Your search keyword '"Shanehbandi, Dariush"' showing total 4 results

1. The production of the first functional antibody mimetic in higher plants: the chloroplast makes the DARPin G3 for HER2 imaging in oncology

Author

Ehsasatvatan,Maryam, Kohnehrouz,Bahram Baghban, Gholizadeh,Ashraf, Ofoghi,Hamideh, Shanehbandi,Dariush, Ehsasatvatan,Maryam, Kohnehrouz,Bahram Baghban, Gholizadeh,Ashraf, Ofoghi,Hamideh, and Shanehbandi,Dariush

Abstract

Background: Designed mimetic molecules are attractive tools in biopharmaceuticals and synthetic biology. They require mass and functional production for the assessment of upcoming challenges in the near future. The DARPin family is considered a mimetic pharmaceutical peptide group with high affinity binding to specific targets. DARPin G3 is designed to bind to the HER2 (human epidermal growth factor receptor 2) tyrosine kinase receptor. Overexpression of HER2 is common in some cancers, including breast cancer, and can be used as a prognostic and predictive tool for cancer. The chloroplasts are cost-effective alternatives, equal to, and sometimes better than, bacterial, yeast, or mammalian expression systems. This research examined the possibility of the production of the first antibody mimetic, DARPin G3, in tobacco chloroplasts for HER2 imaging in oncology. Results: The chloroplast specific DARPin G3 expression cassette was constructed and transformed into N. tabacum chloroplasts. PCR and Southern blot analysis confirmed integration of transgenes as well as chloroplastic and cellular homoplasmy. The Western blot analysis and ELISA confirmed the production of DARPin G3 at the commercial scale and high dose with the rate of 20.2% in leaf TSP and 33.7% in chloroplast TSP. The functional analysis by ELISA confirmed the binding of IMAC purified chloroplast-made DARPin G3 to the extracellular domain of the HER2 receptor with highly effective picomolar affinities. The carcinoma cellular studies by flow cytometry and immunofluorescence microscopy confirmed the correct functioning by the specific binding of the chloroplast-made DARPin G3 to the HER2 receptor on the surface of HER2-positive cancer cell lines. Conclusion: The efficient functional bioactive production of DARPin G3 in chloroplasts led us to introduce plant chloroplasts as the site of efficient production of the first antibody mimetic molecules. This report, as the first case of the cost-effective produ

Published

2022

2. Overexpression of HMGA2 in breast cancer promotes cell proliferation, migration, invasion and stemness

Author

Mansoori, Behzad, Duijf, Pascal H.G., Mohammadi, Ali, Najafi, Souzan, Roshani, Elmira, Shanehbandi, Dariush, Hajiasgharzadeh, Khalil, Shirjang, Solmaz, Ditzel, Henrik J., Kazemi, Tohid, Mokhtarzadeh, Ahad, Gjerstorff, Morten F., Baradaran, Behzad, Mansoori, Behzad, Duijf, Pascal H.G., Mohammadi, Ali, Najafi, Souzan, Roshani, Elmira, Shanehbandi, Dariush, Hajiasgharzadeh, Khalil, Shirjang, Solmaz, Ditzel, Henrik J., Kazemi, Tohid, Mokhtarzadeh, Ahad, Gjerstorff, Morten F., and Baradaran, Behzad

Abstract

Despite improved therapeutic strategies for early-stage breast cancer, the most common cancer type in women, relapse remains common and the underlying mechanisms for this progression remain poorly understood. To gain more insight, we studied the DNA-binding protein HMGA2 in breast cancer development and stemness. We demonstrated that HMGA2 is overexpressed in breast cancer tissues at the mRNA and protein levels (P value <0.0001). HMGA2 knockdown and overexpression in breast cancer cells revealed that HMGA2 promotes cell proliferation and protects against apoptosis via the intrinsic pathway. HMGA2 knockdown also causes cell cycle arrest in G2/M phase. In addition, we found that HMGA2 increases breast cancer cell migration and invasion (P value <0.001) and promotes the acquisition of cancer stem cell features, both in vitro, in colony formation (P value <0.01) and spheroid assays, and in breast cancer tissues. Overexpression of HMGA2 in breast cancer spurs the acquisition of several hallmarks of cancer, including increased cell proliferation, migration, invasion and stemness, and decreased apoptosis. Thus, targeting HMGA2 could represent an effective strategy to block breast cancer progression.

Published

2020

3. Downregulation of miR-146a promotes cell migration in Helicobacter pylori-negative gastric cancer

Author

Shomali, Navid, Shirafkan, Naghmeh, Duijf, Pascal, Ghasabi, Mehri, Babaloo, Zohreh, Yousefi, Mehdi, Mansoori, Behzad, Asadi, Milad, Shanehbandi, Dariush, Baghbani, Elham, Mohammadi, Ali, Baradaran, Behzad, Shomali, Navid, Shirafkan, Naghmeh, Duijf, Pascal, Ghasabi, Mehri, Babaloo, Zohreh, Yousefi, Mehdi, Mansoori, Behzad, Asadi, Milad, Shanehbandi, Dariush, Baghbani, Elham, Mohammadi, Ali, and Baradaran, Behzad

Abstract

microRNAs (miRs) are short noncoding RNAs that post‐transcriptionally suppress gene expression. miR‐146a acts as an oncogene or a tumor suppressor in various cancers, including gastric cancer, but it is unclear what determines whether miR‐146a is oncogenic or tumor suppressive and the molecular mechanisms are still largely unknown. The aim of this study was to investigate the role of miR‐146a in gastric cancer, by focusing on its expression in patients who were negative for Helicobacter pylori and its reduced and increased expression effect in vitro. Twenty gastric cancer patients who were negative for H. pylori infection were selected and the expression levels of miRNA‐146a in these gastric tumors, in their matched normal gastric tissues and in gastric cancer cell lines with varying tumorigenic potential was measured. Further, the impact of increased and decreased miR‐146a expression levels on the expression of predicted target genes, cell migration, viability, proliferation, and apoptosis was examined, respectively. Our results for the first time indicated that miR‐146a is downregulated in H. pylori–negative gastric cancers and suggests that H. pylori infection determines whether miR‐146a acts as an oncogene or tumor suppressor. The level of miR‐146a expression inversely correlates with the tumorigenicity of three gastric cancer cell lines and low miR‐146a expression predicts poor recurrence‐free survival. It was also found that miR‐146a reduces the expression levels of the prometastatic genes and suppresses MKN‐45 cell migration. Functional studies showed that miR‐146a acts as a tumor suppressor miR and identifies miR‐146a as a candidate for antimetastatic miRNA replacement therapy for gastric cancer patients.

Published

2019

4. Silencing of BACH1 inhibits invasion and migration of prostate cancer cells by altering metastasis-related gene expression

Author

Shajari, Neda, Davudian, Sadaf, Kazemi, Tohid, Mansoori, Behzad, Salehi, Shima, Khaze Shahgoli, Vahid, Shanehbandi, Dariush, Mohammadi, Ali, Duijf, Pascal, Baradaran, Behzad, Shajari, Neda, Davudian, Sadaf, Kazemi, Tohid, Mansoori, Behzad, Salehi, Shima, Khaze Shahgoli, Vahid, Shanehbandi, Dariush, Mohammadi, Ali, Duijf, Pascal, and Baradaran, Behzad

Abstract

Background: Cancer lethality is mainly caused by metastasis. Therefore, understanding the nature of the genes involved in this process has become a priority. BACH1, a basic leucine zipper transcription factor, has been shown to transcriptionally regulate expression of a range of genes that are associated with breast cancer metastasis. However, the exact role and the underlying molecular mechanism of BACH1 in prostate cancer remain unclear. This study aims to explore the expression of BACH1 in prostate cancer tissues and the effect of BACH1 suppression on prostate cancer cell behavior. Materials and methods: In this study, we used quantitative real-time PCR (qRT-PCR) to measure BACH1 expression in prostate adenocarcinoma tissues and two metastasis-derived prostate cancer cell lines, DU145 and LNCaP. We also used immunohistochemical (IHC) staining to measure BACH1 protein expression in prostate adenocarcinoma and matched normal tissue samples. In the following BACH1 expression was silenced in DU145 cells using siRNA as well. Knockdown was confirmed by qRT-PCR and Western blotting. The cytotoxic effects of BACH1-siRNA on DU145 cells were determined using an MTT assay. The migration and invasive capacity of DU145 cells were examined by scratch wound healing assay and matrigel invasion assay, respectively. We also used qRT-PCR to study the effect of BACH1 silencing on the expression levels of metastasis-related genes. Results: We find that the expression of BACH1 mRNA and protein in prostate cancer tissues is significantly higher than in matched normal prostate tissues (p < .05). In addition, DU145 and LNCaP cells exhibited 4.25-fold and 3.45-fold higher levels of BACH1 compared to HFF cell line. BACH1-siRNA significantly reduced both mRNA and protein expression levels in DU145 cells. More importantly, we show that BACH1 promotes key features of metastasis, as BACH1-siRNA treatment significantly reduced cell invasion and migration by changing the exp

Published

2018