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Objective To improve the fixation method of the transmission electron microscope for better morphological preservation of mitochondria and lipid droplets in mouse brown adipose tissue. Methods The fixation method for mouse brown adipose tissue was optimized, mainly including an increased concentration of paraformaldehyde from 2% to 4% in the pre-fixative, employment of transcardial perfusion followed by immersion fixation in pre-fixation, and using imidazole-buffered osmium tetroxide as the post-fixative. The ultrastructures of brown adipocytes prepared by the improved method were observed and compared with those of a known standard protocol (3 mice in each group). The improved method was further validated in the quantitative analysis of mitochondrial cristae density and lipid droplets. Results The mitochondrial cristae and membrane structure of other organelles of brown adipocytes were better preserved using the optimized method compared with those of the standard method. Lipid droplets were presented as round structures with high electron density instead of vacuolated appearances. Using this method, we observed that the density of mitochondrial cristae and the content of lipid droplets increased in brown adipocytes after cold adaptation. Conclusion The optimized method can better preserve the ultrastructure of organelles in brown adipocytes, especially mitochondria and lipid droplets, and ma)' be applicable for studying the ultrastructures remodeling of brown adipose tissue under different physiological or pathological conditions.
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OBJECTIVE Tissue plasminogen activator (tPA) is the only approved pharmaco-logical therapy for acute brain ischaemia;however,a major limitation of tPA is the haemorrhagic trans-formation that follows tPA treatment. Here, we determined whether nicotinamide mononucleotide (NMN), a key intermediate of nicotinamide adenine dinucleotide biosynthesis, affects tPA-induced haemorrhagic transformation. METHODS Middle cerebral artery occlusion (MCAO) was achieved in CD1 mice by introducing a filament to the left MCA for 5 h.When the filament was removed for reperfusion, tPA was infused via the tail vein.A single dose of NMN was injected i.p.(300 mg·kg-1).Mice were killed at 24 h post ischaemia, and their brains were evaluated for brain infarction, oedema, haemoglobin content, apoptosis, neuroinflammation, blood-brain barrier (BBB) permeability, the expression of tight junction proteins(TJPs)and the activity/expression of MMPs. RESULTS In the mice infused with tPA at 5 h post ischaemia, there were significant increases in mortality, brain infarction, brain oedema, brain haemoglobin level, neural apoptosis, Iba-1 staining (microglia activation) and myeloperoxidase staining (neutrophil infiltration). All these tPA-induced alterations were significantly prevented by NMN administration. Mechanistically, the delayed tPA treatment increased BBB permeability by down-regulating TJPs, including claudin-1, occludin and zonula occludens-1,and enhancing the activities and protein expression of MMP9 and MMP2. Similarly, NMN administration partly blocked these tPA-induced molecular changes. CONCLUSION Our results demonstrate that NMN ameliorates tPA-induced haemorrhagic transformation in brain ischaemia by maintaining the integrity of the BBB.