Institut Pasteur de Montevideo, Unit of Protein Crystallography, Montevideo, Uruguay.
PLoS Pathog. 2012 Jan;8(1):e1002474. doi: 10.1371/journal.ppat.1002474. Epub 2012 Jan 5.
Trans-sialidase (TS), a virulence factor from Trypanosoma cruzi, is an enzyme playing key roles in the biology of this protozoan parasite. Absent from the mammalian host, it constitutes a potential target for the development of novel chemotherapeutic drugs, an urgent need to combat Chagas' disease. TS is involved in host cell invasion and parasite survival in the bloodstream. However, TS is also actively shed by the parasite to the bloodstream, inducing systemic effects readily detected during the acute phase of the disease, in particular, hematological alterations and triggering of immune cells apoptosis, until specific neutralizing antibodies are elicited. These antibodies constitute the only known submicromolar inhibitor of TS's catalytic activity. We now report the identification and detailed characterization of a neutralizing mouse monoclonal antibody (mAb 13G9), recognizing T. cruzi TS with high specificity and subnanomolar affinity. This mAb displays undetectable association with the T. cruzi superfamily of TS-like proteins or yet with the TS-related enzymes from Trypanosoma brucei or Trypanosoma rangeli. In immunofluorescence assays, mAb 13G9 labeled 100% of the parasites from the infective trypomastigote stage. This mAb also reduces parasite invasion of cultured cells and strongly inhibits parasite surface sialylation. The crystal structure of the mAb 13G9 antigen-binding fragment in complex with the globular region of T. cruzi TS was determined, revealing detailed molecular insights of the inhibition mechanism. Not occluding the enzyme's catalytic site, the antibody performs a subtle action by inhibiting the movement of an assisting tyrosine (Y₁₁₉), whose mobility is known to play a key role in the trans-glycosidase mechanism. As an example of enzymatic inhibition involving non-catalytic residues that occupy sites distal from the substrate-binding pocket, this first near atomic characterization of a high affinity inhibitory molecule for TS provides a rational framework for novel strategies in the design of chemotherapeutic compounds.
唾液酸转移酶(TS)是克氏锥虫的一种毒力因子,是参与这种原生动物寄生虫生物学的关键酶。在哺乳动物宿主中不存在,它构成了开发新型化学治疗药物的潜在靶标,这是对抗恰加斯病的迫切需要。TS 参与宿主细胞的入侵和寄生虫在血液中的存活。然而,TS 也被寄生虫积极地分泌到血液中,诱导在疾病的急性期很容易检测到的全身效应,特别是血液学改变和触发免疫细胞凋亡,直到产生特异性中和抗体。这些抗体构成了 TS 催化活性的唯一已知亚毫摩尔抑制剂。我们现在报告了一种中和性的小鼠单克隆抗体(mAb 13G9)的鉴定和详细特征,该抗体识别 T. cruzi TS 具有高度特异性和亚纳摩尔亲和力。该 mAb 与 T. cruzi TS 超家族的 TS 样蛋白或 yet 与 T. brucei 或 T. rangeli 的 TS 相关酶几乎没有关联。在免疫荧光测定中,mAb 13G9 标记了感染性的锥虫鞭毛体阶段的 100%寄生虫。该 mAb 还降低了寄生虫对培养细胞的侵袭,并强烈抑制寄生虫表面的唾液酸化。mAb 13G9 抗原结合片段与 T. cruzi TS 球状结构域复合物的晶体结构已被确定,揭示了抑制机制的详细分子见解。该抗体不阻断酶的催化部位,而是通过抑制辅助酪氨酸(Y₁₁₉)的运动来发挥微妙的作用,已知该酪氨酸的移动在转糖苷酶机制中起着关键作用。作为涉及占据远离底物结合口袋的位点的非催化残基的酶抑制的一个例子,这种对 TS 的高亲和力抑制分子的首次近原子表征为化学治疗化合物的设计提供了新的策略的合理框架。
