针对利什曼原虫的药物发现和描述面临的挑战:酶、结构蛋白和转运体

A. Mendoza-León, María Luisa Serrano G., Alicia Ponte-Sucre
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引用次数: 0

摘要

利什曼病是由原生动物寄生虫利什曼属引起的一种复杂的热带疾病。经典的化疗方法包括五价抗锑剂,但也使用过喷他脒、两性霉素 B 和米替福新。化疗抗药性仍然是成功治疗的一个风险;因此,目标识别和选择性药物的开发仍然是控制这种疾病的当务之急。有证据表明,6-磷酸葡萄糖酸脱氢酶(6PGDH)、β-微管蛋白和 ATP 依赖性转运体(ABCs-T)是潜在的靶点。磷酸戊糖途径关键酶 6PGDH 对于保护动粒寄生虫免受氧化应激至关重要,它与哺乳动物宿主酶不同(AA 序列相同度小于 35%)。通过虚拟筛选和随后的体内评估,我们利用优化的三维模型筛选出了对该酶具有高亲和力的化合物。在动力体中,微管蛋白是高度保守的蛋白质,对微管的形成至关重要。然而,与其他真核细胞相比,动粒蛋白对抗菌微管药物的敏感性存在差异,如秋水仙碱抗性。通过对牛和利什曼尼亚β-管蛋白的实验模型进行比较,我们确定了各种氨基酸取代的结构修饰产物,它们阻碍了秋水仙碱进入利什曼尼亚蛋白的结合袋。在克鲁斯锥虫、布鲁西锥虫和埃文西锥虫等其他动植体的β-管蛋白序列中也发现了类似的变化。我们采用硅学方法评估了作为治疗靶点的β-微管蛋白以及与之发生选择性相互作用的化合物。ABC 转运体的活性与耐药性的主要原因有关,收集到的证据表明,对于 ABC 转运体阻断剂格列本脲,存在以下情况(1) 利什曼原虫对巨噬细胞的敏感性不同;(2) 轴生非主流原虫对原生原虫的敏感性更高;(3) 格列本脲-格列本脲在巨噬细胞感染细胞中的协同药物作用。在此,我们将讨论设计用于利什曼病联合疗法的 ABC 转运体阻断剂的潜在价值。上述例子凸显了寻找新的治疗靶点和药理机制对于设计治疗利什曼病的替代疗法的重要性。
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Challenges in drug discovery and description targeting Leishmania spp.: enzymes, structural proteins, and transporters
Leishmaniasis is a complex tropical disease caused by the protozoan parasite Leishmania spp. Classical chemotherapy includes pentavalent antimonial; however, pentamidine, amphotericin B, and miltefosine have been used. Chemo-resistance remains a risk for successful treatment; thus, target identification and development of selective drugs remain a priority in controlling this disease. Evidence indicates that 6-phosphogluconate dehydrogenase (6PGDH), β-tubulin protein, and ATP-dependent transporters (ABCs-T) are potential targets to be addressed. The pentose phosphate pathway key enzyme 6PGDH is essential for protecting kinetoplastid parasites from oxidative stress and differs from the mammalian host enzyme (<35% AA sequence identity). An optimized 3D model has been used to select high -affinity compounds toward the enzyme through virtual screening and subsequent evaluation in vivo. In kinetoplasts, tubulins are highly conserved proteins essential for microtubule formation. However, compared to other eukaryotic cells, there is a differential susceptibility of kinetoplastid proteins to antimicrotubular agents, e.g., colchicine resistance. A comparison of experimental models between bovine and Leishmania β-tubulin protein allowed us to identify structural modification products of various amino acid substitutions, which hinder the access of colchicine to the binding pocket of the Leishmania protein. Similar changes are found in the β-tubulin sequence of other kinetoplastids such as Trypanosoma cruzi, T. brucei, and T. evansi. The evaluation of the β-tubulin protein as a therapeutic target and the compounds that selectively interact with it was carried out using in silico approaches. The activities of ABC-Transporters are related to the main causes of drug resistance, and the collected evidence suggests that for the ABC-Transporter blocker glibenclamide, there is a: (1) differential susceptibility of Leishmania spp. vs. macrophages; (2) greater susceptibility of axenic amastigotes vs. promastigotes; and (3) glibenclamide-glucantime synergistic drug interaction in macrophage-infected cells. Herein, we discuss the potential value of designing ABC-Transporter blockers for combination therapy in the treatment of leishmaniasis. The examples mentioned above highlight the importance of the search for new therapeutic targets and pharmacophores for the design of alternative treatments for the disease.
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