The effect of vitamin B₁₂ on selenium and arsenic metabolism

Chen, Chiareiy Liu

29 July 1991

Graduation date: 1992

Vitamin B12

Arsenic -- Methylation

Selenium -- Methylation

Low-Level Arsenic Toxicity in Human Bladder Cells

Bredfeldt, Tiffany Gail

January 2006

Arsenic is a human bladder carcinogen. Inorganic arsenic and methylated metabolites are excreted from the human body in urine. This study investigates the effects of arsenite [As(III)] and monomethylarsonous acid [MMA(III)] on human urothelial cells (UROtsa). Cytotoxicity studies found that MMA(III) was 20 times more toxic than As(III). In addition, UROtsa cells have the ability to biotransform As(III) to pentavalent and trivalent mono-methylated metabolites.To understand the mechanism of arsenic carcinogenesis, it is necessary to know which arsenicals are carcinogenic. Therefore, non-tumorigenic UROtsa cells were chronically exposed to 0.05 uM MMA(III) and monitored for signs of transformation. MMA(III)-treated cells (URO-MSC) became hyperproliferative after 12 weeks of exposure. Anchorage-independent growth was detected after 24 weeks of exposure to MMA(III). Gene array analysis conducted in URO-MSC cells after 52 weeks of exposure detected expression changes consistent with malignant transformation. Enhanced tumorigenicity in SCID mouse xenografts was also observed after 52 weeks of treatment.URO-MSC cells form squamous cell carcinoma, a histology associated with inflammation, when injected into SCID mice. Induction of cycolooxygenase-2 (COX-2) promotes proliferation, angiogenesis, and survival in cancer cells. To identify a potential mechanism of MMA(III) carcinogenesis, the effects of chronic and acute MMA(III) treatment on COX-2 expression were investigated. Western blot analysis revealed that COX-2 was induced in a time-dependent manner in URO-MSC cells. Acute MMA(III) exposure also increased COX-2 protein. To identify signal transduction pathways responsible for COX-2 induction, pharmacological inhibitors of various signaling pathways were co-administered with 0.05 uM MMA(III) and identified src and extracellular signal regulated protein kinase (ERK) activation to be responsible for COX-2 induction. Thus, MMA(III) causes ligand-independent activation of epidermal growth factor receptor (EGFR), which activates the signal cascade responsible for COX-2 expression. EGFR is elevated in URO-MSC cells. To determine if EGFR is a key mediator of URO-MSC cell tumorigenicity, inhibitors of downstream signal transduction (src, PI3K, and COX-1/-2) were found to reduce URO-MSC cell viability and growth in soft agar. Results from this work not only identify that MMA(III) can induce malignant transformation in human cells but also provides insight into the mechanism of arsenic-induced bladder cancer.

arsenic

arsenic methylation

carcinogenesis

bladder cancer

Analýza nestabilních komplexů pro studium enzymatické methylace arsenu / Analysis of unstable complexes for study of enzymatic methylation of arsenic

Albrecht, Michal

January 2019

The main aim of this thesis was the development of conjugation of existing methods for analysis of arsenic-glutathione complexes (As-GS complexes) together with simple arsenic species (iAs, MMAs, DMAs) during simple run. The basic technique for analysis of As-GS complexes was the HPLC-ICP-MS method with a reverse phase separation column (C18). The separation problem of simple species has been overcome by extending of system by postcolumn hydride generation with cryotrapping system (HG-CT). The resulting HPLC/HG-CT-ICP-MS system provides a complex analysis of all the above-mentioned analytes. According to the currently available resources, it is an innovative system, where for the first time all the simple arsenic species (iAs, MMAs, DMAs) and the As-GS complexes were separated. Under the given conditions, the detection limit for the As-GS complexes of 1.9 pg cm-3 in the RP-HPLC-ICP-MS system (a quantification limit of 6.5 pg cm-3 ) was achieved at a sensitivity of 468 CPS s pg-1 . The HG-CT-ICP-MS system provided a detection limit for iAs of 1.2 pg cm-3 at a sensitivity of 1121 CPS s pg-1 , for MMAs of 0.043 pg cm-3 at a sensitivity of 895 CPS s pg-1 and for DMAs of 0.076 pg.cm-3 at a sensitivity of 926 CPS s pg-1 . This method was applied to achieve another aim, studying the pathways of enzymatic...