Regular physical exercise reduces sepsis-associated acute kidney injury and death. As a specific mechanism of exercise-induced adaptation, we identified various lysophosphatidylcholines that might function as surrogate for improved outcome in sepsis.
Glyoxysomal (gMDH) and mitochondrial malate dehydrogenase (mMDH) from watermelon are synthesized as higher molecular weight precursor proteins. By overexpressing the precursor forms as well as the mature subunits with a histidine arm at the carboxy-terminus, it has been possible to purify relatively large amounts especially of the glyoxysomal precursor protein for studies of their refolding capacities after denaturation with guanidinium hydrochloride, heat or low pH. Glyoxysomal MDH and its precursor is capable of its spontaneous folding over a wide range of temperature conditions. Refolding can be enhanced by inclusion of BSA and ATP as stabilisers in the folding buffer. The N-terminal transit peptide of gMDH facilitates folding, but does not function as an intramolecular chaperon. Chemically denatured mitochondrial MDH requires chaperones for refolding. GroEL/GroES/ATP increase the yield and rate of watermelon mMDH folding dramatically while GroEL and Mg-ATP alone are not sufficient to provide folding assistance similar to the results with hydrophobic mammalian mMDH. The watermelon glyoxysomal MDH interacts with GroEL-like hydrophilic mammalian cytoplasmic MDH, a binding which has to be released by Mg-ATP before spontaneous folding can ensue. Interestingly, watermelon mMDH exhibited a much higher heat stability than gMDH or mammalian mMDH in the presence of BSA/ATP as well as GroEL/GroES/ATP. The differences between glyoxysomal and chaperone-assisted mitochondrial folding patterns are discussed.
BACKGROUND AND PURPOSE:Ependymoblastoma is a malignant embryonal tumor that develops in early childhood and has a dismal prognosis. Categorized by the World Health Organization as a subgroup of CNS-primitive neuroectodermal tumor, ependymoblastoma is histologically defined by "ependymoblastic rosettes." Because it is so rare, little is known about specific MR imaging characteristics of ependymoblastoma. We systematically analyzed and discussed MR imaging features of ependymoblastoma in a series of 22 consecutive patients.
This is the first study that systematically compares multiple parameters of MRI in pediatric EBL with findings in EP and CNS-PNET NOS. Although a definite differentiation by means of MRI alone might not be feasible in the individual case, we identify significant differences between these tumor entities.
This study first provides comprehensive MRI data for RELA-fused ST-EPN as a distinct entity, with further interest on CDKN2A genomic status. Patient stratification by morphological MRI alone seems difficult at present. The results may support ongoing research in ST-EPN within the framework of the radiogenomics concept.
Carnosine (β-alanyl-L-histidine) affects a plethora of signaling pathways and genes in different biological systems. Although known as a radical scavenger, not all of these effects can simply be ascribed to its chemical nature. As previous experiments pointed towards the possibility that carnosine affects epigenetic regulation via histone acetylation, we investigated this hypothesis using the glioblastoma cell lines U87 and T98G in which carnosine's anti-neoplastic effect is accompanied by increased expression of pyruvate dehydrogenase kinase 4. Viability and expression of PDK4 was analyzed after incubation in carnosine and different histone deacetylase inhibitors (HDACi) using cell-based assays and qRT-PCR. In addition, chromatin immunoprecipitation (ChIP) experiments were performed and the global influence of carnosine on histone H3 acetylation was analyzed by Western blot. Carnosine as well as the HDACi used increased expression of PDK4. In addition, all compounds reduced cell viability, although differences were observed with regard to magnitude and required concentrations. ChIP analysis revealed increased acetylation of histone H3 in the PDK4 promoter of U87 and T98G cells (~ 1.3- and ~ 1.7-fold, respectively) 6 h after the addition of carnosine (50 mM) followed by increased expression of PDK4 mRNA. Western blots did not detect a general increase of H3 acetylation at a genome-wide scale under the influence of carnosine. Our experiments for the first time demonstrate that carnosine influences epigenetic regulation via increased histone acetylation.
The naturally occurring dipeptide carnosine (β-alanyl-L-histidine) specifically attenuates tumor growth. Here, we ask whether other small imidazole-containing compounds also affect the viability of tumor cells without affecting non-malignant cells and whether the formation of histamine is involved. Patient-derived fibroblasts and glioblastoma cells were treated with carnosine, L-alanyl-L-histidine (LA-LH), β-alanyl-L-alanine, L-histidine, histamine, imidazole, β-alanine, and L-alanine. Cell viability was assessed by cell-based assays and microscopy. The intracellular release of L-histidine and formation of histamine was investigated by high-performance liquid chromatography coupled to mass spectrometry. Carnosine and LA-LH inhibited tumor cell growth with minor effects on fibroblasts, and L-histidine, histamine, and imidazole affected viability in both cell types. Compounds without the imidazole moiety did not diminish viability. In the presence of LA-LH but not in the presence of carnosine, a significant rise in intracellular amounts of histidine was detected in all cells. The formation of histamine was not detectable in the presence of carnosine, LA-LH, or histidine. In conclusion, the imidazole moiety of carnosine contributes to its anti-neoplastic effect, which is also seen in the presence of histidine and LA-LH. Despite the fact that histamine has a strong effect on cell viability, the formation of histamine is not responsible for the effects on the cell viability of carnosine, LA-LH, and histidine.
Zusammenfassung
Die weitreichenden Potenziale individualisierter Bewegungsf?rderung f?r krebskranke Kinder und
Jugendliche sollten ?ber den gesamten Zeitraum der Akuttherapie, in der Nachsorge und bei der R?ckkehr in
den Alltag genutzt und als Bestandteil der Normalit?t aufrechterhalten und gef?rdert werden. Dieser
Artikel stellt beispielhaft f?r den Standort M?nster Ergebnisse und Erfahrungen aus den letzten 5 Jahren
sporttherapeutischer und sportp?dagogischer Bewegungsf?rderung im kinderonkologischen Setting dar und
liefert konkrete Zahlen ?ber die Bewegungsumf?nge, die erreichten Patienten sowie die M?glichkeiten und
Grenzen eines derartigen Angebots.
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