School of Pharmacy, Bharat Institute of Technology, Meerut-250103, Uttar Pradesh, India.
Ram-Eesh Institute of Vocational and Technical Education, Greater Noida, Uttar Pradesh, India.
Curr Drug Discov Technol. 2020;17(5):631-646. doi: 10.2174/1570163816666190402121033.
In spite of current progress in treatment methods, cancer is a major source of morbidity and death rate all over the world. Traditional chemotherapeutic agents aim to divide cancerous cells, are often associated with deleterious side effects to healthy cells and tissues. Host defense peptides Cecropin A and B obtained from insects are capable to lyses various types of human cancer cells at peptide concentrations which are not fatal to normal eukaryotic cells.
In the present work we have designed short chain α-helical linear and cyclic peptide from cecropin A having same cationic charge, hydrophobicity and helicity. Synthesis of designed novel short chain linear (10) and cyclic compound (12) was accomplished by using solution phase method. All the coupling reactions were carried out by using dicyclohexylcarbodiimide (DCC) as the coupling reagent at room temperature in the presence of N-methylmorpholine (NMM) as the base. The Structure of newly synthesized peptidse were elucidated by 1H-NMR, 13C-NMR, FT-IR, FABMS and elemental analysis data.Cytotoxicity of synthesized compound was tested against Dalton's Lymphoma Ascites (DLA), Ehrlich's Ascites Carcinoma (EAC) and MCF-7 cell lines by using MTT assay and 5-FU as reference compound.
From biological assessment,it was found that short chain cyclicpeptide12 showed high level of cytotoxic activity against DLA and EAC cell lines.
By utilizing a structure-based rational approach to anticancer peptide design from cecropin A, we were able to develop short chain linear and cyclic peptides having same charge, hydrophobicity and with improved activity. Systematically removing amino acids, we were able to retaining peptide charge and hydrophobicity/hydrophilicity in linear and cyclic peptide which results to optimize the anticancer activity against DLA and EAC cell lines.
尽管目前在治疗方法上取得了进展,但癌症仍然是全世界发病率和死亡率的主要原因。传统的化疗药物旨在分裂癌细胞,但往往会对健康细胞和组织产生有害的副作用。从昆虫中获得的防御肽 Cecropin A 和 B 能够在对正常真核细胞没有致命作用的肽浓度下裂解各种类型的人类癌细胞。
在本工作中,我们设计了具有相同正电荷、疏水性和螺旋性的 Cecropin A 的短链 α-螺旋线性和环状肽。通过使用溶液相法完成了设计的新型短链线性(10)和环状化合物(12)的合成。所有偶联反应均在室温下使用二环己基碳二亚胺(DCC)作为偶联试剂,并用 N-甲基吗啉(NMM)作为碱进行。新合成的肽的结构通过 1H-NMR、13C-NMR、FT-IR、FABMS 和元素分析数据进行阐明。通过 MTT 测定法和 5-FU 作为参考化合物,测试了合成化合物对 Dalton 淋巴瘤腹水(DLA)、Ehrlich 腹水癌(EAC)和 MCF-7 细胞系的细胞毒性。
从生物学评估来看,发现短链环状肽 12 对 DLA 和 EAC 细胞系表现出高水平的细胞毒性活性。
通过利用基于结构的合理方法对 Cecropin A 进行抗癌肽设计,我们能够开发出具有相同电荷、疏水性和提高活性的短链线性和环状肽。系统地去除氨基酸,我们能够保留线性和环状肽中的肽电荷和疏水性/亲水性,从而优化对 DLA 和 EAC 细胞系的抗癌活性。
