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فهرست مطالب helmout modjtahedi

  • Majid Asadi-Ghalehni, Mohammad Javad Rasaee, Nabiollah Namvar Asl, Masood Khosravani, Masoumeh Rajabibazl, Saeed Khalili, Helmout Modjtahedi, Esmaeil Sadroddiny
    Over expression of the epidermal growth factor receptor (EGFR) in many human epithelial tumors has been correlated with disease progression and poor prognosis. EGFR-inhibiting immunotherapy has already been introduced in cancer therapy. Peptide displaying phage particles in eukaryotic hosts can behave as antigen carriers, able to activate the innate immune system and to elicit adaptive immunity. Herein, the M13-pAK8-VIII phagemid plasmid was engineered to contain the sequences for an EGFR mimotope along with the L2 extracellular domain of EGFR (EM-L2) which would produce the final peptide-phage vaccine. The prophylactic and therapeutic effects of this novel vaccine were evaluated on the Lewis lung carcinoma induced mouse (C57/BL6) model. The recombinant peptide was confirmed to be displayed on the surface of M13 phage as an extension for phage’s PVIII protein. Immunization of mice with peptide-phage vaccine resulted in antibody production against EM-L2 and significant reduction of tumor growth rate by nearly 25 percent. In conclusion, EM-L2 displaying phage particles could be deemed as an encouraging strategy in contemporary cancer immunotherapy.
    Keywords: Cancer, Epidermal growth factor receptor, Immunotherapy, Peptide vaccine}
  • Mehrnoosh Doroudchi, Abdolrasoul Talei, Helmout Modjtahedi, Alamtaj Samsami Dehaghani, Abdol Mohammad Pezeshki, Hilary Thomas, Abbas Ghaderi
    Background
    A soluble form of HER-2/neu extracellular domain (sHER-2) is reportedto be released in the sera of metastatic breast cancer patients.
    Objective
    To measure the level of sHER-2 in sera of 115 breast cancer patients.
    Methods
    Serial samples of 27 patients with metastasis, 18 non-metastatic patients, 15 patients in stage 0/I and 14 patients with accompanying benign breast disease were also included in this study.
    Results
    No significant difference was observed between sHER- 2 level in the pre-operative sera of breast cancer patients and that of healthy individuals. Only 8 out of 27 patients whom later developed metastasis showed elevated levels of sHER-2 in their first serum sample. However, a trend of increase in the level of sHER-2 was observed in 14 (51.8%) of 27 metastatic sera before clinical diagnosis of the metastasis. A significant association between sHER-2 positive status and vascular invasion of the tumor was observed (P = 0.02). In addition, significant correlation of sHER-2 level with CEA (highest r = 0.74) and CA 15.3 (highest r = 0.74) tumor marker levels in the serial sera were observed. The mean time from sHER-2 positivity to tumor metastasis was calculated to be 98 days (range = 29-174).
    Conclusion
    Our results indicate that a relatively high percentage of Iranian patients with breast cancer show an elevated level of sHER-2 in their sera before clinical diagnosis of the tumor metastasis. Therefore, measuring the level of this oncoprotein, not only helps physicians in monitoring the patients during HERCEPTINTM therapy, but also can be helpful in choosing more aggressive treatments at the early satges of tumor metastasis.
  • Dr . Helmout Modjtahedi
    Despite the major advances in conventional forms of treatment (i.e. surgical techniques, radiotherapy and chemotherapy) and improved survival rates, cancer is still the second leading cause of death in developing countries. One major limitation of cytotoxic drugs and radiation in the treatment of cancer patients is their inability to discriminate between malignant and normal tissues. This in turn prevents the delivery of the optimal (therapeutic) dose of such agents to malignant tissues for their eradication. With the advent of hybridoma technology in 1975, it has been possible for the first time to produce large amounts of an antibody (i.e. monoclonal antibody) against any antigens of interest. Since each antibody is highly specific for a particular antigen, this typical feature of the antibodies has resulted in their widespread use in diagnostic kits, medical research (e.g. to unravel the function of the antigen in physiological and pathological conditions), and more recently, for the management of a wide range of human diseases such as autoimmune disease and human cancers. Thanks to recent advances in genetic engineering, the immunogenicity of rodent antibodies was reduced by producing the chimeric or humanized version of such antibodies or by developing the fully human antibodies. In other instances, as intact antibodies are too large for rapid penetration into solid tumours, it has been possible to develop a smaller fragment of such antibodies (e.g. Fab, scFv, VHH) with greater potential for use in cancer imaging and therapy. Depending on the target antigens and the antibody format, monoclonal antibodies can induce their anti-tumour activities by several mechanisms including activation of the host effector cells. To date, several mAbs have been approved for management of human cancers including: anti-EGFR antibody cetuximab and anti-VEGF antibody bevacizumab for treatment of metastatic colorectal cancer, anti-HER-2 antibody trastuzumab for metastatic breast cancer, anti-CD20 antibodies rituximab and ibritumomab tituxetan for non-Hodgkin lymphoma, anti- CD52 antibody alemeutumab for chronic lymphocytic leukaemia, and anti-CD33 antibody gemutuzumab ozogamicin for the treatment of acute myeloid leukaemia patients. Monoclonal antibodies currently account for about 30% of all new drugs in development, with more than 500 antibodies at different stages of clinical trials worldwide. In this review, the characteristic features of some of the therapeutic antibodies and the antigens recognised by such antibodies will be discussed as well as several challenges that need to be addressed in order to facilitate their widespread use as “magic bullets” in the management of human diseases and in particular human cancers.
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