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1.
Food Chem ; 389: 133072, 2022 Sep 30.
Article in English | MEDLINE | ID: mdl-35490523

ABSTRACT

Propolis has many benefits for human health. To facilitate its oral consumption, we designed propolis-in-water dispersions to be used as nutraceuticals. Propolis was first dissolved either in ethanol or in a hydroalcoholic solution. Water being a non-solvent for propolis, its addition produced propolis precipitation. We explored the ternary phase diagram of water, propolis and ethanol to identify the line separating the one phase region where propolis is fully dissolved, and the two-phase region where a concentrated propolis solution coexists with a dilute one. Droplets rich in propolis were produced during the phase separation process under mechanical stirring induced by a rotor-stator device or a microfluidizer, and they were stabilized using gum Arabic as an emulsifier. Ethanol was finally removed by distillation under reduced pressure. Propolis dispersions in the micron and submicron size range could be obtained. They contained between 1.75 and 10.5 wt% polyphenols relative to the total mass.


Subject(s)
Propolis , Emulsifying Agents , Ethanol , Gum Arabic/pharmacology , Humans , Propolis/pharmacology , Water
2.
Cell Stress Chaperones ; 26(1): 241-251, 2021 01.
Article in English | MEDLINE | ID: mdl-33067759

ABSTRACT

As of today, only acute effects of RF fields have been confirmed to represent a potential health hazard and they are attributed to non-specific heating (≥ 1 °C) under high-level exposure. Yet, the possibility that environmental RF impact living matter in the absence of temperature elevation needs further investigation. Since HSF1 is both a thermosensor and the master regulator of heat-shock stress response in eukaryotes, it remains to assess HSF1 activation in live cells under exposure to low-level RF signals. We thus measured basal, temperature-induced, and chemically induced HSF1 trimerization, a mandatory step on the cascade of HSF1 activation, under RF exposure to continuous wave (CW), Global System for Mobile (GSM), and Wi-Fi-modulated 1800 MHz signals, using a bioluminescence resonance energy transfer technique (BRET) probe. Our results show that, as expected, HSF1 is heat-activated by acute exposure of transiently transfected HEK293T cells to a CW RF field at a specific absorption rate of 24 W/kg for 30 min. However, we found no evidence of HSF1 activation under the same RF exposure condition when the cell culture medium temperature was fixed. We also found no experimental evidence that, at a fixed temperature, chronic RF exposure for 24 h at a SAR of 1.5 and 6 W/kg altered the potency or the maximal capability of the proteasome inhibitor MG132 to activate HSF1, whatever signal used. We only found that RF exposure to CW signals (1.5 and 6 W/kg) and GSM signals (1.5 W/kg) for 24 h marginally decreased basal HSF1 activity.


Subject(s)
Heat Shock Transcription Factors/metabolism , Heat-Shock Response , Radio Waves/adverse effects , Energy Transfer , HEK293 Cells , Heat Shock Transcription Factors/analysis , Humans , Luminescent Measurements
3.
Int J Radiat Biol ; 96(6): 836-843, 2020 06.
Article in English | MEDLINE | ID: mdl-32052678

ABSTRACT

Purpose: The present study was conducted to re-evaluate the effect of low-level 1800 MHz RF signals on RAS/MAPK activation in live cells.Material and methods: Using Bioluminescence Resonance Energy Transfer technique (BRET), we assessed the effect of Continuous wave (CW) and Global System for Mobile (GSM)-modulated 1800 MHz signals (up to 2 W/kg) on ERK and RAS kinases' activity in live HuH7 cells.Results: We found that radiofrequency field (RF) exposure for 24 h altered neither basal level of RAS and ERK activation nor the potency of phorbol-12-myristate-13-acetate (PMA) to activate RAS and ERK kinases. However, we found that exposure to GSM-modulated 1800 MHz signals at 2 W/kg decreased the PMA maximal efficacy to activate both RAS and ERK kinases' activity. Exposure with CW 1800 MHz signal at 2 W/kg only decreased maximal efficacy of PMA to activate ERK but not RAS. No effects of RF exposure at 0.5 W/kg was observed on maximal efficacy of PMA to activate either RAS or ERK whatever the signal used.Conclusions: Our results indicate that RF exposure decreases the efficiency of the cascade of events, which, from the binding of PMA to its receptor(s), leads to the activation of RAS and ERK kinases.


Subject(s)
Energy Transfer , Extracellular Signal-Regulated MAP Kinases/metabolism , Luminescence , Radio Waves , ras Proteins/metabolism , Cell Line, Tumor , Cell Survival/radiation effects , Humans
4.
Int J Radiat Biol ; 96(3): 411-418, 2020 03.
Article in English | MEDLINE | ID: mdl-31746658

ABSTRACT

Aim: The Pasche research group has reported that tumor-specific electromagnetic field frequencies have physiological and potential anti-tumor effects in cells, animals, and humans. Our aim was to investigate whether these fields have similar effects on physiological parameters in murine tumor models.Methods: Human HuH7 or HEPG2 cells were implanted in the right flank of 8-week-old female RAG gamma 2 C immunodeficient mice. An oximeter was used to record systolic blood pressure (pulse) in free-roaming conscious mice. Mice pulses were recorded and analyzed using a in-house software that also controlled the low-frequency generator for modulating the 27.12 MHz carrier wave at selected frequencies.Results: We performed exposures using both systematic scans at low frequencies and at the pre-determined frequencies reported by the Pasche group as altering both pulse and tumor growth in humans. Those exposures produced no detectable change in physiological parameters of tumor-bearing mice.Conclusion: No tumor-related frequencies were found, neither using systematic scans of frequencies nor published specific frequencies. There might obviously be differences between animal and human models, but our approach did not confirm the physiological data of the human Pasche group data.


Subject(s)
Carcinoma, Hepatocellular/pathology , Electromagnetic Fields , Liver Neoplasms/pathology , Animals , Blood Pressure , Carcinoma, Hepatocellular/therapy , Cell Line, Tumor , Disease Models, Animal , Female , Hep G2 Cells , Humans , Liver Neoplasms/therapy , Mice , Mice, SCID , Neoplasm Transplantation , Oximetry
5.
Radiat Res ; 189(1): 95-103, 2018 01.
Article in English | MEDLINE | ID: mdl-29059001

ABSTRACT

The existence of effects of radiofrequency field exposure at environmental levels on living tissues and organisms remains controversial, in particular regarding potential "nonthermal" effects produced in the absence of temperature elevation. Therefore, we investigated whether TRPV1, one of the most studied thermosensitive channels, can be activated by the heat produced by radiofrequency fields and by some specific nonthermal interaction with the fields. We have recently shown that TRPV1 activation can be assessed in real-time on live cells using the bioluminescence resonance energy transfer technique. Taking advantage of this innovative assay, we monitored TRPV1 thermal and chemical modes of activation under radiofrequency exposure at 1800 MHz using different signals (CW, GSM, UMTS, LTE, Wi-Fi and WiMAX) at specific absorption rates between 8 and 32 W/kg. We showed that, as expected, TRPV1 channels were activated by the heat produced by radiofrequency field exposure of transiently-transfected HEK293T cells, but found no evidence of TRPV1 activation in the absence of temperature elevation under radiofrequency field exposure. There was no evidence either that, at fixed temperature, radiofrequency exposure altered the maximal efficacy of the agonist Capsaicin to activate TRPV1.


Subject(s)
Radio Waves/adverse effects , TRPV Cation Channels/metabolism , Thermoreceptors/metabolism , Thermoreceptors/radiation effects , Calmodulin/metabolism , Capsaicin/pharmacology , HEK293 Cells , Humans , Thermoreceptors/drug effects
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