Multi-functionalization of reduced graphene oxide nanosheets for tumor theragnosis: Synthesis, characterization, enzyme assay, in-silico study, radiolabeling and in vivo targeting evaluation

IF 2.5 4区 医学 Q3 PHARMACOLOGY & PHARMACY
Tamer M. Sakr, Mohammed F. Elsabagh, Hend Fayez, Mona O. Sarhan, Yasmin M. Syam, Manal M. Anwar, Mohammed A. Motaleb, Wafaa A. Zaghary
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引用次数: 0

Abstract

Background

In this study, a combination of nanotechnology, organic synthesis and radiochemistry were utilized in order to design an efficient nano-system conjugated with a suitable radionuclide and an antitumor agent for possible application as tumor theragnostic agent.

Method

Four novel compounds (3 and 4a-c) bearing tetrahydroquinazoline-7-sulfonohydrazide or 1,2,3,4-tetrahydroquinazoline-7-sulfonamide scaffold were designed. Then, docking study predicted that the compounds can be considered as potential inhibitors for PARP-1. Following that; the four compounds were synthesized and properly characterized using 1HNMR, 13CNMR, IR and Mass spectroscopy. The cytotoxic effect of the four compounds was evaluated against breast cancer cell line (MDA-MB-436), where compound 3 showed the most promising cytotoxic effect. The inhibitory effect of the four compounds was evaluated in vitro against PARP-1.

Result

Carboxylated graphene oxide nanosheets (NGO-COOH) were synthesized by a modified Hummer's method and has size of range 40 nm. The NGO-COOH nanosheets were proven to be safe and biocompatible when tested in vitro against normal human lung fibroblast cells (MRC-5). The prepared NGO-COOH nanosheets were conjugated with compound 3 then radiolabeled with 99mTc to yield 99mTc-NGO-COOH-3 with a radiochemical yield of 98.5.0 ± 0.5%. 99mTc-NGO-COOH-3 was injected intravenously in solid tumor bearing mice to study the degree of localization of the nano-system at tumor tissue. The results of the study revealed, excellent localization and retention of the designed nano-system at tumor tissues with targeting ratio of 9.0.

Conclusion

Stirred a new candidate tumor theragnostic agent that is safe, selective and stable.

Graphical abstract

Abstract Image

用于肿瘤诊断的还原氧化石墨烯纳米片的多功能化:合成、表征、酶测定、硅内研究、放射性标记和体内靶向评估
背景本研究将纳米技术、有机合成和放射化学结合起来,旨在设计一种与合适的放射性核素和抗肿瘤药物共轭的高效纳米系统,以作为肿瘤治疗剂。方法设计了四种具有四氢喹唑啉-7-磺酰肼或 1,2,3,4- 四氢喹唑啉-7-磺酰胺支架的新型化合物(3 和 4a-c)。然后,对接研究预测这些化合物可被视为 PARP-1 的潜在抑制剂。随后,合成了这四个化合物,并使用 1HNMR、13CNMR、红外光谱和质谱对其进行了表征。评估了这四种化合物对乳腺癌细胞系(MDA-MB-436)的细胞毒性作用,其中化合物 3 的细胞毒性作用最为显著。结果羧基氧化石墨烯纳米片(NGO-COOH)采用改良的 Hummer 方法合成,尺寸为 40 nm。在对正常人肺成纤维细胞(MRC-5)进行体外测试时,NGO-COOH 纳米片被证明具有安全性和生物相容性。制备出的NGO-COOH纳米片与化合物3共轭,然后用99m锝进行放射标记,得到99m锝-NGO-COOH-3,放射化学产率为98.5.0 ± 0.5%。将 99mTc-NGO-COOH-3 静脉注射到实体瘤小鼠体内,研究纳米系统在肿瘤组织中的定位程度。研究结果表明,所设计的纳米系统在肿瘤组织中的定位和保留效果极佳,靶向率达到 9.0。
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来源期刊
DARU Journal of Pharmaceutical Sciences
DARU Journal of Pharmaceutical Sciences PHARMACOLOGY & PHARMACY-
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期刊介绍: DARU Journal of Pharmaceutical Sciences is a peer-reviewed journal published on behalf of Tehran University of Medical Sciences. The journal encompasses all fields of the pharmaceutical sciences and presents timely research on all areas of drug conception, design, manufacture, classification and assessment. The term DARU is derived from the Persian name meaning drug or medicine. This journal is a unique platform to improve the knowledge of researchers and scientists by publishing novel articles including basic and clinical investigations from members of the global scientific community in the forms of original articles, systematic or narrative reviews, meta-analyses, letters, and short communications.
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