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Literature DB >> 33278499

Hypoxia-mediated drug resistance in breast cancers.

Courtney E McAleese¹, Chandra Choudhury¹, Neville J Butcher¹, Rodney F Minchin².

Abstract

Tissue hypoxia in solid tumors is caused by several pathological changes associated with tumor growth, including altered microvasculature structure, increased diffusional distances, and tumor-associated anemia. As the oxygen tension decreases, tumor cells adapt to the limited oxygen supply. Previous studies have shown that such adaptation leads to an aggressive phenotype that is resistant to many anti-cancer therapies. Induction of hypoxia inducible factors (HIFs) mediates many proteomic and genomic changes associated with tumor hypoxia. In breast cancers, HIFs not only predict poor prognosis, but also promote metastasis and drug resistance. Several studies have proposed HIF-1α as a druggable target in drug-resistant breast cancers, leading to the synthesis and development of small molecule inhibitors. Disappointingly, however, none of these small molecule inhibitors have progressed to clinical use. In this review, we briefly discuss the role of HIF-1α in breast cancer drug resistance and summarize the current and future approaches to targeting this transcription factor in breast cancer treatment. Crown

Entities: Chemical Disease Gene

Keywords: Autophagy; Chemoresistance; Drug efflux; Drug targets; HIF-1α induction; Stemness

Year: 2020 PMID： 33278499 DOI： 10.1016/j.canlet.2020.11.045

Source DB: PubMed Journal: Cancer Lett ISSN： 0304-3835 Impact factor: 8.679

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Cited

9 in total

1. Breast Cancer Subtypes Based on Hypoxia-Related Gene Sets Identify Potential Therapeutic Agents.

Authors: Zhenchong Xiong; Weiling Huang; Wenjing Zhong; Jianchang Fu; Jikun Feng; Xi Wang; Feihai Ling
Journal: Front Mol Biosci Date: 2022-06-29

2. MiR-526b-3p Attenuates Breast Cancer Stem Cell Properties and Chemoresistance by Targeting HIF-2α/Notch Signaling.

Authors: Jing-Hua Liu; Wen-Ting Li; Yue Yang; Yan-Bo Qi; Yu Cheng; Jia-Hui Wu
Journal: Front Oncol Date: 2021-12-23 Impact factor: 6.244

3. Baicalein resensitizes tamoxifen-resistant breast cancer cells by reducing aerobic glycolysis and reversing mitochondrial dysfunction via inhibition of hypoxia-inducible factor-1α.

Authors: Yan Chen; Jingyu Zhang; Minqin Zhang; Yuxuan Song; Yue Zhang; Shuangqin Fan; Shuang Ren; Lingyun Fu; Nenling Zhang; Hui Hui; Xiangchun Shen
Journal: Clin Transl Med Date: 2021-11

4. Phthalimide Analogs Enhance Genotoxicity of Cyclophosphamide and Inhibit Its Associated Hypoxia.

Authors: Amira M Gamal-Eldeen; Hussein S Agwa; Magdy A-H Zahran; Bassem M Raafat; Sherien M El-Daly; Hamsa J Banjer; Mazen M Almehmadi; Afaf Alharthi; Nahed M Hawsawi; Fayez Althobaiti; Mona A M Abo-Zeid
Journal: Front Chem Date: 2022-04-20 Impact factor: 5.545

9. Structural Insights into the Interactions of Digoxin and Na⁺/K⁺-ATPase and Other Targets for the Inhibition of Cancer Cell Proliferation.

Authors: Yulin Ren; Sijin Wu; Joanna E Burdette; Xiaolin Cheng; A Douglas Kinghorn
Journal: Molecules Date: 2021-06-16 Impact factor: 4.411

9 in total

Hypoxia-mediated drug resistance in breast cancers.

1. Breast Cancer Subtypes Based on Hypoxia-Related Gene Sets Identify Potential Therapeutic Agents.

2. MiR-526b-3p Attenuates Breast Cancer Stem Cell Properties and Chemoresistance by Targeting HIF-2α/Notch Signaling.

3. Baicalein resensitizes tamoxifen-resistant breast cancer cells by reducing aerobic glycolysis and reversing mitochondrial dysfunction via inhibition of hypoxia-inducible factor-1α.

4. Phthalimide Analogs Enhance Genotoxicity of Cyclophosphamide and Inhibit Its Associated Hypoxia.

Review 5. The Promise of Targeting Hypoxia to Improve Cancer Immunotherapy: Mirage or Reality?

Review 6. The role of hypoxia-inducible factor-1 alpha in multidrug-resistant breast cancer.

Review 7. Crosstalk between Hypoxia and Extracellular Matrix in the Tumor Microenvironment in Breast Cancer.

Review 8. Conducive target range of breast cancer: Hypoxic tumor microenvironment.

9. Structural Insights into the Interactions of Digoxin and Na⁺/K⁺-ATPase and Other Targets for the Inhibition of Cancer Cell Proliferation.

Hypoxia-mediated drug resistance in breast cancers.

1. Breast Cancer Subtypes Based on Hypoxia-Related Gene Sets Identify Potential Therapeutic Agents.

2. MiR-526b-3p Attenuates Breast Cancer Stem Cell Properties and Chemoresistance by Targeting HIF-2α/Notch Signaling.

3. Baicalein resensitizes tamoxifen-resistant breast cancer cells by reducing aerobic glycolysis and reversing mitochondrial dysfunction via inhibition of hypoxia-inducible factor-1α.

4. Phthalimide Analogs Enhance Genotoxicity of Cyclophosphamide and Inhibit Its Associated Hypoxia.

Review 5. The Promise of Targeting Hypoxia to Improve Cancer Immunotherapy: Mirage or Reality?

Review 6. The role of hypoxia-inducible factor-1 alpha in multidrug-resistant breast cancer.

Review 7. Crosstalk between Hypoxia and Extracellular Matrix in the Tumor Microenvironment in Breast Cancer.

Review 8. Conducive target range of breast cancer: Hypoxic tumor microenvironment.

9. Structural Insights into the Interactions of Digoxin and Na+/K+-ATPase and Other Targets for the Inhibition of Cancer Cell Proliferation.

9. Structural Insights into the Interactions of Digoxin and Na⁺/K⁺-ATPase and Other Targets for the Inhibition of Cancer Cell Proliferation.