Baker J R, Lukes Y G, Burman K D
J Clin Invest. 1984 Aug;74(2):488-95. doi: 10.1172/JCI111446.
Previous studies have shown that anti-idiotypic antibodies can be developed in vivo through animal immunization with idiotype, and that these antibodies can be isolated from other anti-immunoglobulin antibodies by affinity purification. These techniques have relied on large amounts of idiotype, which were produced either by hyperimmunization or by monoclonal antibodies, to serve as the affinity adsorbent. In the present study, we produced anti-idiotypic antibodies to human anti-thyroid-stimulating hormone (TSH) receptor antibodies by first injecting rabbits with (TSH receptor purified) IgG from Graves' patients. The resulting antiserum was then adsorbed with Sepharose-coupled TSH in an attempt to specifically bind and isolate the anti-idiotype. The antibody obtained from this process was shown to bind specifically to TSH receptor-binding antibodies from Graves' patients, and this binding could be inhibited by 56% with the addition of 10(-4) M TSH but not by HCG (10(-2) M). The anti-idiotype also bound to TSH, and this binding could be specifically inhibited by receptor-purified Graves' IgG (60% inhibition at 10 micrograms/ml IgG), but not by IgG from normal subjects (no inhibition at 50 micrograms/ml IgG). In a TSH receptor binding assay, the anti-idiotype could inhibit TSH receptor binding in Graves' sera at a 1,000-fold lower concentration than could anti-kappa/lambda antiserum; the anti-idiotypic antiserum also inhibited in vitro TSH-mediated adenylate cyclase stimulation at an IgG concentration of 5 micrograms/ml, while heterologous anti-TSH antisera and normal IgG at similar concentrations had no effect. Finally, despite being generated against a single patient's TSH receptor binding antibody, the anti-idiotype was able to block TSH receptor binding in the serum of six other Graves' patients, thus suggesting that there may be conformational conservation in the antigen that is recognized by different individuals' TSH receptor-binding immunoglobulins.
先前的研究表明,通过用独特型对动物进行免疫,可在体内产生抗独特型抗体,并且这些抗体可通过亲和纯化从其他抗免疫球蛋白抗体中分离出来。这些技术依赖于通过超免疫或单克隆抗体产生的大量独特型,以用作亲和吸附剂。在本研究中,我们首先给兔子注射来自格雷夫斯病患者的(纯化的促甲状腺激素(TSH)受体)IgG,从而产生针对人抗促甲状腺激素受体抗体的抗独特型抗体。然后用与琼脂糖偶联的TSH吸附所得抗血清,试图特异性结合并分离抗独特型。从该过程中获得的抗体显示出能特异性结合来自格雷夫斯病患者的TSH受体结合抗体,并且加入10⁻⁴ M TSH可使这种结合受到56%的抑制,但加入10⁻² M人绒毛膜促性腺激素(HCG)则无抑制作用。该抗独特型还能结合TSH,并且这种结合可被受体纯化的格雷夫斯病IgG特异性抑制(在10微克/毫升IgG时抑制60%),但正常受试者的IgG(在50微克/毫升IgG时无抑制作用)则无此效果。在TSH受体结合试验中,抗独特型能以比抗κ/λ抗血清低1000倍的浓度抑制格雷夫斯病血清中的TSH受体结合;抗独特型抗血清在IgG浓度为5微克/毫升时也能抑制体外TSH介导的腺苷酸环化酶刺激,而类似浓度的异源抗TSH抗血清和正常IgG则无作用。最后,尽管该抗独特型是针对单个患者的TSH受体结合抗体产生的,但它能够阻断其他六名格雷夫斯病患者血清中的TSH受体结合,因此表明不同个体的TSH受体结合免疫球蛋白所识别的抗原可能存在构象保守性。