Screnci Brad, Stafford Lewis J, Barnes Trevor, Shema Kristen, Gilman Samantha, Wright Rebecca, Al Absi Suzie, Phillips Tim, Azuelos Charles, Slovik Katherine, Murphy Paige, Harmon Daniel B, Charpentier Tom, Doranz Benjamin J, Rucker Joseph B, Chambers Ross
Integral Molecular, 3711 Market Street, Suite 900, Philadelphia, PA 19104, USA.
iScience. 2022 Nov 24;25(12):105665. doi: 10.1016/j.isci.2022.105665. eCollection 2022 Dec 22.
The tight junction protein claudin 6 (CLDN6) is differentially expressed on cancer cells with almost no expression in healthy tissue. However, achieving therapeutic MAb specificity for this 4 transmembrane protein is challenging because it is nearly identical to the widely expressed CLDN9, with only 3 extracellular amino acids different. Most other CLDN6 MAbs, including those in clinical development are cross-reactive with CLDN9, and several trials have now been stopped. Here we isolated rare MAbs that bind CLDN6 with up to picomolar affinity and display minimal cross-reactivity with CLDN9, 22 other CLDN family members, or across the human membrane proteome. Amino acid-level epitope mapping distinguished the binding sites of our MAbs from existing clinical-stage MAbs. Atomic-level epitope mapping identified the structural mechanism by which our MAbs differentiate CLDN6 and CLDN9 through steric hindrance at a single molecular contact point, the γ carbon on CLDN6 residue Q156.
紧密连接蛋白claudin 6(CLDN6)在癌细胞上有差异表达,在健康组织中几乎不表达。然而,针对这种四跨膜蛋白实现治疗性单克隆抗体(MAb)的特异性具有挑战性,因为它与广泛表达的CLDN9几乎相同,仅3个细胞外氨基酸不同。大多数其他CLDN6单克隆抗体,包括那些处于临床开发阶段的,都与CLDN9有交叉反应,现在已有几项试验停止。在此,我们分离出了罕见的单克隆抗体,它们以高达皮摩尔的亲和力结合CLDN6,并且与CLDN9、其他22个CLDN家族成员或整个人类膜蛋白质组的交叉反应性极低。氨基酸水平的表位作图区分了我们的单克隆抗体与现有临床阶段单克隆抗体的结合位点。原子水平的表位作图确定了我们的单克隆抗体通过在单个分子接触点(CLDN6残基Q156上的γ碳)的空间位阻来区分CLDN6和CLDN9的结构机制。
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