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Mir-20A Inhibition Using Locked Nucleic Acid (Lna) Technology and Its Effects on Apoptosis of Human Macrophages Infected by Toxoplasma Gondii Rh Strain Publisher Pubmed

Summary: A study suggests blocking miR-20a in macrophages increases cell death during Toxoplasma infection, offering new treatment insights. #InfectiousDisease #Immunology

Rezaei F1 ; Daryani A2, 3 ; Sharifi M4 ; Sarvi S2, 3 ; Jafari N5 ; Pagheh AS2, 3 ; Hashemi N6 ; Hejazi SH7
Authors

Source: Microbial Pathogenesis Published:2018


Abstract

Toxoplasma gondii is a ubiquitous and infectious parasite that multiplies in any nucleated cell of warm-blooded animals and humans worldwide. This parasite has intricate mechanisms to reciprocate host-cell apoptosis to exist in the host cell. So far, the details of the parasite interactions with host cells are not well known. MicroRNAs (miRNAs) are one of the small noncoding RNAs that are now considered as a key mechanism of gene regulation. They are important in physiological and pathological processes such as apoptosis. In this study a Real Time quantitative PCR technique was used to evaluate the levels of miR-20a of miRNAs family in human macrophage during T. gondii infection to determine the role of miR-20a in apoptosis. Then, the inhibition of miR-20a function through interaction with transfection of Locked Nucleic Acid (LNA) antisense oligomer was studied. Furthermore, it was examined whether miR-20a is involved in apoptosis of human macrophages with T. gondii infected cells using flow cytometry. We found that miR-20a expression is up-regulated in human macrophages following T. gondii infection. After LNA anti miR-20a oligomer transfection, miR-20a inhibition was evaluated by quantitative reverse transcriptase polymerase chain reaction. Flow cytometry results showed that LNA anti-miR20a oligomer increased apoptosis. In agreement with this result, we found that specific LNA oligonucleotides prevent the functional activity of miR-20a and promotion of human macrophages apoptosis with T. gondii infection by inhibition of this miRNAs gene. Also, the results support the concept that LNA oligomer antisense may be used as a therapeutic implement for blocking detrimental miRNAs overexpressed in infections. © 2018 Elsevier Ltd
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Mohammadreza Sharifi (11)
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