Functional analyses of recombinant mouse hepcidin-1 in cell culture and animal model

Hepcidin is a peptide hormone that plays an important role in iron metabolism. We have produced a recombinant mouse hepcidin-1 by using baculovirus expression system. Its expression yield was 25 μg/ml when cell culture media were supplemented with a protease inhibitor cocktail. The recombinant mouse hepcidin-1 and synthetic human hepcidin-25 had similar effects on reducing ferroportin expression in J774A cell line and in peritoneal macrophages. However, synthetic human hepcidin-25 was more efficient than recombinant mouse hepcidin-1 in reducing iron concentration in blood circulation (p < 0.01). © 2013 Springer Science+Business Media Dordrecht. Author keywords Baculovirus expression system (BES) Ferroportin Hepcidin Iron metabolism Indexed keyword

λ phage nanobioparticle expressing apoptin efficiently suppress human breast carcinoma tumor growth in vivo

Using phages is a novel field of cancer therapy and phage nanobioparticles (NBPs) such as λ phage could be modified to deliver and express genetic cassettes into eukaryotic cells safely in contrast with animal viruses. Apoptin, a protein from chicken anemia virus (CAV) has the ability to specifically induce apoptosis only in carcinoma cells. We presented a safe method of breast tumor therapy via the apoptin expressing λ NBPs. Here, we constructed a λ ZAP-CMV-apoptin recombinant NBP and investigated the effectiveness of its apoptotic activity on BT-474, MDA-MB-361, SKBR-3, UACC-812 and ZR-75 cell lines that over-expressing her-2 marker. Apoptosis was evaluated via annexin-V fluorescent iso-thiocyanate/propidium iodide staining, flow-cytometric method and TUNEL assay. Transfection with NBPs carrying λ ZAP-CMV-apoptin significantly inhibited growth of all the breast carcinoma cell lines in vitro. Also nude mice model implanted BT-474 human breast tumor was successfully responded to the systemic and local injection of untargeted recombinant λ NBPs. The results presented here reveal important features of recombinant λ nanobioparticles to serve as safe delivery and expression platform for human cancer therapy. © 2013 Shoae-Hassani et al

Application of nanotechnology in device promotion in cardiology: A promising horizon for nanocardiology toward personalized medicine

Cardiovascular diseases such as coronary artery disease, stroke, and atherosclerosis constitute some of the most challenging problems in the medical field because of their high mortality rates. Nanotechnology in medicine/nanomedicine has several applications in different medical fields, especially in cardiology. Recent advances in nanotechnology and nanomedicine have created many opportunities for cardiovascular diseases, from diagnosis, treatment, and monitoring to drug delivery and nanoscale surgery. We reviewed recent applications of nano-enabled devices in cardiology such as targeted drug delivery, nanocoated drug-eluting stents, injectable peptide nanofibers, anticoagulation applications, and post-surgical monitoring. © 2015, Iranian Heart Association. All rights reserved

Will stem cells from fat and growth factors from blood bring new hope to female patients with reproductive disorders?

Female reproductive system disorders (FRSD) with or without infertility are prevalent women's health problems with a variety of treatment approaches including surgery and hormone therapy. It currently considering to sub-branch of regenerative medicine including stem cells or growth factors injection-based delivery treatment might be improved female reproductive health life. The most common products used for these patients treatment are autologous cell or platelet-based products from patients, including platelet-rich plasma, plasma rich in growth factor, platelet-rich fibrin, and stromal vascular fraction. In this review, we discuss each of the above products used in treatment of FRSD and critically evaluate the clinical outcome. © 202