Mojgan Bandehpour scite author profile

The aim of this study is to develop a simple and cost-effective method for decellularization and preservation of human amniotic membrane (HAM) as a soft tissue replacement and a delivery system for stem cells. The HAM is decellularized (D) using new chemical and mechanical techniques. The decellularization scaffold is evaluated histologically and fully characterized. The cell adhesion and proliferation on the scaffold are also investigated and the biocompatibility of D tissues is evaluated in vivo. The histological studies reveal that the cells are successfully removed from the D tissue. The DNA extraction shows more than 95% cell removal (p = 0.001). The in vitro results indicate that the decellularisation process does not deteriorate the mechanical properties of the tissue, whereas it increases the in vitro biodegradation value (p < 0.05). In the D samples, there is no significant cytotoxicity, and no changes are found in the rate of cell proliferation (p > 0.05). Immunohistochemistry staining indicates that all the tested components remain unchanged within the D tissues. The count of inflammatory cells show that the decellularization process slightly increases the biocompatibility of the tissue after 7 days post-surgery. The results indicate that scaffold proves to be reproducible, rapid, and cost-effective, with a potential role for clinical application.

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Overview of CD24 as a new molecular marker in ovarian cancer

Tarhriz

Bandehpour

Dastmalchi

et al. 2018

Journal Cellular Physiology

102

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Ovarian cancer (OC) is the fifth leading cause of cancer‐related death among women. The high mortality rate is due to lack of early symptoms, late diagnosis, limited treatment options, and also emerging of drug resistance. Todays, molecular markers have become promising in tumor‐targeted therapy. Several molecular markers have been known in OC immunotherapy. Identification of the specific molecular markers with prognostic significance is interested. CD24 is a small sialoglycoprotein which is localized in lipid rafts through its glycosylphosphatidylinositol (GPI) anchor. It has been reported that CD24 is overexpressed in many cancers including OC. Also, CD24 is identified as a cancer stem cell marker in OC. The CD24 expression is associated with the development, invasion, and metastasis of cancer cells. The exact role of CD24 in cancer cells is not clearly understood. Recently, CD24 has been identified as an independent prognostic marker of survival in patients with OC. In this study, we reviewed the molecular targets in OC immune‐targeted therapy and also presented an overview of the new molecular marker CD24 and its association with the OC by reviewing the recent literature.

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Immunization with M2e-Displaying T7 Bacteriophage Nanoparticles Protects against Influenza A Virus Challenge

et al. 2012

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Considering the emergence of highly pathogenic influenza viruses and threat of worldwide pandemics, there is an urgent need to develop broadly-protective influenza vaccines. In this study, we demonstrate the potential of T7 bacteriophage-based nanoparticles with genetically fused ectodomain of influenza A virus M2 protein (T7-M2e) as a candidate universal flu vaccine. Immunization of mice with non-adjuvanted T7-M2e elicited M2e-specific serum antibody responses that were similar in magnitude to those elicited by M2e peptide administered in Freund’s adjuvant. Comparable IgG responses directed against T7 phage capsomers were induced following vaccination with wild type T7 or T7-M2e. T7-M2e immunization induced balanced amounts of IgG1 and IgG2a antibodies and these antibodies specifically recognized native M2 on the surface of influenza A virus-infected mammalian cells. The frequency of IFN-γ-secreting T cells induced by T7-M2e nanoparticles was comparable to those elicited by M2e peptide emulsified in Freund’s adjuvant. Emulsification of T7-M2e nanoparticles in Freund’s adjuvant, however, induced a significantly stronger T cell response. Furthermore, T7-M2e-immunized mice were protected against lethal challenge with an H1N1 or an H3N2 virus, implying the induction of hetero-subtypic immunity in our mouse model. T7-M2e-immunized mice displayed considerable weight loss and had significantly reduced viral load in their lungs compared to controls. We conclude that display of M2e on the surface of T7 phage nanoparticles offers an efficient and economical opportunity to induce cross-protective M2e-based immunity against influenza A.

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Antibody Based EpCAM Targeted Therapy of Cancer, Review and Update

Eyvazi

Farajnia

Dastmalchi

et al. 2018

CCDT

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Todays, after four decades from the discovery of monoclonal antibodies by Kohler and Milstein in 1975, a dozen of antibodies are used in cancer targeted therapy with different strategies. The success of these antibodies depends on the specificity of antigens expressed on the cancer cells. Epithelial Cell Adhesion Molecule (EpCAM), a homophilic cell-cell adhesion glycoprotein is a well- known tumor antigen, which expresses on epithelial tumors and circulating tumor cells as well as cancer stem cells. The EpCAM signaling pathway is associated with proliferation, differentiation and adhesion of epithelial cancer cells. Here we review EpCAM structure, expression profile and its signaling pathway in cancer cells. In addition, we focused on structure, mechanism of action and success of anti EpCAM antibodies which have been used in different clinical trials. Based on literatures, Edrecolomab showed limited efficacy in the phase III studies. The wholly human monoclonal antibody Adecatumumab is dose- and target-dependent in metastatic breast cancer patients expressing EpCAM. The chimeric antibody, Catumaxomab, has been approved for the treatment of malignant ascites; however, this Mab showed considerable results in intrapleural administration in cancer patients. Anti EpCAM toxin conjugated antibodies like, Oportuzumab Monatox (scFv antibody and Pseudomonas exotoxin A (ETA)), Citatuzumab Bogatox (Fab fragment with bouganin toxin) and immono-conjugate antibody Tucotuzumab (monoclonal antibody with IL2), have shown acceptable results in different clinical trials. Almost, all of the antibodies were well-tolerated; however, still more clinical trials are needed for the approval of antibodies for the treatment of specific tumors.

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