Aman Shukla, Sachin Kumar, Akanksha Bhatt, Priyank Purohit, Shashank Kailkhura, Magda H. Abdellattif
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The additional role of the Ba ion linked carrageenan was found highly selective for cancer cell through the <jats:italic>in vitro</jats:italic> cell line assay; however, the nonattachability to the normal cell makes useful to trace and treat the cancer cell. The tracing is possible because of the barium sulfate functional group and its nanosize molecule, which shows precision medicine, fluorescence, and X-ray/CT imaging character, to be utilized as the diagnostic purpose, especially to tumor cell. The apoptosis from the Ba<jats:sup>2+</jats:sup> ion by the inhibition of outflux of K<jats:sup>+</jats:sup> to disturb the osmosis of cell and selectivity of the molecules because of high pKa (Logarithms of acid dissociation constant) value, which makes the drug more active anionic (nonpolar) form in the cancer cell and ionic form (polar) in the normal cell, which avoids the interaction with normal cell and facilitate the interaction with cancer cell. 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引用次数: 0
摘要
本研究关注的是开发连接卡拉胶硫酸酯官能团和钡离子的稳定卡拉胶纳米粒子,用于选择性靶向癌细胞和成像对比,以帮助诊断(追踪/成像)。本研究概述了离子替代化学,强调了离子的作用及其如何影响卡拉胶的适用性。尽管 K+ 与卡拉胶天然结合,但硫酸钡的特点是与钡离子连接,因此被广泛用于不透射线的胃肠道粘膜放射诊断检查,以提供对比度。通过体外细胞系试验发现,与钡离子连接的卡拉胶对癌细胞具有高度选择性;然而,它对正常细胞的非附着性使其有助于追踪和治疗癌细胞。由于硫酸钡官能团及其纳米级分子具有精准医疗、荧光和 X 射线/CT 成像等特性,因此可用于诊断目的,尤其是对肿瘤细胞的诊断。Ba2+离子通过抑制K+的外流干扰细胞的渗透作用而导致细胞凋亡,同时由于高pKa(酸解离常数对数)值使分子具有选择性,从而使药物在癌细胞中以阴离子(非极性)形式更为活跃,而在正常细胞中则以离子形式(极性)活跃,避免了与正常细胞的相互作用,促进了与癌细胞的相互作用。总之,与 Ba 离子连接的卡拉胶具有癌细胞选择性、荧光性和不透射线性,因此该分子可用于对癌细胞进行高选择性追踪、成像和治疗。
Iota carrageenan linked barium ion nanoparticle synthesis for the selective targeted imaging and inhibition of cancer cells
The development of stable carrageenan nanoparticles connected to the sulfate functional group of carrageenan and barium ion for the use of selectively targeting cancer cell and imaging contrast to help with diagnosis (tracing/imaging) is the concern of the present research. This study provides an overview of ion substitution chemistry, highlighting the role of ions and how they affect the applicability of carrageenan. The characteristic of barium sulfate, which is widely used as radiopaque to provide contrast for diagnostic radiographic examinations in the gastrointestinal mucosa, is provided by its linkage with the barium ion despite K+’s natural binding with carrageenan. The additional role of the Ba ion linked carrageenan was found highly selective for cancer cell through the in vitro cell line assay; however, the nonattachability to the normal cell makes useful to trace and treat the cancer cell. The tracing is possible because of the barium sulfate functional group and its nanosize molecule, which shows precision medicine, fluorescence, and X-ray/CT imaging character, to be utilized as the diagnostic purpose, especially to tumor cell. The apoptosis from the Ba2+ ion by the inhibition of outflux of K+ to disturb the osmosis of cell and selectivity of the molecules because of high pKa (Logarithms of acid dissociation constant) value, which makes the drug more active anionic (nonpolar) form in the cancer cell and ionic form (polar) in the normal cell, which avoids the interaction with normal cell and facilitate the interaction with cancer cell. In conclusion, the cancer cell selectivity with fluorescence and radiopaque properties of Ba ion linked carrageenan makes the molecule useful for tracing, imaging, and treating cancer cell with high selectivity.
期刊介绍:
Journal of Polymer Engineering publishes reviews, original basic and applied research contributions as well as recent technological developments in polymer engineering. Polymer engineering is a strongly interdisciplinary field and papers published by the journal may span areas such as polymer physics, polymer processing and engineering of polymer-based materials and their applications. The editors and the publisher are committed to high quality standards and rapid handling of the peer review and publication processes.