Gingerol-derivatives: emerging new therapy against human drug-resistant MCF-7

Cancer chemotherapies have been improved dramatically over the last two decades. In the case of human breast cancer, the combination chemotherapeutic protocol, cyclophosphamide (CPA), doxorubicin (DOX), and 5-fluorouracil (5-FU) (CDF), is often used. Nevertheless, the clinical usefulness of CDF is l...

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Published in:Tumor biology 2014-10, Vol.35 (10), p.9941-9948
Main Authors: Ibrahim, Ahmed S., Sobh, Mohamed A. M., Eid, Hossam Mohammed, Salem, Amgad, Elbelasi, Hossam Hamza, El-naggar, Mai H., AbdelBar, Fatma M., Sheashaa, Hussein, Sobh, Mohamed A., Badria, Farid A.
Format: Article
Language:English
Subjects:
Antineoplastic Agents - chemistry
Antineoplastic Agents - pharmacology
Biomedical and Life Sciences
Biomedicine
Breast Neoplasms
Cancer Research
Catechols - chemistry
Catechols - pharmacology
Cell Survival - drug effects
Chemotherapy
Drug resistance
Drug therapy
Fatty Alcohols - chemistry
Fatty Alcohols - pharmacology
Humans
MCF-7 Cells
Research Article
Structure-Activity Relationship
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Summary:Cancer chemotherapies have been improved dramatically over the last two decades. In the case of human breast cancer, the combination chemotherapeutic protocol, cyclophosphamide (CPA), doxorubicin (DOX), and 5-fluorouracil (5-FU) (CDF), is often used. Nevertheless, the clinical usefulness of CDF is limited by its remarkably low therapeutic window and frequent eruption of resistance. These limitations prompted our search for a more effective and safe drug candidate that may raise the therapeutic benefits for breast cancer patients. Gingerols’ wide therapeutic indices as well as their high efficacy in the suppression of carcinogenesis are well established. However, no thorough study to date has profiled their antibreast cancer activities in depth. Therefore, the aims of the present study are to evaluate the antibreast cancer activities of gingerols in comparison to CDF and to gain insight into the structure activity relationships (SARs) responsible for the observed effect using a breast cancer cell model, MCF-7. Our data revealed that 6-gingerol showed the highest anticancer potency that is superior to that of CDF with IC 50  = 30.4 μM. Guided by these results, semisynthetic modifications of 6-gingerol have been carried out to characterize 6-gingerol’s SARs. The obtained results showed that the acquisition of free hydroxyl group in the aliphatic side chain of 6-gingerol is essential for the antibreast cancer activity. Likewise, the length of aliphatic side chain in 6-gingerol is optimum for its anticancer activity because any decrease in the side chain length resulted in a dramatic loss of anticancer activity. Additionally, allylation of phenolic group has shown antibreast cancer activity superior to that of 6-gingerol per se . Conversely, methylation or isoprenylation of phenolic group has led to a potential decrease in the anticancer activity, whereas loss of aromaticity resulted in a complete loss of 6-gingerol’s cytotoxic activity. Collectively, the present results would simplify drug design to allow safer and more effective antibreast cancer pharmaceuticals to be designed.
ISSN:1010-4283
1423-0380
DOI:10.1007/s13277-014-2248-7