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Multiple Cellular Functions (multiple + cellular_function)

Distribution by Scientific Domains
Medical Sciences40%
Life Sciences40%

Selected Abstracts

Nerve growth factor attenuates proliferation of astrocytes via the p75 neurotrophin receptor

GLIA, Issue 13 2009
Andrea B. Cragnolini
Abstract The p75 neurotrophin receptor has been implicated in the regulation of multiple cellular functions that differ depending on the cell context. We have observed that p75NTR is strongly induced on astrocytes as well as neurons in the hippocampal CA3 region after seizures; however, the function of this receptor on these glial cells has not been defined. We have employed a primary culture system to investigate the effects of neurotrophins on astrocytes. Treatment of hippocampal astrocytes with nerve growth factor (NGF) caused a reduction in cell number, but did not elicit an apoptotic response, in contrast to hippocampal neurons. Instead, activation of p75NTR by NGF attenuated proliferation induced by mitogens such as EGF or serum. These studies demonstrate the cell type specificity of neurotrophin functions in the brain. © 2009 Wiley-Liss, Inc. [source]

Lef-1 isoforms regulate different target genes and reduce cellular adhesion

INTERNATIONAL JOURNAL OF CANCER, Issue 5 2010
Sarah Jesse
Abstract The lymphoid enhancer factor 1 (Lef-1) belongs to the nuclear transducers of canonical Wnt-signalling in embryogenesis and cancer. Lef-1 acts, in cooperation with ,-catenin, as a context-dependent transcriptional activator or repressor, thereby influencing multiple cellular functions such as proliferation, differentiation and migration. Here we report that an increased Lef-1 expression in human pancreatic cancer correlates with advanced tumour stages. In pancreatic tumours, two different transcripts of Lef-1 have been detected in various stages, as demonstrated by RT-PCR analysis. One transcript was identified as the full length Lef-1 (Lef-1 FL), whereas the second, shorter transcript lacked exon VI (Lef-1 ,exon VI) compared to the published sequence. Comparative analysis of these two Lef-1 variants revealed that they exhibit different cellular effects after transient expression in pancreatic carcinoma cells. Forced expression of Lef-1 ,exon VI inhibited E-cadherin expression in a ,-catenin-independent way. Increased amounts of Lef-1 ,exon VI resulted in reduced cellular aggregation and increased cell migration. Expression of Lef-1 FL, but not the newly identified Lef-1 ,exon VI, induced the expression of the cell cycle regulating proteins c-myc and cyclin D1 in cooperation with ,-catenin and it enhanced cell proliferation. Our findings indicate that expression of alternatively spliced Lef-1 isoforms is involved in the determination of proliferative or migratory characteristics of pancreatic carcinoma cells. [source]

dUTP Pyrophosphatase, its appearance in extracellular compartment may serve as a potential biomarker for N -methyl- N' -nitro- N -nitrosoguanidine exposure in mammalian cells

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 10 2006
Meiping Wu
Abstract The monofunctional alkylating agent N -methyl- N' -nitro- N -nitrosoguanidine (MNNG) is a model chemical widely used for studying the molecular events induced by the widespread environmental N -nitroso alkylating carcinogen. Many studies have focused on understanding MNNG-induced mutagenesis and carcinogenesis. However, the search for specific indicators of MNNG exposure is still underway. In this study, we analyzed the proteins in culture medium of human amnion epithelial cells (FL,cells) exposed to MNNG by 2-DE followed by MALDI-TOF,MS, in the hope of finding a specific protein marker suitable for MNNG risk assessment. Image visualization and statistical analysis indicated that 12,spots appeared and 4,spots up-regulated after MNNG exposure. Most of them were identified by MS. These proteins include nuclear isoform of dUTP pyrophosphatase (DUT-N), phosphoglycerate mutase,1, heparan sulfate proteoglycan perlecan, etc., which are involved in multiple cellular functions. Interestingly, 2-DE and MS analyses of cell lysate exposed to MNNG revealed that DUT-N was down-regulated. The appearance of DUT-N in culture medium and its down-regulation in cell lysate was confirmed by Western blot. These data suggest that these proteins, especially DUT-N, could be used as candidate biomarkers for monitoring MNNG exposure. [source]

Evolution and modulation of intracellular calcium release during long-lasting, depleting depolarization in mouse muscle

THE JOURNAL OF PHYSIOLOGY, Issue 19 2008
Leandro Royer
Intracellular calcium signals regulate multiple cellular functions. They depend on release of Ca2+ from cellular stores into the cytosol, a process that in many types of cells appears to be tightly controlled by changes in [Ca2+] within the store. In contrast with cardiac muscle, where depletion of Ca2+ in the sarcoplasmic reticulum is a crucial determinant of termination of Ca2+ release, in skeletal muscle there is no agreement regarding the sign, or even the existence of an effect of SR Ca2+ level on Ca2+ release. To address this issue we measured Ca2+ transients in mouse flexor digitorum brevis (FDB) skeletal muscle fibres under voltage clamp, using confocal microscopy and the Ca2+ monitor rhod-2. The evolution of Ca2+ release flux was quantified during long-lasting depolarizations that reduced severely the Ca2+ content of the SR. As in all previous determinations in mammals and non-mammals, release flux consisted of an early peak, relaxing to a lower level from which it continued to decay more slowly. Decay of flux in this second stage, which has been attributed largely to depletion of SR Ca2+, was studied in detail. A simple depletion mechanism without change in release permeability predicts an exponential decay with time. In contrast, flux decreased non-exponentially, to a finite, measurable level that could be maintained for the longest pulses applied (1.8 s). An algorithm on the flux record allowed us to define a quantitative index, the normalized flux rate of change (NFRC), which was shown to be proportional to the ratio of release permeability P and inversely proportional to Ca2+ buffering power B of the SR, thus quantifying the ,evacuability' or ability of the SR to empty its content. When P and B were constant, flux then decayed exponentially, and NFRC was equal to the exponential rate constant. Instead, in most cases NFRC increased during the pulse, from a minimum reached immediately after the early peak in flux, to a time between 200 and 250 ms, when the index was no longer defined. NFRC increased by 111% on average (in 27 images from 18 cells), reaching 300% in some cases. The increase may reflect an increase in P, a decrease in B, or both. On experimental and theoretical grounds, both changes are to be expected upon SR depletion. A variable evacuability helps maintain a constant Ca2+ output under conditions of diminishing store Ca2+ load. [source]

The role of mitochondria in ageing and carcinogenesis

CLINICAL & EXPERIMENTAL DERMATOLOGY, Issue 4 2006
M. A. Birch-Machin
Summary Mitochondria can perform multiple cellular functions including energy production, cell proliferation and apoptosis. These organelles contain their own genetic material, mitochondrial DNA (mtDNA), which is maternally inherited. Although much smaller than the nuclear genome, mtDNA is equally important, as it has been hypothesized to play a crucial role in ageing and carcinogenesis. This is partly due to the fact that mitochondria represent the major site for the generation of cellular oxidative stress and play a key role in mediating programmed cell death (apoptosis). Damage to mtDNA is therefore an important contributor to human ageing, cancer and neurodegenerative diseases. The most relevant footprints of mtDNA damage are point mutations of single bases, or deletions of the 16.5-kb mitochondrial genome. This review will focus on the key roles of mitochondrial function and mtDNA in oxidative stress production and as a mediator of apoptosis, and on the use of mtDNA as a biomarker of sun exposure. This will be related to the contribution of mitochondria and mtDNA in the ageing process and cancer, with a specific focus on human skin. In conclusion, it is likely that the interplay between nuclear and mitochondrial genes may hold the final understanding of the mitochondrial role in these disease processes. [source]