Marco Blokland scite author profile

Sex hormone-binding globulin (SHBG) is the high-affinity binding protein for androgens and estrogens. According to the free hormone hypothesis, SHBG modulates the bioactivity of sex steroids by limiting their diffusion into target tissues. Still, the in vivo physiological role of circulating SHBG remains unclear, especially since mice and rats lack circulating SHBG post-natally. To test the free hormone hypothesis in vivo, we examined total and free sex steroid concentrations and bioactivity on target organs in mice expressing a human SHBG transgene. SHBG increased total androgen and estrogen concentrations via hypothalamic-pituitary feedback regulation and prolonged ligand half-life. Despite markedly raised total sex steroid concentrations, free testosterone was unaffected while sex steroid bioactivity on male and female reproductive organs was attenuated. This occurred via a ligand-dependent, genotype-independent mechanism according to in vitro seminal vesicle organ cultures. These results provide compelling support for the determination of free or bioavailable sex steroid concentrations in medicine, and clarify important comparative differences between translational mouse models and human endocrinology.

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Effects of probiotic bacteria on the bioaccessibility of aflatoxin B₁and ochratoxin A using anin vitrodigestion model under fed conditions

Kabak

Brandon

Var

et al. 2009

Journal of Environmental Science and Health, Part B

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In the present study, we aimed at determining the release of aflatoxin B(1) (AFB(1)) and ochratoxin A (OTA) from different food products in the gastro-intestinal tract in the absence and presence of probiotics, a possible adsorbent. The average bioaccessibility of AFB(1) and OTA without probiotics was about 90%, and 30%, respectively, depending on several factors, such as food product, contamination level, compound and type of contamination (spiked versus naturally contaminated). The six probiotic bacteria showed varying binding capacity to AFB(1) and OTA depending on the bacterial strain, toxin studied, type of food and contamination level. A reduction to a maximum of 37% and 73% as observed for the bioaccessibility of AFB(1) and OTA in the presence of probiotic bacteria, respectively. This is the first report on the effect of probiotic bacteria on reducing the fraction of mycotoxins available for absorption in the gastrointestinal tract from different food products.

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Metabolism of Ibuprofen by Phragmites australis: Uptake and Phytodegradation

Langenhoff

Sutton

et al. 2017

Environ. Sci. Technol.

172

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This study explores ibuprofen (IBP) uptake and transformation in the wetland plant species Phragmites australis and the underlying mechanisms. We grew P. australis in perlite under greenhouse conditions and treated plants with 60 μg/L of IBP. Roots and rhizomes (RR), stems and leaves (SL), and liquid samples were collected during 21 days of exposure. Results show that P. australis can take up, translocate, and degrade IBP. IBP was completely removed from the liquid medium after 21 days with a half-life of 2.1 days. IBP accumulated in RR and was partly translocated to SL. Meanwhile, four intermediates were detected in the plant tissues: hydroxy-IBP, 1,2-dihydroxy-IBP, carboxy-IBP and glucopyranosyloxy-hydroxy-IBP. Cytochrome P450 monooxygenase was involved in the production of the two hydroxy intermediates. We hypothesize that transformation of IBP was first catalyzed by P450, and then by glycosyltransferase, followed by further storage or metabolism in vacuoles or cell walls. No significant phytotoxicity was observed based on relative growth of plants and stress enzyme activities. In conclusion, we demonstrated for the first time that P. australis degrades IBP from water and is therefore a suitable species for application in constructed wetlands to clean wastewater effluents containing IBP and possibly also other micropollutants.

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Fate in digestion in vitro of several food components, including some toxic compounds coming from omega-3 and omega-6 lipids

Goicoechea

Brandon

Blokland

et al. 2011

Food and Chemical Toxicology

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Microbial Removal of the Pharmaceutical Compounds Ibuprofen and Diclofenac from Wastewater

Langenhoff

Inderfurth

Veuskens

et al. 2013

BioMed Research International

113

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Studies on the occurrence of pharmaceuticals show that the widely used pharmaceuticals ibuprofen and diclofenac are present in relevant concentrations in the environment. A pilot plant treating hospital wastewater with relevant concentrations of these pharmaceuticals was evaluated for its performance to reduce the concentration of the pharmaceuticals. Ibuprofen was completely removed, whereas diclofenac yielded a residual concentration, showing the necessity of posttreatment to remove diclofenac, for example, activated carbon. Successively, detailed laboratory experiments with activated sludge from the same wastewater treatment plant showed bioremediation potential in the treatment plant. The biological degradation pathway was studied and showed a mineralisation of ibuprofen and degradation of diclofenac. The present microbes were further studied in laboratory experiments, and DGGE analyses showed the enrichment and isolation of highly purified cultures that degraded either ibuprofen or diclofenac. This research illuminates the importance of the involved bacteria for the effectiveness of the removal of pharmaceuticals in a wastewater treatment plant. A complete removal of pharmaceuticals from wastewater will stimulate water reuse, addressing the worldwide increasing demand for clean and safe fresh water.

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Marco Blokland

Sex hormone-binding globulin regulation of androgen bioactivity in vivo: validation of the free hormone hypothesis

Effects of probiotic bacteria on the bioaccessibility of aflatoxin B₁and ochratoxin A using anin vitrodigestion model under fed conditions

Metabolism of Ibuprofen by Phragmites australis: Uptake and Phytodegradation

Fate in digestion in vitro of several food components, including some toxic compounds coming from omega-3 and omega-6 lipids

Microbial Removal of the Pharmaceutical Compounds Ibuprofen and Diclofenac from Wastewater

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About

Marco Blokland

Sex hormone-binding globulin regulation of androgen bioactivity in vivo: validation of the free hormone hypothesis

Effects of probiotic bacteria on the bioaccessibility of aflatoxin B1and ochratoxin A using anin vitrodigestion model under fed conditions

Metabolism of Ibuprofen by Phragmites australis: Uptake and Phytodegradation

Fate in digestion in vitro of several food components, including some toxic compounds coming from omega-3 and omega-6 lipids

Microbial Removal of the Pharmaceutical Compounds Ibuprofen and Diclofenac from Wastewater

Contact Info

Product

Resources

About

Effects of probiotic bacteria on the bioaccessibility of aflatoxin B₁and ochratoxin A using anin vitrodigestion model under fed conditions