Down-regulation of Protein Phosphatase 2A Catalytic Subunit Involved in Mitochondria Fission/fusion Dynamics Imbalance and Functional Impairment Induced by Human tau / 中国医学科学院学报

To explore whether the downregulation of protein phosphatase 2A catalytic subunit(PP2Ac)involved in the pathogenesis of mitochondria fission/fusion dynamics and functional imbalance induced by human tau accumulation. After cotransfection with mito-dsRed plasmids and pIRES-eGFP-tau40 plasmids 48 hours,the rat primary hippocampal neurons were observed with a laser scanning confocal microscope for their changes in shape and distribution of mitochondria.The expressions of mitochondria fission/fusion protein and PP2Ac and PP2Ab were detected by Western blotting.Furthermore,the shape and distribution of mitochondria of rat primary hippocampal neuron and wild type 293wt cells were assayed 48 hours after co-transfection with siPP2Ac-EGFP plasmids and mito-DsRed plasmids,and the fission/fusion dynamics of 293wt cells was captured with live cell time-lapse imaging after co-transfection with siPP2Ac plasmids and mito-Dendra2 plasmids.After transfection with siPP2Ac plasmids,the relative level of mitochondria fission/fusion protein of 293wt cells was assayed by Western blotting,and mitochondria membrane potential was detected by JC-1 staining,and the cellular viability was measured by CCK8 assay.Finally,the shape and distribution and membrane potential of mitochondria of HEK293 cells with stable transfection of htau40(293htau)were detected after co-transfection with PP2Ac and mito-dsRed plasmids. Human tau40 expression decreased distribution of mitochondria and significantly lowered PP2Ac level in primary hippocampal neuron(=4.814, =0.0086).Down-regulation of PP2Ac caused mitochondria elongation and perinuclear accumulation in primary hippocampal neuron and 293wt cells;in addition,down-regulation of PP2Ac in 293wt cells significantly increased mitochondria fusion rate(=2.857, =0.0074)and the levels of mitochondria fusion protein mitofusin(MFN)1(=6.768, =0.0025),MFN2(=3.121, =0.0035),and optic atrophy 1(=3.775, =0.0199);however,the levels of dynamin-like protein-1 and Fis1 remained unchanged.The down-regulation of PP2Ac in 293wt cells led to the significant decrease in mitochondria membrane potential(=2.300, =0.0270)and cell viability(=6.249, <0.0001).Finally,up-regulation of PP2Ac attenuated the abnormalities in the shape,distribution and function of mitochondria in the 293htau cells. Down-regulation of PP2Ac is involved in the abnormal shape and distribution of mitochondria and its dysfunction induced by human tau40 in rat primary hippocampal neurons and HEK293 cells.

Effect of extraction of saffron crocus on mitochondrial dynamics in ischemia/reperfusion rats / 中国药理学通报

Aim To investigate the protection mecha-nism of the extraction of the saffron crocus in ischemia/reperfusion rats. Methods Hematoxylin-eosin stai-ning, electron microscopy, and neurological assess-ments were performed in a transient middle cerebral ar-tery occlusion ( tMCAO ) rat model. The role of dy-namin-related protein 1 ( Drp1 ) and optic atrophy 1 ( Opa1 ) , the two key regulators of mitochondrial fis-sion and fusion in ischemic brain damage in vivo were observed. Results In ischemia/reperfusion rats, the extraction of the saffron crocus increased the level of protein Opa1 and decreased the level of protein Drp1 . Conclusions Inhibition of Drp1 and promotion of Opa1 , which means to maintain balancing mitochondri-al dynamics, is proposed as an efficient strategy for neuroprotection against ischemic brain damage.