Patrick Van Oostveldt

Telomere length and cardiovascular risk factors in a middle-aged population free of overt cardiovascular disease

Evidence assembled over the last decade shows that average telomere length (TL) acts as a biomarker for biological aging and cardiovascular disease (CVD) in particular. Although essential for a more profound understanding of the underlying mechanisms, little reference information is available on TL. We therefore sought to provide baseline TL information and assess the association of prevalent CVD risk factors with TL in subjects free of overt CVD within a small age range. We measured mean telomere restriction fragment length of peripheral blood leukocytes in a large, representative Asklepios study cohort of 2509 community‐dwelling, Caucasian female and male volunteers aged approximately 35–55 years and free of overt CVD. We found a manifest age‐dependent telomere attrition, at a significantly faster rate in men as compared to women. No significant associations were established with classical CVD risk factors such as cholesterol status and blood pressure, yet shorter TL was associated with increased levels of several inflammation and oxidative stress markers. Importantly, shorter telomere length was associated with an increasingly unhealthy lifestyle, particularly in men. All findings were age and gender adjusted where appropriate. With these cross‐sectional results we show that TL of peripheral blood leukocytes primarily reflects the burden of increased oxidative stress and inflammation, whether or not determined by an increasingly unhealthy lifestyle, while the association with classical CVD risk factors is limited. This further clarifies the added value of TL as a biomarker for biological aging and might improve our understanding of how TL is associated with CVD.

Fluorescence Recovery After Photobleaching: A Versatile Tool for Mobility and Interaction Measurements in Pharmaceutical Research

This review introduces the basics of fluorescence recovery after photobleaching (FRAP) from a theoretical and an instrumentational approach. The most interesting and innovative applications with a pharmaceutical point of view are briefly discussed and possible future applications are suggested. These future applications include research on the mobility of macromolecular drugs in macro- or microscopic pharmaceutical dosage forms, mobility, and binding of antitumor drugs in tumor tissue, intracellular trafficking of gene complexes and mobility of drugs in membranes prior to transmembrane penetration. The paper is also intended to be an introductory guideline to those who would like to get involved in FRAP related experimental techniques. Therefore, comprehensive details on different setups and data analysis are given, as well as a brief outline of the problems that may be encountered when performing FRAP. Overall, this review shows the great potential of FRAP in pharmaceutical research. This is complemented by our own results illustrating the possibility of performing FRAP in microscopic dosage forms (microspheres) using a high resolution variant of FRAP.

Rationale, design, methods and baseline characteristics of the Asklepios Study:

The Asklepios Study is a longitudinal population study focusing on the interplay between ageing, cardiovascular haemodynamics and inflammation in (preclinical) cardiovascular disease. The 2524 participants (1301 women) are a representative cohort of 35–55-year-old individuals, free from overt cardiovascular disease at study initiation, randomly sampled from the twinned Belgian communities of Erpe–Mere and Nieuwerkerken. Baseline examinations (all single-observer, single-device, single-site, single 2-year consecutive timeframe) include: questionnaires, conventional risk factors and biochemistry. Additional phenotypes under study include: (a) vascular structure and function: carotid and femoral atherosclerosis (intima–media thickness, plaque), arterial distension and pressure curves (brachial, carotid, femoral; wall-tracking and applanation tonometry); (b) cardiac structure and function. A novel aspect of the study is ‘integrated’ noninvasive biomechanical assessment of cardiac, arterial and ventriculovascular function through a combination of modeling, fundamental hydraulical measurements and system identification techniques. Integrated phenotypes result from combining at least two sets of curves (flow/pressure/distension). The value of this ‘integrated’ haemodynamic phenotype in the detection, prediction and prevention of clinical cardiovascular pathology (atherosclerosis progression, atherothrombosis, development of heart failure) will be tested. A second novel aspect is the systematic determination of peripheral blood leukocyte telomere length as a marker for biological ageing. During follow-up, baseline examinations will be repeated and the incidence of cardiovascular events will be monitored. Sex-specific baseline risk factor and biochemical data are provided in the current analyses. The primary aim is to build a combined dataset that will act as a tool to answer a cluster of questions about ageing, haemodynamics and the emergence of cardiovascular disease, especially the incidence of atherothrombotic events and the development of adverse haemodynamic profiles (arterial stiffening, heart failure). The study will reassess current risk factors and provide a long-term base for the detection of novel (epi)genetic and non-genetic risk factors and for more performant risk stratification modalities. Within these broader goals, a constant will be to strive towards more fundamental mechanistic-haemodynamic insights into cardiovascular disease processes.

Structural Aspects of the Zona Pellucida of In Vitro-Produced Bovine Embryos: A Scanning Electron and Confocal Laser Scanning Microscopic Study

Abstract Structural aspects of the bovine zona pellucida (ZP) of in vitro-matured (IVM) oocytes and in vitro-produced (IVP) embryos were studied in two experiments to find a tentative explanation for the zonas barrier function against viral infection. In Experiment 1, the ultrastructure of the outer ZP surface was studied. The diameter (nm) and the number of the outer pores within an area of 5000 μm2 of 10 IVM oocytes, 10 zygotes, 10 8-cell-stage embryos, and 10 morulae were evaluated by scanning electron microscopy. In oocytes and morulae, the ZP surface showed a rough and spongy appearance with numerous pores. In zygotes, the ZP surface was found to have a smooth, melted appearance with only a few pores. In 8-cell-stage embryos, both surface patterns were found. The mean number (per 5000 μm2) and the mean diameter of the outer pores were different between the four stages of development (P < 0.001): 1511 pores in oocytes, 1187 in zygotes, 1658 in 8-cell-stage embryos, and 3259 in morulae, with mean diameters of 182, 223, 203, and 155 nm, respectively. In Experiment 2, the continuity of the meshes (network of pores) towards the embryonic cells was examined by confocal laser scanning microscopy. Therefore, the passage through and the location in the ZP of fluorescent microspheres, with similar dimensions as bovine viral diarrhea virus (BVDV, 40–50 nm) and bovine herpesvirus-1 (BHV-1; 180–200 nm), were evaluated. For all stages, the smallest beads were detected halfway through the thickness of the ZP, whereas the beads with a size of 200 nm were found only within the outer-fourth part of the ZP. It can be concluded that the intact ZP of bovine IVM oocytes and IVP embryos are constructed in such a way that BVDV and BHV-1 should not be able to traverse the ZP and reach the embryonic cells. However, the risk exists that viral particles can be trapped in the outer layers of the ZP.

High shear enrichment improves the performance of the anodophilic microbial consortium in a microbial fuel cell.

In many microbial bioreactors, high shear rates result in strong attachment of microbes and dense biofilms. In this study, high shear rates were applied to enrich an anodophilic microbial consortium in a microbial fuel cell (MFC). Enrichment at a shear rate of about 120 s−1 resulted in the production of a current and power output two to three times higher than those in the case of low shear rates (around 0.3 s−1). Biomass and biofilm analyses showed that the anodic biofilm from the MFC enriched under high shear rate conditions, in comparison with that under low shear rate conditions, had a doubled average thickness and the biomass density increased with a factor 5. The microbial community of the former, as analysed by DGGE, was significantly different from that of the latter. The results showed that enrichment by applying high shear rates in an MFC can result in a specific electrochemically active biofilm that is thicker and denser and attaches better, and hence has a better performance.

Influence of the lactokinin Ala-Leu-Pro-Met-His-Ile-Arg (ALPMHIR) on the release of endothelin-1 by endothelial cells.

Milk protein-derived peptides with angiotensin-converting enzyme (ACE) inhibitory activity can reduce blood pressure in hypertensive subjects. The lactokinin Ala-Leu-Pro-Met-His-Ile-Arg (ALPMHIR) is an ACE-inhibitory peptide released by tryptic digestion from the milk protein beta-lactoglobulin. Its ACE-inhibitory activity is 100 times lower than that of captopril. The latter is known to inhibit the release of the vasoconstrictor endothelin-1 (ET-1) by endothelial cells. The effects of ALPMHIR on the endothelium are currently unknown. In this study, the influence of ALPMHIR on release of ET-1 by endothelial cells was investigated. The basal ET-1 release of the cells was reduced by 29% (p<0.01) in the presence of 1 mM ALPMHIR, compared to 42% (p<0.01) for 0.1 mM captopril. Addition of 10 U/ml thrombin to the incubation medium increased the release of ET-1 by 66% (p<0.01). Co-incubation of 10 U/ml thrombin with 1 microM captopril or with 0.1 mM ALPMHIR inhibited the stimulated ET-1 release by 45% (p<0.01) and by 32% (p<0.01), respectively. These data indicate that dietary peptides, such as ALPMHIR, can modulate ET-1 release by endothelial cells. These effects, among other mechanisms, may play a role in the anti-hypertensive effect of milk protein-derived peptides.

Reorganization and in vivo dynamics of microtubules during Arabidopsis root hair development

Root hairs emerge from epidermal root cells (trichoblasts) and differentiate by highly localized tip growth. Microtubules (MTs) are essential for establishing and maintaining the growth polarity of root hairs. The current knowledge about the configuration of the MT cytoskeleton during root hair development is largely based on experiments on fixed material, and reorganization and in vivo dynamics of MTs during root hair development is at present unclear. This in vivo study provides new insights into the mechanisms of MT (re)organization during root hair development in Arabidopsis (Arabidopsis thaliana). Expression of a binding site of the MT-associated protein-4 tagged with green fluorescent protein enabled imaging of MT nucleation, growth, and shortening and revealed distinct MT configurations. Depending on the dynamics of the different MT populations during root hair development, either repeated two-dimensional (x, y, t) or repeated three-dimensional (x, y, z, t) scanning was performed. Furthermore, a new image evaluation tool was developed to reveal important data on MT instability. The data show how MTs reorient after apparent contact with other MTs and support a model for MT alignment based on repeated reorientation of dynamic MT growth.

Increased plasticity of the nuclear envelope and hypermobility of telomeres due to the loss of A-type lamins.

BACKGROUND The nuclear lamina provides structural support to the nucleus and has a central role in defining nuclear organization. Defects in its filamentous constituents, the lamins, lead to a class of diseases collectively referred to as laminopathies. On the cellular level, lamin mutations affect the physical integrity of nuclei and nucleo-cytoskeletal interactions, resulting in increased susceptibility to mechanical stress and altered gene expression. METHODS In this study we quantitatively compared nuclear deformation and chromatin mobility in fibroblasts from a homozygous nonsense LMNA mutation patient and a Hutchinson-Gilford progeria syndrome patient with wild type dermal fibroblasts, based on the visualization of mCitrine labeled telomere-binding protein TRF2 with light-economical imaging techniques and cytometric analyses. RESULTS Without application of external forces, we found that the absence of functional lamin A/C leads to increased nuclear plasticity on the hour and minute time scale but also to increased intranuclear mobility down to the second time scale. In contrast, progeria cells show overall reduced nuclear dynamics. Experimental manipulation (farnesyltransferase inhibition or lamin A/C silencing) confirmed that these changes in mobility are caused by abnormal or reduced lamin A/C expression. CONCLUSIONS These observations demonstrate that A-type lamins affect both nuclear membrane and telomere dynamics. GENERAL SIGNIFICANCE Because of the pivotal role of dynamics in nuclear function, these differences likely contribute to or represent novel mechanisms in laminopathy development.

Systemic telomere length and preclinical atherosclerosis: the Asklepios Study

AIMS Peripheral blood leucocyte (PBL) telomere length (TL) is a systemic ageing biomarker and has been proposed to be an independent predictor of cardiovascular disease (CVD). We aimed at providing an explanation for this association by the evaluation of the biomarker value of PBL-TL in preclinical atherosclerosis. METHODS AND RESULTS Peripheral blood leucocyte telomere length was assessed by telomere restriction fragment analysis in 2509 volunteers free from established CVD, aged approximately 35-55 years old, from the Asklepios Study cohort. Intima-media thickness (IMT) and plaque presence were determined by ultrasonography in both left and right carotid and femoral arteries. Peripheral blood leucocyte telomere length was not a significant independent determinant of IMT (P > 0.3) or plaque presence (P > 0.05), in either artery or either sex. In women but not in men, PBL-TL was a weak determinant of combined (carotid or femoral) plaque presence, adjusted for other risk factors (women: P = 0.03, men: P > 0.4). However, even in women presenting plaques, PBL-TL was still longer than in men. CONCLUSION Since systemic TL is not a substantial underlying determinant of preclinical atherosclerosis, the association between CVD and TL cannot be explained by the fact that subjects with shorter inherited TL are predisposed to atherosclerosis.

Oxidized Low-Density Lipoprotein Cholesterol Is Associated With Decreases in Cardiac Function Independent of Vascular Alterations

In contrast to the plethora of vasculopathies to which oxidized low-density lipoprotein cholesterol (ox-LDL) can be linked, there are no data linking ox-LDL to myocardial (dys)function in the community. We tested whether ox-LDL, a marker of oxidative stress, was linked to early cardiac structural and functional damage in the general population. The Asklepios Study is a random sample of 2524 male and female volunteers, comparable to the Belgian population between 35 and 55 years free from overt cardiovascular disease. Cardiac morphology, systolic, and early and late diastolic tissue Doppler mitral annulus velocities were recorded during an echocardiography, followed by a vascular examination (carotid and femoral arteries). Serum ox-LDL was measured by sandwich ELISA using the mAb-4E6 monoclonal antibody. Effects of ox-LDL were assessed after adjustment for age, gender, lipid fractions, blood pressure, heart rate, height, weight, glycemia, smoking, and drug treatment. Mean ox-LDL was 96.0±38.9 U/L. After adjustment, increasing ox-LDL levels were associated with a more spherical left ventricular cavity (minor/major axis dimensions; P<0.001) and decreasing diastolic (early diastolic tissue Doppler mitral annulus velocity; P<0.001, more pronounced in women) and systolic function (amplitude of systolic tissue Doppler mitral annulus velocity; P=0.008, more pronounced in men). These results remained unaffected when further adjustments were made for inflammatory markers, lifestyle, or vascular damage (atherosclerosis and arterial stiffening). These results are the first “proof of concept” that ox-LDL impacts cardiac structure and function at a community level, independent of classic risk factors, lifestyle, inflammation, and prevalent vascular damage. Our data suggest that ox-LDL is a risk marker for early ventricular remodelling. However, the effect size in the general population is small.