Xingjie Ren scite author profile

SUMMARYPhagocytic clearance of degenerating dendrites or axons is critical for maintaining tissue homeostasis and preventing neuroinflammation. Externalized phosphatidylserine (PS) has been postulated to be an ‘‘eat-me’’ signal allowing recognition of degenerating neurites by phagocytes. Here we show that in Drosophila, PS is dynamically exposed on degenerating dendrites during developmental pruning and after physical injury, but PS exposure is suppressed when dendrite degeneration is genetically blocked. Ectopic PS exposure via phospholipid flippase knockout and scramblase overexpression induced PS exposure preferentially at distal dendrites and caused distinct modes of neurite loss that differ in larval sensory dendrites and in adult olfactory axons. Surprisingly, extracellular lactadherin that lacks the integrin-interaction domain induced phagocyte-dependent degeneration of PS-exposing dendrites, revealing an unidentified bridging function that potentiates phagocytes. Our findings establish a direct causal relationship between PS exposure and neurite degeneration in vivo.

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Optimized strategy for in vivo Cas9-activation in Drosophila

Ewen-Campen

Yang‐Zhou

Fernandes

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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While several large-scale resources are available for in vivo loss-of-function studies in , an analogous resource for overexpressing genes from their endogenous loci does not exist. We describe a strategy for generating such a resource using Cas9 transcriptional activators (CRISPRa). First, we compare a panel of CRISPRa approaches and demonstrate that, for in vivo studies, dCas9-VPR is the most optimal activator. Next, we demonstrate that this approach is scalable and has a high success rate, as>75% of the lines tested activate their target gene. We show that CRISPRa leads to physiologically relevant levels of target gene expression capable of generating strong gain-of-function (GOF) phenotypes in multiple tissues and thus serves as a useful platform for genetic screening. Based on the success of this CRISRPa approach, we are generating a genome-wide collection of flies expressing single-guide RNAs (sgRNAs) for CRISPRa. We also present a collection of more than 30 Gal4 > UAS:dCas9-VPR lines to aid in using these sgRNA lines for GOF studies in vivo.

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miR-34 Modulates Innate Immunity and Ecdysone Signaling in Drosophila

et al. 2016

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microRNAs are endogenous small regulatory RNAs that modulate myriad biological processes by repressing target gene expression in a sequence-specific manner. Here we show that the conserved miRNA miR-34 regulates innate immunity and ecdysone signaling in Drosophila. miR-34 over-expression activates antibacterial innate immunity signaling both in cultured cells and in vivo, and flies over-expressing miR-34 display improved survival and pathogen clearance upon Gram-negative bacterial infection; whereas miR-34 knockout animals are defective in antibacterial defense. In particular, miR-34 achieves its immune-stimulatory function, at least in part, by repressing the two novel target genes Dlg1 and Eip75B. In addition, our study reveals a mutual repression between miR-34 expression and ecdysone signaling, and identifies miR-34 as a node in the intricate interplay between ecdysone signaling and innate immunity. Lastly, we identify cis-regulatory genomic elements and trans-acting transcription factors required for optimal ecdysone-mediated repression of miR-34. Taken together, our study enriches the repertoire of immune-modulating miRNAs in animals, and provides new insights into the interplay between steroid hormone signaling and innate immunity.

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Label-Free DNA Sequence Detection with Enhanced Sensitivity and Selectivity Using Cationic Conjugated Polymers and PicoGreen

Ren

2008

Langmuir

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In this Letter, we demonstrate that PicoGreen can be used in combination with cationic conjugated polymers to develop label-free DNA sensors with enhanced detection efficiency and further improved selectivity. The high selectivity enables detection of single nucleotide mismatch even at room temperature. This method uses all commercially available materials. It is low cost, is simple to use, and works in a "mix-and-detect" manner. The detection sensitivity could be improved by a factor of 19 times through resonance energy transfer using poly[(9,9-di(3,3'-N,N'-trimethyl-ammonium)propylfluorenyl-2,7-diyl)-alt-co-(1,4-phenylene)] diiodide salt (PFP) as a light harvesting complex, to take advantage of its collective optical response and optical amplification effects. The further improved selectivity is ascribed to the stronger binding interaction between PicoGreen with dsDNA compared to that between PicoGreen and ssDNA, which results in selective repelling of PicoGreen away from the DNA strands.

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Intra-Articular Injections of Mesenchymal Stem Cell Exosomes and Hyaluronic Acid Improve Structural and Mechanical Properties of Repaired Cartilage in a Rabbit Model

Wong

Zhang

Wang

et al. 2020

Arthroscopy: The Journal of Arthroscopic & Related Surgery

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Xingjie Ren

Phosphatidylserine Externalization Results from and Causes Neurite Degeneration in Drosophila

Optimized strategy for in vivo Cas9-activation in Drosophila

miR-34 Modulates Innate Immunity and Ecdysone Signaling in Drosophila

Label-Free DNA Sequence Detection with Enhanced Sensitivity and Selectivity Using Cationic Conjugated Polymers and PicoGreen

Intra-Articular Injections of Mesenchymal Stem Cell Exosomes and Hyaluronic Acid Improve Structural and Mechanical Properties of Repaired Cartilage in a Rabbit Model

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