de Araujo Talita Stelling, da Costa Anna Catharinna, Dias Leite da Silva Camila, Ribeiro Fernando de Sá, de Andrade Rafael Alves, Paula Neto Heitor Affonso, Carvalho Renato Sampaio, Lima Luís Maurício T R, Almeida Marcius da Silva
Protein Advanced Biochemistry (PAB), Institute of Medical Biochemistry (IBqM)-National Center for Structural Biology and Bioimaging (CENABIO), Universidade Federal do Rio de Janeiro, Rio de Janeiro, Rio de Janeiro 21941-902, Brazil.
Programa de Pós-Graduação em Química Biológica, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Rio de Janeiro 21941-902, Brazil.
Biochemistry. 2025 Jul 15;64(14):3015-3029. doi: 10.1021/acs.biochem.4c00663. Epub 2025 Apr 16.
l-asparaginase II (EcA2) is essential for treating Acute Lymphoblastic Leukemia, the most common childhood cancer. This enzyme catalyzes the hydrolysis of l-asparagine or l-glutamine to ammonia and l-aspartate or l-glutamate. The first FDA-approved EcA2 biopharmaceutical, Elspar, was introduced in 1978, followed by other biosimilars. Despite stringent approval criteria, variations in plasmatic activity and therapeutic efficacy persist across different EcA2 preparations, often leading to substandard product notifications. Many studies focus on the EcA2 from the K12 strain (EcA2-K12), which differs by four amino acids from reference biopharmaceuticals, including Elspar (EcA2-4M). Here, we show that EcA2-4 M has over twice the specific activity on both the hydrolysis of l-asparagine and on human lymphoblast cells compared to EcA2-K12. EcA2-K12 demonstrates 4-fold greater specificity for l-asparagine over l-glutamine, considering their , but similar toward each amino acid. Interestingly, EcA2-K12 has 3-fold lower affinity for l-aspartate, linked to reduced stabilization of its N-terminal active site loop. Although both variants exhibit indistinguishable thermostability, EcA-K12 shows a higher tendency to oligomerize. We solved the 3D structures of both variants by X-ray crystallography, and normal-mode analysis revealed wider conformational changes in EcAK12's active site. Our data indicate that EcA2-K12 has lower activity due to the higher conformational dynamics of the N-terminal active site loop. Nevertheless, EcA2-K12 is a beneficial alternative or complement to existing therapeutic schemes with EcA2-4M, due to its higher specificity to l-asparagine, which is of fundamental importance since activity on l-glutamine is associated with harmful side effects.
L-天冬酰胺酶II(EcA2)对于治疗急性淋巴细胞白血病至关重要,急性淋巴细胞白血病是最常见的儿童癌症。这种酶催化L-天冬酰胺或L-谷氨酰胺水解为氨和L-天冬氨酸或L-谷氨酸。首个获得美国食品药品监督管理局(FDA)批准的EcA2生物制药产品Elspar于1978年推出,随后又出现了其他生物类似药。尽管有严格的批准标准,但不同EcA2制剂的血浆活性和治疗效果仍存在差异,常常导致产品不合格通知。许多研究聚焦于来自K12菌株的EcA2(EcA2-K12),它与包括Elspar(EcA2-4M)在内的参考生物制药产品有四个氨基酸的差异。在此,我们表明,与EcA2-K12相比,EcA2-4M对L-天冬酰胺水解以及对人淋巴母细胞的比活性高出两倍多。考虑到L-天冬酰胺和L-谷氨酰胺的情况,EcA2-K12对L-天冬酰胺的特异性比对L-谷氨酰胺高4倍,但对每种氨基酸的亲和力相似。有趣的是,EcA2-K12对L-天冬氨酸的亲和力低3倍,这与其N端活性位点环的稳定性降低有关。尽管两种变体表现出难以区分的热稳定性,但EcA-K12显示出更高的寡聚倾向。我们通过X射线晶体学解析了两种变体的三维结构,正常模式分析揭示了EcAK12活性位点更广泛的构象变化。我们的数据表明,由于N端活性位点环更高的构象动力学,EcA2-K12的活性较低。然而,EcA2-K12对L-天冬酰胺具有更高的特异性,这对现有EcA2-4M治疗方案来说是一种有益的替代或补充,因为对L-谷氨酰胺的活性与有害副作用相关,所以这一点至关重要。
