Yin Beatrice W T, Kiyamova Ramziya, Chua Ramon, Caballero Otavia L, Gout Ivan, Gryshkova Vitalina, Bhaskaran Nimesh, Souchelnytskyi Serhiy, Hellman Ulf, Filonenko Valeriy, Jungbluth Achim A, Odunsi Kunle, Lloyd Kenneth O, Old Lloyd J, Ritter Gerd
Ludwig Institute for Cancer Research, New York Branch at Memorial Sloan-Kettering Cancer Center, New York, NY 10065, USA.
Cancer Immun. 2008 Feb 6;8:3.
Mouse monoclonal antibody MX35 was developed against ovarian cancer. The antibody showed homogeneous reactivity with approximately 90% of human ovarian epithelial cancers and with a limited number of normal tissues by immunohistochemistry. Although mAb MX35 has been used in a number of clinical trials in ovarian cancer, it has been difficult to define the molecular identity of MX35. We report here that mAb MX35 recognizes the sodium-dependent phosphate transport protein 2b (NaPi2b) in human cancer cells. This conclusion is based on several lines of experimental evidence, including 1) the identification of SLC34A2, the gene coding for NaPi2b, by immunoscreening an ovarian cancer cell line cDNA expression library with mAb MX35; 2) mass spectrometry sequencing of peptides obtained by fragmentation from mAb MX35 affinity-purified antigen, which show complete sequence homology to amino acid sequences in NaPi2b; 3) selective down-regulation of SLC34A2 gene expression by RNA interference and the resulting loss of mAb MX35 binding to MX35-expressing human cancer cells; and 4) the demonstration of specific mAb MX35 reactivity with recombinant fusion proteins and with synthetic peptides of the putative largest extracellular loop of NaPi2b. We further show that NaPi2b in cancer cells is expressed on the cell surface as a heavily N-glycosylated protein, with evidence of additional post-translational modifications such as palmitoylation and the formation of disulfide bridges in the major extracellular loop. Membrane transporter molecules, such as NaPi2b, represent a new family of potential cell surface targets for the immunotherapy of cancer with monoclonal antibodies.
小鼠单克隆抗体MX35是针对卵巢癌研制的。通过免疫组织化学方法,该抗体与约90%的人卵巢上皮癌以及数量有限的正常组织呈现出均匀的反应性。尽管单克隆抗体MX35已用于多项卵巢癌临床试验,但一直难以确定MX35的分子身份。我们在此报告,单克隆抗体MX35在人癌细胞中识别钠依赖性磷酸盐转运蛋白2b(NaPi2b)。这一结论基于多条实验证据,包括:1)用单克隆抗体MX35对卵巢癌细胞系cDNA表达文库进行免疫筛选,鉴定出编码NaPi2b的基因SLC34A2;2)对从单克隆抗体MX35亲和纯化抗原片段化得到的肽段进行质谱测序,结果显示与NaPi2b中的氨基酸序列具有完全的序列同源性;3)通过RNA干扰选择性下调SLC34A2基因表达,导致单克隆抗体MX35与表达MX35的人癌细胞的结合丧失;4)证明单克隆抗体MX35与重组融合蛋白以及NaPi2b假定最大细胞外环的合成肽具有特异性反应。我们进一步表明,癌细胞中的NaPi2b作为一种高度N-糖基化的蛋白表达于细胞表面,有证据表明存在额外的翻译后修饰,如棕榈酰化以及在主要细胞外环中形成二硫键。膜转运分子,如NaPi