EGF or staurosporine is dependent on the activity of glycogen synthase kinase-3 (GSK-3). In the present study, we show that keratinocyte migration induced by TGF-beta1, KGF, EGF, TGF-alpha and staurosporine depends on EGFR signaling, involves autocrine HB-EGF expression and is potently blocked by GSK-3 inhibitors SB-415286 and LiCl. Inhibition of GSK-3 also retards wound reepithelialization in vivo in mice. Moreover, inhibition of GSK-3 activity prevented cell rounding that is an early event in EGFR-mediated keratinocyte migration. Isoform-specific GSK-3alpha and GSK-3beta knockdown and overexpression experiments with siRNAs and adenoviral constructs, respectively, revealed that GSK-3alpha is required for keratinocyte migration, whereas excessive activity of GSK-3beta is inhibitory. Thus, induction of keratinocyte migration is conveyed through EGFR, promoted by endogenous HB-EGF and requires GSK-3alpha activity.     

The anti-EGFR monoclonal antibody blocks cisplatin-induced activation of EGFR signaling mediated by HB-EGF

Cisplatin is a key agent in combination chemotherapy for various types of solid tumor. We now show that cisplatin activates signaling by the epidermal growth factor receptor (EGFR) by inducing cleavage of heparin-binding epidermal growth factor-like growth factor (HB-EGF). Matuzumab, a monoclonal antibody to EGFR, inhibited cisplatin-induced EGFR signaling, likely through competition with the soluble form of HB-EGF for binding to EGFR. Matuzumab enhanced the antitumor effect of cisplatin in nude mice harboring human non-small cell lung cancer xenografts. Our findings shed light on the mechanism by which monoclonal antibodies to EGFR might augment the efficacy of cisplatin.     

Isolation of B subunit‐specific monoclonal antibody clones that strongly neutralize the toxicity of Shiga toxin 2

Shiga toxin 2 (Stx2)‐specific mAb‐producing hybridoma clones were generated from mice. Because mice tend to produce small amounts of B subunit (Stx2B)‐specific antibodies at the polyclonal antibody level after immunization via the parenteral route, mice were immunized intranasally with Stx2 toxoids with a mutant heat‐labile enterotoxin as a mucosal adjuvant; 11 different hybridoma clones were obtained in two trials. Six of them were A subunit (Stx2A)‐specific whereas five were Stx2B‐specific antibody‐producing clones. The in vitro neutralization activity of Stx2B‐specific mAbs against Stx2 was greater than that of Stx2A‐specific mAbs on HeLa229 cells. Furthermore, even at low concentrations two of the Stx2B‐specific mAbs (45 and 75D9) completely inhibited receptor binding and showed in vivo neutralization activity against a fivefold median lethal dose of Stx2 in mice. In western blot analysis, these Stx2B‐specific neutralization antibodies did not react to three different mutant forms of Stx2, each amino acid residue of which was associated with receptor binding. Additionally, the nucleotide sequences of the V_H and V_L regions of clones 45 and 75D9 were determined. Our Stx2B‐specific mAbs may be new candidates for the development of mouse‐human chimeric Stx2‐neutralizing antibodies which have fewer adverse effects than animal antibodies for enterohemorrhagic Escherichia coli infection.     

Epidermal growth factor receptor expression in human gliomas

Summary The expression of epidermal growth factor receptor (EGFR) was determined in cryosections of 42 human gliomas using biotinylated epidermal growth factor (B-EGF) and two monoclonal antibodies (mAb) against EGFR. All gliomas were found to express EGFR when examined with B-EGF, whereas 33 expressed EGFR when examined with the two mAbs. The highly malignant gliomas (glioblastomas and anaplastic astrocytomas) had a more heterogeneous staining pattern and a larger proportion of tumour cells staining strongly with B-EGF than did the low-grade gliomas (astrocytomas, oligodendrogliomas, mixed gliomas, and ependymomas). This indicates that high-grade gliomas contain more tumour cells rich in EGFR than do the low-grade gliomas. Reactive astrocytes, ependymal cells, and many types of nerve cells (cerebral cortical pyramidal cells, pyramidal and granular hippocampal cells, Purkinje cells, cerebellar granular cells and neurons in the molecular layer of the cerebellum) expressed EGFR, whereas small neurons and normal glial cells were not found to express EGFR.     

Contact-dependent growth inhibition and apoptosis of epidermal growth factor (EGF) receptor-expressing cells by the membrane-anchored form of heparin-binding EGF-like growth factor.

Heparin-binding epidermal growth factor-like growth factor (HB-EGF) transduces mitogenic signals through the EGF receptor (EGFR). There are two forms of HB-EGF, the membrane-anchored form (pro-HB-EGF) and the soluble form (sHB-EGF). We studied the biological activity of pro-HB-EGF by using a model in which pro-HB-EGF-expressing effector cells was co-cultured with EGFR-expressing target cells. The DER cell, an EGFR-expressing derivative of the interleukin-3-dependent hematopoietic 32D cell line, grows well in the presence of EGF or sHB-EGF without IL-3. When DER cells were co-cultured on a monolayer of Vero-H cells overexpressing pro-HB-EGF, growth inhibition and subsequent apoptosis were induced in the DER cells even in the presence of excess amounts of EGF or sHB-EGF. Such growth inhibition of DER cells was abrogated when specific antagonists for pro-HB-EGF were added in the culture medium or when direct contact of DER cells with Vero-H cells was prevented, indicating that pro-HB-EGF is involved in this inhibitory effect. Pro-HB-EGF-induced apoptosis of DER cells was also observed even in the presence of IL-3. This rules out the possibility of simple competition between soluble EGFR ligands and pro-HB-EGF. Moreover, 32D cells expressing EGFR mutant composed of the extracellular and the transmembrane domain of EGFR and the cytoplasmic domain of erythropoietin receptor did not undergo apoptosis by co-culture with Vero-H cells, indicating that the inhibitory signal induced by pro-HB-EGF-expressing Vero-H cells is mediated to DER cells via EGFR and that the cytoplasmic domain of EGFR is essential for pro-HB-EGF-induced apoptosis. From these results, we concluded that pro-HB-EGF has unique biological activity through cell-cell contact that is distinct from the activity of sHB-EGF.     

Heparin-binding EGF-like growth factor: a juxtacrine growth factor

Heparin-binding EGF-like growth factor (HB-EGF), which belongs to the EGF-family growth factors, is synthesized as a membrane-anchored form (proHB-EGF). Proteolytic cleavage of proHB-EGF at the extracellular domain yields the soluble form of HB-EGF (sHB-EGF). ProHB-EGF is not only the precursor molecule for sHB-EGF but also a biologically active molecule itself. Recent studies indicate that proHB-EGF has unique properties distinct from the soluble form. ProHB-EGF forms a complex with membrane proteins including a tetramembrane spanning protein: CD9, an adhesion molecule integrin: 3β1, and heparan sulfate proteoglycans. The complex is localized at the cell–cell contact site, suggesting that proHB-EGF may function in cell-to-cell signaling by a juxtacrine mechanism. In an in vitro model system, proHB-EGF showed growth inhibitory activity, while sHB-EGF was growth stimulatory. Ectodomain shedding, conversion of the membrane-anchored form into the soluble form, is regulated by multiple signaling pathways. All these characteristics imply that proHB-EGF and sHB-EGF are used in different ways. In vivo functions of sHB-EGF and proHB-EGF have been largely undefined, but recent studies implicate them in a variety of physiological processes including blastocyst implantation and wound healing.     

人乳头瘤病毒（HPV）58型中和单克隆抗体的制备及初步应用

人乳头瘤病毒（human papillomavirus,HPV）58型是宫颈癌的主要诱因之一. HPV58在亚洲地区宫颈癌组织中的检出率仅次于HPV16/18. HPV58中和单克隆抗体可用于 HPV病毒样颗粒（virus-like particle,VLP）疫苗的研究,并为病毒感染入侵机制的 研究提供实验材料. 本研究采用HPV58 L1 VLP免疫BALB/c小鼠,取其脾细胞进行杂交瘤 细胞的制备,通过VLP-ELISA和假病毒中和实验筛选杂交瘤细胞株;经rProtein A纯化 阳性杂交瘤细胞培养上清获得单抗;采用ELISA测定型别特异性中和单抗的亲和力,采用相加实验及变性VLP-ELISA分析单抗识别表位的性质;选取高亲和力单抗建立定量分 析HPV58 L1 VLP的ELISA方法. 获得了2株HPV58特异性中和单抗XM-22和XM-23,亲和常数分别为2.7×107 mol-1·L和1.9×106 mol-1·L,二者识别表位可能不同. 同时获得2株具有交叉中和活性的单抗XM-21和XM-24,除可较高水平中和HPV58外,还可分别交叉 中和亲缘关系较远的HPV18和HPV6. 以XM-22建立的ELISA方法定量分析HPV58 L1 VLP的检测范围为0.05 μg/mL~0.40 μg/mL. 本研究建立的ELISA方法可用于HPV58 L1 VLP疫苗生产的质量控制研究,获得的4株具有不同特点的中和单抗可用于HPV58感染入侵机制 的研究.