精品999日本久久久影院,中文字幕无码免费久久,东北少妇不带套对白,亚洲国产AV无码专区亚洲AVL,精品国产18久久久久久,无码无套少妇毛多69XXX,无码人妻免费一区二区三区,亚洲中文字幕无码中文字幕

熱門搜索:A549    293T 金黃色葡萄球菌 大腸桿菌 AKK菌
購(gòu)物車 1 種商品 - 共0元
當(dāng)前位置: 首頁(yè) > 行業(yè)資訊 > Killing the seeds of cancer: A new finding shows potential i

Killing the seeds of cancer: A new finding shows potential i

 

The finding could provide an important step toward drugs that help prevent recurrent cancers

Date:
July 8, 2019
Source:
University of Toledo
Summary:
When doctors remove a tumor surgically or use targeted therapies, the cancer may appear to be gone. However, evidence suggests a tiny subpopulation of adaptable cancer cells can remain and circulate through the body to seed new metastasis in far-off locations. A collaborative research project has identified an entirely new class of molecules that shows promise in rooting out and killing those cancer stem cells.

Scientists at The University of Toledo investigating improvements to a commonly used chemotherapy drug have discovered an entirely new class of cancer-killing agents that show promise in eradicating cancer stem cells.

Their findings could prove to be a breakthrough in not only treating tumors, but ensuring cancer doesn't return years later -- giving peace of mind to patients that their illness is truly gone.

"Not all cancer cells are the same, even in the same tumor," said Dr. William Taylor, a professor in the Department of Biological Sciences in the UToledo College of Natural Sciences and Mathematics. "There is a lot of variability and some of the cells, like cancer stem cells, are much nastier. Everyone is trying to figure out how to kill them, and this may be one way to do it."

Taylor and Dr. L.M. Viranga Tillekeratne, a professor in the Department of Medicinal and Biological Chemistry in the UToledo College of Pharmacy and Pharmaceutical Sciences, reported their findings in a paper recently published in the journal Scientific Reports.

Cancer stem cells are an intriguing target for researchers because of their potential to re-seed tumors.

When doctors remove a tumor surgically or target it with chemotherapy drugs or radiation therapy, the cancer may appear to be gone. However, evidence suggests that a tiny subpopulation of adaptable cancer cells can remain and circulate through the body to seed new metastasis in far-off locations.

Those cancer stem cells, Taylor said, are similar to dandelions in a well-manicured lawn.

"You could chop the plant off, but it will drop a seed. You know the seeds are there, but they're hiding," he said. "You pull one weed out and another comes up right after it. Cancers can be like this as well."

The small molecule they have isolated appears to lock on to those stem cells and kill them by blocking their absorption of an amino acid called cystine.

UToledo was awarded a patent for the discovery late last year.

For Tillekeratne and Taylor, uncovering a new class of therapeutic molecules could prove to be an even larger contribution to cancer research than the project they initially envisioned.

"At present, there are no drugs that can kill cancer stem cells, but people are looking for them," Tillekeratne said. "A lot of drugs are discovered by serendipity. Sometimes in research if you get unexpected results, you welcome that because it opens up a new line of research. This also shows the beauty of collaboration. I wouldn't have been able to do this on my own, and [Taylor] wouldn't have been able to do it on his own."

Tillekeratne has received a three-year, $449,000 grant from the National Institutes of Health National Cancer Institute to continue testing the effectiveness of the newly identified therapy.

Because the molecules so selectively target cancer stem cells, it's possible they could ultimately be paired with other chemotherapy drugs to deliver a more comprehensive treatment.

However, the researchers have found their agents show stand-alone promise in treating sarcomas and a subtype of breast cancer known as claudin-low breast cancer, which represents up to 14 percent of all breast cancers and can be particularly difficult to treat.

Story Source:

Materials provided by University of ToledoNote: Content may be edited for style and length.


Journal Reference:

  1. William R. Taylor, Sara R. Fedorka, Ibtissam Gad, Ronit Shah, Hanan D. Alqahtani, Radhika Koranne, Nishanth Kuganesan, Samkeliso Dlamini, Tim Rogers, Ayad Al-Hamashi, Veronika Kholodovych, Yusuf Barudi, Damian Junk, Maisha S. Rashid, Mark W. Jackson, L. M. Viranga Tillekeratne. Small-Molecule Ferroptotic Agents with Potential to Selectively Target Cancer Stem CellsScientific Reports, 2019; 9 (1) DOI: 10.1038/s41598-019-42251-5
公主岭市| 石城县| 涟源市| 永州市| 江阴市| 文昌市| 东平县| 鹤峰县| 邮箱| 武隆县| 都匀市| 万荣县| 开封市| 黄山市| 安丘市| 阿尔山市| 京山县| 鄂尔多斯市| 鄄城县| 根河市| 罗甸县| 鄂托克前旗| 芷江| 石狮市| 武功县| 库车县| 墨江| 平谷区| 通城县| 上蔡县| 固镇县| 麻栗坡县| 河津市| 祥云县| 连山| 容城县| 赣州市| 伊吾县| 延川县| 宁安市| 秦安县|