Cancer risk from chronic exposures to chemicals and radiation: a comparison of the toxicological reference value with the radiation detriment

This article aims at comparing reference methods for the assessment of cancer risk from exposure to genotoxic carcinogen chemical substances and to ionizing radiation. For chemicals, cancer potency is expressed as a toxicological reference value (TRV) based on the most sensitive type of cancer generally observed in animal experiments of oral or inhalation exposure. A dose–response curve is established by modelling experimental data adjusted to apply to human exposure. This leads to a point of departure from which the TRV is derived as the slope of a linear extrapolation to zero dose. Human lifetime cancer risk can then be assessed as the product of dose by TRV and it is generally considered to be tolerable in a 10^–6–10^–4 range for the public in a normal situation. Radiation exposure is assessed as an effective dose corresponding to a weighted average of energy deposition in body organs. Cancer risk models were derived from the epidemiological follow-up of atomic bombing survivors. Considering a linear-no-threshold dose-risk relationship and average baseline risks, lifetime nominal risk coefficients were established for 13 types of cancers. Those are adjusted according to the severity of each cancer type and combined into an overall indicator denominated radiation detriment. Exposure to radiation is subject to dose limits proscribing unacceptable health detriment. The differences between chemical and radiological cancer risk assessments are discussed and concern data sources, extrapolation to low doses, definition of dose, considered health effects and level of conservatism. These differences should not be an insuperable impediment to the comparison of TRVs with radiation risk, thus opportunities exist to bring closer the two types of risk assessment.

     

Differential regulation by protein kinases of activity and cell surface expression of glutamate transporters in neuron-enriched cultures

This study described the involvement of short-term PKA, PKC or PI3K phosphorylation-mediated processes in the regulation of activity and trafficking of the excitatory amino acid transporters EAAC1, GLAST and GLT-1 endogenously expressed in neuron-enriched cultures. Glutamate uptake was dose-dependently decreased by inhibitors of protein kinase A (PKA), [N-[2-(p-bromocinnamylamino)-ethyl]-5-(isoquinolinesulfonamide)] (H89) or phosphatidylinositol 3-kinase (PI3K) (wortmannin), but not altered after protein kinase C (PKC) inhibition (staurosporine) or activation phorbol-12-myristate-13-acetate (PMA). Biotinylation and immunoblotting results (% of controls) showed that EAAC1 membrane expression was significantly decreased by H89 (71.9+/-4.7%) and wortmannin (63.3+/-20.0%) and increased by PMA (137.7+/-15.5%). H89 and PMA induced a significant decrease of the cell surface fraction of GLAST (54.0+/-34.1% and 73.3+/-14.3%, respectively) whereas wortmannin significantly increased this fraction (119.8+/-9.3%). After treatment with H89, the GLT-1 membrane level showed a two-fold increase (179.4+/-19.7%). Conversely, PMA and wortmannin induced a significant decrease of the cell surface expression of GLT-1 (49.0+/-15.4% and 40.7+/-33.7%, respectively). Confocal microscopy revealed a wortmannin-induced clustering of EAAC1 in the intracellular compartment. These data suggest that trafficking of glutamate transporters can be differentially regulated by PKA-, PKC- and PI3K-dependent signaling pathways and could therefore control total glutamate uptake activity. These processes may represent rapid adaptive responses to changes in the cellular environment, which significantly contribute to regulation of EAA transmission and further prevent possible excitotoxic events.     

Role of ventral surface of brain stem in control of arterial pressure and in hypotensive action of clonidine]

Superficial destructions of the brain stem have been performed in cats at the level of the chemosensitive areas "S". These destructions produced a drop in blood pressure, which was transient in 9 and definitive in 4 animals. In 6 sham-operated animals, clonidine (15 mug/kg), injected intravenously, always induced a marked fall in blood pressure, whereas in the 10 animals which have maintained or regained normal blood pressure after the destruction of the areas S, clonidine no longer induced any decrease in blood pressure. These results suggest that the integrity of the areas S is necessary for the development of the hypotensive action of clonidine. This hypotensive drug may act, at least at that level of the ventral surface of the brain stem, through an inhibition of a vasopressive structure.     

Evaluating Payments for Environmental Services: Methodological Challenges

Over the last fifteen years, Payments for Environmental Services (PES) schemes have become very popular environmental policy instruments, but the academic literature has begun to question their additionality. The literature attempts to estimate the causal effect of these programs by applying impact evaluation (IE) techniques. However, PES programs are complex instruments and IE methods cannot be directly applied without adjustments. Based on a systematic review of the literature, this article proposes a framework for the methodological process of designing an IE for PES schemes. It revises and discusses the methodological choices at each step of the process and proposes guidelines for practitioners.     

Correction to: Cancer risk from chronic exposures to chemicals and radiation: a comparison of the toxicological reference value with the radiation detriment

Radiation and Environmental Biophysics -     

Effects of a seven-day continuous infusion of ropivacaine on circadian rhythms in the rat

The present study was conducted to evaluate the effect of a 7 d continuous infusion of ropivacaine on the 24 h rhythms of body temperature, heart rate, and locomotor activity. After an initial 7 d baseline, rats were randomly divided into two groups of 4 rats each to receive ropivacaine or saline via an osmotic pump for 7 consecutive days. The pumps were removed thereafter and observed during a 7 d recovery span. The studied circadian rhythms were measured by radiotelemetry throughout each of the 7 d periods. An additional group of 4 rats was studied under the same experimental conditions to assess the plasma levels of ropivacaine on days 3 and 8 following pump implantation. Our results indicate that ropivacaine does not induce loss of the circadian rhythms of body temperature, heart rate, or locomotor activity; a prominent period of 24 h was found for all variables in all animals, before, during, and after ropivacaine treatment. However, ropivacaine treatment did modify some characteristics of the rhythms; it increased the MESOR (24 h mean) of the heart rate and locomotor activity rhythms and advanced the acrophase (peak time) of the locomotor activity circadian rhythm. The present study indicates that the circadian rhythms of heart rate and locomotor activity are modified after continuous infusion of ropivacaine, which is of particular interest, given the potential cardiotoxicity of this local anesthetic agent.