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Molecular Mechanism Leading (molecular + mechanism_leading)

Distribution by Scientific Domains
Medical Sciences40%
Life Sciences40%

Selected Abstracts

The effect of prenatal hypoxia on brain development: short- and long-term consequences demonstrated in rodent models

DEVELOPMENTAL SCIENCE, Issue 4 2006
Hava Golan
Hypoxia (H) and hypoxia-ischemia (HI) are major causes of foetal brain damage with long-lasting behavioral implications. The effect of hypoxia has been widely studied in human and a variety of animal models. In the present review, we summarize the latest studies testing the behavioral outcomes following prenatal hypoxia/hypoxia-ischemia in rodent models. Delayed development of sensory and motor reflexes during the first postnatal month of rodent life was observed by various groups. Impairment of motor function, learning and memory was evident in the adult animals. Activation of the signaling leading to cell death was detected as early as three hours following H/HI. An increase in the counts of apoptotic cells appeared approximately three days after the insult and peaked about seven days later. Around 14,20 days following the H/HI, the amount of cell death observed in the tissue returned to its basal levels and cell loss was apparent in the brain tissue. The study of the molecular mechanism leading to brain damage in animal models following prenatal hypoxia adds valuable insight to our knowledge of the central events that account for the morphological and functional outcomes. This understanding provides the starting point for the development and improvement of efficient treatment and intervention strategies. [source]

Radiation-induced bystander effects in malignant trophoblast cells are independent from gap junctional communication

JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 1 2008
Ferya Banaz-Ya
Abstract It is controversially discussed that irradiation induces bystander effects via gap junction channels and/or diffusible cellular factors such as nitric oxide or cytokines excreted from the cells into the environment. But up to now the molecular mechanism leading to a bystander response is not well understood. To discriminate between both mechanisms of bystander response, (i) mediated by gap junctional communication and/or (ii) mediated by diffusible molecules, we used non-communicating Jeg3 malignant trophoblast cells transfected with inducible gap junction proteins, connexin43 and connexin26, respectively, based on the Tet-On system. We co-cultivated X-ray irradiated and non-irradiated bystander Jeg3 cells for 4 h, separated both cell populations by flow cytometry and evaluated the expression of activated p53 by Western blot analysis. The experimental design was proven with communicating versus non-communicating Jeg3 cells. Interestingly, our results revealed a bystander effect which was independent from gap junctional communication properties and the connexin isoform expressed. Therefore, it seems more likely that the bystander effect is not mediated via gap junction channels but rather by paracrine mechanisms via excreted molecules in Jeg3 cells. J. Cell. Biochem. 103: 149,161, 2008. © 2007 Wiley-Liss, Inc. [source]

Liver carcinogen aflatoxin B1 as an inducer of mitotic recombination in a human cell line

MOLECULAR CARCINOGENESIS, Issue 3 2001
Peter Markus Stettler
Abstract The mycotoxin aflatoxin B1 (AFB1) is one of the most potent rodent and human liver carcinogens. Upon cytochrome P450,specific metabolism, it induces mutations as well as mitotic recombination events in in vitro systems. We have found that in the lower eukaryote yeast, the recombinagenic activity of AFB1 surpasses its mutagenic activity, and we speculated on possible consequences in terms of the mechanism of liver carcinogenesis. In this study we investigated whether the recombinagenic activity of AFB1 also would be identified in human cells. To address this question, we followed the fate of a heterozygous thymidine kinase (tk) allele in the human lymphoblastoid cell line TK6 upon exposure to AFB1. Individual mutants that had lost tk activity were subjected to loss of heterozygosity analysis of the tk locus and its flanking markers. Fluorescence in situ hybridization analysis on chromosome 17 also was performed. In parallel, a similar analysis was performed on TK6 cells exposed to the alkylating agent N -nitrosomethylurea, a well-known classic point mutagen. Our analysis showed a difference in the molecular mechanism leading to inactivation of the tk allele upon exposure to these two mutagens. In AFB1 -exposed cells the fraction of recombination-derived mutants predominated, whereas in N -nitrosomethylurea,exposed cells the fraction of point mutants was higher. Thus, the recombinagenic activity of AFB1 previously identified in a lower eukaryote also was found in the human cell line TK6. Our data support the hypothesis that mitotic recombination represents a central mechanism of action in AFB1 -induced liver carcinogenesis. © 2001 Wiley-Liss, Inc. [source]

High incidence of distal vaginal atresia in mice lacking Tyro3 RTK subfamily

MOLECULAR REPRODUCTION & DEVELOPMENT, Issue 12 2008
Hui Wu
Abstract Vaginal atresia is a congenital abnormality of the female genitourinary system, and the specific molecular mechanism leading to failure of vaginal development remains to be elucidated. Here, we report that the female mice lacking Tyro3 RTK subfamily (Tyro3, Axl, and Mer) exhibit a high incidence of distal vaginal atresia. The ratios of the vaginal atresia in Tyro3 RTKs mutant female mice are as follows: 2.5% for Mer,/, mice, 4.0% for Axl,/,Mer,/,, 3.7% for Mer,/,Tyro3,/,, 16.06% for Tyro,/,Axl,/,Mer,/, mice. We did not find the vaginal atresia in Axl,/,, Tyro3,/,, Axl,/, Tyro,/,, and wild-type mice. These observations suggest that Tyro3 RTKs play roles collaboratively in vaginal development, and Mer is more critical, Axl and Tyro3 support the function of Mer. The phenotype of mice with the vaginal atresia was characterized in this study. Tyro3 RTKs mutant mouse could be a useful model to study the mechanism of vaginal atresia formation. Mol. Reprod. Dev. 75: 1775,1782, 2008. © 2008 Wiley-Liss, Inc. [source]

ESE-3, an Ets family transcription factor, is up-regulated in cellular senescence

CANCER SCIENCE, Issue 9 2007
Makoto Fujikawa
Normal cells irreversibly stop dividing after being exposed to a variety of stresses. This state, called cellular senescence, has recently been demonstrated to act as a tumor-suppressing mechanism in vivo. A common set of features are exhibited by senescent cells, but the molecular mechanism leading to the state is poorly understood. It has been shown that p38, a stress-induced mitogen-activated protein kinase (MAPK), plays a pivotal role in inducing cellular senescence in diverse settings. To better understand the senescence-inducing pathway, microarray analyses of normal human fibroblasts that ectopically activated p38 were performed. It was found that five genes encoding ESE-3, inhibin ,A, RGS5, SSAT and DIO2 were up-regulated in senescent cells induced by RasV12, H2O2 and telomere shortening, but not in quiescent or actively growing cells, suggesting that these genes serve as molecular markers for various types of cellular senescence. The ectopic expression of ESE-3 resulted in retarded growth, up-regulation of p16INK4a but not of p21, and increased levels of SA-,-gal activity. In contrast, RGS5, SSAT and the constitutive active form of the inhibin ,A receptor gene did not induce such senescence phenotypes when ectopically expressed. ESE-3 expression increased the activity of the p16INK4a promoter in a reporter assay, and recombinant ESE-3 protein bound to the Ets-binding sequences present in the promoter. These results suggest that ESE-3 plays a role in the induction of cellular senescence as a downstream molecule of p38. (Cancer Sci 2007; 98: 1468,1475) [source]