| Mar 11, 2020 | |
Promoting cancer cell growth using silica-coated gold nanorods(Nanowerk News) In a report published in NANO ("Cancer Cell Growth in the Near Infrared Region by Using Silica Coated Gold Nanorods"), a group of researchers from the Republic of Korea have discovered a method to promote cancer cell growth using silica-coated gold nanorods. |
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| The cell growth by near infrared (NIR) exposure of Si-AuNRs nano heat islands revealed a higher growth rate of 36.13% than the normal incubator condition. | |
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| The nano island system with well dispersed silica coated Au nanorods (Si-AuNRs) was used to demonstrate the enhanced the cell growth of normal and cancer cells from the induced expressions of the heat shock proteins (HSP). The over expressions of HSP could help in protein folding in cell proliferations and growths of both the normal and cancer cells. The cell growth enhancing technology could be expanded in diverse applications in cell culture systems. (© World Scientific) | |
| Gold nanoparticles (AuNPs) have been brought to the forefront of cancer research in recent years. They possess a number of favourable properties such as ease of synthesis and surface modification, strongly enhanced and tunable optical properties as well as excellent biocompatibility for clinic setting. | |
| Gold nanorods (AuNRs) are considered suitable materials for diverse biomedical applications in controlling cell behaviors. | |
| The nano island system with well dispersed silica coated Au nanorods (Si-AuNRs) was used to demonstrate the enhanced cell growth of normal and cancer cells from the induced expressions of the heat shock proteins. Heat shock proteins could hinder the formation of unwanted intermolecular bond when combined with unconjugated protein. | |
| The researchers believe that the growth of cancer cells in near infrared region using Si-AuNRs induced the activities of heat shock proteins, which could help the protein folding in cell growth and survival in comparison to the cells grown in the incubator only. | |
| Unlike external heating sources, such as infrared radiation, steamed heats, or water bath, the internalized nanomaterials for mediating heats were effective with minimal side effects. | |
| "The cell growth with NIR exposure to Si-AuNRs nano heat islands could be an alternative way to grow cells in comparison to the conventional system, such as an incubator. Such cells can be used in diverse cellular applications in future", said lead investigator of study Dong Kee Yi. |
| Source: World Scientific | |
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