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Background and Aims: Gastrointestinal stromal tumors (GISTs) are rare malignancies but the most common mesenchymal tumors of the digestive tract. Recent advances in diagnostic imaging and an increasing incidence will confront us more frequently with stromal tumors. This single center study aimed to characterize GIST patients in terms of tumor location, clinical presentation, metastasis formation, as well as associated secondary malignancies. Methods: In a retrospective study, 104 patients with a histologically confirmed diagnosis of GIST, collected between 1993 and 2011, were characterized for several clinical features. Results: The most common GIST location was the stomach (67.6%) followed by the small intestine (16.2%). Gastrointestinal bleeding (55.8%) and abdominal pain (38.5%) were the most frequently reported symptoms whereas about one-third of patients remained clinically asymptomatic (31.6%); 14.4% of patients had either synchronous or metachronous metastases and there was a significant prevalence also in the low risk group. The proportion of secondary malignant associated neoplasms was 31% in our GIST cohort, among which gastrointestinal, genitourinary tumors, and breast cancer were the most prevalent. Conclusion: There was a considerable risk for metastasis formation and the development of secondary neoplasias that should encourage discussion about the appropriate surveillance strategy after surgery for GIST.
Because Moringa is rich in secondary metabolites and phenolics, we faced a challenge in extracting a pure DNA required for AFLP (the first proposed genotyping method). Later, different DNA isolation methods were tested to overcome the obstacles caused by phenolics and sugars, an AFLP protocol that worked well with the cultivated seedlings at the botanical garden in Greifswald. The markers for the Internal Transcribed Spacer (ITS) were as well tested that showed a monomorphic structure between all samples. Finally, SSR (microsatellite) markers were established. To optimize DNA extraction, the method of Doyle and Doyle was modified and optimized. This is an ideal method for obtaining a non-fragmented DNA that could be used for AFLP. In addition, two other DNA extraction methods; (KingFisher Flex robot using Omega M1130 extraction Kits, and spin columns and 96-plates using Stratec kits). Although we achieved similar results for both Robot kits (Omega) and Stratec kits, the amplification for most of the samples extracted with Robot did not work, therefore the Stratec kit was the method of choice as it has also a lower cost, combined with a high quality of DNA. For ITS, no polymorphism was found for 28 samples of M. peregrina from Sinai (sequences submitted to GenBank). However, since microsatellite markers of M. peregrina were not known, it was a challenge to try a cross amplification from other species with well-known microsatellite primers. Cross-amplification of 16 primers known from the related species M. oleifera was tested, and three multiplex PCR reactions were established after testing different annealing temperatures and different primers concentrations. This included 13 primers out of the 16 investigated markers which gave a reliable band. All methods used for genetic assessments for the different Moringa species are compiled in a comparative review to look for connections between the different Moringa species. For Moringaceae, M. oleifera and M. peregrina are closely related to each other. Both species have slender trunks, with thick, tough bark and tough roots and bilaterally symmetrical flowers with a short hypanthium. All but one SSR markers used in this study are highly informative However, the degree of polymorphy varied considerably within the 13 markers used. The Probability of Identity (PI) for all loci was 2.6 x 10-9 with high resolution. The percentage of polymorphic loci for all populations was 88.5±2.2; figures for single populations were 92.3%, 84.6%, 84.6%, and 92.3% for the wadis WM, WA, WF, and WZ, respectively. The genotype accumulation curve as well demonstrated that 7–8 markers were necessary to discriminate between 100% of the multilocus genotypes. Significant departures from HWE were detected for eight loci (P < 0.001), probably due a high degree of inbreeding within population. The observed (HO) and expected (HE) heterozygosities ranged from 0 to 0.86 and from 0 to 0.81, respectively. However, for the pooled population, excluding the monomorphic locus MO41, HO and HE ranged from 0.069 to 0.742 and from 0.126 to 0.73 with averages of 0.423 and 0.469, respectively. The mean of FST was 0.133, indicating that, due to the long generation time of M. peregrina, there is still relatively little differentiation between the four remaining populations. An analysis of molecular variance (AMOVA) revealed that the old populations of M. peregrina are still genetically diverse where 75% of variance was recorded within individuals and 83% within populations. An analysis with STRUCTURE, varying the parameter K between 1 and 7, revealed the most pronounced genetic structure for K=3, thus uniting the populations from two neighboured wadis (W. Agala and W. Feiran). The three groups seem to be now genetically isolated. (They may be remainders of a formerly contiguous population, especially when considering the change towards a drier climate in Northern Africa within the last 6000 years). Six clones of each two individuals collected from the same wadi were found, pointing to vegetative dispersal via broken twigs, which may have rooted after flash floods. It may be an alternative mode of reproduction under harsh conditions. Our data reveal a low gene flow between three of the four wadis, suggesting that the trees are relictual populations. In general, conservation of populations from the three genetically most diverse wadis and cross-breeding of trees within a reforestation program is recommended as an effective strategy to ensure the survival of M. peregrina at Sinai, Egypt.
Die Spezies Kuhpockenvirus (CPXV), ein Mitglied des Genus Orthopoxvirus, ist endemisch in weiten Teilen Europas und Asien verbreitet. CPXV besitzt ein sehr breites Wirtsspektrum und zählt zu den zoonotischen Erregern. Phylogenetische Analysen deuten darauf hin, dass CPXV polyphyletisch ist. Die bisher definierten Kladen wurden in vorliegender Arbeit bestätigt. Die 20 neu gewonnenen CPXV-Stämme verschiedenster Wirtsspezies gruppieren vorrangig in die CPXV-like 1 und CPXV-like 2 Kladen. Ein CPXV-Stamm, isoliert von einem Neuweltaffen, erscheint jedoch als single branch und lässt sich keiner bisher bekannten Klade zuordnen.
Gegenwärtig ist über die Rolle der Wühlmäuse, die als Reservoirwirt der Kuhpockenviren betrachtet werden, wenig bekannt. In vorliegender Arbeit sollte deshalb das aus einer Feldmaus (Microtus arvalis) stammende CPXV-Isolat FM2292 eingehend charakterisiert werden. CPXV FM2292 weist das bisher längste CPXV-Genom auf, das in die CPXV-like 1 Klade clustert. Neben der Sequenzanalyse sollten vergleichende experimentelle Infektionsstudien in Feldmäusen und Wistar-Ratten durchgeführt werden. Der Krankheitsverlauf nach intranasaler CPXV FM2292-Infektion bei Feldmäusen verlief subklinisch; Wistar-Ratten hingegen zeigten ausgeprägte klinische Symptome. Im Gegensatz dazu verursachte die Infektion mit einem aus einer Schmuseratte isolierten CPXV-Stamm bei den Feldmäusen eine starke Klinik. Daraus lässt sich schließen, dass Feldmäuse gegenüber Wühlmaus-assoziierten Stämmen, wie CPXV FM2292, eine Adaptation entwickelt haben. Die nachgewiesene Virusausscheidung weist auf eine Tröpfchen-basierte Übertragung hin.
Neben Feldmäusen sollten auch Rötelmäuse im Tierversuch näher betrachtet werden. Unabhängig vom eingesetzten CPXV-Stamm resultierten die experimentellen CPXV-Infektionsstudien in Rötelmäusen (Myodes glaerolus) in subklinischen Verläufen. Eine nasale Virusausscheidung konnte nicht detektiert werden, was im starken Kontrast zu den Ergebnissen aus experimentell infizierten Feldmäusen steht. Dennoch deuteten die Serokonversionsraten der Rötelmäuse darauf hin, dass eine Replikation im Wirt stattgefunden hat. Zudem entwickelten zwei Kontakttiere ebenfalls OPV-spezifische Antikörper, was auf eine Übertragung des Virus schließen lässt.
Wühlmäuse als Reservoirwirt dienen der Übertragung des Kuhpockenvirus auf akzidentielle Wirtsspezies wie Hauskatzen oder Nutztiere. Der in dieser Arbeit betrachtete Fallbericht eines mit CPXV-infizierten Fohlens zeigt, dass CPXV-Infektionen bei akzidentiellen Wirten mit stark ausgeprägter Klinik verbunden sein können. Zudem wird die wachsende Gefahr der Übertragung von CPXV auf Nutztiere und Menschen deutlich.
Zusammenfassend unterstreicht die in der vorliegenden Arbeit verwendete phylogenetische Betrachtung die genetische Variabilität der Spezies CPXV. Zudem konnten neue Erkenntnisse zu Feldmäusen und Rötelmäusen als Reservoirwirtsspezies gewonnen werden. CPXV-Infektionen von Wühlmäusen verlaufen subklinisch, im Gegensatz zu dem hier ebenfalls beschriebenen, lethal endenden CPXV-Infektionsverlauf eines akzidentiellen Wirts, eines abortierten Fohlens.
In classical models of tumorigenesis, the accumulation of tumor promoting chromosomal aberrations is described as a gradual process. Next-generation sequencing-based methods have recently revealed complex patterns of chromosomal aberrations, which are beyond explanation by these classical models of karyotypic evolution of tumor genomes. Thus, the term chromothripsis has been introduced to describe a phenomenon, where temporarily and spatially confined genomic instability results in dramatic chromosomal rearrangements limited to segments of one or a few chromosomes. Simultaneously arising and misrepaired DNA double-strand breaks are also the cause of another phenomenon called chromoplexy, which is characterized by the presence of chained translocations and interlinking deletion bridges involving several chromosomes. In this study, we demonstrate the genome-wide identification of chromosomal translocations based on the analysis of translocation-associated changes in spatial proximities of chromosome territories on the example of the cutaneous T-cell lymphoma cell line Se-Ax. We have used alterations of intra- and interchromosomal interaction probabilities as detected by genome-wide chromosome conformation capture (Hi-C) to infer the presence of translocations and to fine-map their breakpoints. The outcome of this analysis was subsequently compared to datasets on DNA copy number alterations and gene expression. The presence of chained translocations within the Se-Ax genome, partly connected by intervening deletion bridges, indicates a role of chromoplexy in the etiology of this cutaneous T-cell lymphoma. Notably, translocation breakpoints were significantly overrepresented in genes, which highlight gene-associated biological processes like transcription or other gene characteristics as a possible cause of the observed complex rearrangements. Given the relevance of chromosomal aberrations for basic and translational research, genome-wide high-resolution analysis of structural chromosomal aberrations will gain increasing importance.
This dissertation focusses on the numerical modelling of resonant destabilization of Alfvén eigenmodes by fast ions in fusion plasmas. It especially addresses non-linear simulations of stellarator plasmas in which particle collisions are retained. It is shown that collisions are required for a realistic description of Alfvén waves in plasmas relevant to nuclear fusion.
We start by carefully verifying the implementation of the collision operators into the electromagnetic version of the gyro-kinetic delta-f particle-in-cell code EUTERPE. After these initial benchmarks are completed successfully, the code is in a position to be applied to realistic tokamak and stellarator scenarios.
Since every collision operator needs to fulfil conservation laws, a momentum-conserving version of the pitch-angle scattering operator is implemented. This is in particular important for neoclassical transport simulations aimed at computing flux-surface variations of the electrostatic potential in stellarators.
Using the simplified CKA-EUTERPE model (employing a fixed-mode-structure approximation), we perform non-linear simulations in tokamaks and stellarators. We show that the non-linear dynamics of fast-ion-driven Alfvén eigenmodes is significantly influenced by collisions. They have the potential to enhance the saturation level and to affect the frequency chirping of the modes.
It is thus concluded that collisions play an essential role in determining Alfvén-eigenmode-induced fast-ion transport - an important issue for future fusion devices. In order to address this issue the CKA-EUTERPE model is extended to evolve multiple modes at the same time. First results of this multi-mode version (which enhances the level of realism of the simulations) are shown in the Appendix of the thesis.
Im Rahmen einer prospektiven Studie von Mai 2012 bis Juni 2013 an 206 Patienten mit lumbalem Facettensyndrom an der Klinik für Orthopädie und orthopädische Chirurgie wurde die Symptomlinderung durch eine stationäre Komplextherapie mit Bildwandler verstärkten Facetteninfiltrationen anhand standardisierter Fragebögen (im Folgenden: Funktionsfragebogen Hannover Rücken, Oswestry Disability Index, Numerische Rating-Skala für Bein- und Rückenschmerz, Center for Epidemiological Studies - Depression Scale, Hospital Anxiety and Depression Scale - deutsche Version, Fragebogen zur Lebenszufriedenheit-Module, SF-12 Health Survey) zu den drei Zeitpunkten vor Infiltration (T1), nach Abschluss der Infiltration – „kurzfristig“ (T2), sowie vier bis sechs Wochen nach Infiltration – „mittelfristig“ (T3) erhoben. Die Patienten wurden entsprechend des Vorhandenseins einer Deformität (in Form einer degenerativen [adulten] Skoliose/ Spondylolisthese) in zwei Gruppen unterteilt und deren Ergebnisse verglichen. Bei 115 Patienten bestand zum Untersuchungszeitpunkt keine Wirbelsäulendeformität, bei 91 Patienten bestand eine Wirbelsäulendeformität. Als statistisches Verfahren kam der Kruskal-Wallis-Test zum Einsatz, mit dem getestet wurde, ob zwischen den zwei Gruppen zu den drei Befragungszeitpunkten signifikante Unterschiede bestanden. Innerhalb einer jeden Gruppe wurden die drei Befragungszeitpunkte untereinander mithilfe des Vorzeichen-Rang Tests auf signifikante Unterschiede getestet. Betrachtet man die wesentlichen Ergebnisse, so zeigt sich, dass das subjektive Schmerzempfinden (NAS-Rücken, NAS-Bein) durch die Therapie signifikant kurz- und mittelfristig sinkt. Hierbei spielt das Vorliegen einer Wirbelsäulendeformität keine Rolle. Die körperliche Funktionsfähigkeit (FFbH-R, ODI) steigert sich signifikant kurz und mittelfristig bei Patienten ohne Deformität, die Gruppe mit Deformität profitiert nur kurzfristig und weist zu beiden Nachuntersuchungszeitpunkten signifikant schlechtere Funktionswerte auf. Die Fragebögen zur depressiven Symptomatik weisen einen kurz- und mittelfristigen Rückgang der depressiven Symptome ohne Gruppenunterschied auf (CES-D), wobei ein Fragebogen (HADS-D) Hinweise auf eine Unterlegenheit der Patienten mit Deformität zum Untersuchungszeitpunkt T3 gibt. Keine signifikanten Veränderungen und Gruppenunterschiede kann der Score zur allgemeinen Lebenszufriedenheit ausmachen, während die Zufriedenheit mit der Gesundheit sich bei allen Patienten kurzfristig und bei Patienten ohne Deformität auch mittelfristig verbessert, wobei diese nur präinterventionell eine signifikant bessere Zufriedenheit zeigen.
Aufgrund dessen sind bei lumbaler Infiltrationstherapie eines Facettensyndroms, insbesondere zur Prognose der Entwicklung der körperlichen Funktionsfähigkeit, die biomechanischen Veränderungen zu beachten. Unabhängig vom Vorliegen einer Deformität hingegen ist die durch die Therapie signifikant verminderte subjektive Schmerzwahrnehmung. Weiterhin gibt das Vorhandensein einer Deformität, in verschiedener Ausprägung im jeweiligen Score, Hinweise auf die Dauer der Symptomverbesserung.
Unter Verwendung von rekombinanten Schweineleberesterasen wurden zwei Chemoenzymatische Prozesse sukkzessive etabliert, optmiert und im Maßstab vergößert. Es wurden zwei chirale Synthesebausteine beispielhaft hergestellt und charakterisiert.
Die Arbeit gibt einen Einblick in die Prozessoptimierung von chemoenzymatischen Syntheserouten unter ökonomischen Aspekten.
Background: Iodine deficiency disorders (IDD) represent a global health threat to individuals and societies. IDD prevention programmes have been introduced in many parts of the world. However, challenges remain, particularly in Europe due to fragmentation and diversity of approaches that are not harmonized. Objectives: This review is dedicated to the public-health impact of IDD prevention programmes. It sums up experiences collected by the EUthyroid consortium so far and provides information on stakeholders that should be involved in actions directed to improve the impact of IDD prevention. Methods: A joint European database for combining registry-based outcome and monitoring data as well as tools for harmonizing study methods were established. Methods for analyzing thyroglobulin from a dried blood spot are available for assessing the iodine status in the general population and at-risk groups. Mother-child cohorts are used for in-depth analysis of the potential impact of mild-to-moderate iodine deficiency on the neurocognitive development of the offspring. A decision-analytic model has been developed to evaluate the long-term effectiveness and cost effectiveness of IDD prevention programmes. Results: EUthyroid has produced tools and infrastructure to improve the quality of IDD monitoring and follows a dissemination strategy targeting policymakers and the general public. There are tight connections to major stakeholders in the field of IDD monitoring and prevention. Conclusions: EUthyroid has taken steps towards achieving a euthyroid Europe. Our challenge is to inspire a greater sense of urgency in both policymakers and the wider public to address this remediable deficit caused by IDD.
Tuberculosis (TB) has tremendous public health relevance. It most frequently affects the lung and is characterized by the development of unique tissue lesions, termed granulomas. These lesions encompass various immune populations, with macrophages being most extensively investigated. Myeloid derived suppressor cells (MDSCs) have been recently identified in TB patients, both in the circulation and at the site of infection, however their interactions with Mycobacterium tuberculosis (Mtb) and their impact on granulomas remain undefined. We generated human monocytic MDSCs and observed that their suppressive capacities are retained upon Mtb infection. We employed an in vitro granuloma model, which mimics human TB lesions to some extent, with the aim of analyzing the roles of MDSCs within granulomas. MDSCs altered the structure of and affected bacterial containment within granuloma-like structures. These effects were partly controlled through highly abundant secreted IL-10. Compared to macrophages, MDSCs activated primarily the NF-κB and MAPK pathways and the latter largely contributed to the release of IL-10 and replication of bacteria within in vitro generated granulomas. Moreover, MDSCs upregulated PD-L1 and suppressed proliferation of lymphocytes, albeit with negligible effects on Mtb replication. Further comprehensive characterization of MDSCs in TB will contribute to a better understanding of disease pathogenesis and facilitate the design of novel immune-based interventions for this deadly infection.
Einführung: Häusliche Gewalt stellt ein hohes Risiko für die Gesundheit schwangerer Frauen und ihrer ungeborenen Kinder dar. In Mexiko ist die Datenlage zur Prävalenz unzureichend und eine Unterschätzung des Problems wahrscheinlich. Ziel der Studie war es, die Prävalenz häuslicher Gewalt gegen schwangere Frauen und die soziodemografischen Risikofaktoren für häusliche Gewalt gegen schwangere Frauen zu bestimmen.
Material und Methoden: 311 Frauen wurden in der pränatalen Versorgung an der Universitätsklinik "Dr. José González Eleuterio" von Juli bis Dezember 2011 interviewt. Das „Abuse Assessment Screen“ wurde verwendet. Die soziodemografischen und gesundheitlichen Faktoren der Frauen wurden erhoben, Querverweistabellen erstellt und das relative Risiko für häusliche Gewalt mit Konfidenzintervallen von 95% für jede Variable berechnet.
Ergebnisse: Die Prävalenz von häuslicher Gewalt betrug 13%. 3% wurden während der Schwangerschaft und 5% im Jahr vor der Befragung körperlich verletzt. Hohe Stresswahrnehmung, Unzufriedenheit mit der Schwangerschaft, negative Empfindung des Lebens mit dem Partner und der Betreuung durch die Familie während der Schwangerschaft, Rauchen, Alkohol- und Drogenkonsum der Frauen, das Miterleben von häuslicher Gewalt zwischen ihren Eltern während der Kindheit und Drogenkonsum des Partners sind Faktoren, die das Risiko für die schwangere Frauen, Opfer häuslicher Gewalt zu werden, signifikant erhöhen. Schutzfaktoren sind die Zufriedenheit der Frauen mit der Schwangerschaft und eine positive Wahrnehmung des Zusammenlebens mit dem Partner.
Schlussfolgerungen: Die Studie bestätigt die hohe Prävalenz häuslicher Gewalt gegen schwangere Frauen in Mexiko. Dies ist mit erheblichen gesundheitlichen Folgen für die Frauen und ihre ungeborenen Kinder verbunden. Die Studie ist ein weiterer Beweis für die Notwendigkeit des Screenings bezüglich häuslicher Gewalt während der Schwangerschaft. Grundlegende Komponenten dabei sind Kenntnis über Risikofaktoren häuslicher Gewalt, Sensibilität und Kompetenz des Fachpersonals. Es bedarf weiterer Untersuchungen in Mexiko, um den Aufbau von Interventionsprogrammen im öffentlichen Gesundheitswesen mit Vernetzung zu staatlichen Einrichtungen voranzutreiben, mit dem Ziel, eine adäquate gesundheitliche Versorgung sowie soziale und rechtliche Unterstützung der schwangeren Frauen mit häuslicher Gewalterfahrung zu ereichen.
Herpesviruses are a fascinating group of enveloped DNA viruses, which rely on membrane fusion for infectious entry and direct cell-to-cell spread. Compared with many other enveloped viruses, they utilize a remarkably complex fusion machinery. Three conserved virion proteins, the bona fide fusion protein gB, and the presumably gB activating gH/gL heterodimer constitute the conserved core fusion machinery and are believed to drive membrane fusion in a cascade-like fashion. Activation of this cascade in most alphaherpesviruses is proposed to be triggered by binding of gD to specific host cell receptors. The molecular details of this fusion process, however, remain largely elusive. Yet, a detailed mechanistic knowledge of this process would be greatly beneficial for the development of efficient countermeasures against a variety of diseases. In this thesis, the functional relevance of individual components of the essential gH/gL complex of the alphaherpesvirus PrV has been assessed by two different approaches: by reversion analysis (paper II) and site-directed mutagenesis (papers III-V). In contrast to other herpesviruses, gL-deleted PrV is able to perform limited cell-to-cell spread, providing the unique opportunity to passage the entry-deficient virus in cell culture to select for PrV revertants capable of infecting cells gL-independently. This approach already resulted in an infectious gL-negative PrV mutant (PrV-ΔgLPass), in which the function of gL was compensated by formation of a gDgH hybrid protein. Here, the requirements for gL-independent infectivity of a second independent revertant (PrV-ΔgLPassB4.1), were analyzed. Sequencing of the genes encoding for gB, gH and gD, revealed mutations in each of them. By means of a robust infection-free, transfection-based cell-cell fusion assay (paper I), we identified two amino acid substitutions in the gL-binding domain I of gHB4.1 (L70P, W103R) as sufficient to compensate for lack of gL. Two mutations in gB (G672R, ΔK883) were found to enhance fusogenicity, probably by lowering the energy, required for gB refolding from pre- to postfusion conformation. Coexpression of gHB4.1 and gBB4.1 led to an excess fusion, which was completely suppressed by gDB4.1 in the fusion assays. This was surprising since PrV gD is normally not required for in vitro fusion or direct viral cell-to-cell spread, clearly separating this process from fusion during entry, for which PrV gD is essential. The fusion inhibiting effect of gDB4.1 could be attributed to a single point mutation resulting in an amino acid substitution within the ectodomain (A106V). In conclusion, these results indicated that gL is not central to the fusion process, as its function can be compensated for. As found so far, gL-independent infectivity can be realized by compensatory mutations in gH (as in PrV-ΔgLPass) or in gH plus gB (as in PrV-ΔgLPassB4.1). Excessive fusion induced by gHB4.1 and gBB4.1 was counter-regulated by gDB4.1, indicating that the interplay between these proteins is precisely regulated and further implies that gL and gD, despite being not absolutely essential for the fusion process, have important regulatory functions on gH and/or gB.
Both PrV-ΔgLPass mutants had acquired compensatory mutations in gH affecting the predicted gL-binding domain I in gH. By construction of an artificial gH32/98, which lacked the predicted gL-binding domain and was similar to the recently crystallized gH-core fragment present in the gDgH hybrid protein, we identified the N-terminal part of PrV gH as essential for gH function during fusion (paper III). gH32/98 was unable to promote fusion of wild-type gB in fusion assays and led to a total loss of function in the viral context. These results indicated that the gD moiety, present in gDgH, is critical for proper function of the gH-core fragment. We hypothesize that the gD moiety may adopt a stabilizing or modulating influence on the gH structure, which is normally executed by gL and important for interaction of gH with wild-type gB. Remarkably, substitution of wild-type gB by gBB4.1 rescued function of gH32/98 in the cellular and viral contexts. These findings suggest that gBB4.1 has been selected for interaction with “gL-less” gH. In conclusion, these results demonstrated that gL and the gL-binding domain are not strictly required for membrane fusion during virus entry and spread but that compensatory mutations must be present in gB to restore a fully functional fusion machinery. These results strongly support the notion of a functional gH-gB interaction as a prerequisite for membrane fusion.
In addition to the N-terminal domain, we identified the transmembrane domain of PrV gH as an essential component of the fusion machinery, while the cytoplasmic domain was demonstrated to play a modulatory but nonessential role (paper IV). Whereas truncation or substitution of the PrV gH TMD by a gpi-anchor or the analogous sequence from PrV gD rendered gH non-functional, the HSV-1 gH TMD was found to functionally substitute for the PrV gH TMD in cell-cell fusion and complementation assays. Since residues in the TMD which are conserved between HSV and PrV gH but absent in PrV gD, are placed on one face of an α-helical wheel plot, we hypothesize that the gH TMD has an intrinsic property to interact with membrane components such as lipids or other molecules as a requirement for promoting membrane fusion.
In a final study focusing on the function of gH, we identified the N-glycosylation sites utilized by PrV gH, and determined their individual role in viral infection (paper V). PrV gH was found to be modified by N-glycans at five potential glycosylation sites. N-glycans at PrV specific N77 and the highly conserved site N627 were found to be critical for efficient membrane fusion in the fusion assays, and during viral entry and cell-to-cell spread. N627 was further shown to be crucial for proper gH transport and maturation. In contrast, inactivation of N604, conserved in the Varicellovirus genus, enhanced in vitro fusion activity and viral cell-to-cell spread. These findings demonstrated a role of the N-glycans in proper localization and function of PrV gH.
III Reviews
(2018)