Structural and Functional Glycobiology Unit, UMR CNRS 8576, University of Sciences and Technologies of Lille, 59655 Villeneuve d'Ascq, France.
CEDOC, Departamento de Imunologia, Faculdade de Ciências Médicas, Universidade Nova de Lisboa, 1169-056 Lisboa, Portugal.
Biomolecules. 2012 Oct 11;2(4):435-66. doi: 10.3390/biom2040435.
Sialyl-Tn antigen (STn) is a short O-glycan containing a sialic acid residue a2,6-linked to GalNAca-O-Ser/Thr. The biosynthesis of STn is mediated by a specific sialyltransferase termed ST6GalNAc I, which competes with O-glycans elongating glycosyltransferases and prevents cancer cells from exhibiting longer O-glycans. While weakly expressed by fetal and normal adult tissues, STn is expressed by more than 80% of human carcinomas and in all cases, STn detection is associated with adverse outcome and decreased overall survival for the patients. Because of its pan-carcinoma expression associated with an adverse outcome, an anti-cancer vaccine, named Theratope, has been designed towards the STn epitope. In spite of the great enthusiasm around this immunotherapy, Theratope failed on Phase III clinical trial. However, in lieu of missing this target, one should consider to revise the Theratope design and the actual facts. In this review, we highlight the many lessons that can be learned from this failure from the immunological standpoint, as well as from the drug design and formulation and patient selection. Moreover, an irrefutable knowledge is arising from novel immunotherapies targeting other carbohydrate antigens and STn carrier proteins, such as MUC1, that will warrantee the future development of more successful anti-STn immunotherapy strategies.
唾液酸化-Tn 抗原(STn)是一种短的 O-聚糖,含有一个唾液酸残基 a2,6-连接到 GalNAca-O-Ser/Thr。STn 的生物合成由一种特定的唾液酸转移酶介导,称为 ST6GalNAc I,它与 O-聚糖延长糖基转移酶竞争,防止癌细胞表现出更长的 O-聚糖。虽然在胎儿和正常成人组织中表达较弱,但 STn 超过 80%的人类癌和在所有情况下,STn 的检测与不良结果和患者总生存率降低有关。由于其与不良结果相关的泛癌表达,一种名为 Theratope 的抗癌疫苗已针对 STn 表位设计。尽管这种免疫疗法引起了极大的热情,但 Theratope 在 III 期临床试验中失败了。然而,与其错过这个目标,人们应该考虑修改 Theratope 的设计和实际情况。在这篇综述中,我们从免疫学角度以及药物设计和配方以及患者选择方面,强调了可以从这一失败中吸取的许多经验教训。此外,针对其他碳水化合物抗原和 STn 载体蛋白(如 MUC1)的新型免疫疗法产生了无可争议的知识,这将保证未来开发出更成功的抗-STn 免疫治疗策略。
