Chemistry Department, Faculty of Science, Kafrelsheikh University, Kafrelsheikh, 33516, Egypt.
Department of Chemistry, College of Science, Taif University, P.O. Box 11099, Taif, 21944, Saudi Arabia.
Carbohydr Res. 2024 Sep;543:109207. doi: 10.1016/j.carres.2024.109207. Epub 2024 Jul 14.
Folic acid receptor-targeted drug delivery system is a promising candidate for tumor-targeted delivery because its elevated expression specifically on tumor cells enables the selective delivery of cytotoxic cargo to cancerous tissue, thereby minimizing toxic side effects and increasing the therapeutic index. Pyridine bisfolate-chitosan (PyBFA@CS NPs) and folate-chitosan nanocomposite (FA@CS NPs) were synthesized with suitable particle size (256.0 ± 15.0 and 161.0 ± 5.0 nm), high stability (ζ = -27.0 ± 0.1 and -30.0 ± 0.2 mV), respectively, and satisfactory biocompatibility to target cells expressing folate receptors and try to answer the question: Is the metal center always important for activity? Since almost all pharmaceuticals work by binding to specific proteins or DNA, the in vitro binding of human serum albumin (HSA) to PyBFA@CS NPs and FA@CS NPs has been investigated and compared with PyBFA. Strong affinity to HSA is shown by quenching and binding constants in the range of 10 and 10 M, respectively with PyBFA@CS NPs showing the strongest. The compounds-HSA kinetic stability, affinity, and association constants were investigated using a stopped-flow method. The findings showed that all formulations bind by a static quenching mechanism that consists of two reversible steps: rapid second-order binding and a more slowly first-order isomerization reaction. The overall coordination affinity of HSA to PyBFA@CS NPs (6.6 × 10 M), PyBFA (4.4 × 10 M), and FA@CS NPs (1.3 × 10 M) was measured and The relative reactivity is roughly (PyBFA@CS NPs)/(PyBFA)/(FA@CS NPs) = 5/3/1. Additionally, in vitro cytotoxicity revealed that, consistent with the binding constants and coordination affinity, active-targeting formulations greatly inhibited FR-positive MCF-7 cells in compared to FRs-negative A549 cells in the following trend: PyBFA@CS NPs > PyBFA > FA@CS NPs. Furthermore, in vitro drug release of PyBFA@CS NPs was found to be stable in PBS at pH 7.4, however, the in pH 5.4 and in pH 5.4 containing 10 mM glutathione (GSH) (mimicking the tumor microenvironment) reached 43 % and 73 %, respectively indicating that the PyBFA@CS NPs system is sensitive to GSH. Folate-modified nanoparticles, PyBFA@CS NPs, are a promising therapeutic for MCF-7 therapy because they not only showed a greater affinity for HSA, but also showed higher cleavage efficiency toward the minor groove of pBR322 DNA via the hydrolytic way, as well as effective antibacterial activity that avoids the usage of extra antibiotics. .
叶酸受体靶向药物传递系统是一种很有前途的肿瘤靶向递药候选物,因为其在肿瘤细胞上的高表达使细胞毒性载药能够选择性地递送到癌组织,从而最大程度地减少毒副作用并提高治疗指数。吡啶双叶酸-壳聚糖(PyBFA@CS NPs)和叶酸-壳聚糖纳米复合物(FA@CS NPs)分别具有合适的粒径(256.0±15.0 和 161.0±5.0nm)、高稳定性(ζ=-27.0±0.1 和-30.0±0.2mV)和良好的靶向表达叶酸受体的靶细胞的生物相容性,并试图回答以下问题:金属中心是否始终对活性很重要?由于几乎所有药物都是通过与特定的蛋白质或 DNA 结合来发挥作用的,因此研究了人血清白蛋白(HSA)与 PyBFA@CS NPs 和 FA@CS NPs 的体外结合,并与 PyBFA 进行了比较。PyBFA@CS NPs 表现出最强的与 HSA 的亲和力,其猝灭和结合常数分别在 10 和 10M 的范围内。使用停流法研究了化合物-HSA 的动力学稳定性、亲和力和缔合常数。研究结果表明,所有配方都通过一个由两个可逆步骤组成的静态猝灭机制结合:快速二级结合和较慢的一级异构化反应。测量了 HSA 与 PyBFA@CS NPs(6.6×10M)、PyBFA(4.4×10M)和 FA@CS NPs(1.3×10M)的整体配位亲和力,相对反应性大致为(PyBFA@CS NPs)/(PyBFA)/(FA@CS NPs)=5/3/1。此外,体外细胞毒性实验表明,与结合常数和配位亲和力一致,主动靶向配方对 FR 阳性 MCF-7 细胞的抑制作用明显大于 FR 阴性 A549 细胞,其趋势为:PyBFA@CS NPs>PyBFA>FA@CS NPs。此外,在 pH 7.4 的 PBS 中发现 PyBFA@CS NPs 的体外药物释放稳定,然而,在 pH 5.4 和 pH 5.4 中含有 10mM 谷胱甘肽(GSH)(模拟肿瘤微环境)时,分别达到 43%和 73%,表明 PyBFA@CS NPs 系统对 GSH 敏感。叶酸修饰的纳米粒子 PyBFA@CS NPs 是 MCF-7 治疗的一种很有前途的治疗方法,因为它们不仅对 HSA 表现出更大的亲和力,而且还通过水解方式对 pBR322 DNA 的小沟表现出更高的切割效率,以及有效的抗菌活性,避免了额外抗生素的使用。
