Lekbira Hasib

Publications (4)22.42 Total impact

• Article: Up-regulation of nestin in the infarcted myocardium potentially indicates differentiation of resident cardiac stem cells into various lineages including cardiomyocytes.

  Sergiu Scobioala, Rainer Klocke, Michael Kuhlmann, Wen Tian, Lekbira Hasib, Hendrik Milting, Simone Koenig, Matthias Stelljes, Aly El-Banayosy, Gero Tenderich, Guenter Michel, Guenter Breithardt, Sigrid Nikol
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  ABSTRACT: To identify proteins involved in cardiac regeneration, a proteomics approach was applied. A total of 26 proteins, which displayed aberrant expression in mouse hearts infarcted through ligation of the left anterior descending coronary artery, were identified. These included the intermediate filament protein nestin, which was up-regulated in the infarct border zone. Corresponding changes were observed for its mRNA. Nestin mRNA was also up-regulated in hearts from 17 of 19 patients with end-stage heart failure, including 4 with acute myocardial infarction in comparison with 8 donor hearts. Immunofluorescence confocal laser scanning microscopy revealed that nestin is expressed, on the one hand, in small proportions of cardiomyocytes, endothelial cells, smooth muscle cells, neuronal cells, and fibroblasts. On the other hand, it was found to be coexpressed with the stem cell markers c-kit, Sca-1, Mdr-1, and Abcg2 in small interstitial cells. In infarcted hearts from chimeric mice transplanted with bone marrow from enhanced green fluorescent protein (EGFP) transgenic mice, less than 1% of nestin-positive cells coexpressed EGFP, although EGFP-positive cells were abundant in these. Consequently, enhanced expression of nestin in the injured myocardium might reflect spontaneous regenerative processes supposedly based on the differentiation of resident cardiac stem cells into diverse cardiac cell types.
  The FASEB Journal 05/2008; 22(4):1021-31. · 5.71 Impact Factor
• Article: Paclitaxel delivered to adventitia attenuates neointima formation without compromising re-endothelialization after angioplasty in a porcine restenosis model.

  Wen Tian, Michael T Kuhlmann, Jaroslav Pelisek, Sergiu Scobioala, Trong Hung Quang, Lekbira Hasib, Rainer Klocke, Uli-Ruediger Jahn, Sigrid Nikol
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  ABSTRACT: To investigate the effect of paclitaxel delivered into the adventitia of pig femoral arteries on neointima formation and hyperplasia as well as re-endothelialization. Paclitaxel or vehicle was delivered into the adventitia of pig femoral arteries using a needle injection catheter following balloon overstretch. Arteries were then serially examined by angiography, Evan's blue staining, morphometry, and immunohistochemistry for up to 12 weeks. Local adventitial delivery of paclitaxel significantly attenuated neointima formation. The area of neointima (0.41+/-0.17 versus 2.75+/-0.81 mm(2), p<0.01), the ratio of intima to media (0.12+/-0.05 versus 0.86+/-0.35, p<0.05), and the degree of stenosis (12.80%+/-3.13% versus 47.06%+/-7.25%, p<0.01) were significantly lower in the paclitaxel-treated group compared to controls. Furthermore, cell proliferation was significantly diminished following adventitial delivery of paclitaxel from day 3 to 21 compared to controls. Complete re-endothelialization was observed 3 weeks after intervention in both groups of arteries treated with paclitaxel or vehicle alone. Paclitaxel delivered into the adventitia of pig femoral arteries effectively attenuates neointima formation after angioplasty without compromising re-endothelialization. Adventitial drug delivery may therefore be an alternative to drug-eluting stents for the prevention of restenosis.
  Journal of Endovascular Therapy 11/2006; 13(5):616-29. · 2.86 Impact Factor
• Source

  Available from: benthamscience.com

  Article: Recently patented applications of homologous cellular and extracellular agents as therapeutics or targets for the prevention of restenosis post-angioplasty.

  Rainer Klocke, Lekbira Hasib, Sigrid Nikol
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  ABSTRACT: Currently available drug-eluting stents have been shown to reduce the prevalence of in-stent restenosis. However, their use is limited by their enormous cost and unwanted side effects associated with both drugs, sirolimus and paclitaxel, presently used to coat most of the stents clinically available. Due to their lack of selectivity with respect to targeted cell types these drugs do not only inhibit vascular smooth muscle cell proliferation underlying neointima formation, they also compromise endothelial repair increasing the risk for subacute thrombosis following implantation of drug-eluting stents. Accordingly, there is need for new cost-effective agents capable to inhibit restenosis without clinically relevant, unwanted side effects. In the present paper a selection of the most important patent applications published within the last 3 years and claiming the use of homologous cellular and extracellular agents as therapeutics or targets to prevent restenosis are reviewed. Such agents include c-Jun, the focal adhesion kinase (FAK) and its inhibitor FAK-related non-kinase (FRNK), estrogen receptors, variants of vascular endothelial growth factor (VEGF) and fibroblast growth factor-2 (FGF-2) as well as some so far poorly characterized factors supposedly involved in the control of cell proliferation, inflammation and apoptosis. Such agents promise to be cost-effective and, in some cases, potentially devoid of unwanted side effects. Clinical long-term studies have yet to support such notions.
  Recent Patents on Cardiovascular Drug Discovery 02/2006; 1(1):57-66.
• Source

  Available from: Jörg Stypmann

  Article: G-CSF/SCF reduces inducible arrhythmias in the infarcted heart potentially via increased connexin43 expression and arteriogenesis.

  Michael T Kuhlmann, Paulus Kirchhof, Rainer Klocke, Lekbira Hasib, Jörg Stypmann, Larissa Fabritz, Matthias Stelljes, Wen Tian, Melanie Zwiener, Marcus Mueller, Joachim Kienast, Günter Breithardt, Sigrid Nikol
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  ABSTRACT: Granulocyte colony-stimulating factor (G-CSF), alone or in combination with stem cell factor (SCF), can improve hemodynamic cardiac function after myocardial infarction. Apart from impairing the pump function, myocardial infarction causes an enhanced vulnerability to ventricular arrhythmias. Therefore, we investigated the electrophysiological effects of G-CSF/SCF and the underlying cellular events in a murine infarction model. G-CSF/SCF improved cardiac output after myocardial infarction. Although G-CSF/SCF led to a twofold increased, potentially proarrhythmic homing of bone marrow (BM)-derived cells to the area of infarction, <1% of these cells adopted a cardial phenotype. Inducibility of ventricular tachycardias during programmed stimulation was reduced 5 wk after G-CSF/SCF treatment. G-CSF/SCF increased cardiomyocyte diameter, arteriogenesis, and expression of connexin43 in the border zone of the infarction. An enhanced expression of the G-CSF receptor demonstrated in cardiomyocytes and other cell types of the infarcted myocardium indicates a sensitization of the heart to direct influences of this cytokine. In addition to paracrine effects potentially caused by the increased homing of BM-derived cells, these might contribute to the therapeutic effects of G-CSF.
  Journal of Experimental Medicine 01/2006; 203(1):87-97. · 13.85 Impact Factor