TY - JOUR A1 - Haertle, Larissa A1 - Maierhofer, Anna A1 - Böck, Julia A1 - Lehnen, Harald A1 - Böttcher, Yvonne A1 - Blüher, Matthias A1 - Schorsch, Martin A1 - Potabattula, Ramya A1 - El Hajj, Nady A1 - Appenzeller, Silke A1 - Haaf, Thomas T1 - Hypermethylation of the non-imprinted maternal MEG3 and paternal MEST alleles is highly variable among normal individuals JF - PLoS ONE N2 - Imprinted genes show parent-specific activity (functional haploidy), which makes them particularly vulnerable to epigenetic dysregulation. Here we studied the methylation profiles of oppositely imprinted genes at single DNA molecule resolution by two independent parental allele-specific deep bisulfite sequencing (DBS) techniques. Using Roche (GSJunior) next generation sequencing technology, we analyzed the maternally imprinted MEST promoter and the paternally imprinted MEG3 intergenic (IG) differentially methylated region (DMR) in fetal cord blood, adult blood, and visceral adipose tissue. Epimutations were defined as paternal or maternal alleles with >50% aberrantly (de)methylated CpG sites, showing the wrong methylation imprint. The epimutation rates (range 2–66%) of the paternal MEST and the maternal MEG3 IG DMR allele, which should be completely unmethylated, were significantly higher than those (0–15%) of the maternal MEST and paternal MEG3 alleles, which are expected to be fully methylated. This hypermethylation of the non-imprinted allele (HNA) was independent of parental origin. Very low epimutation rates in sperm suggest that HNA occurred after fertilization. DBS with Illumina (MiSeq) technology confirmed HNA for the MEST promoter and the MEG3 IG DMR, and to a lesser extent, for the paternally imprinted secondary MEG3 promoter and the maternally imprinted PEG3 promoter. HNA leads to biallelic methylation of imprinted genes in a considerable proportion of normal body cells (somatic mosaicism) and is highly variable between individuals. We propose that during development and differentiation maintenance of differential methylation at most imprinting control regions may become to some extent redundant. The accumulation of stochastic and environmentally-induced methylation errors on the non-imprinted allele may increase epigenetic diversity between cells and individuals. KW - DNA methylation KW - genomic imprinting KW - polymerase chain reaction KW - blood KW - epigenetics KW - sequence alignment KW - sperm Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170433 VL - 12 IS - 8 ER - TY - JOUR A1 - Adam, Christian A1 - Baeurle, Anne A1 - Brodsky, Jeffrey L. A1 - Schrama, David A1 - Wipf, Peter A1 - Becker, Jürgen Christian A1 - Houben, Roland T1 - The HSP70 Modulator MAL3-101 Inhibits Merkel Cell Carcinoma N2 - Merkel Cell Carcinoma (MCC) is a rare and highly aggressive neuroendocrine skin cancer for which no effective treatment is available. MCC represents a human cancer with the best experimental evidence for a causal role of a polyoma virus. Large T antigens (LTA) encoded by polyoma viruses are oncoproteins, which are thought to require support of cellular heat shock protein 70 (HSP70) to exert their transforming activity. Here we evaluated the capability of MAL3-101, a synthetic HSP70 inhibitor, to limit proliferation and survival of various MCC cell lines. Remarkably, MAL3-101 treatment resulted in considerable apoptosis in 5 out of 7 MCC cell lines. While this effect was not associated with the viral status of the MCC cells, quantitative mRNA expression analysis of the known HSP70 isoforms revealed a significant correlation between MAL3-101 sensitivity and HSC70 expression, the most prominent isoform in all cell lines. Moreover, MAL3-101 also exhibited in vivo antitumor activity in an MCC xenograft model suggesting that this substance or related compounds are potential therapeutics for the treatment of MCC in the future. KW - apoptosis KW - cancer treatment KW - cell staining KW - cultured fibroplasts KW - heat shock response KW - membrans proteins KW - polymerase chain reaction Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-112795 ER - TY - JOUR A1 - Rudel, Thomas A1 - Krohne, George A1 - Prusty, Bhupesh K. T1 - Reactivation of Chromosomally Integrated Human Herpesvirus-6 by Telomeric Circle Formation N2 - More than 95% of the human population is infected with human herpesvirus-6 (HHV-6) during early childhood and maintains latent HHV-6 genomes either in an extra-chromosomal form or as a chromosomally integrated HHV-6 (ciHHV-6). In addition, approximately 1% of humans are born with an inheritable form of ciHHV-6 integrated into the telomeres of chromosomes. Immunosuppression and stress conditions can reactivate latent HHV-6 replication, which is associated with clinical complications and even death. We have previously shown that Chlamydia trachomatis infection reactivates ciHHV-6 and induces the formation of extra-chromosomal viral DNA in ciHHV-6 cells. Here, we propose a model and provide experimental evidence for the mechanism of ciHHV-6 reactivation. Infection with Chlamydia induced a transient shortening of telomeric ends, which subsequently led to increased telomeric circle (t-circle) formation and incomplete reconstitution of circular viral genomes containing single viral direct repeat (DR). Correspondingly, short t-circles containing parts of the HHV-6 DR were detected in cells from individuals with genetically inherited ciHHV-6. Furthermore, telomere shortening induced in the absence of Chlamydia infection also caused circularization of ciHHV-6, supporting a t-circle based mechanism for ciHHV-6 reactivation. Author Summary: Human herpesviruses (HHVs) can reside in a lifelong non-infectious state displaying limited activity in their host and protected from immune responses. One possible way by which HHV-6 achieves this state is by integrating into the telomeric ends of human chromosomes, which are highly repetitive sequences that protect the ends of chromosomes from damage. Various stress conditions can reactivate latent HHV-6 thus increasing the severity of multiple human disorders. Recently, we have identified Chlamydia infection as a natural cause of latent HHV-6 reactivation. Here, we have sought to elucidate the molecular mechanism of HHV-6 reactivation. HHV-6 efficiently utilizes the well-organized telomere maintenance machinery of the host cell to exit from its inactive state and initiate replication to form new viral DNA. We provide experimental evidence that the shortening of telomeres, as a consequence of interference with telomere maintenance, triggers the release of the integrated virus from the chromosome. Our data provide a mechanistic basis to understand HHV-6 reactivation scenarios, which in light of the high prevalence of HHV-6 infection and the possibility of chromosomal integration of other common viruses like HHV-7 have important medical consequences for several million people worldwide. KW - chlamydia infection KW - circular DNA KW - telomeres KW - polymerase chain reaction KW - DNA electrophoresis KW - chromosomes KW - southern hybridization KW - DNA hybridization Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-111380 ER - TY - THES A1 - Heitmann, Maximilian T1 - Vergleich der genetischen Eigenschaften von Bone Marrow derived Mesenchymal Stem Cells und Trabecular Bone derived Mesenchymal Stem Cells T1 - Comparison of the genetic character of Bone Marrow derived Mesenchymal Stem Cells and Trabecular Bone derived Mesenchymal Stem Cells N2 - Technische Neuerungen und steigende Ansprüche an die Gesundheit stellen die moderne Medizin immer wieder vor neue Herausforderungen und führen zur Entwicklung von neuen Therapiekonzepten wie dem Tissue Engineering. Vielfach kommen dabei adulte pluripotente Stammzellen zum Einsatz. Bei der Regeneration mesenchymalen Gewebes wie Knochen, Knorpel und Muskulatur leisten Mesenchymale Stammzellen (MSCs) einen entscheidenden Beitrag. Diese lassen sich aus allen mesenchymalen Geweben des Körpers gewinnen und stellen daher zwar keine homogene Zellpopulation dar, doch sie lassen sich aufgrund phänotypischer und molekularbiologischer Gemeinsamkeiten charakterisieren. In großer Zahl lassen sich MSCs aus dem Knochenmark gewinnen und werden als stromale MSCs bzw. mhMSCs (marrow-derived human MSCs) bezeichnet. Auf der Suche nach homogenen Subpopulationen von MSCs wurde in dieser Arbeit eine Zellpopulation aus Knochentrabekeln gewonnen, sogenannte bhMSCs (trabecular bone-derived MSCs), und anhand ihrer Genexpression mit mhMSCs verglichen. Dafür wurde RNA aus beiden Populationen in einem Microarray mit anschließender SAM (significance analysis of microarrays) analysiert um unterschiedliche Expressionsmuster zwischen mhMSCs und bhMSCs aufzuzeigen. Diese Ergebnisse wurden durch konventionelle Reverse Transkriptase Polymerase Kettenreaktion (RT-PCR) bestätigt, wobei das Augenmerk vor allem auf solche Gene gerichtet wurde, die differentiell exprimiert waren und zudem als Markergene ein Differenzierungspotential in bestimmte Gewebe wie Muskel und Knochen vorhersagen. Dabei konnte sowohl eine gute Übereinstimmung zwischen Microarray und RT-PCR demonstriert als auch die Hoffnung auf eine homogene (trabekuläre) MSC-Population mit anderen Differenzierungseigenschaften geweckt werden. Im Verlauf weitergehender Untersuchungen der SAM fiel eine unerklärlich hohe Expression von Immunglobulinketten in der mhMSC-Kultur (Passage 0) auf, die letztlich auf eine Kontamination der Zellkultur mit Plasmazellen schließen ließ. Da die Ergebnisse des Microarrays (Passage 0 Kultur) somit zu hinterfragen waren, wurde die Kontamination der Plasmazellen durch Passagieren der mhMSC-Zellkultur (Passage 1) beseitigt und erneut ein Microarray mit SAM durchgeführt. Dabei relativierten sich fast alle Expressionsunterschiede, die somit auf die Kontamination der Plasmazellen zurückgeführt werden mussten. Einzig drei Gene (CD24, TRIB2, AHNAK) wurden in diesem zweiten Array differentiell exprimiert, was sich bei CD24 und TRIB2 auch durch RT-PCR untermauern ließ. Es lässt sich also schlussfolgern, dass bhMSCs wahrscheinlich in der Zukunft des Tissue Engineering keinen Stellenwert haben werden, zumal ihre Gewinnung im Vergleich zu mhMSC deutlich aufwendiger ist. N2 - Technical innovations and increasing demands on health confront modern medicine constantly with new challenges and lead to the development of new therapeutic concepts such as tissue engineering. Often adult pluripotent stem cells are used thereby. In the regeneration of mesenchymal tissues such as bone, cartilage and muscle Mesenchymal stem cells (MSCs) make a significant contribution. These can be harvested from all mesenchymal tissues of the body and do not represent a homogeneous cell population, but they can be characterized due to phenotypic and molecular similarities. In large numbers MSCs can be harvested from the bone marrow and are called stromal MSCs or mhMSCs (marrow-derived human MSCs). Looking for homogeneous subpopulations of MSCs in this thesis was harvested a cell population derived from bone trabeculae, called bhMSCs (trabecular bone-derived MSCs), and was compared with mhMSCs based on their gene expression. RNA was isolated from both populations and analyzed in a microarray followed by SAM (significance analysis of microarrays) to point out different expression patterns between mhMSCs and bhMSCs. These results were confirmed by conventional reverse transcriptase polymerase chain reaction (RT-PCR). The attention was directed primarily to those genes that were differentially expressed and also predicted the differentiation potential to certain tissues such as muscle and bone as so-called marker genes. Both equivalence between microarray and RT-PCR was demonstrated and the hope of a homogeneous (trabecular) MSC population with other differentiating features was awakened. In the course of further investigations of the SAM an inexplicably high expression of immunoglobulin chains in the mhMSC culture (passage 0) was noticed, which indicated a contamination of the cell culture with plasma cells. Since the results of the microarray (passage 0 culture) were thus to question the contamination of the plasma cells was removed by passaging the mhMSC cell culture (passage 1) and a second microarray with SAM was performed. In this case, we could not find these expression differences between both populations anymore. Due to the contamination with plasma cells in the MSC culture all previous results were not valid any more. Only three genes (CD24, Trib2, AHNAK) were differentially expressed in this second array. It can be concluded, therefore, that bhMSCs likely in the future tissue engineering have no value, especially since their harvesting compared to mhMSC is much more complex. KW - Mesenchymale Stammzelle KW - Polymerase-Kettenrektion KW - Microarray KW - Differenzierung KW - Adulte Stammzelle KW - Mesenchymale Stammzelle KW - Polymerase Kettenreaktion KW - Microarray KW - Differenzierung KW - Trabekuläre Mesenchymale Stammzelle KW - mesenchymal stem cell KW - polymerase chain reaction KW - microarray KW - differentiation KW - trabecular bone-derived mesenchymal stem cell Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-108612 ER - TY - JOUR A1 - Rudel, Thomas A1 - Prusty, Bhupesh K. A1 - Siegl, Christine A1 - Hauck, Petra A1 - Hain, Johannes A1 - Korhonen, Suvi J. A1 - Hiltunen-Back, Eija A1 - Poulakkainen, Mirja T1 - Chlamydia trachomatis Infection Induces Replication of Latent HHV-6 JF - PLoS ONE N2 - Human herpesvirus-6 (HHV-6) exists in latent form either as a nuclear episome or integrated into human chromosomes in more than 90% of healthy individuals without causing clinical symptoms. Immunosuppression and stress conditions can reactivate HHV-6 replication, associated with clinical complications and even death. We have previously shown that co-infection of Chlamydia trachomatis and HHV-6 promotes chlamydial persistence and increases viral uptake in an in vitro cell culture model. Here we investigated C. trachomatis-induced HHV-6 activation in cell lines and fresh blood samples from patients having Chromosomally integrated HHV-6 (CiHHV-6). We observed activation of latent HHV-6 DNA replication in CiHHV-6 cell lines and fresh blood cells without formation of viral particles. Interestingly, we detected HHV-6 DNA in blood as well as cervical swabs from C. trachomatis-infected women. Low virus titers correlated with high C. trachomatis load and vice versa, demonstrating a potentially significant interaction of these pathogens in blood cells and in the cervix of infected patients. Our data suggest a thus far underestimated interference of HHV-6 and C. trachomatis with a likely impact on the disease outcome as consequence of co-infection. KW - blood KW - chlamydia KW - chlamydia infection KW - chlamydia trachomatis KW - DNA replication KW - macrophages KW - polymerase chain reaction KW - viral load Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-96731 ER - TY - THES A1 - Polzin, Silke T1 - Lebensalterschätzung aus biologischem Material anhand der 4.977 bp-Deletion in menschlicher mitochondrialer DNA T1 - Age estimation from biological material based on 4,977 bp-deletion in human mitochondrial DNA N2 - Neben der Frage nach dem Lebensalter als Kriterium zur Identifizierung unbekannter Leichen und menschlicher Überreste, wird der Bedarf einer Altersschätzung an lebenden Personen derzeit immer größer. Hinzu kommt die Hoffnung, aus Spuren Rückschlüsse auf das Alter des Spurenlegers ziehen zu können. Ziel dieser Arbeit war es, aus verschiedenen biologischen Materialien das Alter anhand der 4.977 bp-Deletion in menschlicher mitochondrialer DNA abschätzen zu können, wobei der Schwerpunkt auf Material von lebenden Personen lag. Hierzu wurde mit Hilfe geeigneter DNA-Extraktionsmethoden aus verschiedenen Gewebearten, venösem Vollblut, Mundschleimhautabstrichen und Haarwurzeln ausreichend DNA guter Qualität gewonnen. Die Schwierigkeit dieser Untersuchung lag in der Ermöglichung einer Quantifizierungsmethode zur Erfassung der 4.977 bp-Deletion. Dieses Problem wurde, nach der Wahl optimaler Primer und Amplifizierung spezifischer DNA-Fragmente, für die deletierte und die normale mtDNA unter optimierten PCR-Bedingungen im Multi-plex-Ansatz, mit Hilfe der Kapillarelektrophorese gelöst. Mit ihr konnte der Anteil der 4.977 bp-deletierten und der normalen mtDNA durch die computeranalysierten Peakflächen der beiden Fragmente bestimmt und miteinander in Verhältnis gesetzt werden. Dieses Verhältnis wurde durch den Quotienten IDel/INorm ausgedrückt. Die gewonnenen Ergebnisse wurden anschließend ausgedehnten statistischen Erhebungen unterzogen. Die 4.977 bp-Deletion zeigte in allen untersuchten Materialien eine eindeutige Altersabhängigkeit. Dies wurde an der Zunahme des Quotienten IDel/INorm mit steigendem Alter ersichtlich. Für die verschiedenen Gewebearten war die Abhängigkeit dieser Deletion vom Alter bereits aus der Literatur bekannt. Im Blut wurde diese jedoch erstmalig gezeigt, ebenso wie in den Mundschleimhautabstrichen, die bisher noch nie für Untersuchungen der 4.977 bp-Deletion herangezogen wurden. In den Haarwurzeln konnte die Deletion nicht nachgewiesen werden. Auffällig war hierbei, dass die Altersabhängigkeit von Material zu Material unterschiedlich ausgeprägt war. Der größte Anteil deletierter mtDNA fand sich im Gehirngewebe, gefolgt von Skelettmuskulatur, Herz, Lunge, Milz, Niere Leber und Haut. Für diese unterschiedliche Akkumulierung der 4.977 bp-Deletion finden sich zwei mögliche Erklärungsansätze, die Theorie einer unterschiedlichen Mitoserate und die einer unterschiedlichen Stoffwechselaktivität, die beide die gewonnene Rangfolge bestätigen. Des Weiteren wurde eine Abhängigkeit der 4.977 bp-Deletion von der in die PCR eingesetzten DNA-Menge festgestellt. Dieser Effekt muss im Zusammenhang mit der unterschiedlichen Amplifizierungseffizienz der beiden relevanten DNA-Fragmente gesehen werden, wodurch jedoch die Einschränkungen der angewandten unkontrollierten Multiplex-PCR mit anschließender semi-quantitativer Detektion der Amplifikations- produkte deutlich werden. Unter Berücksichtigung der Einschränkungen gelang anhand von Perzentilentabellen eine Altersschätzung mit der Angabe einer Altersspanne von ungefähr 30 Jahren. Um eine genauere Altersschätzung zu erreichen, wäre eine Optimierung der Methode, z. B. durch Anwendung einer real-time quantitativen PCR, und eine Einbeziehung einer noch größeren Probenzahl nötig. N2 - Not only is age an important criteria for the identification of unknown bodies and human remains, there is also a growing need to estimate the age of living persons. In addition, there is hope that trace evidence will permit conclusions about the age of the individual who left the evidence. The goal of this project was to estimate age from various biological materials based on 4,977 bp-deletion in human mitochondrial DNA, with the majority of materials being provided by living persons. To this end, sufficient amounts of good quality DNA were obtained, using appropriate methods of DNA extraction, from various types of tissue, venous blood, swabs of the mucous membranes in the mouth, and hair roots. The difficult aspect of this study was the determination of a method which would allow for the quantification of 4,977 bp-deletion. After evaluation of optimized primer and multiplex-PCR conditions for amplification of specific DNA fragments for the deleted and the normal mtDNA, this problem was solved using capillary electrophoresis for quantification. This allowed for the determination of the proportions of 4,977 bp-deleted and normal mtDNA through the computer analysis of the peak areas of the two fragments and the calculation of their ratio. This ratio was expressed through the IDel/INorm quotient. Results were subsequently submitted to extensive statistical analyses. 4,977 bp-deletion showed a significant correlation with age in all examined materials. This was made evident by growing IDel/INorm quotients with increasing age. For various tissue types, the association between this deletion and age was known from the research literature. However, this relationship was demonstrated for the first time in blood, as well as in the swabs of the mucous membrane of the mouth, which had never previously been used for the assessment of 4,977 bp-deletion. No deletion was found in hair roots. It was striking that the strength of the association with age differed from material to material. The greatest proportion of deleted mtDNA was found in brain tissue, followed by skeletal muscles, heart, lung, spleen, kidney, liver, and skin. There are two possible explanations for this differential accumulation of 4,977 bp-deletion: (1) the theory of differential mitosis rates and (2) the theory of differential metabolic activity, both of which are consistent with the current findings. Furthermore, a correlation between 4,977 bp-deletion and the amount of DNA used in the PCR was observed. This effect must be considered in the context of the various degrees of efficiency in the amplification of the two relevant DNA fragments, which underscores the limitations of the employed method of uncontrolled multiplex-PCR with subsequent semi-quantitative detection of the amplification products. Considering these limitations, age estimation was accomplished with the use of percentile tables, which allowed a determination of an age range of approximately 30 years. A more accurate estimation of age would require an optimization of the current method, for example, through the application of real-time quantitative PCR, and the inclusion of a larger sample size. KW - mtDNA KW - Lebensalter KW - Mensch KW - 4.977 bp-Deletion KW - Quantifizierung KW - Kapillarelektrophorese KW - Gewebe KW - Blut KW - Mundschleimhautabstrich KW - mtDNA KW - age KW - human KW - 4 KW - 977 bp-deletion KW - quantification KW - capillary electrophoresis KW - tissue KW - blood KW - saliva KW - polymerase chain reaction Y1 - 2001 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-2999 ER -