ABSTRACT
Objective To investigate the injury caused by hydrogen peroxide (H2O2) on human renal tubular epithelial cell (HKC) and its effect on calcium oxalate (CaOxa) crystal crystallization time before and after the injury. Methods The injury degree of HKC by H2O2 was measured by detecting the cell survival rate and the concentration change of malonaldehyde (MDA). CaOxa crystallization was investigated by scanning electron microscopy (SEM). Results Control cells induced only a small amount of calcium oxalate dihydrate (COD) crystals, while the injured cells not only induced calcium oxalate monohydrate (COM) crystals, but also increased the number and aggregation of CaOxa crystals. After incubating with CaOxa supersaturated solution, the control group HKC cells could be injured as well. Conclusions H2O2 can cause oxidative damage on HKC. The injured HKC promotes the nucleation and aggregation of COM crystals. In the body environment, the long-term presence of crystals in urinary tract is a risk factor for stone formation.
ABSTRACT
Self-assembled lipid films provide new insights into the structure-function relationships of biomolecules at the molecular level. It has potential applications in biology and bionics. In this paper, with regard to atomic force microscopy (AFM) characterization, the surface structures and growth kinetics of self-assembled lipid films as well as their applications in high-resolution AFM imaging of surface-immobilized biomolecules such as proteins, DNA and enzymes are reviewed.