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  1. A potential marker in brucellosis, long non coding RNA IFNG-AS1
    Gheitasi R, Jourghasemi S, Pakzad I, Hosseinpour Sarmadi V, Samieipour Y, Sekawi Z, et al.
    Mol Biol Rep, 2019 Dec;46(6):6495-6500.
    PMID: 31595441 DOI: 10.1007/s11033-019-05095-w
    Brucellosis is the most common bacterial zoonotic infection. This pathogen may survive and sustain in host. The aim of this study is to define relationship between long noncoding (lnc) RNA-IFNG-AS1 and interferon gamma (IFN-γ) in different groups of patients with brucellosis compared to control group. In this study, associations of lncRNA IFNG-AS1 expression with secretion of IFN-γ level in Sixty patients with brucellosis, which were divided into 3 groups (acute, chronic and relapse groups), as a case group were compared with 20 subjects with negative serological tests and brucellosis clinical manifestation as a control group. In this regard, RNA were extracted from isolated peripheral blood mononuclear cells (PBMCs). LncRNA IFNG-AS1, T-box transcription factor (T-bet) and IFN-γ expressions were detected using quantitative polymerase chain reaction (qPCR). Serum level IFN-γ was assessed using enzyme linked immunosorbent assay (ELISA). The results showed that expression level of LncRNA IFNG-AS1, T-bet and IFN-γ increased significantly in all patient groups in compared to healthy subjects (P 
  2. Directional capacity of human mesenchymal stem cells to support hematopoietic stem cell proliferation in vitro
    Hashem Boroojerdi M, Hosseinpour Sarmadi V, Maqbool M, Ling KH, Safarzadeh Kozani P, Safarzadeh Kozani P, et al.
    Gene, 2022 Feb 05;820:146218.
    PMID: 35134469 DOI: 10.1016/j.gene.2022.146218
    OBJECTIVES: Hematopoietic stem cells (HSCs) reside in a specialised microenvironment in the bone marrow, which is majorly composed of mesenchymal stem cells (MSCs) and its' derivatives. This study aimed to investigate the regulatory role of MSCs to decipher the cellular and humoral communications on HSCs' proliferation, self-renewal, and differentiation at the transcriptomic level.

    MATERIALS AND METHODS: Microarray assay was employed to analyse the gene expression profile of HSCs that imparted by MSCs during co-culture.

    RESULTS: The proliferation of human umbilical cord blood-derived HSCs (hUC-HSCs) markedly propagated when MSCs were used as the feeder layer, without disturbing the undifferentiated state of HSCs, and reduced the cell death of HSCs. Upon co-culture with MSCs, the global microarray analysis of HSCs disclosed 712 differentially expressed genes (DEGs) (561 up-regulated and 151 down-regulated). The dysregulations of various transcripts were enriched for cellular functions such as cell cycle (including CCND1), apoptosis (including TNF), and genes related to signalling pathways governing self-renewal, as well as WNT5A from the Wnt signalling pathway, MAPK, Hedgehog, FGF2 from FGF, Jak-STAT, and PITX2 from the TGF-β signalling pathway. To concur this, real-time quantitative PCR (RT-qPCR) was utilised for corroborating the microarray results from five of the most dysregulated genes.

    CONCLUSION: This study elucidates the underlying mechanisms of the mitogenic influences of MSCs on the propagation of HSCs. The exploitation of such mechanisms provides a potential means for achieving larger quantities of HSCs in vitro, thus obviating the need for manipulating their differentiation potential for clinical application.

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