On the mechanism of lanthanide-induced liver toxicity

Upconverting nanoparticles: assessing the toxicity

Based on a survey of existing studies, low nanotoxicity of lanthanide doped upconverting nanoparticles holds promise for their safety and suitability for biomedical detection and imaging.

Effects of subchronic samarium exposure on the histopathological structure and apoptosis regulation in mouse testis

To evaluate the reproductive toxicity of samarium, a widely used rare earth element, male ICR mice were orally exposed to samarium nitrate for 90 days for lesion evaluation in the testis. Decreased organ coefficients, disorganized seminiferous tubules, and decreased spermatogenic cells and sperm of the testis were observed extensively in the treated groups, indicating that the testis is a target organ of samarium. Electron microscopy confirmed that the lesions inside the spermatogenic cells and sperm mainly included mitochondrial swelling, mitochondrial vacuolization, fuzzy nuclear membranes, and marginated chromatin. Increased spermatogenic cell apoptosis rate in the testis was confirmed with a TUNEL assay. And expression up-regulation of p53 and Bax, and down-regulation of Bcl-2 were observed (p<0.05), indicating the apoptosis is related to p53 mediated pathway.

Effects of cation substitutions on reverse transcriptase and on human immunodeficiency virus production

Reverse transcription is a key aspect of the retroviral life cycle. The enzyme reverse transcriptase requires divalent cations, manganese or magnesium, for function. In some cation-dependent systems substitution of a physiological metal by a nonphysiological metal has been shown to work. We investigated the effect of different cations on HIV reverse transcriptase activity. The studies established reaction conditions for assaying different cations. A variety of transition metals were used in in vitro assays with HIV recombinant RT homodimer and some were delivered to HIV-infected cells in vitro to study effects on virus production. Most metals substituted adequately for magnesium. However, palladium showed a marked nonreversible inhibition of RT activity in vitro that correlated with reduced HIV virus production in tissue culture. A more extensive range of transition metals and divalent cations was tested for their effects on detection of HIV RT from infected cell supernatants. In these complex phenotypes were seen. In some cases the RT activity appeared to be more easily detectable. This may relate to calcium-dependent nucleases in cell supernatants being inhibited, leading to an apparent enhancement of RT activity, or may be due to direct effects on RT processivity.