Masoumeh Fardi scite author profile

Epigenetic, along with genetic mechanisms, is essential for natural evolution and maintenance of specific patterns of gene expression in mammalians. Global epigenetic variation is inherited somatically and unlike genetic variation, it is dynamic and reversible. They are somatically associated with known genetic variations.Recent studies indicate the broad role of epigenetic mechanisms in the initiation and development of cancers, that they are including DNA methylation, histone modifications, nucleosomes changes, non-coding RNAs. The reversible nature of epigenetic changes has led to the emergence of novel epigenetic therapeutic approaches, so that several types of these medications have been approved by the FDA so far.In this review, we discuss the concept of epigenetic changes in diseases, especially cancers, the role of these changes in the onset and progression of cancers and the potential of using this knowledge in designing novel therapeutic strategies.

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The crucial role of ZEB2: From development to epithelial‐to‐mesenchymal transition and cancer complexity

Fardi

Alivand

Baradaran

et al. 2019

Journal Cellular Physiology

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Zinc finger E‐box binding homeobox 2 (ZEB2) is a DNA‐binding transcription factor, which is mainly involved in epithelial‐to‐mesenchymal transition (EMT). EMT is a conserved process during which mature and adherent epithelial‐like state is converted into a mobile mesenchymal state. Emerging data indicate that ZEB2 plays a pivotal role in EMT‐induced processes such as development, differentiation, and malignant mechanisms, for example, drug resistance, cancer stem cell‐like traits, apoptosis, survival, cell cycle arrest, tumor recurrence, and metastasis. In this regard, the understanding of mentioned subjects in the development of normal and cancerous cells could be helpful in cancer complexity of diagnosis and therapy. In this study, we review recent findings about the biological properties of ZEB2 in healthy and cancerous states to find new approaches for cancer treatment.

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Emerging molecular functions of microRNA-124: Cancer pathology and therapeutic implications

Moghadasi

Alivand

Fardi

et al. 2020

Pathology - Research and Practice

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Silencing ZEB2 Induces Apoptosis and Reduces Viability in Glioblastoma Cell Lines

et al. 2021

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Background: Glioma is an aggressive type of brain tumor that originated from neuroglia cells, accounts for about 80% of all malignant brain tumors. Glioma aggressiveness has been associated with extreme cell proliferation, invasion of malignant cells, and resistance to chemotherapies. Due to resistance to common therapies, glioma affected patients’ survival has not been remarkably improved. ZEB2 (SIP1) is a critical transcriptional regulator with various functions during embryonic development and wound healing that has abnormal expression in different malignancies, including brain tumors. ZEB2 overexpression in brain tumors is attributed to an unfavorable state of the malignancy. Therefore, we aimed to investigate some functions of ZEB2 in two different glioblastoma U87 and U373 cell lines. Methods: In this study, we investigated the effect of ZEB2 knocking down on the apoptosis, cell cycle, cytotoxicity, scratch test of the two malignant brain tumor cell lines U87 and U373. Besides, we investigated possible proteins and microRNA, SMAD2, SMAD5, and miR-214, which interact with ZEB2 via in situ analysis. Then we evaluated candidate gene expression after ZEB2-specific knocking down. Results: We found that ZEB2 suppression induced apoptosis in U87 and U373 cell lines. Besides, it had cytotoxic effects on both cell lines and reduced cell migration. Cell cycle analysis showed cell cycle arrest in G0/G1 and apoptosis induction in U87 and U373 cell lines receptively. Also, we have found that SAMAD2/5 expression was reduced after ZEB2-siRNA transfection and miR-214 upregulated after transfection. Conclusions: In line with previous investigations, our results indicated a critical oncogenic role for ZEB2 overexpression in brain glioma tumors. These properties make ZEB2 an essential molecule for further studies in the treatment of glioma cancer.

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Masoumeh Fardi

Epigenetic mechanisms as a new approach in cancer treatment: An updated review

The crucial role of ZEB2: From development to epithelial‐to‐mesenchymal transition and cancer complexity

Emerging molecular functions of microRNA-124: Cancer pathology and therapeutic implications

Silencing ZEB2 Induces Apoptosis and Reduces Viability in Glioblastoma Cell Lines

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