PBP2a多克隆抗体制备及其乳胶凝集检测法的建立

目的制备兔抗青霉素结合蛋白2a(penicillin binding protein 2a,PBP2a)抗体,建立检测PBP2a的乳胶凝集法。方法以重组PBP2a转肽酶区蛋白免疫家兔制备多克隆抗体,ELISA和Western blot法检测所制备的抗血清效价和特异性,用纯化的多抗建立乳胶凝集法。结果纯化的重组蛋白免疫家兔能有效地刺激特异性抗体的产生,抗血清的效价达1∶25 600,Western blot显示该抗体能有效识别原核表达及MRSA临床分离株中的PBP2a,建立了乳胶凝集法,敏感性及特异性良好。结论成功制备了抗PBP2a抗体血清,初步建立了检测PBP2a的乳胶凝集法,为有效制备高特异的单克隆抗体进而研制MRSA快速鉴定试剂盒奠定了良好的基础。     

抗胱抑素C鸡卵黄IgY抗体的制备及鉴定

目的:制备高效价、高特异性的抗人胱抑素 C 鸡卵黄 IgY 抗体,并对其基本特性进行分析和鉴定.方法:以人胱抑素 C 为抗免疫产蛋的罗曼鸡,采用水稀释-盐析法提取及纯化 IgY 抗体,采用蛋白质定量、SDS-PAGE、West?ern 印迹和 ELISA 法对 IgY 抗体进行分析和鉴定.结果:免疫后14 d 即可从鸡冠血中检测出抗胱抑素 C 的特异性抗体,抗体效价在28 d 达最高峰(1∶32000),并可维持2个月以上;收集高效价时的免疫鸡蛋,制备鸡卵黄抗体 IgY;还性 SDS-PAGE 显示抗体 IgY 为相对分子质量分别为65×103和21×103的2条带,抗体纯度可达92%,得率为每个鸡蛋36.5 mg,抗体检出敏感度为15.63 ng/mL;Western 印迹证明该抗体具有高度特异性.结论:制备了抗胱抑素 C 的高效价、高特异性 IgY 抗体.     

鸡卵黄抗体IgY的分离纯化及鉴定

采用水溶稀释法结合硫酸钠二次盐析沉淀法分离纯化鸡卵黄中蛋白IgY,实验中比较了不同pH值的水溶稀释液对卵黄除脂效果的影响;并采用SDS-PAGE及western blotting对提取产物进行鉴定。结果显示,pH值5.2水溶稀释液除脂效果最好,IgY得率最高。实验优化了鸡卵黄抗体IgY分离纯化技术,得到的IgY产量高、纯度高,特异性强;此外,水溶稀释法制备IgY具有利用小体积样品获得大量蛋白及纯化效率高的优点。     

抗HIV-1 p15(gag)IgY抗体的制备及活性检测

目的:制备具有高效价强特异性的抗HIV-1 p15(gag)鸡卵黄抗体(IgY),纯化并分析其免疫学活性。方法:用纯化的HIV-1 p15(gag)蛋白抗原免疫蛋鸡,用水稀释法对IgY抗体进行粗提取并结合乙醇沉淀和氯化钠盐析法纯化抗体,再通过SDS-PAGE、Western blot、酶联免疫吸附实验(ELISA)检测抗体的纯度、特异性及效价。结果:表达纯化的HIV-1 p15(gag)-GST融合蛋白分子量为45kDa,用于抗体检测的抗原。用纯化的His-P15蛋白作为免疫原免疫蛋鸡后,获得的卵黄抗体重链、轻链分子量分别为65kDa和25kDa。8倍体积水稀释卵黄,pH值5.1,20%冰乙醇及0.028mol/L盐溶液分离纯化,纯度可达96℅,每毫升卵黄液可得到的卵黄抗体为9.8mg。终浓度为18%～25%的冰乙醇纯化的抗体浓度高且稳定,同时具有较强的特异性和较高的效价。结论:用HIV-1p15(gag)蛋白免疫蛋鸡,可以获得高效价的特异性抗体IgY,为IgY抗体在HIV-1p15蛋白的研究奠定了实验基础。     

三种鸡形目雉科禽类卵黄抗体的纯化及二抗的制备

目的 纯化三种鸡形目雉科的禽类孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY,并且免疫家兔制备抗血清。方法 采用了水稀释法,HiTrap IgYPurification HP免疫亲和层析法和硫酸铵沉淀法纯化IgY。免疫家兔制备抗血清,免疫双扩散法测定效价。Protein-A亲和纯化兔抗IgY血清IgG。结果 经亲和纯化和盐析纯化,得到了孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY,经SDS-PAGE检测为电泳纯,孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY的相对分子质量约为180×10^3。免疫后经Protein-A亲和纯化后获得了兔抗IgY的IgG。结论 证实了孔雀、鹌鹑、贵妃鸡的卵黄抗体IgY的存在及其特性。雉科鸡形目禽类卵黄抗体的纯化方法 相似,可以推广到鸡形目其它禽类的卵黄抗体的纯化中,获得的抗血清可以进一步进行标记和今后抗原的检测。     

青霉素结合蛋白2a单克隆抗体的研制和初步应用

目的研制青霉素结合蛋白2a(PBP2a)单克隆抗体(Mc Ab),为建立耐甲氧西林金黄色葡萄球菌(MRSA)免疫层析检测方法提供检测用抗体。方法以基因工程抗原r PBP2a免疫BALb/c小鼠,通过常规小鼠B淋巴细胞杂交瘤技术制备单克隆抗体,采用免疫印迹技术(Western blotting)分析单克隆抗体特异性。选取敏感、特异的单克隆抗体进行金标记和硝酸纤维膜包被,建立胶体金免疫层析检测方法。结果共获得11株分泌抗r PBP2a的杂交瘤细胞,其中6株分泌的单克隆抗体能够与天然PBP2a呈阳性反应。用其中2株单克隆抗体建立的PBP2a胶体金免疫层析方法,可在5~20 min内完成检测。结论获得了特异性针对PBP2a蛋白的单克隆抗体,并初步建立了检测PBP2a蛋白的胶体金免疫层析检测方法,为临床快速、简便检测产生PBP2a的细菌提供了检测方法。     

艰难梭菌毒素B羧基端的表达与卵黄抗体制备

目的:在大肠杆菌中可溶性表达艰难梭菌毒素B羧基端(TcdB-c),免疫产蛋鸡,获得针对TcdB-c的卵黄抗体(IgY)。方法:人工合成TcdB-c的基因,将其克隆至pET32b(+)载体中,转化大肠杆菌BL21(DE3),诱导表达产物经金属螯合层析纯化,凝血酶酶切后得到目的蛋白TcdB-c;利用兔红细胞凝集和兔肠袢实验检测目的蛋白活性,用TcdB-c免疫产蛋鸡制备鸡卵黄抗体,分离纯化卵黄抗体并经ELISA测定抗体效价,用兔肠袢实验检测抗体的中和活性。结果:构建了TcdB-c的重组表达载体,诱导表达的融合蛋白相对分子质量约为79 000,经凝血酶酶切后的相对分子质量约65 000;目的蛋白免疫产蛋鸡后获得效价为1∶20 000的抗TcdB-c卵黄抗体,且该抗体可以中和TcdB-c对兔小肠的毒性作用。结论:获得了具有生物学活性的TcdB-c,并制备了针对TcdB-c的鸡卵黄抗体,为利用基因工程方法防治艰难梭菌感染打下了基础。     

艰难梭菌毒素B羧基端的表达与卵黄抗体制备简

目的：在大肠杆菌中可溶性表达艰难梭菌毒素B羧基端（TcdB-e）,免疫产蛋鸡,获得针对TcdB-c的卵黄抗体（IgY）。方法：人工合成TcdB-c的基因,将其克隆至pET32b（＋）载体中,转化大肠杆菌BL21（DE3）,诱导表达产物经金属螯合层析纯化,凝血酶酶切后得到目的蛋白TcdB-c;利用兔红细胞凝集和兔肠袢实验检测目的蛋白活性,用TcdB-c免疫产蛋鸡制备鸡卵黄抗体,分离纯化卵黄抗体并经ELISA测定抗体效价,用兔肠袢实验检测抗体的中和活性。结果：构建了TcdB-c的重组表达载体,诱导表达的融合蛋白相对分子质量约为79000,经凝血酶酶切后的相对分子质量约65000;目的蛋白免疫产蛋鸡后获得效价为1：20000的抗TcdB-C卵黄抗体,且该抗体可以中和TcdB-c对兔小肠的毒性作用。结论：获得了具有生物学活性的TcdB-C,并制备了针对TcdB-c的鸡卵黄抗体,为利用基因工程方法防治艰难梭菌感染打下了基础。     

抗生殖器疱疹病毒卵黄免疫球蛋白(IgY)的研究

检测了鸡卵黄中抗生殖器疱疹病毒(HSV-2)抗体的产量、纯度、来源及稳定性。采用生殖器疱疹病毒(HSV-2)作为抗原免疫广州黄村鸡。通过改良水稀释法提取卵黄中的IgY。双紫外光波长测定抗体含量,SDS-PAGE电泳检测抗体纯度。Western blot免疫印迹法测定该抗体来源。ELISA检测IgY对温度、酸碱度的稳定性。结果,蛋黄液中抗体质量浓度13.6g.L-1,抗体纯度达96.2%。免疫印迹证明IgY与鸡血清中的IgG具有相同的分子量和抗原性。IgY具有良好的热稳定性,对酸碱具有一定的耐受力。WD水稀释法能得到高产量、高纯度的特异性IgY,而且有良好的生物学活性。     

兔抗麻雀IgY酶标抗体的制备

目的制备辣根过氧化物酶（HRP）标记的兔抗麻雀IgY抗体,为禽类血清学检测体系的建立提供技术储备。方法硫酸铵盐析法粗提麻雀血清IgY,进一步在SDS-PAGE上分离后,切下带有目的条带的凝胶作为免疫原,免疫实验兔制备抗血清,Protein-A柱亲和纯化兔抗IgY血清IgG,,使用改良过碘酸钠法制备酶结合物。ELISA检测酶标抗体的工作浓度,western blotting检测酶标抗体的特异性。结果硫酸铵盐析法粗提IgY,可去除部分杂蛋白,SDS-PAGE上分离后切下带有目的条带的凝胶,可以得到足够纯度的抗原,将带有IgY的凝胶作为抗原免疫后获得的抗血清经Protein-A纯化后,二抗在SDS-PAGE上鉴定,纯度达到99%以上。改良的过碘酸钠法标记获得的抗体浓度为1.008 mg/mL,ELISA检测酶标抗体效价为1∶1000。Western blotting鉴定抗体具有特异性。结论获得了优质可靠的兔抗麻雀IgY酶标抗体。     

抗肺炎支原体卵黄抗体的制备及其免疫特性

目的制备抗肺炎支原体卵黄抗体,并研究其免疫特异性。方法以超声粉碎法制备肺炎支原体抗原;以ELISA法测定卵黄抗体的效价及免疫特异性;以水稀释法联合疏水层析的方法分离纯化卵黄抗体;应用SDS-PAGE法测定分子量及鉴定抗体纯度;改良Lowry法测定蛋白含量。结果低、高剂量组均诱导母鸡产生有效免疫应答,高剂量组免疫效价高于低剂量组。高剂量组于初免疫后约50d抗体效价达高峰,持续约2个月;而低剂量组在初免疫后约60d抗体效价达高峰,持续约1个月。之后效价逐渐下降,在免疫约120d,高剂量组由13log2下降到10log2;而低剂量组则由11log2下降到7log2。以水稀释法联合疏水层析法制备了电泳纯抗肺炎支原体IgY,分子量约178KD,平均每1ml卵黄液可获得较纯抗体6.4mg。制备的IgY与肺炎支原体具有较高特异性,与解脲支原体和人型支原体无明显交叉反应,与生殖支原体有轻度的交叉反应。结论本研究初步制备了抗肺炎支原体卵黄抗体,为肺炎支原体的防治与检测提供新的途径。     

Generation and application of chicken egg-yolk antibodies

Despite the fact that the use of chicken as immunization host brings many advantages to the production of polyclonal antibodies, the generation of egg yolk immunoglobulins (IgY) is rarely chosen. In this review, we report on the fast and efficient method for generation and affinity purification of IgY, in this case raised against the alpha-subunit of hypoxia-inducible factor-1 (HIF-1). The IgY antibody was successfully applied in a variety of methods and a number of different species for HIF-1alpha detection. In electrophoretic mobility shift assays, the IgY antibody recognized the native HIF-1 complex. The IgY antibody also detected HIF-1alpha protein on Western blots with extracts derived from human, monkey, pig, dog and mouse cell lines grown under hypoxic conditions. Immunofluorescence and immunoprecipitation experiments using the IgY antibody allowed detection and subcellular localization of HIF-1alpha in the nuclei of hypoxic cells. Chicken antibody production brings great benefit concerning the welfare of the immunized animals, due to non-invasive antibody harvesting with the added convenience of simple egg collection. An additional advantage is the fast and simple IgY isolation from egg yolk. IgY technology is a great improvement and should be considered as a good alternative to conventional polyclonal antibody production in mammals.     

Molecular stability of chicken and rabbit immunoglobulin G.

Molecular stability of chicken egg yolk immunoglobulin G (IgY) and that of rabbit IgG were compared by measuring antibody activities and conformational changes. Stability of rabbit IgG to acid denaturation was much higher than that of IgY. Conformation of the IgY molecule was readily changed in acidic conditions, resulting in a rapid loss of antibody activity. Much less stable natures of IgY to heat-treatment and guanidine-HCl denaturation than rabbit IgG were also observed. Differences in the structure between the two immunoglobulins that might participate in their different stability were inferred from their amino acid sequence data. Importance of the intramolecular disulfide linkage in the rabbit light chain and some other structural differences were suggested.     

IgY antibodies of chicken do not bind staphylococcal binder of immunoglobulin (Sbi) from Staphylococcus aureus

The immunoglobulin (Ig) binding proteins of Staphylococcus aureus namely staphylococcal protein A (SpA) and staphylococcal binder of immunoglobulin (Sbi) are responsible for false positives during immunoassays. Avian IgY antibodies were reported to have no affinity to SpA and thus are safe for use in immunoassays. However, the behaviour of Sbi with IgY was not reported. The purpose of the present study is to evaluate the interactions between IgY antibodies and Sbi protein from different S. aureus strains. Initially, heterologous cloning and expression of complete sbi gene in Escherichia coli was undertaken. Recombinant Sbi protein was utilized to generate polyclonal anti-Sbi IgY and anti-Sbi antibodies in chicken and BALB/c mice respectively. Indirect ELISA and Western blotting were performed to evaluate the reactivity of anti-Sbi antibodies. Non-reducing PAGE followed by Western blotting and double-antibody sandwich dot-ELISA were performed to analyze the reactivity of IgY antibodies with recombinant Sbi and native Sbi from S. aureus strains. To avoid the possible interference of enzyme-conjugated secondary antibodies from mammalian sources, mouse anti-Sbi revealing antibodies were labeled with biotin so that streptavidin-HRP was used as developing reagent for chromogenic reaction. Sbi was highly immunogenic in chicken and mouse with antibody titers of 1:128,000 and 1:64,000 dilutions respectively. We observed that unimmunized IgY antibodies showed no affinity to either recombinant Sbi or native Sbi from S. aureus strains in Western blotting and double antibody sandwich ELISA. In view of these observations, we recommend that IgY antibodies are safe and free from false positives due to SpA and Sbi in immunoassays involving detection of S. aureus antigens/exotoxins.     

鹭科和鸬鹚科卵黄抗体的纯化

目的 纯化鹭科具有代表性的夜鹭及鸬鹚科具有代表性的鸬鹚的卵黄抗体IgY。方法 采用了水稀释法和硫酸铵分级沉淀法粗提IgY,再过HiTrap IgY Purification HP柱子进一步纯化。结果 经两步纯化,得到了纯化的鸬鹚和夜鹭的卵黄抗体IgY,经SDS-PAGE检测为电泳纯,夜鹭和鸬鹚的卵黄抗体的相对分子质量约为180×10^3。结论 证实了鸬鹚和夜鹭的卵黄抗体IgY的存在及其特性,为这两种鸟类的卵黄抗体IgY纯化,二级抗体制备提供了参考。     

In Vitro Inhibition of Oral Candida albicans by Chicken Egg Yolk Antibody (IgY)

This study was conducted to measure Candida albicans-specific chicken egg yolk antibody (IgY) inhibition of fluconazole-sensitive and resistant strains of C. albicans in order to assess potential use in the prevention and treatment of oral candidiasis. In this study, laying hens were immunized, and IgY was extracted by water dilution. The Minimal Inhibitory Concentrations (MICs) of IgY for inhibiting C. albicans growth were determined using the broth microdilution method from the CLSI M27-A2 protocol. Fluconazole (FLC) was used as the control. The results were analyzed with the chi(2) test. The anti-Candida titer of anti-C. albicans IgY was 1:12,000. The concentration of the IgY extract that effectively inhibited the growth of C. albicans was between 1.25 g/l and 5.0 g/l, and the efficacy rate was 82.98% during the observed 24-48 h time period. No correlation was recorded between the drug resistance of FLC and growth inhibition by IgY. It was concluded that anti-C. albicans IgY inhibited the growth of C. albicans in vitro and there was no correlation between the drug resistance of FLC and the growth inhibition by IgY (P > 0.99).     

IgY抗体作为导向载体对消化系统肿瘤的选择性识别作用研究

用生物治疗方法治疗肿瘤已被视为肿瘤治疗的第四大疗法,其主要是免疫治疗．包括抗体与偶合物,肿瘤疫苗等。而要想获得有效的肿瘤治疗药物．其关键是要寻找小型化的、高效的导向载体。我们的实验室以低分化腺胃癌的P110癌蛋白作为抗原,免疫SPF鸡,从卵黄中提取抗体IgY作为植物毒素的导向性载体;实验结果证明,IgY能特异性地选择识别消化系统的肿瘤组织,为进一步研究肿瘤的导向药物提供了另一理论依据。     

Eliciting antigen-specific egg-yolk IgY with naked DNA

Immunization with naked DNA was used to elicit chicken egg yolk antibodies (IgY). Layer hens were inoculated with plasmid DNA encoding the enhanced green fluorescent protein, the fusion protein of Newcastle disease virus, and VP2 of African horse sickness virus. IgY was extracted from egg yolks by polyethylene glycol precipitation. Specific antibodies were present in the yolks of eggs from hens immunized with each of the three different plasmids. This approach to raising polyclonal antibodies obviates the need to produce and purify large quantities of proteins for immunization and can potentially yield large amounts of diagnostically or therapeutically useful reagents.     

Evaluation of Shiga toxin 2e‐specific chicken egg yolk immunoglobulin: Production and neutralization activity

Chicken egg yolk immunoglobulin (IgY) against Shiga toxin 2e (Stx2e), a major cause of swine edema disease, was prepared to evaluate its possible clinical applications. The titer of Stx2e‐specific IgY in egg yolk derived from three chickens that had been immunized with an Stx2e toxoid increased 2 weeks after primary immunization and remained high until 90 days after this immunization. Anti‐Stx2e IgY was found to neutralize the toxicity of Stx2e by reacting with its A and B subunits, indicating that IgY is a cost‐effective agent to develop for prophylactic foods or diagnosis kits for edema disease.