The Proteasome Is a Molecular Target of Environmental Toxic Organotins

BACKGROUND: Because of the vital importance of the proteasome pathway, chemicals affecting proteasome activity could disrupt essential cellular processes. Although the toxicity of organotins to both invertebrates and vertebrates is well known, the essential cellular target of organotins has not been well identified. We hypothesize that the proteasome is a molecular target of environmental toxic organotins. OBJECTIVES: Our goal was to test the above hypothesis by investigating whether organotins could inhibit the activity of purified and cellular proteasomes and, if so, the involved molecular mechanisms and downstream, events. RESULTS: We found that some toxic organotins [e.g., triphenyltin (TPT)] can potently and preferentially inhibit the chymotrypsin-like activity of purified 20S proteasomes and human breast cancer cellular 26S proteasomes. Direct binding of tin atoms to cellular proteasomes is responsible for the observed irreversible inhibition. Inhibition of cellular proteasomes by TPT in several human cell lines results in the accumulation of ubiquitinated proteins and natural proteasome target proteins, accompanied by induction of cell death. CONCLUSIONS: The proteasome is one of the molecular targets of environmental toxic organotins in human cells, and proteasome inhibition by organotins contributes to their cellular toxicity

The in Vitro Estrogenic Activities of Polyfluorinated Iodine Alkanes

Background: Polyfluorinated iodine alkanes (PFIs) are important intermediates in the synthesis of organic fluoride products. Recently, PFIs have been detected in fluoropolymers as residual raw materials, as well as in the ambient environment

Mangiferin Attenuates Murine Lupus Nephritis by Inducing CD4+Foxp3+ Regulatory T Cells via Suppression of mTOR Signaling

Background/Aims: Lupus nephritis (LN) is an autoimmune glomerulonephritis that frequently develops secondary to systemic lupus erythematosus. Patients with LN require extensive treatments with global immunosuppressive agents. However, long-term treatment with conventional immunosuppressants may cause various side effects. Therefore, it’s important to seek alternative drugs for treating LN. Here we aimed to investigate the immunoregulatory effects of mangiferin (MG), an ingredient that was originally extracted from natural herbs, including Mangifera Indica Linn. and Rhizoma Anemarrhenae. Methods: FasL-deficient B6/ gld mice were used as a spontaneous LN model. The serum anti-dsDNA Ab and creatinine levels were analyzed via ELISA. Renal histology and immunopathology were determined using H&E and PAS staining, immunofluorescence (IgG and C3), and IHC staining (CD3 and a-SMA). Cytokine gene expression was measured by RT-PCR assays while effector T cells and Tregs were enumerated by flow analysis. Finally, the proliferation and apoptosis of T cells were measured by CFSE staining and flow analysis while their mTOR signaling was detected through Western blotting. Results: We found that administration of MG ameliorated LN in lupus-prone B6/gld mice by reducing the urinary protein and serum creatinine levels, diminishing T cell infiltration in kidneys and improving renal immunopathology. MG also significantly lowered the percentages of CD44highCD62Llow effector T cells in B6/gld mice. Importantly, treatments with MG augmented CD4+FoxP3+ Treg frequencies in spleens, lymph nodes and kidneys of B6/gld mice. It also induced CD4+FoxP3+ Tregs from CD3+ T cells in vitro and promoted Treg proliferation. Furthermore, it inhibited CD3+ T cell proliferation in vitro and suppressed their phosphorylation of mTOR and its downstream P70S6K. However, MG did not promote T cell apoptosis, implying that it is not cytotoxic. Depletion of CD4+CD25+FoxP3+ Tregs in B6/gld mice abrogated its therapeutic effects on LN. Conclusion: MG exerts a novel therapeutic effect on murine LN via upregulating CD4+FoxP3+ Tregs, downregulating mTOR/p70S6K pathway and improving renal immunopathology. It may be useful for treating LN in clinic

Progress in the toxicological researches for quantum dots

Quantum dots (QDs) have received more and more attention as a novel example of nanomaterials. Due to their unique fluorescent characteristics, quantum dots have been successfully applied in biotechnology and medicine applications. Recently, the toxicity and the potential environmental effects of QDs have become a research hotspot. In this paper, toxicological effects of QDs are reviewed, and the prospects and research directions are given based on the analysis of this research field

Reaserch on temperature-sensitive regulation mechanism of transcription factor TDF1 to thermo-sensitive male sterile mutant <i>atms1</i> of <i>arabidopsis thaliana</i>

TDF1 is a transcription factor of MYB family.It is involved in the process of callose degradation and regulating the tapetum differentiation,thus affecting the normal development of pollen.This paper investigates the temperature-sensitive mechanism of an Arabidopsis male sterile mutant atms1 (ambient temperature-sensory male steility1) obtained by screening in the progeny generations of wild-type Col-0 mutagenized by EMS. TDF1 Antisense RNA vector was introduced into atms1 background to inhibit the expression of TDF1 to observe the changes of atms1 mutant pollen fertility.We found that the fertility was restored at 27 ℃.The results show that TDF1 may have regulatory effects on ATMS1m in the process of pollen development