Gülbu Işıtmangil scite author profile

In allergy and asthma, the fine balance between the T helper (Th) 1, Th2 and T regulatory cytokine responses appears to be shifted towards Th2. Here, we report that synthetic lipopeptides which contain the typical lipid part of the lipoprotein of gram-negative bacteria stimulate a distinct regulatory cytokine pattern and inhibit several Th2 cell-related phenomena. The most potent analogue of synthetic lipopeptides, lipopeptide CGP 40774 (LP40) was not active in MyD88-deficient mice and stimulated Toll-like receptor (TLR)-2, but not TLR-4. LP40 potentiated the production of IFN-+ and IL-10, but not IL-4 and IL-5 by human T cells. In addition, triggering of TLR-2 by lipopeptides promoted the in vitro differentiation of naive T cells towards IL-10-and IFN-+ -producing T cells and suppressed IL-4 production by Th2 cells. Accordingly, LP40 inhibited IgE production induced by allergen, anti-IgD antibody, Nippostrongylus brasiliensis or murine acquired immunodeficiency virus. Furthermore, ovalbumin-induced lung eosinophilic inflammation was abolished and Schistosoma mansoni egg-induced granuloma size and eosinophil counts were suppressed in mice by LP40. These results demonstrate that stimulation of TLR-2 by lipopeptides represents a novel way for possible treatment of allergy and asthma by regulating the disrupted cytokine balance.

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Alteration of cardiac myofibrillogenesis by liposome-mediated delivery of exogenous proteins and nucleic acids into whole embryonic hearts

Zajdel¹,

McLean²,

Işıtmangil³

et al. 2000

Anatomy and Embryology

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A precise organization of contractile proteins is essential for contraction of heart muscle. Without a necessary stoichiometry of proteins, beating is not possible. Disruption of this organization can be seen in diseases such as familial hypertrophic cardiomyopathy and also in acquired diseases. In addition, isoform diversity may affect contractile properties in such functional adaptations as cardiac hypertrophy. The Mexican axolotl provides an uncommon model in which to examine specific proteins involved with myofibril formation in the heart. Cardiac mutant embryos lack organized myofibrils and have altered expression of contractile proteins. In order to replicate the disruption of myofibril formation seen in mutant hearts, we have developed procedures for the introduction of contractile protein antibodies into normal hearts. Oligonucleotides specific to axolotl tropomyosin isoforms (ATmC-1 and ATmC-3), were also successfully introduced into the normal hearts. The antisense ATmC-3 oligonucleotide disrupted myofibril formation and beating, while the sense strands did not. A fluorescein-tagged sense oligonucleotide clearly showed that the oligonucleotide is introduced within the cells of the intact hearts. In contrast, ATmC-1 anti-sense oligonucleotide did not cause a disruption of the myofibrillar organization. Specifically, tropomyosin expression can be disrupted in normal hearts with a lack of organized myofibrils. In a broader approach, these procedures for whole hearts are important for studying myofibril formation in normal hearts at the DNA, RNA, and/or protein levels and can complement the studies of the cardiac mutant phenotype. All of these tools taken together present a powerful approach to the elucidation of myofibrillogenesis and show that embryonic heart cells can incorporate a wide variety of molecules with cationic liposomes.

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Quality of Life Analysis of Renal Donors

Tellioglu

Berber

Yatkin

et al. 2008

Transplantation Proceedings

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A Randomized Comparison of Droperidol, Metoclopramide, Tropisetron, and Ondansetron for the Prevention of Postoperative Nausea and Vomiting

Ekinci

Malat

Işıtmangil

et al. 2010

Gynecol Obstet Invest

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Background: Nausea and vomiting are the most common causes of postoperative complications, and they are seen most often after operations performed using general anesthesia and sedation. We designed this study to compare the effects of droperidol, metoclopramide, tropisetron, and ondansetron for the prevention of postoperative nausea and vomiting in patients undergoing gynecologic operations. Methods: One hundred patients were randomly assigned to 1 of 5 groups: group D was given 2.5 mg droperidol; group M, 10 mg metoclopramide; group T, 2.5 mg tropisetron; group O, 4 mg ondansetron 5 min after induction, and group C was the control group and received no prophylactic antiemetic treatment. All patients were observed for sedation and postoperative nausea and vomiting for 48 h. Results: Within 24 h after the operation, severe postoperative nausea and vomiting were seen in 4 patients (20%) in group D, 8 (40%) in group M, 5 (25%) in group T, 3 (15%) in group O, and 12 patients (60%) in the control group. Patients receiving droperidol, tropisetron, and ondansetron had significantly less serious emesis than the control group (p < 0.05). Sedation was seen in 5 patients receiving droperidol (4 patients score 2; and 1 patient score 3) and tropisetron (2 patients score 2; and 3 patients score 3) 15 min after surgery; this was significantly higher than in the control group (p < 0.05). Conclusion: We conclude that metoclopramide is not effective in preventing postoperative nausea and vomiting after gynecologic operations. Droperidol, tropisetron, and ondansetron are effective; however, the sedating effects of droperidol and tropisetron should be considered.

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Expression of HoxA5 in the Heart Is Upregulated During Thyroxin-Induced Metamorphosis of the Mexican Axolotl (Ambystoma mexicanum)

Gaur

Zajdel

Bhatia

et al. 2001

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Widespread external and internal changes in body morphology have long been known to be hallmarks of the process of metamorphosis. However, more subtle changes, particularly at the molecular level, are only now beginning to be understood. A number of transcription factors have recently been shown to alter expression either in levels of message or in isoforms expressed. In this article, we describe a dramatic increase in the expression of the homeobox gene HoxA5 in the heart and aorta of the Mexican axolotl Ambystoma mexicanum during the process of thyroxin-induced metamorphosis. Immunohistochemical analysis with anti-HoxA5 antibody in thyroxin-induced metamorphosing animals showed a pattern of expression of HoxA5 comparable to that in spontaneously metamorphosing animals. Further, by in situ hybridization, we were able to show significant qualitative differences in the expression of this gene within the heart. Maximum HoxA5 expression occurred at the midpoint of metamorphosis in the myocardium, whereas the hearts of completely metamorphosed animals had the highest levels of expression in the epicardium and endocardium. In the aorta, smooth-muscle cells of the tunica media as well as cells of the tunica adventitia had an increase in expression of HoxA5 with thyroxin-induced metamorphosis. HoxA5 expression significantly changed in cells of the aorta and ventricle with treatment by thyroid hormone. HoxA5, a positive regulator of p53, may be involved with the apoptotic pathway in heart remodeling during amphibian metamorphosis.

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