Issue 2, 2021

Single nanosheet can sustainably generate oxygen and inhibit respiration simultaneously in cancer cells

Abstract

In a tumor, the abnormal cancer cell proliferation results in an insufficient O2 supply, and meanwhile cancer cells consume O2 very fast. The imbalance between a low oxygen supply and overwhelming oxygen consumption results in a low oxygen concentration in solid tumors. Therefore, in order to relieve hypoxia in tumors, it is necessary to not only sustainably generate O2, but also inhibit mitochondrial respiration simultaneously. Here, we found that a single Ti2C(OH)2 nanomaterial not only can sustainably generate O2 but also simultaneously highly inhibits mitochondrial respiration via binding phosphorylation proteins onto the surface in cancer cells. Ce6 was linked onto Ti2C(OH)2, forming Ti2C(OH)2–Ce6. Ti2C(OH)2–Ce6 could highly relieve hypoxia in tumors via the combination of sustainable O2 generation and respiration inhibition, produce enough 1O2 to kill cancer cells via PDT, and also effectively convert the absorbed light energy into thermal energy to kill cancer cell via PTT, thereby highly enhancing the cancer therapy.

Graphical abstract: Single nanosheet can sustainably generate oxygen and inhibit respiration simultaneously in cancer cells

Associated articles

Supplementary files

Article information

Article type
Communication
Submitted
07 Sep 2020
Accepted
17 Nov 2020
First published
18 Nov 2020

Mater. Horiz., 2021,8, 597-605

Single nanosheet can sustainably generate oxygen and inhibit respiration simultaneously in cancer cells

W. Huang, F. Wang, A. Shen, L. Zhang, X. Nie, Z. Zhang, G. Chen, L. Xia, L. Wang, S. Ding, Q. Meng, W. Zhang, C. Hong and Y. You, Mater. Horiz., 2021, 8, 597 DOI: 10.1039/D0MH01446J

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