Biotechnology Department, IPEN-CNEN, Av. Prof. Lineu Prestes 2242, Cidade Universitária, São Paulo, SP, 05508-900, Brazil.
Appl Microbiol Biotechnol. 2018 Feb;102(3):1215-1228. doi: 10.1007/s00253-017-8684-8. Epub 2017 Dec 15.
A strain of embryonic human kidney cells (HEK293) was transiently co-transfected with the expression vectors coding for the α- and β-subunits of human thyroid-stimulating hormone (hTSH), and, for the first time, a human cell-derived recombinant hTSH was synthesized and extensively characterized. The purification strategy involving two steps provided an overall yield of 55% and a purity level > 90%. The purified material (hTSH-HEK) was analyzed and compared to a CHO-derived recombinant preparation (hTSH-CHO) and to a pituitary-derived (hTSH-Pit) preparation. The three preparations showed an equivalent purity (> 95%) with a hTSH-HEK molecular mass 2.1% lower than that of hTSH-CHO and 2.7% higher than that of hTSH-Pit. Remarkable differences were found in the carbohydrate moiety, the lowest sialic acid content and highest fucose content being observed in hTSH-HEK. In vivo biological activity was confirmed for the three preparations, the hTSH-HEK bioactivity being 39 and 16% lower than those of hTSH-CHO and hTSH-Pit, respectively. The hTSH-HEK circulatory half-life (t ) was also shorter than those of hTSH-CHO (1.5-fold) and hTSH-Pit (1.2-fold). According to these findings, HEK-293-derived hTSH can be considered to be useful for clinical applications, in view as well of its human origin and particular carbohydrate composition.
一株人胚肾细胞(HEK293)瞬时共转染表达载体编码的人甲状腺刺激激素(hTSH)的α和β亚基,首次合成了人细胞源性重组 hTSH 并对其进行了广泛的鉴定。该纯化策略涉及两步,总产率为 55%,纯度水平>90%。纯化的材料(hTSH-HEK)与 CHO 衍生的重组制剂(hTSH-CHO)和垂体衍生的制剂(hTSH-Pit)进行了分析和比较。三种制剂的纯度相当(>95%),hTSH-HEK 的分子量比 hTSH-CHO 低 2.1%,比 hTSH-Pit 高 2.7%。在糖基部分发现了显著的差异,hTSH-HEK 的唾液酸含量最低,岩藻糖含量最高。三种制剂的体内生物活性均得到证实,hTSH-HEK 的生物活性比 hTSH-CHO 和 hTSH-Pit 分别低 39%和 16%。hTSH-HEK 的循环半衰期(t )也比 hTSH-CHO(1.5 倍)和 hTSH-Pit(1.2 倍)短。根据这些发现,考虑到 HEK-293 衍生的 hTSH 的人源性质和特殊的碳水化合物组成,它可被认为是用于临床应用的有用制剂。
