化学
生物正交化学
结合
酶
荧光
荧光团
生物化学
部分
突变体
分子探针
生物结合
组合化学
共轭体系
定向进化
荧光寿命成像显微镜
癌细胞
突变
英特因
蛋白质工程
生物物理学
分子生物学
人工酶
分子成像
活体细胞成像
报告基因
绿色荧光蛋白
DNA
纳米探针
作者
Ziyi Wang,Ryosuke Kojima,Rikuki Kiji,Kyohhei Fujita,Ryo Tachibana,Reiko Tsuchiya,Taku Uchiyama,Yoshihiro Minagawa,Tadahaya Mizuno,Kiyohiko Igarashi,Hiroyuki Noji,Mako Kamiya,Yasuteru Urano
摘要
Combinatorial use of an antibody-reporter enzyme conjugate and a fluorescence probe activated by the enzyme is a powerful strategy for fluorescence-guided cancer surgery. However, conventional probes for typical reporter enzymes lack sufficient bioorthogonality, leading to high background signals in nontarget tissues. We screened a library of HMRef (rhodol derivative)-based fluorescence probes with various sugar moieties and found that HMRef-β-d-Fucose is bioorthogonal in mammalian systems but is activated by a metagenomic glycosidase, Td2F2. Directed evolution generated a mutant with a kcat/Km of 3.3 × 105/M/sec, 7.3 times higher than wild-type Td2F2 and comparable to β-galactosidase (LacZ) with its corresponding probe. Theoretical calculation suggested the E296G mutation facilitates probe access to the enzyme's active site. In a proof-of-concept study, SKOV-3 cells, which endogenously express HER2, were visualized with minimal background in the mesentery of a mouse model using HMRef-β-d-Fucose and engineered Td2F2 conjugated or fused to a HER2-binding antibody or nanobody.
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