Els De Smet scite author profile

Plant sterols and stanols are natural food ingredients found in plants. It was already shown in 1950 that they lower serum low-density lipoprotein cholesterol (LDL-C) concentrations. Meta-analysis has reported that a daily intake of 2.5 g plant sterols/stanols reduced serum LDL-C concentrations up to 10%. Despite many studies, the underlying mechanism remains to be elucidated. Therefore, the proposed mechanisms that have been presented over the past decades will be described and discussed in the context of the current knowledge. In the early days, it was suggested that plant sterols/stanols compete with intestinal cholesterol for incorporation into mixed micelles as well as into chylomicrons. Next, the focus shifted toward cellular processes. In particular, a role for sterol transporters localized in the membranes of enterocytes was suggested. All these processes ultimately lowered intestinal cholesterol absorption. More recently, the existence of a direct secretion of cholesterol from the circulation into the intestinal lumen was described. First results in animal studies suggested that plant sterols/stanols activate this pathway, which also explains the increased fecal neutral sterol content and as such could explain the cholesterol-lowering activity of plant sterols/ stanols.

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Treatment of Waste Gases Contaminated with Odorous Sulfur Compounds

Smet

Lens

Langenhove

1998

Critical Reviews in Environmental Science and Technology

220

137

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Small-Molecule MDM2 Antagonists as a New Therapy Concept for Neuroblastoma

et al. 2006

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Circumvention of the p53 tumor suppressor barrier in neuroblastoma is rarely caused by TP53 mutation but might arise from inappropriately increased activity of its principal negative regulator MDM2. We show here that targeted disruption of the p53-MDM2 interaction by the small-molecule MDM2 antagonist nutlin-3 stabilizes p53 and selectively activates the p53 pathway in neuroblastoma cells with wildtype p53, resulting in a pronounced antiproliferative and cytotoxic effect through induction of G 1 cell cycle arrest and apoptosis. A nutlin-3 response was observed regardless of MYCN amplification status. Remarkably, surviving SK-N-SH cells adopted a senescence-like phenotype, whereas CLB-GA and NGP cells underwent neuronal differentiation. p53 dependence of these alternative outcomes of nutlin-3 treatment was evidenced by abrogation of the effects when p53 was knocked down by lentiviral-mediated short hairpin RNA interference. The diversity of cellular responses reveals pleiotropic mechanisms of nutlins to disable neuroblastoma cells and exemplifies the feasibility of exploiting, by a single targeted intervention, the multiplicity of anticancer activities exerted by a key tumor suppressor as p53. The observed treatment effects without the need of imposing a genotoxic burden suggest that selective MDM2 antagonists might be beneficial for treatment of neuroblastoma patients with and without MYCN amplification.

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Individualised, micro CT-based finite element modelling as a tool for biomechanical analysis related to tissue engineering of bone

et al. 2004

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The emission of volatile compounds during the aerobic and the combined anaerobic/aerobic composting of biowaste

Smet

Langenhove

1999

Atmospheric Environment

190

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Els De Smet

Effects of plant sterols and stanols on intestinal cholesterol metabolism: Suggested mechanisms from past to present

Treatment of Waste Gases Contaminated with Odorous Sulfur Compounds

Small-Molecule MDM2 Antagonists as a New Therapy Concept for Neuroblastoma

Individualised, micro CT-based finite element modelling as a tool for biomechanical analysis related to tissue engineering of bone

The emission of volatile compounds during the aerobic and the combined anaerobic/aerobic composting of biowaste

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