Your search keyword '"Buikema, H"' showing total 4 results

1. Recombinant Semliki Forest virus as a vector system for fast and selective in vivo gene delivery into balloon-injured rat aorta.

Author

Roks, A.J.M., Henning, R.H., Buikema, H., Pinto, Y.M., Kraak, M.J.J., Tio, R.A., de Zeeuw, D., Haisma, H.J., Wilschut, J., and van Gilst, W.H.

Subjects

SEMLIKI Forest virus, AORTA, ADENOVIRUS diseases, GENE therapy, THERAPEUTICS

Abstract

Previously, we demonstrated that recombinant Semliki Forest virus (SFV) vector rapidly and selectively transfers genes into cultured vascular smooth muscle cells (VSMC), leaving endothelial cells (EC) unaffected. From this, we hypothesized that recombinant SFV in vivo only transfers genes into the media of balloon-injured but not intact vessel, that gene expression in VSMC is fast, and that the specificity of SFV for VSMC is caused by specific binding sites. To address these hypotheses, we studied the time course of in vivo SFV-LacZ and Ad-LacZ expression in balloon-injured rat aorta. In addition, the fusion characteristics of fluorescent pyrene-labeled SFV were explored in cultured VSMC and EC. In intact aorta, no LacZ expression was found in the intima or media at 24 h. In contrast, in denuded aorta, LacZ expression was detected in as early as 12 h after incubation. LacZ expression was predominantly present in the media. Ad-LacZ expression started after 12 h, but was predominantly present in the adventitia. Ad-LacZ expression in the media started after 72 h. In vitro transfection with SFV showed that fusion was higher and, moreover, saturable in VSMC as compared with EC, indicating the presence of specific SFV binding sites on VSMC, but not EC. From this we conclude that in vivo selectivity of SFV in balloon-injured vessels is based on the removal of the endothelium, which results in accessibility of VSMC in the media that carry specific binding sites for the SFV vector. [ABSTRACT FROM AUTHOR]

Published

2002

2. Activated tissue renin-angiotensin systems add to the progression of heart failure.

Author

Pinto, Y., Buikema, H., Gilst, Wiek, and Lie, K.

Abstract

In this paper, we review the hypothesis that activated tissue renin-angiotensin systems play a detrimental role in heart failure. The main arguments for this idea are discussed: Finally, this hypothesis predicts that optimal treatment in heart failure requires the inhibition of tissue renin-angiotensin systems. However, studies pertaining to this prediction are still lacking, particularly in human subjects. [ABSTRACT FROM AUTHOR]

Published

1996

3. Abstracts of papers and posters Clinical Pharmacological Meeting.

Author

Verhagen, C., Mattie, H., Strijen, E., Musscher, A., Leusink, J., Lau, H., Jongh, B., Bras, L., Boer, A., Touw, D., Vinks, A., Heijerman, H., Hermans, J., Bakker, W., Buikema, H., Grandiean, J., Oosterga, M., Langen, C., Gilst, W., and Graeff, P.

Published

1993

4. The (R)-enantiomer of the 6-chromanol derivate SUL-121 improves renal graft perfusion via antagonism of the α1-adrenoceptor.

Author

Nakladal, D., Buikema, H., Romero, A. Reyes, Lambooy, S. P. H., Bouma, J., Krenning, G., Vogelaar, P., van der Graaf, A. C., Groves, M. R., Kyselovic, J., Henning, R. H., and Deelman, L. E.

Abstract

SUL-compounds are protectants from cold-induced ischemia and mitochondrial dysfunction. We discovered that adding SUL-121 to renal grafts during warm machine reperfusion elicits a rapid improvement in perfusion parameters. Therefore, we investigate the molecular mechanisms of action in porcine intrarenal arteries (PIRA). Porcine kidneys were stored on ice overnight and perfusion parameters were recorded during treatment with SUL-compounds. Agonist-induced vasoconstriction was measured in isolated PIRA after pre-incubation with SUL-compounds. Receptor binding and calcium transients were assessed in α1-adrenoceptor (α1-AR) transgenic CHO cells. Molecular docking simulation was performed using Schrödinger software. Renal pressure during warm reperfusion was reduced by SUL-121 (−11.9 ± 2.50 mmHg) and its (R)-enantiomer SUL-150 (−13.2 ± 2.77 mmHg), but not by the (S)-enantiomer SUL-151 (−1.33 ± 1.26 mmHg). Additionally, SUL-150 improved renal flow (16.21 ± 1.71 mL/min to 21.94 ± 1.38 mL/min). SUL-121 and SUL-150 competitively inhibited PIRA contraction responses to phenylephrine, while other 6-chromanols were without effect. SUL-150 similarly inhibited phenylephrine-induced calcium influx and effectively displaced [7-Methoxy-3H]-prazosin in CHO cells. Docking simulation to the α1-AR revealed shared binding characteristics between prazosin and SUL-150. SUL-150 is a novel α1-AR antagonist with the potential to improve renal graft perfusion after hypothermic storage. In combination with previously reported protective effects, SUL-150 emerges as a novel protectant in organ transplantation. [ABSTRACT FROM AUTHOR]

Published

2019