Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.8 (FAST)
 758 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anterior Gradient 2 (AGR2) is a potential anti-tumor target and we previously reported a murine antibody 18A4 with specific binding to AGR2. However, humanization is a must to overcome immunogenicity before considering for clinical use and optimized vectors for mammalian expression are also necessary for following industrialized manufacture. Here, we describe an anti-tumor humanized antibody blocking secreted AGR2 activity. We employed the CDR grafting technique and deimmunization analysis to construct humanized antibody variants of 18A4, and 18A4Hu I was selected as the best humanization candidate, characterized by physical and chemical property comparison. Mouse xenograft study showed that 18A4Hu I could effectively inhibit the xenograft tumor growth, antibody blocking epitope analysis using AGR2 mutants indicated that the inhibition activity of 18A4Hu I is exerted probably through blocking the AGR2 functions which rely on the amino acid sites of E60-H76 and A86-E153. What's more, in this report, we also describe a pHAb-FAST vector system which is specifically designed for humanized antibody mammalian expression vector fast construction. With pHAb-FAST system, expression vector of 18A4Hu I could be quickly constructed only through twice overlapping PCR reactions. To our knowledge, AGR2-targeted 18A4Hu I is a promising humanized anti-tumor drug candidate, and pHAb-FAST system is a useful optimized mammalian expression vector construction tool. Our findings are supposed to accelerate the development of antibody-based cancer therapy.
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PMID:A humanized monoclonal antibody targeting secreted anterior gradient 2 effectively inhibits the xenograft tumor growth. 2716 54

In healthy tissue, the tight junction protein Claudin 18.2 (CLDN18.2) is present only in the gastric mucosa. Upon malignant transformation of gastric epithelial tissue, perturbations in cell polarity lead to cell surface exposure of CLDN18.2 epitopes. Moreover, CLDN18.2 is aberrantly expressed in malignancies of several other organs, such as pancreatic cancer (PC). A monoclonal antibody, zolbetuximab (formerly known as IMAB362), has been generated against CLDN18.2. In a phase 2 clinical trial (FAST: NCT01630083), zolbetuximab in conjunction with chemotherapy prolonged overall and progression-free survival over chemotherapy alone and improved quality of life. In this study, the mechanism of action and antitumor activity of zolbetuximab were investigated using nonclinical PC models. Zolbetuximab bound specifically and with strong affinity to human PC cells that expressed CLDN18.2 on the cell surface. In ex vivo systems using immune effector cells and serum from healthy donors, zolbetuximab induced antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC), resulting in the lysis of cultured human PC cells. The amplitude of ADCC and CDC directly correlated with cell surface CLDN18.2 levels. The chemotherapeutic agent gemcitabine upregulated CLDN18.2 expression in cultured human PC cells and enhanced zolbetuximab-induced ADCC. In mouse xenograft tumors derived from human PC cell lines, including gemcitabine-refractory ones, zolbetuximab slowed tumor growth, benefited survival, and attenuated metastases development. The results presented here validate CLDN18.2 as a targetable biomarker in PC and support extension of the clinical development of zolbetuximab to patients with CLDN18.2-expressing PC.
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PMID:Characterization of zolbetuximab in pancreatic cancer models. 3054 62