A Critical Review of the Literature on Carbon Disulfide Toxicity

“…However, no effect on PDTC toxicity was seen (data not shown), indicating that cytochrome P-450-dependent bioactivation is not involved in the toxic effect of PDTC in our system. DDC can spontaneously decompose to diethylamine and CS 2 , where CS 2 has well documented toxicity (47). This type of reaction does not seem to be crucial in our system since the transport of copper is necessary for PDTC to mediate its toxic action, although the decomposition of PDTC inside cells may facilitate the intracellular release of chelated copper and thereby enhance the potential for oxidative damage to occur.…”

Section: Discussionmentioning

confidence: 99%

Dithiocarbamates Induce Apoptosis in Thymocytes by Raising the Intracellular Level of Redox-active Copper

Nobel

Kimland

Lind

et al. 1995

Journal of Biological Chemistry

270

208

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Dithiocarbamates are metal-chelating compounds that can exert either pro-oxidant or antioxidant effects in different situations. They have recently been found to potently inhibit apoptotic cell death, an activity attributed to their antioxidant action. However, when thymocytes were exposed to pyrrolidine dithiocarbamate, an oxidation of the glutathione pool occurred within 90 min. Longer incubation resulted in cell shrinkage, chromatin fragmentation, glutathione depletion, and eventual cell lysis, which is typical of apoptosis in these cells. These changes were inhibited by inclusion of non-permeable metal chelators in the incubation medium, suggesting that pyrrolidine dithiocarbamate exerts its toxic effect by transporting a redox-active metal into the cell. This was directly confirmed when sustained 8-fold elevations of intracellular copper were detected after addition of pyrrolidine dithiocarbamate. In agreement with this, supplementation of the incubation medium with submicromolar concentrations of copper significantly potentiated pyrrolidine dithiocarbamate toxicity. We conclude that pyrrolidine dithiocarbamate exerts a powerful pro-oxidant effect on thymocytes due to its ability to transport external redox-active copper into cells. The resulting increase in glutathione disulfide may also explain the temporary anti-apoptotic activity of this compound described in other systems.

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“…A detailed report on the toxicity of CS 2 has been published in 1982 [1]. It is shown that CS 2 can enter the human body by inhalation or by permeation through the skin.…”

Section: Discussionmentioning

confidence: 99%

Emission of toxic sulfur gases from polymers coming in contact with food products and with infants

Houriet

Louvier

1999

Analusis

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The toxicity of the constituants (polymers and additives) of polymer materials is well documented. However, there is relatively little information concerning the gaseous compounds evolved from these materials with the exception of extreme conditions such as high temperature and fire conditions. Given the fact that non-negligible quantities of carbon sulfide, CS 2 , are used in the manufacturing of polymers such as rubber compounds during their vulcanization process, we tried to evaluate the emission of sulfur gases from rubber samples used in domestic applications in the conditions of their common temperature conditions (from ambient up to approximately 150°C). Experimental Gaseous emission from rubber compoundsTwo main categories of samples were studied. 1 o -rubber gaskets coming in contact with food products (e.g. in coffee machines, pressure cooker, etc.) and 2 o -rubber teats and related items made out of latex compounds coming into direct contact with infants, thereafter designated as teats. Measuring conditions and analytical methodsThe samples were taken from rubber items bought in department stores. A known quantity of the order of 1 g was placed in a 20 mL vial which was then sealed. The sample was equilibrated with its gas phase at 80°C for a period of 20 minutes. The head space, HS, i.e. the gaseous phase, was then injected into three types of analyzers: 1) a head space sampler, HS 40 XL (Perkin Elmer) coupled to a gas phase chromatograph, Autosampler XL (Perkin Elmer), the HS/GC technique;2) a mass spectrometer, Thermolab (TA Instruments), the HS/MS technique;3) an infra-red spectrometer, Nicolet 510 FTIR, equipped with a gas cell, the HS/FTIR technique.Complementary measurements were performed using the coupling between a pyrolyzer, Pyroprobe 200 from CDS Instruments, and the mass spectrometer, the PY/MS technique. In this case, the polymer sample was heated directly in the pyrolyzer and the evolved gas phase analyzed with the MS.The infra-red spectra of all the solid samples were also measured in the diamond-ATR mode (Golden Gate accessory from Graseby-Specac) in order to identify their class of polymers. ResultsWe examined 11 samples of type 1 (gaskets, including 3 septa used in the laboratory) and 4 samples of type 2 (latex teats). The infra-red spectra indicate that all samples belong to the class of polyolefinic polymers (polyisoprene, polybutadiene) some of which obviously being copolymers and/or containing either a cellulose load (samples 1, 3, 6a, 21 and 23), or a mineral load, (as sample 6b probably containing Abstract. The analysis of the volatiles evolved from a number of polymer samples commonly used in domestic applications show that carbon disulfide, CS 2 , and carbonyl sulfide, COS, are emitted in the lower range of temperatures, i.e. from room temperature up to 150°C. Emission of COS in the ppm range was also monitored from materials used in the fabrication of the teats for baby's feeding bottles and from similar devices. Given the lack of legal tolerance limits on the toxicity of C...

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A Critical Review of the Literature on Carbon Disulfide Toxicity

Cited by 154 publications

References 300 publications

Quantitative Evaluation of ECG Components of Workers Exposed to Carbon Disulfide

Quantitative Evaluation of ECG Components of Workers Exposed to Carbon Disulfide

Dithiocarbamates Induce Apoptosis in Thymocytes by Raising the Intracellular Level of Redox-active Copper

Emission of toxic sulfur gases from polymers coming in contact with food products and with infants

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