Impact of Coenzyme Q on Mitochondrial Metabolism: A Complementary Study Using Fluorescence Lifetime Imaging and Electron Microscopy.

Background: Coenzyme Q (CoQ), also known as ubiquinone-10, is an important molecule of the mitochondrial respiratory chain that acts as an electron carrier between complexes I, II, and III and additionally functions as an antioxidant. Due to its bioenergetic properties, CoQ is of high interest for therapeutic and cosmetic use. This study aims to characterize the metabolic impact of CoQ on primary human dermal fibroblasts (HDF) using fluorescence lifetime imaging microscopy (FLIM) and electron microscopy.

Fluorescence lifetime imaging and electron microscopy: a correlative approach.

Fluorescence lifetime imaging microscopy (FLIM) allows the characterization of cellular metabolism by quantifying the rate of free and unbound nicotinamide adenine dinucleotide hydrogen (NADH). This study delineates the correlative imaging of cells with FLIM and electron microscopy (EM). Human fibroblasts were cultivated in a microscopy slide bearing a coordinate system and FLIM measurement was conducted.

Zika virus replication in glioblastoma cells: electron microscopic tomography shows 3D arrangement of endoplasmic reticulum, replication organelles, and viral ribonucleoproteins.

Structural changes of two patient-derived glioblastoma cell lines after Zika virus infection were investigated using scanning transmission electron tomography on high-pressure-frozen, freeze-substituted samples. In Zika-virus-infected cells, Golgi structures were barely visible under an electron microscope, and viral factories appeared. The cytosol outside of the viral factories resembled the cytosol of uninfected cells.