• Title of article

    Downregulation of HMGA2 by Small Interfering RNA Affects the Survival, Migration, and Apoptosis of Prostate Cancer Cell Line

  • Author/Authors

    Khajouee ، Shima Immunology Research Center - Tabriz University of Medical Sciences , Baghbani ، Elham Immunology Research Center - Tabriz University of Medical Sciences , Mohammadi ، Ali Immunology Research Center - Tabriz University of Medical Sciences , Mansoori ، Behzad Immunology Research Center - Tabriz University of Medical Sciences , Shanehbandi ، Dariush Immunology Research Center - Tabriz University of Medical Sciences , Hajiasgharzadeh ، Khalil Immunology Research Center, Connective Tissue Diseases Research Center - Tabriz University of Medical Sciences , Baradaran ، Behzad Immunology Research Center, Pharmaceutical Analysis Research Center, Neurosciences Research Center - Tabriz University of Medical Sciences

  • From page
    398
  • To page
    403
  • Abstract
    Purpose: To investigate the downregulation of high mobility group AT-hook 2 (HMGA2) expression by small interfering RNAs (siRNAs) in PC3 prostate cancer cell line. HMGA2 belongs to the non-histone chromatin-binding protein family that serves as a crucial regulator of gene transcription. The overexpression of this gene is positively correlated with various prostate cancer (PC)-related properties. Thus, HMGA2 is an emerging target in PC treatment. This study aimed to examine the impact of siRNAs targeting HMGA2 on the viability, migration, and apoptosis processes of the PC3 PC cell line. Methods: siRNA transfection was conducted with a liposome-mediated approach. The mRNA and protein expression levels for HMGA2 are evaluated by real-time polymerase chain reaction (qRT-PCR) and western blot analysis. The cytotoxic properties of HMGA2-siRNA were measured by MTT assay on PC3 cells. The migration of PC3 cells was measured by implementing a wound-healing assay. Apoptosis measurement was also quantified by TUNEL assay. Results: Transfection with siRNA significantly decreased both mRNA and protein levels of the HMGA2 gene in a dose-dependent manner after 48 hours. Also, we demonstrated that the knockdown of HMGA2 led to a reduction in cell viability, migration ability, and enhanced apoptosis of PC3 cells in vitro. Conclusion: Our findings recommend that the specific siRNA of HMGA2 may efficiently be able to decrease PC progression. Therefore, it may be a promising adjuvant treatment in PC.
  • Keywords
    HMGA2 , Gene therapy , Small interfering RNA , Prostate cancer , Apoptosis assay , Cell migration
  • Journal title
    Advanced Pharmaceutical Bulletin
  • Journal title
    Advanced Pharmaceutical Bulletin
  • Record number

    2708613