Reduced cytotoxicity by mutation of lysine 590 of Pseudomonas exotoxin can be restored in an optimized, lysine-free immunotoxin.

IF 4.1 Q2 IMMUNOLOGY Immunotherapy advances Pub Date : 2022-02-21 eCollection Date: 2022-01-01 DOI:10.1093/immadv/ltac007
A Ammon, L Mellenthin, C Emmerich, E Naschberger, M Stürzl, A Mackensen, F Müller
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引用次数: 1

Abstract

Immunotoxins, which are fusion proteins of an antibody fragment and a fragment of a bacterial or a plant toxin, induce apoptosis in target cells by inhibition of protein synthesis. ADP-ribosylating toxins often have few lysine residues in their catalytic domain. As they are the target for ubiquitination, the low number of lysines possibly prevents ubiquitin-dependent degradation of the toxin in the cytosol. To reduce this potential degradation, we aimed to generate a lysine-free (noK), Pseudomonas exotoxin (PE)-based immunotoxin. The new generation 24 kDa PE, which lacks all but the furin-cleavage site of domain II, was mutated at lysine 590 (K590) and at K606 in a CD22-targeting immunotoxin and activity was determined against various B cell malignancies in vitro and in vivo. On average, K590 mutated to arginine (R) reduced cytotoxicity by 1.3-fold and K606R enhanced cytotoxicity by 1.3-fold compared to wild type (wt). Mutating K590 to histidine or deleting K590 did not prevent this loss in cytotoxicity. Neither stability nor internalization rate of K590R could explain reduced cytotoxicity. These results highlight the relevance of lysine 590 for PE intoxication. In line with in vitro results, the K606R mutant was more than 1.8-fold more active than the other variants in vivo suggesting that this single mutation may be beneficial when targeting CD22-positive malignancies. Finally, reduced cytotoxicity by K590R was compensated for by K606R and the resulting lysine-free variant achieved wt-like activity in vitro and in vivo. Thus, PE24-noK may represent a promising candidate for down-stream applications that would interfere with lysines.

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假单胞菌外毒素赖氨酸590突变降低的细胞毒性可以在优化的无赖氨酸免疫毒素中恢复。
免疫毒素是抗体片段与细菌或植物毒素片段的融合蛋白,通过抑制蛋白质合成诱导靶细胞凋亡。adp核糖基化毒素在其催化结构域中通常只有很少的赖氨酸残基。由于它们是泛素化的目标,赖氨酸的低数量可能阻止了细胞溶胶中泛素依赖的毒素降解。为了减少这种潜在的降解,我们旨在产生一种不含赖氨酸(noK)的、基于假单胞菌外毒素(PE)的免疫毒素。新一代24 kDa PE,除了II结构域的furin切割位点外,其余的都缺失,在cd22靶向免疫毒素的赖氨酸590 (K590)和K606位点发生突变,并在体外和体内测定了对多种B细胞恶性肿瘤的活性。平均而言,与野生型(wt)相比,突变为精氨酸(R)的K590降低了1.3倍的细胞毒性,而K606R增强了1.3倍的细胞毒性。将K590突变为组氨酸或删除K590并不能阻止细胞毒性的丧失。K590R的稳定性和内化率都不能解释细胞毒性降低的原因。这些结果强调了赖氨酸590与PE中毒的相关性。与体外实验结果一致,K606R突变体在体内的活性是其他突变体的1.8倍以上,这表明这种单一突变在靶向cd22阳性恶性肿瘤时可能是有益的。最后,K590R降低的细胞毒性被K606R所补偿,由此产生的无赖氨酸变体在体外和体内都具有类似wt的活性。因此,PE24-noK可能是干扰赖氨酸的下游应用的有希望的候选者。
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