Diment S
Department of Pathology, New York University Medical Center, NY 10016.
J Immunol. 1990 Jul 15;145(2):417-22.
By using the model Ag, chicken OVA, the proteolytic events required for effective presentation of the antigenic epitope, OVA323-339 to H-2d-restricted Th cells were investigated. First, the ability of aspartyl and thiol proteases to generate antigenic fragments of Ova in vitro was determined. It was found that cathepsin D, an aspartyl protease, digested OVA to fragments that could be recognized by Th cells without further processing by APC. Cathepsin B, a thiol protease, was unable to generate antigenic fragments of OVA in vitro. These results provide evidence that APC do not require thiol protease activity for processing OVA. In contrast, APC were unable to present OVA to Th cells when thiol protease inhibitors were added to the incubation. Taken together, these observations indicate that thiol proteases may be important, not for processing, OVA, but for presentation of processed fragments by APC. This conclusion is supported by evidence obtained from experiments in which APC were treated with thiol protease inhibitors before addition of the antigenic peptide, OVA323-339. Under these conditions, the capacity of I-Ad at the cell surface to present OVA323-339 to Th cells was reduced. The results of these experiments provide evidence that Ag presentation of OVA may be achieved through the action of two different classes of proteases: aspartyl proteases such as cathepsin D, which process OVA to antigenic fragments, and thiol proteases such as cathepsin B, which are important for expression of functional MHC II molecules by APC.
通过使用模型抗原鸡卵清蛋白(OVA),研究了将抗原表位OVA323 - 339有效呈递给H - 2d限制性Th细胞所需的蛋白水解事件。首先,测定了天冬氨酸蛋白酶和巯基蛋白酶在体外产生OVA抗原片段的能力。发现天冬氨酸蛋白酶组织蛋白酶D将OVA消化成可被Th细胞识别的片段,无需抗原呈递细胞(APC)进一步加工。巯基蛋白酶组织蛋白酶B在体外无法产生OVA的抗原片段。这些结果证明APC加工OVA不需要巯基蛋白酶活性。相反,当向孵育体系中添加巯基蛋白酶抑制剂时,APC无法将OVA呈递给Th细胞。综上所述,这些观察结果表明巯基蛋白酶可能不是对OVA加工起重要作用,而是对APC呈递加工后的片段起重要作用。这一结论得到了相关实验证据的支持,在这些实验中,在添加抗原肽OVA323 - 339之前,先用巯基蛋白酶抑制剂处理APC。在这些条件下,细胞表面的I - Ad将OVA323 - 339呈递给Th细胞的能力降低。这些实验结果证明OVA的抗原呈递可能通过两类不同蛋白酶的作用来实现:如组织蛋白酶D这样的天冬氨酸蛋白酶,它将OVA加工成抗原片段;以及如组织蛋白酶B这样的巯基蛋白酶,它对APC功能性MHC II分子的表达很重要。
