Chapiro Jacques, Claverol Stéphane, Piette Fanny, Ma Wenbin, Stroobant Vincent, Guillaume Benoît, Gairin Jean-Edouard, Morel Sandra, Burlet-Schiltz Odile, Monsarrat Bernard, Boon Thierry, Van den Eynde Benoît J
Ludwig Institute for Cancer Research, Brussels Branch, and Cellular Genetics Unit, Université Catholique de Louvain (UCL), Brussels, Belgium.
J Immunol. 2006 Jan 15;176(2):1053-61. doi: 10.4049/jimmunol.176.2.1053.
The immunoproteasome (IP) is usually viewed as favoring the production of antigenic peptides presented by MHC class I molecules, mainly because of its higher cleavage activity after hydrophobic residues, referred to as the chymotrypsin-like activity. However, some peptides have been found to be better produced by the standard proteasome. The mechanism of this differential processing has not been described. By studying the processing of three tumor antigenic peptides of clinical interest, we demonstrate that their differential processing mainly results from differences in the efficiency of internal cleavages by the two proteasome types. Peptide gp100(209-217) (ITDQVPSFV) and peptide tyrosinase369-377 (YMDGTMSQV) are destroyed by the IP, which cleaves after an internal hydrophobic residue. Conversely, peptide MAGE-C2(336-344) (ALKDVEERV) is destroyed by the standard proteasome by internal cleavage after an acidic residue, in line with its higher postacidic activity. These results indicate that the IP may destroy some antigenic peptides due to its higher chymotrypsin-like activity, rather than favor their production. They also suggest that the sets of peptides produced by the two proteasome types differ more than expected. Considering that mature dendritic cells mainly contain IPs, our results have implications for the design of immunotherapy strategies.
免疫蛋白酶体(IP)通常被认为有利于由MHC I类分子呈递的抗原肽的产生,主要是因为其在疏水残基后具有更高的切割活性,即所谓的类胰凝乳蛋白酶活性。然而,已发现一些肽由标准蛋白酶体产生的效果更好。这种差异加工的机制尚未得到描述。通过研究三种具有临床意义的肿瘤抗原肽的加工过程,我们证明它们的差异加工主要源于两种蛋白酶体类型内部切割效率的差异。肽gp100(209 - 217)(ITDQVPSFV)和肽酪氨酸酶369 - 377(YMDGTMSQV)被IP破坏,IP在内部疏水残基后进行切割。相反,肽MAGE - C2(336 - 344)(ALKDVEERV)被标准蛋白酶体在酸性残基后通过内部切割破坏,这与其更高的酸性后活性一致。这些结果表明,IP可能因其较高的类胰凝乳蛋白酶活性而破坏一些抗原肽,而不是有利于它们的产生。它们还表明,两种蛋白酶体类型产生的肽组差异比预期的更大。考虑到成熟树突状细胞主要含有IP,我们的结果对免疫治疗策略的设计具有启示意义。
