Astrocytes are the most abundant cell type in the central nervous system(CNS).They provide trophic support for neurons,modulate synaptic transmission and plasticity,and contribute to neuronal dysfunction.Many transgen...Astrocytes are the most abundant cell type in the central nervous system(CNS).They provide trophic support for neurons,modulate synaptic transmission and plasticity,and contribute to neuronal dysfunction.Many transgenic mouse lines have been generated to obtain astrocyte-specific expression of inducible Cre recombinase for functional studies;however,the expression patterns of inducible Cre recombinase in these lines have not been systematically characterized.We generated a new astrocyte-specific Aldh1 l1-CreER^(T2)knock-in mouse line and compared the expression pattern of Cre recombinase between this and five widely-used transgenic lines(hGfap-CreER^(T2)from The Jackson Laboratory and The Mutant Mouse Resource and Research Center,Glast-CreER^(T2),Cx30-CreER^(T2),and Fgfr3-iCreER^(T2))by crossing with Ai14 mice,which express tdTomato fluorescence following Cre-mediated recombination.In adult Aldh1 l1-CreER^(T2):Ai 14 transgenic mice,tdTomato was detected throughout the CNS,and five novel morphologicallydefined types of astrocyte were described.Among the six evaluated lines,the specificity of Cre-mediated recombination was highest when driven by Aldh1 l1 and lowest when driven by hGfap;in the latter mice,co-staining between tdTomato and NeuN was observed in the hippocampus and cortex.Notably,evident leakage was noted in Fgfr3-iCreER^(T2)mice,and the expression level of tdTomato was low in the thalamus when Cre recombinase expression was driven by Glast and in the capsular part of the central amygdaloid nucleus when driven by Cx30.Furthermore,tdTomato was clearly expressed in peripheral organs in four of the lines.Our results emphasize that the astrocyte-specific CreER^(T2)transgenic lines used in functional studies should be carefully selected.展开更多
基金supported by Grants from the National Natural Science Foundation of China(31430032,31830033,81971080,and 81671356)the Program for Changjiang Scholars and Innovative Research Teams in University(IRT_16R37)+1 种基金the Science and Technology Program of Guangdong(20188030334001)the Guangzhou Science and Technology Project(201707020027,201704020116)。
文摘Astrocytes are the most abundant cell type in the central nervous system(CNS).They provide trophic support for neurons,modulate synaptic transmission and plasticity,and contribute to neuronal dysfunction.Many transgenic mouse lines have been generated to obtain astrocyte-specific expression of inducible Cre recombinase for functional studies;however,the expression patterns of inducible Cre recombinase in these lines have not been systematically characterized.We generated a new astrocyte-specific Aldh1 l1-CreER^(T2)knock-in mouse line and compared the expression pattern of Cre recombinase between this and five widely-used transgenic lines(hGfap-CreER^(T2)from The Jackson Laboratory and The Mutant Mouse Resource and Research Center,Glast-CreER^(T2),Cx30-CreER^(T2),and Fgfr3-iCreER^(T2))by crossing with Ai14 mice,which express tdTomato fluorescence following Cre-mediated recombination.In adult Aldh1 l1-CreER^(T2):Ai 14 transgenic mice,tdTomato was detected throughout the CNS,and five novel morphologicallydefined types of astrocyte were described.Among the six evaluated lines,the specificity of Cre-mediated recombination was highest when driven by Aldh1 l1 and lowest when driven by hGfap;in the latter mice,co-staining between tdTomato and NeuN was observed in the hippocampus and cortex.Notably,evident leakage was noted in Fgfr3-iCreER^(T2)mice,and the expression level of tdTomato was low in the thalamus when Cre recombinase expression was driven by Glast and in the capsular part of the central amygdaloid nucleus when driven by Cx30.Furthermore,tdTomato was clearly expressed in peripheral organs in four of the lines.Our results emphasize that the astrocyte-specific CreER^(T2)transgenic lines used in functional studies should be carefully selected.
