Tehran University of Medical Sciences

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Designing of Rna Molecule Translating for Activitable Melittin As Selective Targeting of Leishmania Infected Cells Publisher



Akhzari S1 ; Nabian S1 ; Shayan P1 ; Fard RMN2 ; Soltani M3 ; Taheri M4
Authors

Source: Iranian Journal of Parasitology Published:2021


Abstract

Background: Leishmaniasis is characterized by strong inflammatory responses with high levels of inflammatory cytokines that induce microRNA 21 and matrix metalloproteinases. Melittin has inhibitory effects on proliferation of various cells via induction of apoptosis. Melittin can be integrated in cell membranes and induce apoptosis. Thus, designation of biomolecules for the selective destroy of the infected cells is a treatment option. One approach is the precise engineering of con-structs for the selective expression of melittin in the infected cells. Methods: For this aim we designed a construct composing melittin nucleotide sequence and nucleotide sequence coding for polyanionic peptide function inhibitory element to further guarantee the selective function of melittin in inflamed tissues and infected cells, were included in a construct as melittin inhibitor via matrix met-alloproteinase degradable linker. Results: Reverse complementary sequences were designed so melittin sequences for the selective targeting of Leishmania could be expressed in infected cells using cell microRNA machinery. Conclusion: Translation machinery in infected cells with increased miR-21 could translate melittin, MMP linker and polyanionic inhibitor through a non-canonical pathway. Then, the MMP linker is degraded and selective killing of Leishmania infected cells would happen. © 2021 Akhzari et al.
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