Pub. Date : 2021
PMID : 34336031
12 Functional Relationships(s)Download |
Sentence | Compound Name | Protein Name | Organism |
1 | Knockdown of microRNA-130b improves doxorubicin sensitivity in bladder urothelial carcinoma by negatively regulating cylindromatosis expression. | Doxorubicin | microRNA 130b | Homo sapiens |
2 | Results: Our study found that miR-130b was up-regulated in doxorubicin-insensitive BUC tissues and cell lines, and its high expression was negatively related to doxorubicin sensitivity in BUC. | Doxorubicin | microRNA 130b | Homo sapiens |
3 | Results: Our study found that miR-130b was up-regulated in doxorubicin-insensitive BUC tissues and cell lines, and its high expression was negatively related to doxorubicin sensitivity in BUC. | Doxorubicin | microRNA 130b | Homo sapiens |
4 | The miR-130b knockdown reduced the IC50 of doxorubicin and improved doxorubicin sensitivity of J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
5 | The miR-130b knockdown reduced the IC50 of doxorubicin and improved doxorubicin sensitivity of J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
6 | The miR-130b knockdown reduced the IC50 of doxorubicin and improved doxorubicin sensitivity of J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
7 | The miR-130b knockdown reduced the IC50 of doxorubicin and improved doxorubicin sensitivity of J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
8 | Knockdown of CYLD reversed miR-130b"s regulatory roles in doxorubicin sensitivity in J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
9 | Knockdown of CYLD reversed miR-130b"s regulatory roles in doxorubicin sensitivity in J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
10 | Knockdown of CYLD reversed miR-130b"s regulatory roles in doxorubicin sensitivity in J82/Dox and T24/Dox cells. | Doxorubicin | microRNA 130b | Homo sapiens |
11 | Conclusions: High expression of miR-130b is negatively related to doxorubicin sensitivity in BUC, and knockdown of miR-130b improves doxorubicin sensitivity in BUC by negatively regulating CYLD expression. | Doxorubicin | microRNA 130b | Homo sapiens |
12 | Conclusions: High expression of miR-130b is negatively related to doxorubicin sensitivity in BUC, and knockdown of miR-130b improves doxorubicin sensitivity in BUC by negatively regulating CYLD expression. | Doxorubicin | microRNA 130b | Homo sapiens |