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The evolutionary conserved Myb-MuvB (MMB) multiprotein complex is a transcriptional master regulator of mitotic gene expression. The MMB subunits B-MYB, FOXM1 as well as target genes of MMB are often overexpressed in different cancer types. Elevated expression of these genes correlates with an advanced tumor state and a poor prognosis for patients. Furthermore, it has been reported that pathways, which are involved in regulating the mitotic machinery are attractive for a potential treatment of cancers harbouring Ras mutations (Luo et al., 2009).
This suggest that the MMB complex could be required for tumorigenesis by mediating overactivity of mitotic genes and that the MMB could be a useful target for lung cancer treatment. However, although MMB has been characterized biochemically, the contribution of MMB to tumorigenesis is largely unknown in particular in vivo.
In this thesis, it was demonstrated that the MMB complex is required for lung tumorigenesis in vivo in a mouse model of non small cell lung cancer. Elevated levels of B-MYB, NUSAP1 or CENPF in advanced tumors as opposed to low levels of these proteins levels in grade 1 or 2 tumors support the possible contribution of MMB to lung tumorigenesis and the oncogenic potential of B-MYB.The tumor growth promoting function of B-MYB was illustrated by a lower fraction of KI-67 positive cells in vivo and a significantly high impairment in proliferation after loss of B-Myb in vitro. Defects in cytokinesis and an abnormal cell cycle profile after loss of B-Myb underscore the impact of B-MYB on proliferation of lung cancer cell lines. The incomplete recombination of B-Myb in murine lung tumors and in the tumor derived primary cell lines illustrates the selection pressure against the complete loss of B-Myb and further demonstrats that B-Myb is a tumor-essential gene. In the last part of this thesis, the contribution of MMB to the proliferation of human lung cancer cells was demonstrated by the RNAi-mediated depletion of B-Myb. Detection of elevated B-MYB levels in human adenocarcinoma and a reduced proliferation, cytokinesis defects and abnormal cell cycle profile after loss of B-MYB in human lung cancer cell lines underlines the potential of B-MYB to serve as a clinical marker.
The Role of DREAM/MMB-mediated mitotic gene expression downstream of mutated K-Ras in lung cancer
(2017)
The evolutionary conserved Myb-MuvB (MMB) multiprotein complex has an essential role in transcriptional activation of mitotic genes. MMB target genes as well as the MMB associated transcription factor B-Myb and FoxM1 are highly expressed in a range of different cancer types. The elevated expression of these genes correlates with an advanced tumor state and a poor prognosis. This suggests that MMB could contribute to tumorigenesis by mediating overexpression of mitotic genes. Although MMB has been extensively characterized biochemically, the requirement for MMB to tumorigenesis in vivo remains largely unknown and has not been tested directly so far.
In this study, conditional knockout of the MMB core member Lin9 inhibits tumor formation in vivo in a mouse model of lung cancer driven by oncogenic K-Ras and loss of p53. The incomplete recombination observed within tumors points towards an enormous selection pressure against the complete loss of Lin9. RNA interference (RNAi)-mediated depletion of Lin9 or the MMB associated subunit B-Myb provides evidence that MMB is required for the expression of mitotic genes in lung cancer cells. Moreover, it was demonstrated that proliferation of lung cancer cells strongly depends on MMB. Furthermore, in this study, the relationship of MMB to the p53 tumor suppressor was investigated in a primary lung cancer cell line with restorable p53 function. Expression analysis revealed that mitotic genes are downregulated after p53 re-expression. Moreover, activation of p53 induces formation of the repressive DREAM complex and results in enrichment of DREAM at mitotic gene promoters. Conversely, MMB is displaced at these promoters.
Based on these findings the following model is proposed: In p53-negative cells, mitogenic stimuli foster the switch from DREAM to MMB. Thus, mitotic genes are overexpressed and may promote chromosomal instability and tumorigenesis.
This study provides evidence that MMB contributes to the upregulation of G2/M phase-specific genes in p53-negative cells and suggests that inhibition of MMB (or its target genes) might be a strategy for treatment of lung cancer.
Cancer-related anemia is prevalent in cancer patients. Anemia negatively affects normal mental and physical function capacity with common symptoms s like fatigue, headache, or depression. Human erythropoietin (hEPO), a glycoprotein hormone regulating red blood cell formation, is approved for the treatment of cancer-related anemia. It has shown benefits in correcting anemia, and subsequently improving health-related quality of life and/or enhancing radio-, and chemotherapy. Several recent clinical trials have suggested that recombinant hEPO (rhEPO) may promote tumor growth that raises the questions concerning the safety of using rhEPO for cancer treatment. However in others, such effects were not indicated. As of today, the direct functional effect of rhEPO in tumor models remains controversial and needs to be further analyzed. Based on the GLV-1h68 backbone, the hEPO-expressing recombinant VACV strains (EPO-VACVs) GLV-1h210, GLV-1h211, GLV-1h212 and GLV-1h213 were generated by replacing the lacZ expression cassette at the J2R locus with hEPO under the control of different vaccinia promoters p7.5, pSE, pSEL, pSL, respectively. Also, GLV-1h209 was generated, which is similar to GLV-1h210 but expresses a mutated non-functinal EPO (R103A). The EPO-VACV strains were characterized for their oncolytic efficacy in lung (A549) cancer cells in culture and tumor xenografts. Concomitantly, the effects of locally expressed hEPO in tumors on virus replication, host immune infiltration, tumor vascularization and tumor growth were also evaluated. As expected, EPO-VACVs enhanced red blood cell (RBC) formation in xenograft model. The number of RBCs and hemoglobin (Hb) levels were significantly increased in EPO-VACVs-treated mice compared to GLV-1h68-treated or untreated control mice. However, the mean size of RBC or Hb content per RBC remained normal. Furthermore, over-expression of hEPO did not significantly affect numbers of lymphocytes, monocytes, leucocytes or platelets in the peripheral blood stream. The expression of hEPO in colonized tumors of mice treated with EPO-VACVs was demonstrated by immunohistological staining. Interestingly, there were 9 - 10 hEPO isoforms detected either in tumors, cells, or supernatant, while 3-4 basic isoforms were missing in blood serum, where only six hEPO isoforms were found. Tumor-bearing mice after treatment with EPO-VACVs showed enhanced tumor regression compared to GLV-1h68. The virus titers in tumors in EPO-VACVs-treated mice were 3-4 fold higher compared to GLV-1h68-treated mice. Nevertheless, no significant difference in virus titers among EPO-VACVs was found. The blood vessels in tumors were significantly enlarged while the blood vessel density remained unchanged compared to the GLV-1h68 treated mice, indicating that hEPO did not affect endothelial cell proliferation in this model. Meanwhile, rhEPO (Epoetin alfa) alone or in combination with GLV-1h68 did not show any signs of enhanced tumor growth when compared to untreated controls and GLV-1h68 groups, while doses used were clinical relevant (500 U/kg). These findings suggested that hEPO did not promote angiogenesis or tumor growth in the A549 tumor xenograft model. Human EPO has been reported to function as an immune modulator. In this study, however, we did not find any involvement of hEPO in immune cytokine and chemokine expression or innate immune cell infiltration (leucocytes, B cells, macrophages and dendritic cells) into infected tumors. The degree of immune infiltration and cytokine expression was directly correlated to the number of virus particles. Increased virus replication, led to more recruited immune cells and secreted cytokines/chemokines. It was proposed that tumor regression was at least partially mediated through activation of innate immune mechanisms. In conclusion, the novel EPO-VACVs were shown to significantly increase the number of RBCs, Hb levels, and virus replication in tumors as well as to enhance tumor regression in the A549 tumor xenograft model. Moreover, locally expressed hEPO did not promote tumor angiogenesis, tumor growth, and immune infiltration but was shown to causing enlarged tumoral microvessels which facilitated virus spreading. It is conceivable that in a possible clinical application, anemic cancer patients could benefit from the EPO-VACVs, where they could serve as “wellness pills” to decrease anemic symptoms, while simultaneously destroying tumors.
Hintergrund der Studie ist die Untersuchung der Auswirkung systematischer Lymphadenektomie bei chirurgischer Sanierung von Bronchial-Carcinomen auf die 5-Jahres-Überlebensrate der Patienten und der Vergleich zwischen dem präoperativ diagnostiziertem Tumorstadium und dem histologischem Befund. In der Studie werden die Daten von insgesamt 95 Patienten, die sich von 1996 bis 2001 einer Thorakotomie aufgrund eines Bronchial-Carcinoms unterziehen mussten, retrospektiv untersucht. Die 5-Jahres-Überlebensrate wurde nach Kaplan-Meier Methode errechnet. Es zeigte sich, dass der intra- sowie postoperative Verlauf durch die Lymphknotendissektion nicht beeinträchtigt wurde. Trotz der größeren Wundfläche, bedingt durch die Lymphknotenentfernung, benötigen 65% der Patienten keine Erythrozytenkonzentrate, 25% der Patienten benötigen 1-2 Konserven und bei den verbleibenden 10% war die Transfusion von 3 oder mehr Erythrozytenkonzentraten notwendig. Die Operationszeit betrug im Durchschnitt 4.6 Stunden vom Hautschnitt bis zum Wundverschluss. Der Vergleich zwischen dem radiologischem und dem histologischem Tumorstadium zeigte bei N0-Stadium eine 64%ige, bei N1-Stadium eine 91%ige und bei N2-Stadium eine 35%ige Übereinstimmung. Bezüglich der Lymphknotenmetastasierung wurde bei den Patienten ein regelmäßiges Überspringen von Lymphknotenlevel beobachtet. Dies ist am ehesten durch Querverbindungen zwischen den einzelnen Stationen zu erklären. Es muss daher immer eine komplette Lymphknotendisektion durchgeführt werden. Es zeigte sich kein Zusammenhang zwischen der Tumorlokalisation und einem bestimmten Befallmuster von Lymphknotenlevel. Die 5-Jahres-Überlebensrate lag bei 50,4 %. Die 5-Jahres-Überlebensrate ist signifikant abhängig vom Lymphknotenstatium und in geringem Maße vom Tumorstadium. Patienten mit N2-Stadium erzielten eine 5-Jahres-Überlebensrate von 15%, während Patienten mit N0-Stadium eine 5-Jahres-Überlebensrate von 57% zeigten. Patienten mit linksseitigem Tumorbefall hatten eine 5-Jahres-Überlebensrate von 47,56 %, Patienten mit rechtsseitigem Tumorbefall 51,9 %. Somit konnte eine seitenunterschiedliche Prognose in unserer Untersuchung nicht bestätigt werden. Die vorliegende Studie konnte die Hypothese der Verschlechterung der Langzeitprognose durch die intraoperative Gabe von Erythrozytenkonzentraten bestätigen. Wenn möglich, sollte daher auf eine Blutgabe intraoperativ verzichtet werden.
Emotionales Befinden, Krankheitsverarbeitung und Überlebenszeit bei Bronchialkarzinompatienten
(2004)
Die vorliegende hypothesenprüfende Arbeit hat als erweiterte Replikationsstudie zum Ziel, den Zusammenhang zwischen emotionalem Befinden und Krankheitsverarbeitung bei Bronchialkarzinomkranken zu untersuchen und die Befunde bezüglich Krankheitsverarbeitung und Überlebenszeit aus der Vorstudie von Faller et al. (1999) beziehungsweise Faller und Bülzebruck (2002) zu überprüfen. 59 an einem Bronchialkarzinom erkrankte Patienten wurden vor Beginn der Primärbehandlung zu ihrem emotionalen Befinden und der Art ihrer Krankheitsbewältigung befragt. Neben der Selbsteinschätzung fand eine Fremdeinschätzung durch die Interviewer statt. Die Überlebensdaten wurden nach 3 - 5 Jahren erhoben. In der vorliegenden Studie konnte ein Zusammenhang zwischen emotionaler Belastung und depressiver Krankheitsverarbeitung nachgewiesen werden. Die Untersuchung zeigte zudem, dass unter Einbeziehung biomedizinischer prognostischer Faktoren eine selbsteingeschätzte depressive Krankheitsverarbeitung mit einer kürzeren Überlebenszeit einhergeht(hazard ratio 1.75, 95% confidence interval 1.04-2.93, p = 0.034). Der körperliche Leistungszustand (Karnofsky-Index) stellte ebenfalls einen unabhängigen Prädiktor für die Überlebenszeit dar. Diese Ergebnisse stimmen mit denjenigen der Vorstudie von Faller und Bülzebruck (2002) überein. Einschränkungen der Studie bestehen aufgrund der relativ kleinen Stichprobe sowie deren hoher Selektivität.