404. Development of Human Artificial Chromosomes for Gene Cell Therapy of Muscular Dystrophies

Abstract

Muscular dystrophies are clinically heterogeneous group of muscle diseases related to different genes defects. The results of defects impair myogenic differentiation and histophysiology of skeletal muscles. One of major forms of disease – limb-girdle muscular dystrophy 2B (LGMD2B), caused by dysferlin gene mutations. Both big size of gene and wide variety of mutations complicate development of genetically engineered drugs. Human artificial chromosomes (HAC) could be used as alternative approach. This vector can contain unlimitedly large DNA region for transfer, is retained during cell division, and does not have carcinogenic and immunogenic properties.HAC matrix was developed earlier by Larionov V. et al. (http://www.ncbi.nlm.nih.gov/pubmed/22123967). Optimized DYSF gene sequence (optDYSF) from pAd/CMV/V5-DEST vector (kindly provided by A.A. Rizvanov) was transferred into backbone vector also containing loxP sites for further transfer into HAC. Transfer correctness confirmed by sequencing. After that Chinese hamster ovary cells carrying HAC were transfected by backbone vector containing optDYSF. Selection performed in HAT medium. 7 clones were selected and analyzed at day 10. Expression of optDYSF observed in all obtained clones. Episomal HAC localization determined using fluorescent hybridization in sity by colocalization of label at optDYSF and a-satellite DNA. Episomal localization of HAC determined only in 2 clones from 7. Dysferlin production observed in all clones.On other hand described vector requires somatic myogenic vector cell. Human myoblasts could be successfully used for this purpose. The major source of myoblasts – skeletal muscle tissue is not optimal due to limited proliferative potential, especially in patients with muscular dystrophies. Our team revealed presence of myoblasts in gingival mucosa specimens and developed new method of myoblasts obtainment from it. Primary cultures of multipotent mesenchymal stromal cells (MSC) were derived from gingiva biopsy samples. The cells expressed typical mesenchymal stem cells markers and had ability for 3-way differentiation. Myogenic induction of gingiva derived MSC in culture was demonstrated. Gingiva derived MSC are capable to express markers of myogenic differentiation (skeletal actin, sceletal myosin, MyoD1) and form multicellular elongated fibers – myotubes. Ability of gingiva derived MSC cultures to differentiate in myogenic direction was preserved during up to 10th passage. Such features make this cell source attractive for using in treatment of inherited muscular degenerative diseases.In our future research we are planning to transfer HAC containing optDYSF gene into clonogenic gingiva derived MSC using microcell-mediated chromosome transfer. This method could be used for further development of gene cell therapy of LGMD2B.