AI Article Synopsis
- Telomeres are DNA-protein complexes that protect chromosomes, and their reactivation in cancer cells allows for unchecked growth and survival of tumors.
- Traditional telomerase inhibitors can lead to issues like drug resistance and toxicity, prompting the search for alternative therapies.
- This research presents a noninvasive method using terahertz (THz) photon irradiation, which effectively reduces telomerase activity and significantly diminishes cancer cell viability over time, showing promise for cancer treatment.
Article Abstract
Telomeres are nanoscale DNA-protein complexes to protect and stabilize chromosomes. The reexpression of telomerase in cancer cells is a key determinant crucial for the infinite proliferation and long-term survival of most cancer cells. However, the use of telomerase inhibitors for cancer treatment may cause problems such as poor specificity, drug resistance, and cytotoxicity. Here, we discovered a nondrug and noninvasive terahertz modulation strategy capable of the long-term suppression of cancer cells by inhibiting telomerase activity. First, we found that an optimized frequency of 33 THz photon irradiation effectively inhibited the telomerase activity by molecular dynamics simulation and frequency filtering experiments. Moreover, experiments showed that telomerase activity in 4T1 and MCF-7 cells significantly decreased by 77% and 80% respectively, after 21 days of regular 33 THz irradiation. Furthermore, two kinds of cells were found to undergo aging, apoptosis, and DNA double-strand breaks caused by telomere crisis, which seriously affected the survival of cancer cells. In addition, the tumorigenicity of 4T1 cells irradiated with 33 THz waves for 21 days in mice decreased by 70%. In summary, this study demonstrates the potential application of THz modulation in nano therapy for cancer.
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| http://dx.doi.org/10.1021/acsnano.3c09216 | DOI Listing |
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