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排序方式: 共有149条查询结果,搜索用时 15 毫秒
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Eleni Kandaraki Antonis Chatzigeorgiou Christina Piperi Eleni Palioura Sotiria Palimeri Penelope Korkolopoulou Michael Koutsilieris Athanasios G Papavassiliou 《Molecular medicine (Cambridge, Mass.)》2012,18(1):1183-1189
Glyoxalase detoxification system composed of glyoxalase (GLO)-I and GLO-II is ubiquitously expressed and implicated in the protection against cellular damage because of cytotoxic metabolites such as advanced glycation end products (AGEs). Recently, ovarian tissue has emerged as a new target of excessive AGE deposition and has been associated with either a high AGE diet in experimental animals or hyperandrogenic disorders such as polycystic ovarian syndrome (PCOS) in humans. This study was designed to investigate the impact of dietary AGEs and androgens in rat ovarian GLO-I activity of normal nonandrogenized (NAN, group A, n = 18) and androgenized prepubertal (AN) rats (group B, n = 29). Both groups were further randomly assigned, either to a high-AGE (HA) or low-AGE (LA) diet for 3 months. The activity of ovarian GLO-I was significantly reduced in normal NAN animals fed an HA diet compared with an LA diet (p = 0.006). Furthermore, GLO-I activity was markedly reduced in AN animals compared with NAN (p ≤ 0.001) when fed with the corresponding diet type. In addition, ovarian GLO-I activity was positively correlated with the body weight gain (rs = 0.533, p < 0.001), estradiol (rs = 0.326, p = 0.033) and progesterone levels (rs = 0.500, p < 0.001). A negative correlation was observed between GLO-I activity and AGE expression in the ovarian granulosa cell layer of all groups with marginal statistical significance (rs = −0.263, p = 0.07). The present data demonstrate that ovarian GLO-I activity may be regulated by dietary composition and androgen levels. Modification of ovarian GLO-I activity, observed for the first time in this androgenized prepubertal rat model, may present a contributing factor to the reproductive dysfunction characterizing PCOS. 相似文献
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Roman Voronov Samuel VanGordon Vassilios I. Sikavitsas Dimitrios V. Papavassiliou 《Journal of biomechanics》2010,43(7):1279-1286
Flow-induced shear stresses have been found to be a stimulatory factor in pre-osteoblastic cells seeded in 3D porous scaffolds and cultured under continuous flow perfusion. However, due to the complex internal structure of porous scaffolds, analytical estimation of the local shear forces is impractical. The primary goal of this work is to investigate the shear stress distributions within Poly(l-lactic acid) scaffolds via computation. Scaffolds used in this study are prepared via salt leeching with various geometric characteristics (80–95% porosity and 215–402.5 μm average pore size). High resolution micro-computed tomography is used to obtain their 3D structure. Flow of osteogenic media through the scaffolds is modeled via lattice Boltzmann method. It is found that the surface stress distributions within the scaffolds are characterized by long tails to the right (a positive skewness). Their shape is not strongly dependent on the scaffold manufacturing parameters, but the magnitudes of the stresses are. Correlations are prepared for the estimation of the average surface shear stress experienced by the cells within the scaffolds and of the probability density function of the surface stresses. Though the manufacturing technique does not appear to affect the shape of the shear stress distributions, presence of manufacturing defects is found to be significant: defects create areas of high flow and high stress along their periphery. The results of this study are applicable to other polymer systems provided that they are manufactured by a similar salt leeching technique, while the imaging/modeling approach is applicable to all scaffolds relevant to tissue engineering. 相似文献
85.
Production of tetrathionate reductase by Salmonella 总被引:6,自引:0,他引:6
J Papavassiliou V Samaraki-Lyberopoulou G Piperakis 《Canadian journal of microbiology》1969,15(2):238-240
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Papachristou DJ Papavassiliou AG 《The international journal of biochemistry & cell biology》2007,39(5):857-862
Osteosarcomas and chondrosarcomas are the most common primary bone sarcomas. They are often highly aggressive neoplasms that rapidly progress and eventually recur and give distant metastases. Although the prognosis and quality of life have been improved during the last decades, the pathogenesis of these tumours remains elusive. Recent advances in molecular genetics and cytogenetics have brought a wealth of genes and molecular pathways that govern osteoblast and chondroblast differentiation and maturation, providing a better understanding of the biology of osteogenetic and cartilage tumours. In this review we describe the major tumour suppressor and oncogenic pathways, as well as the most important signal transduction cascades implicated in the development and progression of these malignancies. Furthermore, we discuss novel treatment regimens and future, patient-tailored strategies that will add significantly to the current therapeutic armamentarium. 相似文献
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Pneumaticos SG Triantafyllopoulos GK Chatziioannou S Basdra EK Papavassiliou AG 《Trends in molecular medicine》2011,17(4):215-222
Autologous bone grafts and allografts are the most accepted procedures for achieving spinal fusion. Recently, breakthroughs in understanding bone biology have led to the development of novel approaches to address the clinical problem of bone regeneration in an unfavorable environment, while bypassing the drawbacks of traditional treatments, including limited availability, donor site morbidity, risk of disease transmission and reduced osteogenicity. These approaches have also been studied for their effectiveness in reaching successful spinal fusion. This review focuses on the cellular and molecular mechanisms explaining the rationale behind these methods, including bone marrow aspirate and mesenchymal stem cells, platelet-rich plasma, bone morphogenetic proteins and gene therapy, which have opened a promising perspective in the field of bone formation in spinal surgery. 相似文献
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