Global ETD Search

1	Molecular Mechanisms Associated with Chromosomal and Microsatellite Instability in Sporadic Glioblastoma multiforme Martinez, Ramon, Schackert, Hans-K., Plaschke, Jens, Baretton, Gustavo, Appelt, Hella, Schackert, Gabriele 12 February 2014 (has links) (PDF) Objective: Two chromosomal instability (CIN) pathways are described in glioblastoma multiforme (GBM), type 1 and type 2, which can be observed in up to 70% of the cases. Microsatellite instability (MSI) plays a pathogenic role in sporadic cancers such as colon, gastric and endometrial carcinomas with deficient mismatch repair (MMR). We aimed to perform a comprehensive analysis of the relationship between CIN and MSI mechanisms in sporadic glioblastomas. Methods: 129 GBMs were examined (109 newly diagnosed and 20 relapses) investigating MSI, immunohistochemical expression of MMR proteins as well as sequencing and promoter methylation of hMLH1. We characterized the molecular changes frequently correlated with CIN in MSI+ GBMs and compared them with 26 microsatellite-stable tumors. Results: Low-level MSI was observed in 11 of 129 (8.5%) cases and was higher in relapses than in primary GBMs (25 vs. 5.5%, p = 0.027). High-level MSI was not found in any case. A deficient expression of MLH1 and PMS2 without hMLH1 inactivation was observed only in one giant cell GBM. 55% of the MSI+ GBMs showed a profile which did not correspond to one of the known CIN pathways. An inverse association was observed between MSI and mutations of both p53 and PTEN. Conclusions: Our data suggest that CIN and MSI contribute to the genomic instability in GBMs via independent pathways. Since MSI was significantly more frequent in relapses, it might play a role in the malignant progression of GBM. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Glioblastom Glioblastoma multiforme Tumor Karzinogenese Tumorentwicklung Mismatch-Reparatur chromosomale Instabilität Glioblastoma multiforme Tumorigenesis Mismatch repair Chromosomal instability ddc:610 rvk:XA 10000
2	Molecular Mechanisms Associated with Chromosomal and Microsatellite Instability in Sporadic Glioblastoma multiforme Martinez, Ramon, Schackert, Hans-K., Plaschke, Jens, Baretton, Gustavo, Appelt, Hella, Schackert, Gabriele January 2004 (has links) Objective: Two chromosomal instability (CIN) pathways are described in glioblastoma multiforme (GBM), type 1 and type 2, which can be observed in up to 70% of the cases. Microsatellite instability (MSI) plays a pathogenic role in sporadic cancers such as colon, gastric and endometrial carcinomas with deficient mismatch repair (MMR). We aimed to perform a comprehensive analysis of the relationship between CIN and MSI mechanisms in sporadic glioblastomas. Methods: 129 GBMs were examined (109 newly diagnosed and 20 relapses) investigating MSI, immunohistochemical expression of MMR proteins as well as sequencing and promoter methylation of hMLH1. We characterized the molecular changes frequently correlated with CIN in MSI+ GBMs and compared them with 26 microsatellite-stable tumors. Results: Low-level MSI was observed in 11 of 129 (8.5%) cases and was higher in relapses than in primary GBMs (25 vs. 5.5%, p = 0.027). High-level MSI was not found in any case. A deficient expression of MLH1 and PMS2 without hMLH1 inactivation was observed only in one giant cell GBM. 55% of the MSI+ GBMs showed a profile which did not correspond to one of the known CIN pathways. An inverse association was observed between MSI and mutations of both p53 and PTEN. Conclusions: Our data suggest that CIN and MSI contribute to the genomic instability in GBMs via independent pathways. Since MSI was significantly more frequent in relapses, it might play a role in the malignant progression of GBM. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/610 ddc:610
3	Untersuchung somatischer Chromosomenveränderungen bei amyotropher Lateralsklerose Wappler, Juliane Christin 19 June 2006 (has links) Die ALS ist eine fortschreitende neurodegenerative Erkrankung, deren Symptome durch den Untergang der Motoneuronen bedingt sind. Neueste zytogenetische Untersuchungen zeigen ein vermehrtes Auftreten konstitutioneller Chromosomenveränderunge bei ALS-Patienten. Dies lässt eine Verbindung zwischen dem Ausbruch der Erkrankung und der auffälligen Zytogenetik vermuten. Das Auftreten spontaner Chromosomenveränderungen als Zeichen einer chromosomalen Instabilität wurde in der vorliegenden Arbeit an ALS-Patienten untersucht. METHODE: Neben der Karyotypisierung, der Bestimmung der SCE-Rate und der Bruchrate nach Behandlung mit Bleomycin kam die Fluoreszenz in situ Hybridisierung zum Einsatz. Die Untersuchungen wurden an Patienten mit sporadischer ALS (45), an Kontrollpersonen (38) und Verwandten (9) durchgeführt. ERGEBNISSE: Die Karyotypisierung ergab bei den Patienten eine spontane Translokationsrate von 0,02 Translokationen/Zelle (t/Z), bei den Kontrollen 0,04 t/Z. Weitere numerische oder strukturelle Auffälligkeiten waren nicht signifikant verschieden. Es wurden keine konstitutionellen Chromosomenaberrationen gefunden. Die Häufigkeit der Schwesterchromatidaustausche (SCE-Rate) bewegte sich mit 7-8 SCE/Z in der Patientengruppe innerhalb der Normwerte. Durch die Zugabe von Bleomycin in die Zellkultur stieg die Zahl der Chromatidbrüche von 0,0 auf 0,8 Brüche/Z an. Dabei zeigten die untersuchten Gruppen ähnliche Progredienzen in den Bruchraten. Mit der Fluoreszenz in situ Hybridisierung werden quantitative Aussagen über spontane Translokationsraten gemacht. Sie betrug in der Kontroll-und Patientengruppe 0,03 bis 0,04 t/Z. DISKUSSION: Die vorliegenden Ergebnisse liefern keinen Anhalt für eine chromosomale Instabilität als Risikofaktor für die Entstehung der sporadischen ALS. Indizien für eine chromosomale Instabilität wie erhöhte Bruchraten und SCEs als auch vermehrtes Auftreten somatischer Aberrationen konnten bei den ALS-Patienten nicht nachgewiesen werden. Über mögliche Auffälligkeiten in den Motoneuronen lässt sich allerdings mit den Untersuchungen an Blutlymphozyten keine hinreichend sichere Aussage machen. / Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease which is characterized by the degeneration of motor neurons. Recently, a high rate of constitutional structural chromosomal rearrangements has been reported in apparently sporadic ALS patients. It remains questionable whether or not these genomic rearrangements are caused by a chromosomal instability involved in the pathogenesis of the disease. Therefore, we performed different cytogenetic studies on chromosomal instability. METHOD: We performed chromosome analyses from patients (N=45), control subjects (N=38), and relatives (N=9) after culturing blood lymphocytes. Conventional chromosome analysis after GTG-banding, chromosomal breakage test after Bleomycin treatment, the rate of sister chromatid exchange (SCE), and whole chromosome painting were used for these analyses. RESULTS: Neither karyotyping nor whole chromosome painting revealed higher levels of structural or numerical aberrations in lymphocytes of patients with sALS. After karyotyping we found 0.02 t/cell in patients and 0.04 t/cell in controls. Whole chromosome painting revealed 0.04 t/cell in patients and 0.03 t/cell in controls. The chromosomal breaks increased likewise after Bleomycin treatment in the control group and the patient group as well. Cell cultures without Bleomycin did not show any breaks while the highest Bleomycin concentration induced up to 0.08 breaks/cell. The SCE rate in patients which corresponds to the chromatid repair activity did not rise to a higher level than in the control individuals. Both groups were in the normal range of 7 to 8 SCE/cell. DISCUSSION: The pathomechanism of neurodegeneration in ALS patients is still unknown. We tried to find a cytogenetic correlative being a risk factor for the development of ALS. However, so far there is no clue for chromosomal instability being involved in the neurodegenerative process. Bleomycin chromosomale Instabilität FISH Neurodegeneration SCE somatische Chromosomenaberration sporadische ALS WCP. bleomycin chromosomal instability FISH GTG-banding neurodegeneration SCE somatic chromosomal rearrangements sporadic ALS WCP 610 Medizin 33 Medizin YG 6304 ddc:610

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