Circular RNA circVmn2r1 acts as a miR-223-3p sponge to promote kidney aging by regulating NLRP3 expression in mice
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Abstract:
Abstract Kidney aging accelerates the progression of various acute and chronic kidney diseases and can also induce pathological changes in other organs throughout the body. Circular RNAs (circRNAs) have been demonstrated to play a vital role in aging and age-related diseases. However, biological functions and the underlying molecular mechanism of circRNAs in kidney aging remain largely unclear. Uncovering the functions of circRNAs in kidney aging and their underlying regulatory mechanisms may shed new light on the development of novel diagnostic and therapeutic strategies for human aging. Here, we report the important role of circVmn2r1 in the progression of kidney aging. We found that circVmn2r1 was one of the top expressed circRNAs in mouse kidney by RNA sequencing and was significantly upregulated in 24-month-old mouse kidney compared to 3-month-old. More importantly, we demonstrated that overexpression of circVmn2r1 promoted kidney aging in senescence-accelerated mouse prone 8 mice. Cellular assays with mouse kidney tubular epithelium (TCMK-1) cells under both gain-of-function and loss-of-function conditions demonstrated that circVmn2r1 inhibited proliferation and promoted senescence, whereas miR-223-3p counteracted these effects. Mechanistic analysis demonstrated that circVmn2r1 acted as a miR-223-3p sponge to relieve the repressive effect of miR-223-3p on its target NLRP3, which we proved could inhibit proliferation and promote senescence of TCMK-1 cells. Our results indicate that circVmn2r1 promotes kidney aging through acting as a miR-223-3p sponge, consequently upregulating NLRP3 expression, and can be a valuable diagnostic marker and an important therapeutic target for kidney aging.Keywords:
Senescence
Hypoxia
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Most of advanced hypopharyngeal squamous cell carcinoma (HSCC) are resistant to chemotherapy, and there is still lack of effective treatment for HSCC now. The present study aimed to investigate whether downregulation of RNA-binding motif protein 17 (RBM17) could enhance cisplatin sensitivity and inhibit cell invasion in HSCC and the underlying mechanism. We observed that RBM17 was upregulated in tumor tissues and associated with poor progression. Treatment of FaDu cells with cisplatin increased RBM17 expression in mRNA levels. Downregulation of RBM17 enhanced cisplatin-mediated inhibition of FaDu cells. In addition, downregulation of RBM17 effectively suppressed tumor cell migration and invasion through the reversion of epithelial-mesenchymal transition. Moreover, downregulation of RBM17 could significantly slow tumor growth in FaDu xenograft tumor model. Liquid chromatography-mass spectrometry/mass spectrometry detection and independent PRM analysis showed that 21 differentially expressed proteins were associated with the downregulation of RBM17. Taken together, our study implied that downregulation of RBM17 could serve as a novel approach to enhance cisplatin sensitivity in HSCC.
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To identify senescence‐associated genes (SAGs) in rice leaves, senescence was induced by transferring rice seedlings into darkness. Senescence up‐regulated cDNAs were obtained by PCR‐based subtractive hybridization. Among 14 SAG clones characterized, 11 were found to be associated with both dark‐induced and natural leaf senescence. Three clones were associated only with dark‐induced leaf senescence. The possible physiological roles of these SAGs during rice leaf senescence are discussed.
Senescence
Suppression subtractive hybridization
Cloning (programming)
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Maternal viral infection is known to increase the risk for schizophrenia and autism in their offspring (Brown et al, 2004). C57BL/6 mice were infected with human influenza virus on day E18 of pregnancy and brains were collected at PN days 0, 14, or 56, from virally-exposed (N=3) or sham-infected control's (N=3) offspring. Microarray analysis of virally-exposed mouse brains showed significant (p<0.05) upregulation of 15 genes and downregulation of 3 genes in cerebellum, upregulation of 42 genes and downregulation of 9 genes in hippocampus, and upregulation of 4 genes and downregulation of 5 genes in prefrontal cortex vs. controls in day 0 mice. At day 14, there was a significant upregulation of 2 genes and downregulation of 0 genes in cerebellum, upregulation of 1 gene and downregulation of 1 gene in hippocampus, and upregulation of 3 genes and downregulation of 3 genes in prefrontal cortex vs. controls. At day 56, there was a significant upregulation of 13 genes and downregulation of 2 genes in cerebellum, upregulation of 4 genes and downregulation of 3 genes in hippocampus, and upregulation of 4 genes and downregulation of 1 gene in prefrontal cortex vs. controls. Implications of changes in brain genes for development of abnormal brain structure and function will be discussed. The generous support by the National Institute for Child Health and Human Development (1-R01-HD046589-01A2) to S.H.F. is greatly appreciated.
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Senescence
Cellular senescence
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