Three-dimensional visualization of cerebral blood vessels and neural changes in thick ischemic rat brain slices using tissue clearing.

Blood vessels are three-dimensional (3D) in structure and precisely connected. Conventional histological methods are unsuitable for their analysis because of the destruction of functionally important topological 3D vascular structures. Tissue optical clearing techniques enable extensive volume imaging and data analysis without destroying tissue. This study therefore applied a tissue clearing technique to acquire high-resolution 3D images of rat brain vasculature using light-sheet and confocal microscopies. Rats underwent middle cerebral artery occlusion for 45 min followed by 24 h reperfusion with lectin injected directly into the heart for vascular staining. For acquiring 3D images of rat brain vasculature, 3-mm-thick brain slices were reconstructed using tissue clearing and light-sheet microscopy. Subsequently, after 3D rendering, the fitting of blood vessels to a filament model was used for analysis. The results revealed a significant reduction in vessel diameter and density in the ischemic region compared to those in contralesional non-ischemic regions. Immunostaining of 0.5-mm-thick brain slices revealed considerable neuronal loss and increased astrocyte fluorescence intensity in the ipsilateral region. Thus, these methods can provide more accurate data by broadening the scope of the analyzed regions of interest for examining the 3D cerebrovascular system and neuronal changes occurring in various brain disorders.

The antifibrotic effect of TGF-beta1 siRNAs in murine model of liver cirrhosis.

Liver fibrosis results from chronic damage to the liver by chronic hepatitis, alcohol, and toxic agents. A characteristic of liver fibrosis is an accumulation of extracellular matrix (ECM) protein, which distorts the hepatic architecture by forming a fibrous scar, and the subsequent development of regenerating nodules defines cirrhosis. Transforming growth factor (TGF)-beta1, one of the most powerful profibrogenic mediators, plays a major role in the development of liver cirrhosis and regulates ECM gene expression and matrix degradation. This study elucidates the changes of TGF-beta1-mediated signals during liver fibrogenesis by using RNA interference. In this experiment, the TGF-beta1 siRNAs reduced the expression of TGF-beta1 in the livers of CCl(4) injection compared with those of control group, and the expression of type I collagen and alpha-smooth muscle actin was decreased. In conclusion, this study demonstrates that TGF-beta1 siRNAs inhibit TGF-beta1 expression in the murine model of liver cirrhosis and might be a good therapeutic strategy to prevent liver cirrhosis in human.