Your search keyword '"Lotfizadeh, Reza"' showing total 4 results

1. Down regulation of the c-Fos/MAP kinase signaling pathway during learning memory processes coincides with low GnRH levels in aluminum chloride-induced Alzheimer’s male rats

Author

Lotfizadeh, Reza, Karami, Manizheh, and Jalali-Nadoushan, Mohammadreza

Published

2024

2. Inhibitory effect of flavonoid xanthomicrol on triple‐negative breast tumor via regulation of cancer‐associated microRNAs

Author

Attari, Farnoosh, primary, Keighobadi, Faezeh, additional, Abdollahi, Mohammad, additional, Arefian, Ehsan, additional, Lotfizadeh, Reza, additional, Sepehri, Houri, additional, and Moridi Farimani, Mahdi, additional

Published

2020

3. Inhibitory effect of flavonoid xanthomicrol on triple-negative breast tumor via regulation of cancer-associated microRNAs.

Author

Attari, Farnoosh, Keighobadi, Faezeh, Abdollahi, Mohammad, Arefian, Ehsan, Lotfizadeh, Reza, Sepehri, Houri, and Moridi Farimani, Mahdi

Subjects

BIOLOGICAL models, FLAVONOIDS, RNA, CELL physiology, FLAVONES, RESEARCH funding, CELL lines, ANIMALS, MICE, BREAST tumors

Abstract

Breast cancer is the leading cause of cancer death in women worldwide. Due to the side effects of current chemo-reagents on healthy tissues, it is essential to search for alternative compounds with less toxicity and better efficacy. In the present study, we have investigated the anticancer effects of flavonoid xanthomicrol on the mice breast cancer model using MTT assay, cell cycle and Annexin/PI analysis, colony formation assay, H&E staining, immunohistochemistry, and miRNA analysis. Our results demonstrated that xanthomicrol decreased the cell viability and clonogenic capability, induced G1-arrest and apoptosis in the breast cancer cells in vitro, and caused a significant reduction in the volume and weight of mice tumors in vivo. In addition, xanthomicrol reduced the expression of TNFα, VEGF, MMP9, and Ki67, while upregulating the expression of apoptotic markers such as Bax, caspase3, and caspase9. Finally, the expression of miR21, miR27, and miR125, known as oncomirs, decreased significantly after xanthomicrol administration, while the expression of miR29 and miR34, functioning as tumor suppressors, increased significantly (p < .001). Our data demonstrated that xanthomicrol can induce apoptosis and suppress angiogenesis in breast cancer cells due to its inhibitory effect on oncomirs and its stimulatory effect on tumor suppressor miRNAs. [ABSTRACT FROM AUTHOR]

Published

2021

4. Flavonoid Calycopterin Induces Apoptosis in Human Prostate Cancer Cells In-vitro.

Author

Lotfizadeh, Reza, Sepehri, Houri, Attari, Farnoosh, and Delphi, Ladan

Subjects

*ANDROGEN drugs, *CANCER cells, *PROSTATE cancer, *BIOAVAILABILITY, *FLAVONOIDS, *DRUG side effects, *CELL populations, *APOPTOSIS

Abstract

Prostate cancer is enumerated as one of the most prevalent cancers in men, with a mortality rate of 18%. Chemotherapy is considered as a common strategy for cancer treatment; however, toxic side effects and drug resistance associated with chemotherapy are major drawbacks with this approach. It is well known that a diet rich in flavonoids can reduce the incidence of many types of cancer in a significant manner, and it was proved that methoxy flavones have greater bioavailability compared to the nonmethylated ones. Calycopterin is a tetramethoxy flavone which was demonstrated to have anti-proliferative effects on colon, gastric, and osteosarcoma cancer cells. Therefore, in the current study, we have evaluated the apoptotic effects of this flavonoid on two prostate cancer cell lines in-vitro. The MTT assay revealed that after 48 h treatment with this flavonoid, cell viability reduced to 50% compared to the control group. However, calycopterin treatment of healthy HUVEC did not cause any significant reduction in cell viability. Moreover, the clonogenic assay demonstrated that after 14 days, colony size and numbers reduced significantly in calycopterin treated cells. In addition, the percentage of the sub-G1 population in calycopterin-treated cells augmented significantly compared to untreated group. Also, calycopterin-treated cells demonstrated shiny condensed nuclei with fragmented DNA indicative of apoptosis. Finally, a significant reduction in the migration ability was observed in both lines subjected to calycopterin after 48 h. To conclude, our results demonstrated the apoptotic and antimetastatic effects of calycopterin in both hormone-dependent and independent prostate cancer cell lines. [ABSTRACT FROM AUTHOR]

Published

2020