Optical tissue clearing enables the precise imaging of cellular and subcellular structures in whole organs and tissues without the need for physical tissue sectioning. By combining tissue clearing with confocal or lightsheet microscopy, 3D images can be generated of entire specimens for visualization and large-scale data analysis. Here we demonstrate two different passive tissue clearing techniques that are compatible with immunofluorescent staining and lightsheet microscopy: PACT, an aqueous hydrogel-based clearing method, and iDISCO+, an organic solvent-based clearing method.
View Article and Find Full Text PDFThe muscular dystrophy X-linked mouse (mdx) is the most commonly used preclinical model for Duchenne muscular dystrophy. Although disease progression in the mouse does not perfectly model the human disease, it shares many pathological features. Early characterizations of the model reported severe pathology through early adulthood followed by disease stabilization.
View Article and Find Full Text PDFBackground: The arrangement of myonuclei in skeletal muscle tissue has long been used as a biomarker for muscle health, but there is a dearth of in vivo exploration of potential effects of myonuclear organization on the function and regeneration of skeletal muscle because traditional nuclear stains are performed on postmortem tissue. Therefore, we sought a transgenic method to produce a selective and persistent myonuclear label in whole muscles of living mice.
Methods: We bred together a mouse line with skeletal muscle fiber-selective expression of Cre recombinase and a second mouse line with a Cre-inducible fluorescently tagged histone protein to generate a mouse line that produces a myonuclear label suitable for vital imaging and histology of fixed tissue.