MicroRNA-137 regulates hypoxia-induced retinal ganglion cell apoptosis through Notch1
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Abstract:
The apoptosis of retinal ganglion cells (RGCs) is a hallmark of several optic neuropathies. MicroRNAs (miRNAs) are recently identified regulators of various biological processes. However, the role of miRNAs in regulating RGC apoptosis remains largely unknown. We herein aimed to demonstrate that miR-137 acts as a hypoxia-responsive gene in RGCs that is downregulated under hypoxic conditions. It was observed that overexpression of miR-137 markedly aggravated hypoxia-induced cell apoptosis, whereas inhibition of miR-137 effectively protected RGCs against hypoxia-induced apoptosis. Hypoxia induced Notch1 expression and signaling activation, while blocking Notch signaling significantly aggravated hypoxia-induced cell apoptosis. Further data revealed that the pro-survival Akt signaling pathway was involved in miR-137-Notch signaling pathway-mediated RGC protection. Knockdown of Notch significantly reversed the effect of anti‑miR-137 on RGC protection and Akt signaling activation. In addition, blocking Akt signaling also significantly abrogated the protective effect of anti-miR-137 on hypoxia-induced cell injury. Overall, the results of the present study demonstrated that miR-137 targets Notch1 expression, revealing a novel link between miR-137 and Notch signaling, and suggesting that a miR-137/Notch1 axis may serve as a potential molecular target for the treatment of hypoxia-induced retinal diseases.Keywords:
Hypoxia
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<p>Chemoresistance properties of MUC16 and effect of cisplatin on apoptosis of MUC16 knockdown cells. A & B, MUC16 knockdown (H1975-shMUC16 seq1 and 2) cells were highly sensitive to cisplatin (A) and gemcitabine (B). C, The percentage of apoptotic cells was significantly higher in MUC16 knockdown cells (H292-shMUC16) treated with 5μM cisplatin. In contrast, no significant change was observed in the untreated scramble (H292-SCR) and MUC16 knockdown cells. D, We performed stable knockdown of Muc16 in K1418, the result shows that Muc16 is significantly decreased as compared to scramble cells. E, The p53 target gene p21 was significantly increased in MUC16 knockdown (H292-shMUC16) cells. *P<0.05, **P<0.01, ***P<0.001, and NS non-significant.</p>
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RNA-mediated interference (RNAi) has become a promising biopesticide technology with which to direct sequence-specific gene knockdown of key targets in the potato psyllid (PoP) Bactericera cockerelli, resulting in significant mortality. In this study, three strategically selected target genes, ATF4, C7 and D24, essential for the biosynthesis and regulation of ecdysteroids, were evaluated for knockdown and mortality using oral delivery of individual, paired and all three double-stranded RNAs (dsRNAs), in five replicated experiments. Knockdown was determined as the fold-change in gene expression using a quantitative polymerase chain reaction.Knockdown of the D24 target, at 39%-45%, resulted in 51% PoP mortality by 10 days post-ingestion (dpi) of dsRNA. Knockdown of C7, at 38%-61%, resulted in 53% mortality by 10 dpi, whereas dsD24 ingestion resulted in 65% mortality by 10 dpi when dsD24 and dsC7 were co-delivered. Three phenotypes, INCOMEC, PREMEC and SWOLLEN, were observed at a frequency of 4%-12%, and are consistent with incomplete ecdysis in immature and/or adult PoP. Adult PoP exhibiting INCOMEC survived for several days but were unable to mate or fly, whereas SWOLLEN and PREMEC were lethal to the immature instars. Knockdown of ATF4 did not result in the mortality or malformations in immature and adult PoP.Compared with knockdown of individual D24 and C7 targets, significantly greater RNAi penetrance was achieved following delivery of combined dsRNAs. The highest knockdown that resulted in incomplete ecdysis and/or mortality was obtained for targets with predicted involvement in the same or interacting pathway(s). Knockdown of ATF4 was apparently "rescued" by uncharacterized compensatory gene(s) or effects. © 2022 Society of Chemical Industry.
Knockdown resistance
RNA Silencing
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<p>Chemoresistance properties of MUC16 and effect of cisplatin on apoptosis of MUC16 knockdown cells. A & B, MUC16 knockdown (H1975-shMUC16 seq1 and 2) cells were highly sensitive to cisplatin (A) and gemcitabine (B). C, The percentage of apoptotic cells was significantly higher in MUC16 knockdown cells (H292-shMUC16) treated with 5μM cisplatin. In contrast, no significant change was observed in the untreated scramble (H292-SCR) and MUC16 knockdown cells. D, We performed stable knockdown of Muc16 in K1418, the result shows that Muc16 is significantly decreased as compared to scramble cells. E, The p53 target gene p21 was significantly increased in MUC16 knockdown (H292-shMUC16) cells. *P<0.05, **P<0.01, ***P<0.001, and NS non-significant.</p>
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ABSTRACT Loss-of-function technologies, such as morpholino- and RNAi-mediated gene knockdown, and TALEN- and CRISPR/Cas9-mediated gene knockout, are widely used to investigate gene function and its physiological significance. Here, we provide a general overview of the various knockdown and knockout technologies commonly used in comparative physiology and discuss the merits and drawbacks of these technologies with a particular focus on research conducted in zebrafish. Despite their widespread use, there is an ongoing debate surrounding the use of knockdown versus knockout approaches and their potential off-target effects. This debate is primarily fueled by the observations that, in some studies, knockout mutants exhibit phenotypes different from those observed in response to knockdown using morpholinos or RNAi. We discuss the current debate and focus on the discrepancies between knockdown and knockout phenotypes, providing literature and primary data to show that the different phenotypes are not necessarily a direct result of the off-target effects of the knockdown agents used. Nevertheless, given the recent evidence of some knockdown phenotypes being recapitulated in knockout mutants lacking the morpholino or RNAi target, we stress that results of knockdown experiments need to be interpreted with caution. We ultimately argue that knockdown experiments should not be discontinued if proper control experiments are performed, and that with careful interpretation, knockdown approaches remain useful to complement the limitations of knockout studies (e.g. lethality of knockout and compensatory responses).
Gene knockout
Morpholino
Knockout mouse
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Abstract We used the maternal-Gal4 shRNA system to knock down expression of dKDM5/lid in Drosophila melanogaster embryos, and analyzed the efficacy of the knockdown by qRT-PCR. Although average relative expression of lid was significantly lower in knockdown conditions compared to the driver-only control, we observed a wide and overlapping range of relative gene expression between individual control and knockdown embryos.
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<p>Stable knockdown of TSPYL5 in lung cancer cells. A, MUC16 expression was significantly elevated in cisplatin resistant cell line. To determine the TSPYL5 role in lung cancer, we stably knocked down TSPYL5 in H292 cells. B, Upon TSPYL5 knockdown, the expression of p53 was increased as compared to scramble cells. C, Knockdown of TSPYL5 was also confirmed by QPCR analysis. β-actin was used as loading control. **P<0.01.</p>
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We recently developed a piggyback knockdown method that was used to knockdown genes in adult zebrafish. In this method, a vivo morpholino (VMO) piggybacks an antisense deoxyoligonucleotide (dO) into the somatic cells and reduces the cognate mRNA levels. In this paper, we tested whether we can piggyback more than one dO with one VMO. We designed various hybrids that had more than one dO that could be piggybacked with one VMO. We chose f7, f8, and αIIb genes and tested their knockdown by the appropriate assays. The knockdown with piggybacking either two or three dOs by one VMO yielded > 85% knockdown efficiency. We also performed knockdown of argonautes and rnaseh separately along with f7. We found the knockdown of f7 occurs when knockdown of argonautes happens and not when rnaseh knockdown was performed, suggesting that RNaseH is involved in mRNA degradation. In conclusion, we developed a method where we could knockdown three genes at one time, and by increasing the concentration of VMO by twofold, we could knockdown six genes simultaneously. These multiple gene knockdowns will not only increase the efficiency of the method in whole genome-wide knockdowns but will also be useful to study multifactorial disorders.
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