Ali Hosseini Bereshneh , Danesh Soltani , Negar Veisi , Mohammad Khademi , Mohammad Hossein Modarressi ,
Volume 74, Issue 9 (December 2016)
Abstract
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Breast cancer that is caused by the accumulation of genetic and epigenetic alterations, is one of the main causes of death resulted from cancer. Various therapeutic approaches have been introduced for this cancer and the traditional diagnosis and treatment is based on the prognosis estimation using cancer anatomic features (TNM system) and clinical results, but studies show different responses of these treatments and recurrence after those in some patients. This diversity is resulted by the differences in biological and molecular characteristics. So genomic and molecular studies became more important and the role of targeted treatment based on an individual's genome was highlighted. Today, the progression in personalized medicine using specific individual genome profile has been possible. The ultimate goal of such studies, in the setting of the personalized medicine, is providing markers which can be used to risk assessment of progressing disease. This new science cause great development in the treatment of breast cancer by recognition of specific markers and application of targeted therapy. Trastuzumab and tamoxifen are the most common monoclonal antibodies applied in these patients depends on their biological and molecular profile. The good response to tamoxifen is seen only in patients with estrogen receptor (ER+) which inhibits the binding of estrogen to its receptor. Defect in the metabolizer enzyme of tamoxifen (CYP2D6), which convert it to the active forms, results in the increased risk of recurrence after treatment. Fulvestrant is another monoclonal antibody which its effect is similar to tamoxifen. Trastuzumab suppresses the cell growth by binding inhibition of epidermal growth factor to HER2 receptors. In the metastatic form of disease, the patients may show resistance to trastuzumab, so lapatinib is suitable alternative in these cases. Pertuzumab combination with trastuzumab and chemotherapy with taxane blocks the dimerization of HER2 with another form of HER receptors. The application of personalized medicine in triple negative phenotype is limited due to the lack of appropriate targets and biomarkers, it makes necessary to do further studies. The aim of this review was to describing the different aspects of personalized medicine and introducing the most important biomarkers and targets in the treatment of breast cancer.
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Saber Soltani , Abolfazl Davoodabadi, Abbas Farahani, Mahsa Dastranj , Masomeh Amini , Navid Momenifar , Shirin Poorabdi , Hojat Veisi ,
Volume 76, Issue 1 (April 2018)
Abstract
Immunotoxins such as pseudomonas exotoxin are Molecules with a unique structure like toxin-antibody part. These immunotoxins are two functional which crossing the cell membrane and enters the target cell and destroy the cell. Toxin-based treatments are a widespread research field and can have broad applications in the biology and public health. Immunotoxins act selectively against cancer cells and have a good potential for detecting and targeting cancer cells. Specific immunotoxins to target immune cells due to the selection type antibody and antibodies are responsible for the identification of the target cells. Cancer is becoming a major cause of death in most developed countries. In order to have a strong factor in cancer repression, that agent must target the cancer cells directly and specifically. Often, but not always, immunotoxins are produced for disabling and killing cancer cells, that this issue is one of new therapeutic approaches in recently. Clinical aims to designing and create new cancer therapies focused with this approach, a lot of information about the toxin and intracellular pathways have been obtained. So, toxins in medicine are useful for the treatment of human disease and study of professional cellular functions. So, immunotoxins have a high potential for cancer treatment. Other applications of immunotoxins, including immune system regulation and treatment of viral diseases and parasites diseases. More research is needed to improve the immunotoxin effects and to reduce their side effects. On the whole, with design creative, clever and experienced programs, many human diseases, particularly cancers can be in a short period of time and faster than other methods of treatment that the treatment of long, to be treated. Following the design and implementation of clinical trials, the effects of immunotoxins on animal tumorigenic models were performed. In fact, in this study, we focus on the use of protein-bound toxins with bacterial and herbal sources and more specifically Pseudomonas immunotoxins which attached to antibodies to target cancer cells.
