期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 22, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/ijms22115922
关键词
angiogenesis; gene expression; non-viral vectors; 2A-peptides; growth factors; tube formation; VEGF; FGF2; cytokines
资金
- Russian Foundation for Basic Research grant [18-44-160029]
- Kazan Federal University [0671-2020-0058]
Coronary artery disease poses a significant healthcare challenge due to the high cost of treatment, increasing patient numbers, poor clinical outcomes, and limited effective therapies. Developing alternative therapeutic approaches for ischemic diseases, especially decompensated forms, is crucial. The use of multicistronic multigenic constructs encoding growth factors shows potential in promoting safe and effective systems for treating ischemic diseases.
Coronary artery disease remains one of the primary healthcare problems due to the high cost of treatment, increased number of patients, poor clinical outcomes, and lack of effective therapy. Though pharmacological and surgical treatments positively affect symptoms and arrest the disease progression, they generally exhibit a limited effect on the disease outcome. The development of alternative therapeutic approaches towards ischemic disease treatment, especially of decompensated forms, is therefore relevant. Therapeutic angiogenesis, stimulated by various cytokines, chemokines, and growth factors, provides the possibility of restoring functional blood flow in ischemic tissues, thereby ensuring the regeneration of the damaged area. In the current study, based on the clinically approved plasmid vector pVax1, multigenic constructs were developed encoding vascular endothelial growth factor (VEGF), fibroblast growth factors (FGF2), and the DsRed fluorescent protein, integrated via picornaviruses' furin-2A peptide sequences. In vitro experiments demonstrated that genetically modified cells with engineered plasmid constructs expressed the target proteins. Overexpression of VEGF and FGF2 resulted in increased levels of the recombinant proteins. Concomitantly, these did not lead to a significant shift in the general secretory profile of modified HEK293T cells. Simultaneously, the secretome of genetically modified cells showed significant stimulating effects on the formation of capillary-like structures by HUVEC (endothelial cells) in vitro. Our results revealed that when the multicistronic multigene vectors encoding 2A peptide sequences are created, transient transgene co-expression is ensured. The results obtained indicated the mutual synergistic effects of the growth factors VEGF and FGF2 on the proliferation of endothelial cells in vitro. Thus, recombinant multicistronic multigenic constructs might serve as a promising approach for establishing safe and effective systems to treat ischemic diseases.
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