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  1. Yang D, Zhang Z, Zhao L, Sui W, Li Y, Zhou Y, et al.
    Cell Biochem Funct, 2024 Dec;42(8):e70032.
    PMID: 39702946 DOI: 10.1002/cbf.70032
    Phospholipase A2 receptor 1 (PLA2R1) exists important role in membranous nephropathy. In this study, we evaluate a PLA2R1 in a middle-aged rat model of renal function repair to further investigate the molecular mechanisms of membranous nephropathy. We analyzed the PLA2R1 knockout (KO) model and PLA2R1 knock in (KI) model in rats, extending the time to 85 weeks of age. Urinary biochemical indicators were detected using a fully automated biochemical analyzer. The complement C3, IgG, and Nephrin were detected using the immunofluorescence method. Western blot was used to detect the expression levels of complement C3, IgA and PLA2R1 in middle-aged models. The KO model continues to display glomerular proteinuria, complement C3 aggregation, and IgA and IgG deposition. Comparing with the KO model, the deposition of complement C3 and IgA in the glomerulus of the KI chimeric model still exists and IgG expression weakened. Inserting humanized PLA2R1 into rats can continuously repair partial renal function and reduce proteinuria, which will help investigate the pathogenesis of membranous nephropathy and complement activation signaling pathways.
    Matched MeSH terms: Gene Knock-In Techniques
  2. Zaini MN, Patel SA, Syafruddin SE, Rodrigues P, Vanharanta S
    Sci Rep, 2018 08 13;8(1):12063.
    PMID: 30104738 DOI: 10.1038/s41598-018-30499-2
    Tissue-specific transcriptional programs control most biological phenotypes, including disease states such as cancer. However, the molecular details underlying transcriptional specificity is largely unknown, hindering the development of therapeutic approaches. Here, we describe novel experimental reporter systems that allow interrogation of the endogenous expression of HIF2A, a critical driver of renal oncogenesis. Using a focused CRISPR-Cas9 library targeting chromatin regulators, we provide evidence that these reporter systems are compatible with high-throughput screening. Our data also suggests redundancy in the control of cancer type-specific transcriptional traits. Reporter systems such as those described here could facilitate large-scale mechanistic dissection of transcriptional programmes underlying cancer phenotypes, thus paving the way for novel therapeutic approaches.
    Matched MeSH terms: Gene Knock-In Techniques
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