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The neural crest gives rise to the neurons and glial cells of the peripheral nervous system (PNS) (Bronner-Fraser and Fraser, 1989; Frank and Sanes, 1991). Self-renewing neural crest-derived stem cells (NCSCs) are present in migratory neural crest and various postmigratory locations, including peripheral ganglia (Duff et al., 1992; Morrison et al., 1999; Kruger er al., 2002). It is demonstrated that NCSCs from embryonic mouse dorsal root ganglia (DRG) are reprogrammed in neurosphere (NS) cultures in the presence of EGF and FGF. Reprogrammed NCSCs (rNCSCs) generate exclusively central nervous system (CNS) progeny, both in vitro and upon transplantation into the mouse brain (Binder et al., 2011). In this study the timing and mechanisms underlying the reprogramming were addressed. Most of the cells acquire CNS characteristics at passage 2, reaching a stable proportion of >90% of Olig2-positive cells at passage 3, which is maintained at least up to passage 10. The PNS marker p75 is completely lacking from passage 3 onwards. Furthermore, it was shown that the reprogramming does not involve a transient pluripotency state. This suggests a direct reprogramming of NCSCs to cells with CNS identity. The reprogramming leads to a stable CNS identity as shown by delayed BMP4 application. This result is in agreement with the previous observation that rNCSCs only generate CNS progeny, in particular mature myelinating oligodendrocytes, upon transplantation into embryonic, postnatal and lesioned adult mouse brains (Binder et al., 2011). Genome wide gene expression profiles of rNCSC NS demonstrates already in culture a complete switch to a (spinal cord stem cell) SCSC CNS identity. These results demonstrate a complete reprogramming of PNS progenitors to CNS identity without genetic modification and imply PNS cells as a source for stem cell-based CNS therapy.
The reprogramming of NCSCs is completely blocked in the presence of BMP4 in NS cultures, as shown by the expression of neural crest markers p75 and Sox10. In addition, BMP4 NCSCs generate PNS neurons (Tuj1/Phox2b- and Peripherin/Tuj1-coexpressing cells) and Schwann cells (O4/p75-coexpressing cells). Genome wide gene expression profiles of BMP NCSCs demonstrate that BMP NCSCs express genes at high levels which are characteristic for neural crest/neural crest derivatives, mesenchymal derivatives of neural crest and perivascular pericytes/MSCs. On the other hand CNS marker genes are restricted to rNCSCs and are only expressed at background or undetectable levels in BMP NCSCs. These findings imply that the CNS versus PNS identity is controlled by antagonistic functions of FGF and BMP4.
The use of rNCSCs for cell therapies requires an accessible source of these cells in the adult organism. Since the DRG is not an easily approachable tissue source, the adult mouse palate, containing NCSCs, was chosen. These results suggest that pNCSCs arise from Sox10-positive neural crest-derived stem cells, that downregulate PNS marker gene expression, such as Sox10 and p75, in NS culture. Contrary to rNCSCs, CNS marker upregulation was not observed. Notably, genome wide gene expression profiles of pNCSCs demonstrate an enrichment of genes expressed by mesenchymal derivatives and perivascular pericytes/mesenchymal stem cells. Since the cranial crest gives rise, besides PNS neural progeny and melanocytes, to mesenchymal derivatives, the results demonstrate that pNCSCs have a restricted developmental potential in comparison to rNCSCs and acquire mostly normal fates of the cranial neural crest.
Taken together, the results demonstrate that rNCSCs acquire a SCSC identity in the presence of EGF and FGF and that the reprogramming can be efficiently blocked by BMP4. On the other hand, NCSCs derived from adult palate rather acquire mesenchymal fates and do not acquire a CNS identity under the conditions used.
Tulasnella species (Tulasnellaceae, Cantharellales, Basidiomycota) form inconspicuous basidiomata on rotten branches or trunks of trees, difficult to find and recognize in nature. However, according to ultrastrucural and molecular data, species of Tulasnellaceae are the most frequent mycorrhriza forming fungi (mycobionts) of green, photosynthetic orchids worldwide. Species of Tulasnellaceae were also found as prominent mycobionts of the extraordinary diverse orchids in tropical montane rainforest of Southern Ecuador. Orchids obligately depend on mycobionts during the juvenile stage when the fungi have to deliver carbon to the non-photosynthetic protocorm and thus the fungi substantially influence the establishment of orchids in the wild. Species of Tulasnellaceae can acquire carbon from decaying bark or wood by specific saprotrophic capabilities as was recently proven through comparative genomics that included data on decay enzymes from Tulasnella cf. calospora isolated from orchid mycorrhizae (Anacamptis laxiflora, Italy). Thus, species of Tulasnellaceae can be saprotrophs and symbionts simultaneously.
It is currently under discussion, whether specific species of Tulasnella are required for seed germination and establishment of distinct terrestrial and epiphytic orchids in nature or if species of Tulasnella are generalists concerning their association with orchids. The inconsistences in species concepts and taxonomy of Tulasnella spp., however, strongly impede progress in this field of research. The aim of the present study was, therefore, to revise the species concepts by combining, for the first time, morphological and molecular data from basidiomata.
Specimens were collected in tropical Andean forest in Southern Ecuador and in temperate forests in Germany. Additional specimens were loaned from fungaria. In total, 205 specimens, corresponding to 16 own samples and 189 specimens from fungaria were analyzed. The mycobiont relationships of Tulasnella spp. with orchids from the sampling area in Ecuador were studied in populations of Epidendrum rhopalostele. The basis for molecular-phylogenetic analysis was completed by data obtained from own previous investigations on mycobionts from the investigation area and Tulasnella isolates from Australia.
30 morphospecies are illustrated and delimited by a morphological key based on traditional species concepts. Tulasnella andina from Ecuador and Tulasnella kirschneri from China are presented as species new to science. Tulasnella cruciata is described from herbarium material for the first time. Tulasnella aff. eichleriana and T. violea are reported for the first time from Ecuador. Molecular sequences of two Tulasnella spp. isolated from mycobionts of Epidendrum rhopalostele cannot be related to any morphological species concept. Statistical analyses suggest that conventional diagnostic using morphological characteristics is ambiguous for delimiting morphologically similar species.
For the first time sequences of the ITS-5.8S rDNA region were obtained after cloning from fresh basidiomata. Extraction of DNA from herbarium specimens was, however, unsuccessful. Sequences from 16 fresh basidiomata, six pure cultures, and sequences of orchids mycorrhizae (e.g. from Epidendrum rhopalostele) available in the database GenBank were analyzed. Proportional
variability of ITS-5.8S rDNA sequences within and among cultures and within and among specimens were used to designate morphospecies. Results suggest an intragenomic variation of less than 2 %, an intraspecific variation of up to 4 % and an interspecific divergence of more than 9 % for Tulasnella spp.
Four percent of intraspecific divergence was defined as a minimum threshold for delimiting phylogenetic species. This threshold corroborates the so far used 3 % to 5 % divergence in delimitation of operational taxonomic units of Tulasnella mycobionts.
Quite a number of sequences of Tulasnella are available in GenBank, mostly obtained from direct PCR amplification from orchid mycorrhizae. By including closely related sequences in the phylogenetic analysis, several morphological cryptic species of Tulasnella, mostly from Ecuador, were found. Arguments are given for molecular support of the new species Tulasnella andina and the established species Tulasnella albida, T. asymmetrica, T. eichleriana, T. tomaculum, and T. violea. Thus, by combining molecular and morphological data species concepts in Tulasnella are improved. The definitions of Tulasnella calospora and T. deliquescens, however, remain phylogenetically inconsistent.
The present investigation is a first step to expand our knowledge on the intraand interspecific morphological and molecular variability of Tulasnella spp. and to delimit species relevant for studies on ecology and communities of orchids and Tulasnellaceae.
Heutzutage unterliegen insbesondere aquatische Ökosysteme durch den permanenten Anstieg nicht-heimischer Arten einem folgenreichen Wandel. Dabei stellt der Biodiversitätsverlust nur den Endpunkt einer biologischen Invasion dar. Dazwischen wirken sich Faktoren wie Konkurrenz-, Prädationsdruck oder die Übertragung von Krankheitserregern wie z.B. Parasiten auf den Rückgang der Arten aus. Als integraler Bestandteil eines jeden Ökosystems spielen Parasiten bei Invasionsprozessen eine entscheidende Rolle und können durch ihren Einfluss auf heimische und nicht-heimischen Arten Invasionen begünstigen. Fische übernehmen aufgrund ihrer vielseitigen Bedeutung im Nahrungsnetz eine Schlüsselfunktion als Wirte diverser Parasitenarten und sind deshalb ausgezeichnete Untersuchungsobjekte, um durch nicht-heimische Arten verursachte Veränderungen in Nahrungsnetzstrukturen oder Parasitenfaunen aquatischer Ökosysteme aufzudecken.
Vor diesem Hintergrund wurde die vorliegende kumulative Dissertation angefertigt, welche auf drei (ISI-) Einzelpublikationen basiert. Die Arbeit beschäftigte sich unter Verwendung morphologischer und molekularbiologischer Methoden schwerpunktmäßig mit der Parasitendiversität und Nahrungsökologie zweier eingeschleppter Fischarten in stark anthropogen beeinflussten deutschen Fließgewässern. Dabei handelte es sich um die hauptsächlich durch das Ballastwasser von Schiffen verbreitete invasive Schwarzmundgrundel Neogobius melanostomus aus den Flüssen Rhein und Main sowie den von Hobby-Aquarianern in den durch Industrieabwässer thermisch belasteten Gillbach ausgesetzten Zebrabuntbarsch Amatitlania nigrofasciata. Unter Berücksichtigung nahrungsökologischer und räumlich-zeitlicher Aspekte sollten die parasitologischen Risiken und Konsequenzen, welche durch das Einschleppen nicht-heimischer Fischarten auftreten, aufgezeigt werden, um übergeordnet die Folgenabschätzung auf dem Gebiet der Invasionsbiologie zu verbessern. Das Nahrungsspektrum beider Fischarten wies sowohl räumliche (zwischen den Flüssen und Standorten), als auch zeitliche (monatlich) Variationen auf, was die Anpassungsfähigkeit bzw. die optimale Nutzung zur Verfügung stehender Ressourcen von invasiven Arten verdeutlicht. Ebenso wurden Unterschiede in der Parasitierung nachgewiesen, was die Notwendigkeit räumlicher und zeitlicher Analysen zur Erfassung der vollständigen Parasitenfauna einer invasiven Art, inklusive aller Variationen der Befallszahlen, unterstreicht. Beide Fischarten bilden zudem Zwischenwirte für heimische, als auch nicht-heimische Parasitenarten, wobei die direkte Einschleppung von nicht-heimischen Parasiten aus dem ursprünglichen Verbreitungsgebiet der Fische auszuschießen ist und somit die Enemy-Release-Hypothese (Verlust ursprünglicher Gegenspieler wie Prädatoren oder Parasiten) unterstützt. Dies könnte zusammen mit der opportunistischen Ernährungsweise ein Grund für die starke Ausbreitung sowie die anhaltend hohen Individuenzahlen dieser Arten im jeweils betrachteten Verbreitungsgebiet (Rhein, Main sowie Gillbach) sein.
Besonders hervorzuheben ist der Nachweis der nicht-heimischen Nematoden Anguillicoloides crassus und Camallanus cotti. Durch die Aufdeckung einer besonderen Form von Hyperparasitismus konnten erstmalig hohe Befallszahlen von A. crassus in N. melanostomus dokumentiert werden. Die hoch abundante Grundelart gilt somit potentiell als entscheidender Überträger des invasiven Parasiten auf den Europäischen Aal. Der durch seine hohe Virulenz in der Aquaristik bekannte C. cotti gelangte durch das Aussetzen von Zierfischen in den Gillbach und trat mit hohen Befallszahlen in A. nigrofasciata auf und wird bereits auf die heimische Fischfauna übertragen (z.B. auf den Gründling Gobio gobio und den Döbel Squalius cephalus). Ebenso ist der starke Befall der heimischen Parasiten Pomphorhynchus sp. (Acanthocephala) und Raphidascaris acus (Nematoda) bei N. melanostomus sowie A. anguillae (Acanthocephala) bei A. nigrofasciata zu nennen. Durch die zusätzliche Wirtfunktion der Neozoen und die hohen Befallsintensitäten ist mit einem verstärkten Spillback-Effekt (Rückinfizierung) auf heimische Fischarten zu rechnen.
Die stetig steigende Anzahl biologischer Invasionen führt zu immer weitreichenderen Veränderungen heimischer Ökosysteme. Für den Erhalt der Biodiversität sowie einhergehender Ökosystemfunktionen rückt auch die Forschung über Neobiota immer mehr in den Mittelpunkt. In diesem Zusammenhang gewinnen auch Pathogene wie Parasiten immer mehr an Bedeutung, welche durch gebietsfremde Arten eingeschleppt werden und die bestehende Biodiversität gefährden können. Die Ergebnisse der durchgeführten Studien haben gezeigt, dass die Verknüpfung von parasitologischen und nahrungsökologischen Untersuchungen Einblicke in die hoch dynamischen Prozesse der Invasionsbiologie geben können, was ein Vorantreiben der Forschung und Folgenabschätzungen auf diesem Gebiet ermöglicht.
Ischemic injuries of the cardiovascular system are still the leading cause of death worldwide. They are often accompanied by loss of cardiomyocytes (CM) and their replacement by non-functional heart tissue. Cardiac fibroblasts (CF) play a major role in the recovery after ischemic injury and in the scar formation. In the last few years researchers were able to reprogram fibroblasts into CM in vitro and in murine models of myocardial infarction using various protocols including a cocktail of microRNAs (miRs). These miRs can target hundreds of messenger RNAs and inhibit their translation into proteins, potentially regulating multiple cellular signaling pathways. Because of this, there has been a rising interest in the use of miRs for therapeutic purposes. However, as different miRs have different effects in different cells, there is the danger of causing serious side effects. These could be alleviated by enacting a cell-specific transport of miRs, for example by using aptamers. Aptamers are usually short strands of DNA or RNA, which can fold into a specific three-dimensional confirmation which allows them to bind specifically to target molecules. Aptamers are commonly selected from a large library for their ability to bind to target molecules using a procedure called SELEX. Aptamers have already been used to transport miRs into cancer cells.
In this thesis, we first established the transport of miRs into cells of the cardiovascular system using aptamers. MiR-126 is an important part of the signaling in endothelial cells (EC), protects from atherosclerosis and supports angiogenesis, which is why we chose it as a candidate to transport into the vasculature. We first tested two aptamers for their ability to internalize into EC and fibroblasts. Both the aptamer for the ubiquitously expressed transferrin receptor (TRA) and a general internalizing RNA motif, but not a control construct, could internalize efficiently into all cell types tested. We then designed three chimeras (Ch) using different strategies to connect TRA to miR-126. While all chimeras could internalize efficiently, only Ch3, which connects TRA to Pre-miR-126 using a sticky bridge structure, had functional effects in EC. Ch3 reduced the protein expression of VCAM-1 in EC and increased the VEGF induced sprouting of EC in a spheroid-sprouting assay. Treatment of breast cancer cells with Ch3 emulated the effects of treatment with classical miR-126-3p and miR-126-5p mimics. In the SK-BR3 cell line Ch3 and miR-126-3p reduce the viability of the cells while they reduce recruitment of EC by the MCF7 cell line. miR-126-5p had no apparent effect in the SK-BR3 line, but increased viability of MCF7 cells, as did Ch3. This implies that Ch3 can be processed to both functional miR-126-3p and miR-126-5p in treated cells.
We were unable to achieve a reprogramming of adult murine cardiac fibroblasts into cells resembling CM using the cocktail of 4 miRs. This indicates that the miR-mediated transdifferentiation is only possible in neonatal fibroblasts. The effects in mice after an AMI might possibly be caused by an enhanced plasticity of fibroblasts in and close to the infarcted area.
We also screened to find aptamers specifically binding to cells of the cardiovascular system. We used two oligonucleotide libraries in a cell-SELEX to select candidates which bind to CF, but not EC. We observed that only the library which contains two randomized regions of 26 bases showed an enrichment of species binding to fibroblasts. We then sequenced rounds 5-7 of the SELEX and analyzed the data bioinfomatically to select 10 candidate aptamers. All candidates showed a strong binding not only to CF, but also EC. This indicates that the selection pressure against species binding to EC was not high enough and would have to be increased to find true CF-aptamers. Four promising candidates were also analyzed for their potential to be internalized and we surprisingly found that all of them were internalized by EC and CF more efficiently than TRA. The similar behavior of the candidates implies that they possibly share a ligand, which is expressed both by EC and CF, but more prominently by the latter.
This work demonstrates the possibility of using aptamers to transport miRs into cells of the cardiovascular system. It also shows that it is possible to select aptamers for non-cancerous mammalian cells, which has not been done before. It is reasonable to assume that a refinement of the cell-SELEX will allow selection of cell-specific aptamers. Due to the failure of reprogramming of adult fibroblasts into induced cardiomyocytes we were unable to test whether a miR-mediated reprogramming might be inducible using aptamer transported-miRs. Ultimately, aptamer mediated transport of miRs is a feasible and promising therapeutic option for the treatment of cardiovascular diseases and other disorders like cancer.
The development of the atrioventricular (AV) canal and the cardiac valves is tightly linked and a critically regulated process. Anomalies in components of the involved pathways can lead to congenital valve malformations, a leading cause of morbidity and mortality in neonates. Myocardial Bmp as well as endocardial Notch and Wnt signaling have been identified as critical factors for the induction of EMT during the formation of the endocardial cushions and cardiac valves. Of these, canonical Wnt signaling positively regulates endocardial proliferation and EMT but negatively regulates endocardial differentiation. Further, elevated Wnt signaling leads to the ectopic expression of myocardial Bmp ligands suggesting a high level of integration of the involved pathways and crosstalk amongst the different cardiac tissues.
Here we have identified a novel role for Id4 as a mediator between Bmp and Wnt signaling. Id4 belongs to the Id family of proteins and is known to be involved in bone and nervous system development. We found that in zebrafish, id4 is expressed in the endocardium of the AV canal at embryonic stages and throughout the atrial chamber in addition to AV canal, in adults. Using transcription activator-like effector nucleases (TALENs) we established an id4 mutant allele. Our analysis shows that id4 mutant larvae are susceptible to retrograde blood flow, and show aberrant expression of developmental valvular markers. These include expanded expression domains of markers like bmp4, cspg2a and Alcam. In contrast, valve maturation as assessed by the expression of spp1 is considerably reduced in id4 mutants. Using conditional transgenic systems, along with elegant in vivo imaging of transgenic reporter lines, we further found that id4 is a transcriptional target of Bmp signaling, and it is capable of dose dependently restricting Wnt signaling in the endocardium of the Atrioventricular Canal.
Taken together, our data identifies Id4 as a novel player in Atrioventricular Canal and valve development. We show that Id4 function is important in valve development acting downstream of Bmp signaling by restricting endocardial Wnt to allow valve maturation
Die vorliegende Studie vermittelt einen epidemiologischen Überblick über das mit Haut- und Nagelläsionen assoziierte Pilzspektrum im Westen Panamas. Hierzu wurden Proben von vermutlich durch Pilzinfektionen verursachten Haut- sowie Nagelläsionen gesammelt und zum Anlegen von Kulturen verwendet. Die isolierten Pilze wurden basierend auf dem D-H-S System (Rieth), anhand morphologischer Merkmale, rDNA Sequenzdaten sowie phylogenetischen Analysen klassifiziert und mit Hilfe von Literaturdaten sowie physiologischen Eigenschaften als saprotrophe, opportunistische oder pathogene Organismen beurteilt. In Panama wurden 52 Proben von 51 Personen gesammelt, wobei das Material von 42 Haut- und Nagelläsionen der Füße, vier Läsionen der Fingernägel, zwei Chromomykosen, einer Tinea nigra und drei sonstigen Hautläsionen stammt. Bei 75 Prozent (n = 39) der Proben konnten Pilze kultiviert und insgesamt 201 Pilzstämme isoliert und subkultiviert werden. Hiervon wurden 50 Isolate (24,9 %) als Dermatophyten, 24 Stämme (11,9 %) als Hefen und 127 Isolate (63,2 %) als Schimmelpilze klassifiziert. Bei 19 Probanden (48,7 %) konnten Dermatophyten isoliert werden, wobei aus dem Probenmaterial von 12 Personen (63,2 %) ebenfalls andere Pilzarten nachgewiesen wurden. Von zwei Läsionen (5,1 %) wurden nur Hefen isoliert, wobei einmal eine Schwarze Hefe kultiviert wurde. In dem Material acht weiterer Proben (20,5 %) wurden Schimmelpilze und Hefestämme nachgewiesen und bei zehn Probanden (25,6 %) konnten aus dem Probenmaterial nur Schimmelpilze kultiviert werden. 172 Isolate wurden taxonomisch klassifiziert und 44 Arten aus 25 Gattungen, 17 Familien, 15 Ordnungen, sechs Klassen sowie den Abteilungen Ascomycota oder Basidiomycota zugeordnet. Die Ascomyceten stellen mit 164 Stämmen 40 verschiedener Arten aus 23 Gattungen, 15 Familien, 11 Ordnungen und vier Klassen die am häufigsten isolierte und vielfältigste Gruppe dar, während die Basidiomycota nur mit acht Isolaten vier verschiedener Arten zwei unterschiedlicher Gattungen, Familien, Ordnungen und Klassen nachgewiesen wurden. Im Rahmen dieser Arbeit wurden in Panama die anthropophilen Dermatophyten Trichophyton rubrum und T. interdigitale dokumentiert, wobei T. rubrum die am häufigsten isolierte Art darstellt. Kultivierte Hefen waren Candida albicans, C. duobushaemulonii, C. tropicalis, Hortaea werneckii, Sporobolomyces sp., Trichosporon asahii, T. japonicum und T. montevideense. Die Schimmelpilze stellen die größte und ökologisch diverseste Organismengruppe der kultivierten Pilze dar. So wurden von den untersuchten Läsionen sowohl humanpathogene Erreger, als auch opportunistische Arten und rein saprotrophe Pilze sowie mehrere Vertreter wahrscheinlich bisher nicht wissenschaftlich beschriebener Arten bzw. Gattungen nachgewiesen. Aus dem Probenmaterial wurden die Pilze Acremonium collariferum, Aspergillus awamori, A. clavatus, A. flavus, A. giganteus, A. heteromorphus, A. niger, A. ochraceus, A. sclerotiorum, A. versicolor, Chaetomium globosum, Chrysosporium tuberculatum, Cladosporium sphaerospermum, C. tenuissimum, Curvularia geniculata, C. lunata, Fonsecaea pedrosoi, Fusarium oxysporum, F. solani, Lophotrichus bartlettii, Microascus cinereus, Neoscytalidium dimidiatum, Penicillium commune, Scolecobasidium sp., Scopulariopsis carbonaria, S. croci, Verticillium cf. epiphytum und Wardomycopsis litoralis isoliert. Zudem wurden vier Isolate von zwei vermutlich neuen Arten der Gattung Acremonium (Bionectriaceae, Hypocreales), zwei Stämme mit einer genetischen Affinität zu der Gattung Cryptendoxyla (Cephalothecaceae, Sordariales) und jeweils ein mit den Gattungen Fusicladium (Venturiaceae, Venturiales), Knufia (Trichomeriaceae, Chaetothyriales) bzw. Rhexothecium (Eremomycetaceae, Dothideomycetidae) assoziierter Stamm kultiviert. Im Rahmen dieser Studie wurden A. giganteus, C. tenuissimum, L. bartlettii, S. carbonaria, S. croci, V. epiphytum und W. litoralis erstmalig von Mykosen des Menschen dokumentiert und die in der Literatur als Verursacher sowie Besiedler von Haut- und Nagelläsionen beschriebenen Organismen A. clavatus, A. flavus, A. niger, A. ochraceus, C. tropicalis, C. globosum, C. sphaerospermum, C. lunata, F. oxysporum, M. cinereus, P. commune, T. asahii, T. japonicum und T. montevideense wurden das erste Mal in klinischem Probenmaterial aus Panama nachgewiesen. Die Arten A. awamori, A. heteromorphus, C. globosum, C. tenuissimum, L. bartlettii, M. cinereus, P. commune, S. croci, T. asahii, T. japonicum, T. montevideense, V. epiphytum, W. litoralis und die Gattung Scolecobasidium wurden zudem erstmalig für Panama dokumentiert. Die Isolation von W. litoralis ist ebenfalls der erste Nachweis dieses Pilzes außerhalb von Spanien und auf dem amerikanischen Kontinent. Die große Anzahl im Rahmen dieser Arbeit beschriebener, bisher für die Wissenschaft unbekannter bzw. nicht in Panama dokumentierter Pilzarten lässt auf eine große mykologische Biodiversität in Panama schließen und zeigt den Bedarf weiterer Forschung.
Panama, a small country between the major continents of North and South America, is one of the lesser studied regions in Central America, but is recognized for its mega-biodiversity. This is particularly true for Eastern Panama, which I am considering as the easternmost portion of the country, covering the area from the Chepo, which is also the beginning of the San Blas mountain range, towards east, up to the Darien Mountain range on the border with its neighboring country Colombia. In the lowland region I visited two physiographic areas: the Isthmian-Atlantic Moist Forests (IAMF) and the Chocó-Darién Moist Forests (CDMF). In the IAMF I worked at the localities of Río Mono, Wacuco, La Moneda, Arretí, Metetí, Filo del Tallo, and Laguna de Matusagaratí. In the CDMF I visited the localities of Cruce de Mono, Cana, Garachiné, Sambú, and Pavarandó. And I have worked in the highlands of Darién (DM), Majé (MM), Jingurudó-Sapo (JSM), Pirre (PM) and San Blas (SSM) in the highlands.
Before my research, 138 reptile and 104 amphibian species had been reported for EP. From 2008 to 2013, I collected specimens to evaluate the diversity of amphibians and reptiles for this region. I applied an integrative approach to evaluate the taxonomy, diversity, biogeography, and conservation of the herpetofauna of EP. I included analyses of morphometrics, molecular genetics (e.g. barcoding), biogeography, bioacoustics (in anurans), hemipenial morphology (in squamates), and ecology. This is the first regional evaluation of the biodiversity in EP applying integrative taxonomy. Aside from morphological and bioacoustic data, my work is based on the barcoding of 608 specimens, from which I obtained 16S mtDNA for 486 specimens and COI mtDNA for 455. In total I have got sequences for 69.2 %of the amphibian and 48.6 % of the reptile species present in EP. For the morphological analyses, I compared 1597 specimens, including my samples complemented by specimens obtained from various museums. The bioacoustic data were obtained from the analysis of 1504 calls of 27 species of frogs. Based on specimens collected in EP and according to external morphology, I could identify 65 species of amphibians and 72 reptiles, but after applying an integrative approach these numbers increased to 79 amphibians and 88 reptiles described species within my collected specimens. Additionally, I uncovered 33 taxonomic units that could not be assigned to any described species until now, 22 of them represent confirmed candidate species (CCS), and 11 were classified as Unconfirmed candidate species (UCS). Thus, increasing the known species of amphibian by 19.4 % and of reptiles by 4.8 %. Currently, there are 145 reptiles and 129 amphibians known to occur in EP. Based on my results, I have initiated several projects to solve taxonomic uncertanties, including the species of the genera Bolitoglossa, Diasporus, Dactyloa, Ecnomiohyla, Lepidoblepharis, and the taxonomic status of the species Pristimantis caryophyllaceus and Norops tropidogaster.
Out of the 22 CCS I found, I described nine species new to science with type locality in EP, six amphibians and four reptiles. Among these is a new species of Bolitoglossa described from Cerro Chucantí, Cordillera de Majé, Provincia de Darién, Panama. Additionally, I include comments on the other species of congeneric salamanders known to occur in the region. Among the tink frogs, only Diasporus quidditus was known to occur in EP. During my field work I collected six additional species of this genus, four of which are new to science, plus two species new for this region.
I also described one new species of Dactyloa (giant anole lizards) related to the former D. chocorum. I synonymized D. chocorum with D. purpurescens, and included information about the other species of the group from EP. The new species of Dactyloa resembles D. ibanezi, D. limon, and D. purpurescens in external morphology but differs from these species in dewlap coloration, dorsal color pattern, morphometrics, and scalation. I discovered one species of the genus Ecnomiohyla, which exhibits significant genetic distances (16S mtDNA gene) and morphological differences to all known Ecnomiohyla species. Along with the description of the new Ecnomiohyla species, I provide detailed comparisons of morphological and molecular characters of almost all members of the genus in Lower Central America, as well as an identification key for the entire genus. Two new species of the genus Lepidoblepharis from EP were described. In the corresponding work, I include an analysis of Lepidoblepharis spp. in the region, including phylogeography and taxonomy. One of the new species, Lepidoblepharis emberawoundule, can be differentiated from most species in the genus by its small size and its low number of lamellae under the fourth toe and finger. The other species described from EP, Lepidoblepharis rufigularis, can be differentiated from all species in the genus by its small size and the reddish throat in males.
Recently, two of the most common types of bone cancers in children and young adults have been proven to exhibit vulnerability to poly(ADP)-ribose polymerase, (PARP) inhibitors (e.g. olaparib, talazoparib). Ewing’s sarcoma (ES) are reported to harbor a fusion gene EWS-FLI1 (85%), inducing tumorigenesis. Additional, as the fusion gene acts as aberrant transcription factor, it similarly induces elevated PARP expression levels sensitizing ES to PARP inhibition. Second, by an exome sequencing approach in a set of primary osteosarcomas (OS) we identified mutation signatures being reminiscent of BRCA deficiency. Therefore, the sensitivity of a panel of OS cell lines to either talazoparib single treatment or in combination with several chemotherapeutic drugs was investigated.
To screen ES tumor cell lines against PARP inhibitors we applied four different PARP inhibitors (talazoparib, olaparib, niraparib and veliparib) that are frequently being used for clinical studies. We combined those PARP inhibitors with a set of chemotherapeutics (temozolomide (TMZ), SN-38, etoposide, ifosfamide, doxorubicin, vincristine and actinomycin D) that are part of the first-line therapy of ES patients. Here, we demonstrate how PARP inhibitors synergize with TMZ or SN-38 to induce apoptosis, whereas the combination of PARP inhibitors with the other drugs are not favorable. By investigation of key checkpoints in the molecular mechanisms of cell death, the pivotal role of the mitochondrial pathway of apoptosis mediating the synergy between olaparib and TMZ was revealed.
Employing talazoparib monotherapy in combination with or without several chemotherapeutic drugs (TMZ, SN-38, cisplatin, doxorubicin, methotrexate and etoposide/carboplatin), the correlation between homologous recombination (HR) repair deficiency (BRCAness) and the response to talazoparib as prototypical PARP inhibitor was validated in different OS cell lines. By calculation of combination indices (CI) and fraction affected (Fa) values, we identified TMZ as the most potent chemotherapeutic drug in combination with talazoparib inducing the mitochondrial apoptotic pathway in OS.
In our studies of two independent tumor entities with contrary genetic background we identified the combination of PARP inhibitor and TMZ as being most effective. Our studies point out that after TMZ induced DNA methylation and concomitant PARP trapping, DNA damage-imposed checkpoint kinase activation consequently induces G2-cell cycle arrest. Subsequent, PARP inhibitor/TMZ causes MCL-1 degradation, followed by activation of BAK and BAX, succeeding in loss of mitochondrial outer membrane potential (LMMP) and activation of downstream effector-caspases in mitochondrial apoptosis. Our findings emphasize the importance of PARP inhibition in order to chemosensitize ES, which express high PARP levels, or OS that bear features of BRCAness.
Xenorhabdus and Photorhabdus bacteria are gaining more and more attention as a subject of research because of their unique yet similar life cycle with nematodes and insects. This work focused on the secondary metabolites that are produced by Xenorhabdus and Photorhabdus. With the help of modern HPLC-MS methodologies and increasingly available bacterial genome sequences, the structures of unknown secondary metabolites could be elucidated and thus their biosynthesis pathways could be proposed, too.
The first paper reported 17 depsipeptides termed xentrivalpeptides produced by the bacterium Xenorhabdus sp. 85816. Xentrivalpeptide A could be isolated from the bacterial culture as the main component. The structure of xentrivalpeptide A was elucidated by NMR and the Marfey´s method. The remaining xentrivalpeptides were exclusively identified by feeding experiments and MS fragmentation patterns.
The second paper described the discovery and isolation of xenoamicin A from Xenorhabdus mauleonii DSM17908. Additionally, other xenoamicin derivatives from Xenorhabdus doucetiae DSM17909 were analyzed by means of feeding experiments and MS fragmentation patterns. The xenoamicin biosynthesis gene cluster was identified in Xenorhabdus doucetiae DSM17909.
The manuscript for publication focused on the biosynthesis of anthraquinones in Photorhabdus luminescens. The Type II polyketide synthase for the biosynthesis of anthraquinone derivatives was discovered in P. luminescens in a previous publication by the Bode group,1 in which a partial reaction mechanism for the biosynthesis has been proposed. The manuscript reported in this thesis however elucidated the biosynthetic mechanisms in a greater detail as compared to the previous publication. Particularly, the biosynthetic mechanism was deciphered through heterologous expression of anthraquinone biosynthesis (ant) genes in E. coli. Additionally, deactivation of the genes antG encoding a putative CoA ligase and antI encoding a putative hydrolase, was performed in P. luminescens. Selected ant genes were over-expressed in E. coli as well as the corresponding proteins purified for in vitro assays. Model compounds were chemically synthesized as possible substrates of AntI and were used for in vitro assays. Here, it was revealed that the CoA ligase AntG played an essential role in the activation of the ACP AntF. Furthermore, a chain shortening mechanism by the hydrolase AntI was identified and was further confirmed by in vitro assays using model compounds. Additionally, this chain shortening mechanism was supported by homology based structural modeling of AntI.
The lung comprises more than 40 different cell types, from epithelial cells to resident mesenchymal cells. These cells arise from the foregut endoderm and differentiate into specialized cell types that form the respiratory and conducting airways, and the trachea. However, the molecular pathways underlying these differentiation processes are poorly understood, and may be relevant to pathological conditions. According to the World Health Organization (WHO), while the respiratory disease rate is increasing, limited treatment and therapies are available. Thus, there is a growing need for new treatment strategies and alternative therapies. Various in vivo and in vitro studies in the model organism mus musculus have already provided valuable information on lung cell lineages and their differentiation and/ or dedifferentiation during development and pathological conditions. However, there remain many questions regarding the key regulators and molecular machinery driving lung cell differentiation and underlying lung progenitor/stem cell biology.
Aiming to develop new animal models for lung diseases, we used a forward genetic careening approach, which provides an unbiased method for identifying genes with important roles in lung cell differentiation, and thus probable contributors to pathological conditions. We conducted an N-ethyl-N-nitrosourea (ENU) mutagenesis screen in mice and used several histological and immunohistochemical approaches to identify and isolate mutants, focusing on mutations associated with cell differentiation rather than those affecting early development and patterning of the respiratory system. Thus, we screened for phenotypes in the respiratory system of pups from the F2 generation at postnatal day 7 and 0 (P7; P0). I specifically screened 114 families. Each F1 male animal is the founder of 5 to 6 F2 female daughters. For each family, at least 4 F2 females per male founder were analyzed. In total, I screened 630 litters at P7 and P0 with 7 pups on average for each litter. As a result of this extensive screening, 11 different phenotypes in 42 different F2s were discovered at primary screen and later just 2 phenotypes recovered in F3 generation of identified carriers. To identify the causative genes for each of these phenotypes, whole exome sequencing will be conducted in the future to identify recurring SNPs; these can subsequently be linked causatively to the resultant phenotype(s) via complementation studies. In turn, these linkages would enable the creation of mutant mice using CRISPR/Cas9 genomic engineering, which would be invaluable to the further study of respiratory development and disease.