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Die immunologische Dysfunktion nach operativem Trauma und der Einfluss des N. vagus im Mausmodell
(2024)
Trotz aller medizinischen Fortschritte der letzten Jahrzehnte ist der Einfluss operativer Trauen auf die Immunhomöostase noch weitgehend unklar. Im Falle septischer Komplikationen sind postoperative Patienten meist mit einer noch höheren Mortalität assoziiert als septische Patienten ohne ein vorhergehendes operatives Trauma. Einen Grund dafür stellt die postoperative Immundysfunktion dar, welche von Länge und Ausmaß der Operation abhängt. Die pathophysiologischen Hintergründe sind noch unbekannt und erscheinen traumaspezifisch. Um diese einer näheren Betrachtung unterziehen zu können, wurde in unserer Arbeitsgruppe das Tiermodell der Surgically induced Immune Dysfunction (SID) etabliert. Dafür wird zur Simulation eines abdominalchirurgischen Eingriffs der Dünndarm nach einer medianen Laparotomie dreimal antegrad ausgestrichen. Einen möglichen Baustein zum Verständnis dieser Immundysfunktion stellt die Entdeckung des cholinergen antiinflammatorischen Signalweges (CAIP) dar. Über diesen ist das Zentralnervensystem via den Nervus vagus in der Lage, immunmodulatorisch einzuwirken. Ziel der Arbeit war es, aufgrund dessen unter anderem den systemischen Einfluss des CAIP auf die postoperative Immundysfunktion zuuntersuchen. Dafür wurden einige Versuchstiere sechs Tage vor SID einer Vagotomie unterzogen. Die Analysen erfolgten nach sechs Stunden und drei Tagen.
Zusammenfassend konnte sechs Stunden nach SID eine Akut-Phase-Reaktion beobachtet werden, die durch eine Neutrophilie, Lymphopenie, erhöhte IL-6-Konzentrationen und komplett aktivierte T-Lymphozyten gekennzeichnet war. Gleichzeitig zeigten sich aber auch eine erhöhte IDO-Aktivität und eine reduzierte LPS-Stimulierbarkeit von Blut- und Milzzellen. Diese gedämpfte Immunreaktion auf den in-vitro second hit schlug bemerkenswerterweise nach drei Tagen in eine Hyperreagibilität und damit in einen hyperinflammatorischen Phänotyp um. Gleichzeitig reduzierte sich die Anzahl von Teff- und B-Lymphozyten, während zeitgleich eine relative Treg-Expansion mit gesteigerter CTLA-4-Expression nachweisbar war. Diese Steigerung immunsuppressiver Mechanismen und dergleichzeitige Verlust an Effektorzellen könnte im Falle eines nachfolgenden second hit zu der beobachteten gesteigerten Mortalität postoperativer Patienten beitragen. Wurde vor der SID eine Vagotomie durchgeführt, fiel die Inflammation sechs Stunden später noch intensiver aus: Die Neutrophilie war stärker ausgeprägt und die Konzentration von proinflammatorischen Zytokinen im Plasma war erhöht. Die reduzierte LPS-Stimulierbarkeit von Blut- und Immunzellen wurde im Wesentlichen aufgehoben. Nach drei Tagen verstärkte eine Vagotomie die bereits nach SID beobachtete Hyperreagibilität auf den LPS-Stimulus noch weiter.
Somit lassen diese Ergebnisse auf einen wichtigen immunsuppressiv wirkenden vagalen Einfluss auf die postoperative Immundysfunktion schließen und zeigen einen vielschichtigen zeitlichen Verlauf von Anti- und Hyperinflammation nach operativem Trauma auf. Eine nähere Erforschung dieses multiphasischen Verlaufs kann Implikationen für die klinische Praxis, insbesondere im Bezug auf Re-Operationen geben. Auch eröffnet es die spannende Frage, ob das Immunsystem auf einen postoperativen septischen Fokus in Abhängigkeit vom zeitlichen Abstand zur Operation unterschiedlich reagiert. Nicht zuletzt wird durch die Ergebnisse auch ein wichtiges Schlaglicht auf die Bedeutung von traumareduzierenden Operationsverfahren wie der minimal-invasiven laparoskopischen Chirurgie für das postoperative Outcome geworfen.
The combination of the Layer-by-Layer (LbL) method, a nano-material such as carbon nanotubes (CNTs), and charged polyelectrolytes (PEs) is a reliable approach to produce highly functionalized surface coatings. These coatings are stable, controllable, ultra-thin, and most importantly, biocompatible. The ability to tune their properties by varying the preparation conditions and the terminating layer opens up a wide range of applications in the fields of biology and medicine. Here, the goal was to create electrically conductive coatings on which cells grow and proliferate. To achieve this goal, a coating with a stable conductive film structure, a suitable film surface topography, and suitable surface potential (and 𝜁-potential) must be prepared.
At the beginning of this thesis, the focus was on the fabrication of electrically conductive multilayer films, whose electrical properties should be stable and adjustable in a controlled manner (Article 1). The combination of chemically modified CNTs as polyanions, a strong linear polycation like poly(diallyldimethylammonium chloride) (PDADMA), and the LbL-method allowed us to prepare such films. Their characterization was carried out in air at ambient conditions. Since PDADMA is non-conductive, the charge transfer within the film and thus the electrical conductivity itself depends mainly on the CNTs and their arrangement. It was found that four CNT/PDADMA bilayers (BL) were always necessary to create a lateral network structure with multiple CNT crossing points to enable and support electron transport within the film. Moreover, additional CNT/PDADMA BL resulted in decreasing sheet resistance, while the conductivity remained constant at ≈ 4 kS/m regardless of the number of bilayers. Increasing the PDADMA molecular weight (Mw) from 44.4 kDa to 322 kDa did not affect film properties such as thickness or electrical conductivity.
However, increasing the CNT concentration from 0.15 mg/ml to 0.25 mg/ml in the deposition suspension resulted in thicker and less conductive films. This is attributed to a faster adsorption process of the CNTs leading to more adsorption sites for the polycation. We found an increased PDADMA monomer/CNT ratio compared to films prepared with the lower CNT concentration in the deposition suspension. The electrical conductivity decreased by a factor of four down to 1.1 kS/m, which can be attributed to fewer contact points between the CNTs. Overall, we were able to prepare stable and electrically conductive multilayer films. Additionally, by varying the preparation conditions tuning of the electrical conductivity is possible.
To fulfill requirements regarding i.e., medical implants, film properties not only have to be stable and controllable in a dry state (described in Article 1) but also in a biological aqueous environment. Therefore, in Article 2 we immersed our coated samples in three different solutions usually employed in biological research and compared their properties with their dry state, respectively. Also, hydration/swelling effects that normally occur for polyelectrolyte multilayer films (PEMs) in solutions were investigated.
For the film preparation, PDADMA (Mw = 322 kDa) and a deposition suspension of modified CNTs with two different concentrations (0.15 mg/ml and 0.25 mg/ml), which aged for two years, were used. Independent of the CNT suspension concentration, it turned out that the film thickness of the samples, prepared from the aged suspension, decreased significantly compared to the film thickness previously measured in Article 1. As a cross-check a new and fresh CNT suspension was made, which allowed us to reproduce the film thickness described in Article 1.
These results indicated that something happened with the CNT suspension over a two-year period. An analysis via X-ray photoelectron spectroscopy (XPS) showed a decrease in the percentage of functional groups in the CNTs from the aged suspension. The loss of functional groups resulted in less negatively charged CNTs and thus in fewer adsorption sites for the polycation PDADMA. Consequently, the PDADMA monomer/CNT ratio decreased, which lowered the thickness per bilayer by a factor of three, compared to films prepared with a freshly prepared CNT suspension. The lower linear charge density of the aged CNTs also enhanced their hydrophobicity, which is, in combination with the electrostatic forces, another important factor for multilayer cohesion. In contrast to PEMs made from polycations and polyanions, no swelling of the films occurred when immersed in solutions. This can be attributed to the fact that the increased hydrophobicity of the CNTs and the hydrophobic nature of the PDADMA backbone prevent the incorporation of water into the multilayer film. In solution, the films slightly shrink (by ≈ 2 nm), which makes them even more compact. Yet they remain stable. The result is an increased electrical conductivity from 9.6 kS/m, in the dry state, up to 15.3 kS/m immersed in solutions. To summarize, we showed that by tuning the interpolyelectrolyte forces the swelling and the ensuing decrease of the electrical conductivity of the films can be prevented.
Regarding the application in biology and medicine, we must consider that long-term exposure of cells to nano-materials like CNTs could lead to damage and inflammation of adjacent tissue. Therefore, it is necessary to prevent direct contact between the electrically conductive multilayer, i.e., CNT/PDADMA film, and the cells. The solution to this problem is a biocompatible top film that covers the CNT/PDADMA multilayer completely and still provides a lateral surface structure that supports cell adhesion and proliferation. Additional layers consisting solely of PEs could provide such a top film.
In Article 3 we investigated the self-patterning of PEM films as function of deposition steps. After preparation in water, the films were dried, characterized in air, and in vacuum. The films were built with high and low molecular weight PEs. PDADMA was used as polycation and poly(styrene sulfonate) sodium salt (PSS) as polyanion. The observation via Atomic Force Microscopy (AFM) showed that films prepared with high molecular weight PEs are laterally homogeneous and form no patterns, due to the chain immobility. The flat surfaces are ineligible as a substrate for cell adhesion.
In contrast, films built with a short PSS, especially at Mw, PSS = 10.7 kDa, began to self-pattern after seven deposited PDADMA/PSS bilayers. With each additionally deposited bilayer, the surface got more and more structured, from grooves over stripes to circular domains. Increasing film thickness led to an increased lateral mean distance between the surface structures. Scanning Electron Microscopy (SEM) images showed that exposure to a vacuum resulted in a decrease in the film thickness attributed to water removal, while the mean distance between the domains increased. Thus, by using this self-pattering process we are able to prepare PEMs with a highly structured surface. By adding PDADMA/PSS bilayers, not only the CNT/PDADMA film can be covered completely, but also a suitable surface morphology for cells can be created. Controlling the number of deposited bilayers allows the preparation of suitable coatings for cells.
To further improve the interaction of the cell and coated substrate not only the lateral structure but also the interacting electrostatic forces between cells and substrate are important for the nature of cell adhesion, function, and proliferation. In Article 4 we investigated PEMs, consisting of strong PEs with a low (PDADMA) and high (PSS) linear charge density. We performed asymmetric force measurements with the help of the colloidal probe technique (CP). Here, the forces between a PEM-covered surface and a colloidal probe (silica sphere) glued to a cantilever were investigated. The colloidal probe was either bare or covered with polycation poly(ethylenimine) (PEI). The surfaces were immersed in NaCl solutions with different ionic strengths (INaCl), starting with deionized water, then enriched up to 1 mol/L NaCl. The interaction force between a CP and the surface was measured. Thus, insight into the surface potential/charge was obtained.
During film preparation, two growth regimes (parabolic and linear) exist. These regimes and the terminating layer determine the surface force of the PEM. PEMs with a terminating PSS layer are predominantly flat and negatively charged when the ion concentration is low and the film is in the parabolic growth regime (between 1 and ≈ 15 BL). This indicates charge reversal on PSS adsorption. At the transition point between the parabolic and linear growth regimes, the ratio between polyanion and polycation monomers starts to switch and some cationic monomers are neutralized not by anionic monomers but by monovalent ions. Therefore, the surface charge density in diluted NaCl solutions changed from slightly positive near the transition to positive in the linear growth regime. At the lowest ionic strengths (INaCL) the range of the surface potential goes from – 40.5 mV (9 BL, parabolic) up to + 50 mV (19 BL, linear).
In contrast, polycation (PDADMA) terminated films are overall positive in diluted NaCl solutions. At the beginning of the parabolic growth regime, the layers are more compact and flat. However, with each additional layer deposited, the film becomes less compact and the chains begin to loosen. The now more loosely bound chains start to protrude into the solution and form pseudo-brushes. This could already be observed for 10.5 BL.
It intensifies in the linear growth regime (begin at ≈ 15 BL) and results in steric surface forces. Changing the surrounding INaCl affects this behavior and the pseudo-brushes scale as polyelectrolyte brushes.
By controlling the number of bilayers (thus the growth regime), the surrounding ionic strength, and the conformation of PEs at the PEM surface, it is possible to prepare a suitable range of surface properties i.e., for cell adhesion and proliferation. To prove that these multilayers can provide a suitable surface and have a positive effect on cell behavior, we coated in Article 5 titanium-covered samples with PEMs. Investigated was the cell interaction with the surface at different zeta(ζ) - potentials, a parameter for dynamic surface potential. Here the cell activity is measured by the mobilization of calcium (Ca2+) within the cell as a function of the ζ - potential of the substrate and the externally applied electrical potential. The cell activity indicates if the ζ - potential, provided by the sample surface, is suitable or not for the cells. The favorable interaction with the substrate is also reflected in the cell morphology and proliferation. The results showed that highly negative ζ - potentials between - 90 and - 3 mV led to a decreasing/reduced Ca2+ mobilization which correlates with reduced cell activity. Nearly neutral to moderate positive surfaces (ζ - potential + 1 to + 10 mV) i.e., PSS-terminated PEMs are able to promote cell adhesion and growth as demonstrated by an increased Ca2+ mobilization. The access to the intracellular Ca2+ stores, provided by the external stimulus, is now more effective and suggests a higher cell activity. Increasing the ζ - potentials up to ≈ + 50 mV (highly positive), i.e., PDADMA - terminated PEMs with pseudo-brushes, resulted in restricted cell viability and impaired Ca2+ mobilization, which led to a disturbed cell morphology and proliferation. In conclusion, only surfaces, terminated with i.e., PEI, with moderate positive charges (ζ - potential + 1 to + 10 mV) are able to improve the Ca2+ mobilization and thus the cell activity and proliferation. PEMs with a PSS termination provide negative 𝜁−potentials, onto which cells adhere, and proliferate. Therefore, they are a good alternative for surface functionalization for implant surfaces. In summary, the objective set at the beginning of the thesis is addressed within articles written as part of this thesis. It is possible to fabricate PEMs with modified CNTs to produce coatings that are electrically conductive with tunable sheet resistance, whether dry in air or immersed in an aqueous solution (Articles 1 and 2). Also, for pure PEMs, it is shown that with the right molecular weight of PEs and a certain number of bilayers, a suitable surface structure for cell adhesion can be produced (Article 3). Additional surface properties such as a suitable surface charge density can be provided by PEMs which can improve the cell activity as monitored with Ca2+ mobilization (Articles 4 and 5). The next step is to combine the knowledge gained from Articles 1 – 5 and link it to the application of external electrical fields to cells.
Clear cell renal cell carcinoma is the most frequent malignant kidney tumor in adults. It is often associated with biallelic VHL mutations. We characterized our cell lines according to their HIF expression pattern. Cell lines RCC4, UOK-220 and CaKi-2 were assigned to subtype H1H2, cell lines 786-O and A-498 were assigned to subtype H2 and cell lines CaKi-1 and Rc-124 were assigned to subtype VHLwt.
Previous work of our group had shown, that p53 can be activated in ccRCC following irradiation but is not able to induce apoptosis. An important link to p53 activity with strong antiapoptotic qualities is the NFB pathway, which can be activated e. g. by irradiation.
We irradiated the three subtypes previously established as well as two control cell lines, SAOS-2 (p53 negative cell line) and HEK 293 (contains functioning p53) with 2 Gy and 10 Gy and analyzed several proteins of the pathway by using western blots. Several target genes with antiapoptotic qualities were analyzed by using rt-PCR.
We found, that out of the cell lines analyzed, both control cell lines (SAOS-2, HEK 293) showed the strongest response (activation of the NFB pathway) following irradiation. Among the three ccRCC subtypes the VHLwt cell lines showed the strongest response. H2 cell lines showed almost no response at all.
A connection between the missing ability of p53 to induce apoptosis and an induction of transcription factors by the NFB pathway could not be determined. We also could not determine biological differences between the subtypes.
We analyzed, whether any NFB proteins were present in the nucleus following irradiation and found, that only p50 homodimers were present in the nucleus. This might point towards p50 homodimers, which have been described to have different characteristics than heterodimers. More research is needed to analyze this important finding.
The maintenance of protein homeostasis in muscle by degradation systems, e.g. the autophagy lysosomal pathway (ALP) and the ubiquitin-proteasome system (UPS), is of great importance. It prevents the accumulation of nonfunctioning and not properly folded proteins, which can lead to protein aggregate myopathies (PAMs) and several other protein storage diseases. Degradation by the UPS depends on the transfer of ubiquitin to a target protein. This happens in a cascade of E1-E2-E3 proteins. This process is also involved in protein location and regulation of protein activity. E3 ligases are often tissue specific. Muscle RING-finger proteins (MuRFs) are a family of really interesting new gene (RING)-Finger E3 ubiquitin ligases, that are almost exclusively expressed in the striated muscle. They play a role in muscle wasting, but are also important for the maintenance of the structure of striated muscle. MuRF proteins are also involved in the regulation of the striated muscle energy metabolism. Previous work has demonstrated that MuRF1/MuRF3 DKO mice show a protein surplus myopathy characterized by an accumulation of myosin heavy chain proteins in striated muscles and a reduction in function of both heart and skeletal muscle. The aim of this study was to test the hypothesis that the myopathic phenotype of MuRF1/MuRF3 DKO mice is mediated by a disturbed energy homeostasis in the heart and skeletal muscle, with focus on mitochondrial function. Because sex-specific differences have not been investigated in these mice so far, a further aim was to investigate any differences between male and female mice.
To test these hypotheses, we measured the weight of the heart and the hindlimb muscles tibialis anterior and soleus to detect a possible hypertrophy in the DKO mice. Hematoxylin and eosin staining of histological cross sections of the tibialis anterior were performed to investigate protein accumulations. Muscle function was quantitated via grip strength and specific force measurements. Possible changes in protein amounts were detected via mass spectrometry analyses and western blot analyses. Changes in gene expression were investigated by qRT-PCR. Coimmunoprecipitation was used to determine direct interactions between proteins. Protein stability and ubiquitination were investigated by cycloheximide (CHX) and ubiquitination assays, respectively.
DKO mice showed an increase in heart and skeletal muscle weights. Grip strength assays revealed limb weakness of DKO mice. H&E staining of histological cross sections of the tibialis anterior muscle (TA) showed protein aggregates within myofibers. Mass spectrometry analyses of proteins isolated from TA and heart muscle revealed an increase of muscle stress markers and structural proteins in DKO mice, while proteins involved in the energy metabolism were reduced. Especially interesting here were the proteins of the mitochondrial electron transport chain (ETC), which play a major role in the energy production of the mitochondria by catalyzing the phosphorylation of ADP to ATP, the universal energy carrier in all living organisms. These changes were more pronounced in TA compared to heart. Western blot and qRT-PCR results of ETC subunits supported our proteome data. They also revealed a sex-specific difference, in which the reduction ETC subunits was more pronounced in females than males. In female
TA NDUFB8, SDHB, UQCRC2, MTCO1 and ATP5 were significantly reduced compared to controls, while only UQCRC2 and ATP5 were decreased in male TA compared to controls. A significant reduction in gene expression of Ndufb8, Sdhb, Mtco1 and Atp5 was detected in TA of female mice compared to controls, while only Ndufb8, Sdhb and Atp5 were decreased in male TA compared to controls. We observed the same pattern in Heart of male (protein: NDUFB8; mRNA: Mtco1) and female (protein: UQCRC2, MTCO1, ATP5; mRNA: Sdhb, Mtco1) DKO mice compared to their controls. The reduction in ETC subunits was paralleled by a reduction in complex I and complex III activity in the TA of DKO mice, but not in heart. However, this was only significant in the TA of female but not male mice. Mechanistical analyses using coimmunoprecipitation, cycloheximide chase and ubiquitination assays showed that MuRF1 physically interacted with the transcriptional repressor histone deacetylase 5 (HDAC5), mediated its ubiquitination as well as its UPS-dependent degradation. The absence of MuRF1 and MuRF3 in DKO mice let to an increase in the amounts of HDAC5 in TA. Because HDAC5 binds to PGC-1α, the master regulator of mitochondrial biogenesis (encoded by Ppargc1a), we investigated its gene expression in DKO muscle and found it to be reduced.
These data connect MuRF1 and MuRF3 directly to the striated muscle energy metabolism, by regulating mitochondrial function. The results provide insights into the development of PAMs and possibly other protein storage diseases, where a decrease of mitochondrial function has already been described.
Die Kv7-Kaliumkanalöffner Flupirtin und Retigabin waren wertvolle Alternativen bei der Pharmakotherapie von Schmerzen und Epilepsie. Beide Wirkstoffe werden aufgrund von unerwünschten Arzneimittelwirkungen derzeit jedoch nicht mehr eingesetzt. Die Flupirtin-induzierte Hepatotoxizität und die durch Retigabin hervorgerufenen Gewebeverfärbungen scheinen dabei auf den ersten Blick nicht zusammenzuhängen. Gleichwohl lassen sich wahrscheinlich beide Nebenwirkungen auf das gemeinsame oxidationsempfindliche Triaminoaryl-Grundgerüst zurückführen, welches zur Bildung von reaktiven Chinondiimin-Metaboliten neigt. Da hingegen der Wirkungsmechanismus, d. h. die Öffnung der Kv7-Kanäle, nicht an der Toxizität beteiligt zu sein scheint, hatte diese Arbeit zum Ziel, sicherere Alternativen für Flupirtin und Retigabin zu entwickeln. In einem Liganden-basierten Ansatz wurde eine Umgestaltung des Triaminoaryl-Kerns, den beide Wirkstoffe gemeinsam haben, vorgenommen, was zu Carba-Analoga führte, die durch eine erhöhte Oxidationsbeständigkeit sowie ein vernachlässigbares Risiko für die Bildung von chinoiden Metaboliten charakterisiert sind. Zusätzlich zu diesen verbesserten Sicherheitsmerkmalen offenbarten einige der neuartigen Derivate eine überlegene Kv7.2/3-Kanalöffnungsaktivität. Im Vergleich zu Flupirtin konnte die Potenz der Verbindungen um den Faktor 150 gesteigert werden, während die intrinsische Aktivität auf bis zu 176 % verbessert werden konnte, was die betreffenden Carba-Analoga zu vielversprechenden Kandidaten für eine weitergehende Entwicklung macht. Andererseits ermöglichten einige inaktive Verbindungen sowie die insgesamt deutlich abgestuften Kv7.2/3-Aktivitätsdaten die Etablierung von validen Struktur-Wirkungs-Beziehungen und Hypothesen zum Bindungsmodus, die mit Dockingergebnissen und Molekulardynamik-Simulationen korrelierten.
Tafazzin is an acyltransferase with key functions in remodeling of the mitochondrial phospholipid cardiolipin (CL) by exchanging single fatty acids species in CL. Tafazzin-mediated CL remodeling determines the actual CL compositions and has been implicated in mitochondrial morphology and function. Thus, any deficiency of tafazzin leads to altered fatty acid composition of CL which is directly associated with impaired mitochondrial respiration and ATP production. Mutations in the tafazzin encoding gene TAZ, are the cause of the severe X-linked genetic disease, BARTH syndrome (BTHS).
Previous work provided first hints on a linkage of CL composition and subsequent limitations in the cellular ATP levels which may contribute to the restriction of growth. However, in C6 cells ATP levels remained unaltered due to compensatory activation of glycolysis. Moreover, it has been demonstrated that the substantial changes in CL composition are similarly resulting from knocking down either cardiolipin synthase (CRLS) or TAZ. This has also been shown in C6 glioma cells. Most notably only the knock down of TAZ, but not that of CRLS, compromised proliferation of C6 glioma cells. Therefore, a CL- independent role of TAZ in regulating cell proliferation is postulated.
In this study, any linkage of the lack of tafazzin to cellular proliferation should be investigated in more detail to allow first insight into underlying mechanisms.
The results of the current study demonstrate that the tafazzin knockout in C6 glioma cells show changes in global gene expression by applying transcriptome analysis using the- microarray Clarion S rat Affymetrix array. Out of 22,076 total number of genes detected, 1,099 genes were differentially expressed in C6 knockout cells which were either ≥2 and ≥4 fold up or down regulated genes. Furthermore, expression of selected target genes was validated using RT-qPCR. We have hypothesised that the changes in TAZ dependent gene expression is via PPAR transcription factor. According to eukaryotic promoter database (EPD) for selected target genes, exhibited at least one putative binding site for PPARG and PPARA transcription factors. However, pioglitazone and LG100268, synthetic ligands of PPARG and RXR, could not show any effect on changes in gene expression in C6 TAZ cells. Another class of cellular lipids, oxylipins were found to occur in significantly higher amounts in C6 TAZ cells compared to C6 cells which makes them candidates for mediating cellular effects and regulating gene expression via PPARs. A computational tool CiiiDER was used to for the prediction of transcription factor binding site. The transcription factors enriched in TAZ- regulated genes were found to be HOXA5 and PAX2, binding sites of which could be detected in 100 % of TAZ- regulated genes (>2-fold). By applying IPA to the differentially expressed genes we could identify lipid metabolism, and cholesterol superpathway in particular as the most affected pathway in C6 TAZ cells. This pathway consists of 20 genes, of which all (20/20) appeared to be differentially regulated in C6 TAZ cells. Of all the 20 genes, 4 of the differentially expressed genes were selected for further validation by RT-qPCR. By IPA it was possible to identify the upstream regulators that might be responsible for the differential expression of genes in C6 deficient cells. Some of the genes ACACA, HMGCR, FASN, ACSL1, 3 and, 5 identified was decreased by predicted activation and inhibition of the regulators. Further we have analysed the levels of cellular cholesterol content in C6 and C6 TAZ (w/o Δ5 and FL) cells. In C6 cells cholesterol is present more in its free form. C6 TAZ cells have increased amount of cholesterol compared to C6 cells. However, Δ5 and FL expressed C6 TAZ cells showed less amount of cholesterol.
Previous work established that knockout of tafazzin in C6 cells showed decreased cell proliferation in the absence of any changes in ATP content. To understand this phenomenon cellular senescence associated β-galactosidase in C6 and C6 TAZ cells was performed. C6 TAZ cells showed increased percentage of β-gal positive cells compared to C6 cells. Moreover, senescent associated secretory phenotype (SASP) represented by e.g. CXCL1, IL6, and IL1α was determined using RT-qPCR. Gene expression of these SASP factors was significantly upregulated in C6 TAZ cells.
Several human tafazzin isoforms exists due to alternate splicing. However, whether these isoforms differ in function and in CL remodelling activity or specificity, in particular, is unknown. The purpose of this work was to determine if specific isoforms, such as human isoform lacking exon 5 (Δ5), rat full length tafazzin (FL) and enzymatically dead full length tafazzin (H69L), can restore the wild type phenotype in terms of CL composition, cellular proliferation, and gene expression profile. Therefore, in the second part, it was demonstrated that expression of Δ5 to some extent and rat full length tafazzin can completely restore CL composition, in C6 TAZ cells which is naturally linked to the restoration of mitochondrial respiration. As expected, a comparable restoration of CL composition could not be seen after re-expressing an enzymatically dead full-length rat TAZ, (H69L; TAZ Mut). Furthermore, re-expression of the TAZ Mut largely failed to reverse the alterations in gene expression, in contrast re-expression of the TAZ FL and the Δ5 isoforms reversed gene expression to a larger extent. Moreover, only rat full length TAZ was able to reverse proliferation rate. Surprisingly, the expression of Δ5 in C6 TAZ cells did not promote proliferation of the wild type. Different effects of Δ5 and FL on CL composition and cell proliferation points to the specific and in part non-enzymatic functions of tafazzin isoforms, but this certainly requires further analysis.
Interplay of reactive oxygen species with the mechanical properties of cells and mitochondria
(2023)
Cell mechanical properties are a popular label-free method for understanding basic cellular processes. In this thesis, I used Real-time deformability cytometry (RT-DC), a high-throughput microfluidic technology, to investigate the mechanical properties of cells and mitochondria under various conditions such as increased reactive oxygen species (ROS) levels and the application of different ligand coated gold nano-particles (Au-Nps) effect on cells. Initially, we showed the possibility to measure organelles, cells, and tissue-like structures (spheroids) in a single system by constructing a virtual fluidic channel. We investigated a potential application using cytochalasin D (cyto D) treatment, which revealed increased deformation and decreased stiffness in both the normal and virtual channels. Using mechanics as a marker, I investigated the effect of excessive ROS on the mechanical properties of human myeloid precursor cells (HL60). My findings suggest that the mechanical response of HL60 cells to increased ROS levels is mediated by re-localization of microtubules toward the cell center and F-actin to the cell periphery. Interestingly, I also observed intracellular acidification, which is a largely unexplored mechanism that may have contributed to our findings. I then extended our ROS and mechanics assay to investigate cell-AuNP interactions, demonstrating that cell properties vary depending on the cell culture media and ligand coating. The results showed that dextran coated gold nano-particels (Au-Nps) had low cytotoxicity, lower ROS release, and no change in cell mechanics, indicating a potential application for dextran Au NPs. Finally, I expanded our assays to include high-throughput microfluidic characterization of isolated mitochondria. Using both exogenously and endogenously induced ROS, we found an increase in mitochondrial deformation and a decrease in their size, which could have implications on mitochondrial function, i.e., fission and fusion. We believe that advanced applications of RT-DC technology will improve the comparability of results across different sample sizes while also promoting it as a disease detection technique.
Agglomerate Sprühgetrockneter Amorpher Fester Dispersionen (Englisch: Spray-dried Amorphous Solid Dispersions – SD-ASD) im Gastrointestinaltrakt können zu Beeinträchtigungen des Wohlergehens von Nagetieren in präklinischen Studien im Rahmen der Arzneimittelentwicklung führen. Das Auftreten solcher Agglomerate, nachfolgend Pharmakobezoare genannt, war dabei auf Studien an Nagetieren beschränkt bei welchen Hydroxypropylmethylcelluloseacetatsuccinat (HPMC-AS) als Trägerpolymer der als Suspension applizierten SD-ASDs eingesetzt wurde. In diesem Promotionsprojekt evaluierten wir basierend auf Berichten präklinischer Studien Faktoren, welche die Pharmakobezoarbildung in vivo beeinflussen. Weiterhin wurde ein In vitro-Modell entwickelt, mittels welchem das Agglomerationspotential verschiedener SD-ASDs vor Applikation untersucht werden konnte. Dieses Modell wurde ebenfalls genutzt um einen Ansatz zur Reduktion des Agglomerationspotentials zu finden, welcher in der letzten Phase des Promotionsprojektes in vivo verifiziert wurde. Dabei wurde der Effekt der Viskositätserhöhung der Suspensionen zur Reduktion der Pharmakobezoarbildung nicht nur anhand der Masse der bei Sektion gefundenen Pharmakobezoare bewertet, sondern auch die Inzidenz von Pharmakobezoaren an verschiedenen Zeitpunkten der 24-tägigen Studie auf Basis kontinuierlich durchgeführter MRT-Messungen verglichen. Die Visualisierung der intragastralen Pharmakobezoarbildung in vivo ermöglichte darüber hinaus ein detailliertes Verständnis des Prozesses der Pharmakobezoarbildung in Nagetieren unter Berücksichtigung anatomischer und physiologischer Faktoren.
Das Pankreaskarzinom zählt zu den fünf häufigsten Krebserkrankungen in Deutschland, die durch eine spät einsetzende Symptomatik und ein schnelles Wachstum zum Zeitpunkt der Diagnose eine minimale Aussicht auf Heilungserfolg hat. Ziel dieser Arbeit war es, die onkolytische Therapie des Pankreaskarzinoms sicherer zu machen und eine bessere Implementierung in den klinischen Alltag zu erreichen.
In vorherigen Tierversuchen dieser Arbeitsgruppe wurde das Virus im aktiven oder inaktiven Zustand intravenös appliziert und so eine in vivo Stimulation von Spendermäusen vorgenommen. Nach adoptivem Zelltransfer dieser stimulierten Splenozyten in tumortragenden Mäusen konnte eine Onkolyse beobachtet werden, jedoch war die Versuchsdurchführung hinsichtlich der klinischen Anwendung noch zu fern. Aus diesen vorangegangenen Versuchen entwickelte sich das in dieser Arbeit besprochene Modell in dem die Stimulation von entnommenen Splenozyten oder Blutleukozyten in vitro erfolgt. Zusätzlich wurde überprüft, ob nach der Behandlung des Organismus eine weitere Virusübertragung stattfinden kann.
Der Transfer in tumortragende Mäuse wurde zu zwei Zeitpunkten (24h und 72h nach in vitro Stimulation) vorgenommen. Die Onkolyse war zu beiden Zeitpunkten und mit beiden Leukozytengruppen erfolgreich, sodass die Tumore makroskopisch nicht mehr zu erkennen waren oder 10% des Volumens der Kontrollgruppen maßen. Darüberhinaus wurden die reisolierten Tumorzellen der Versuchstiere hinsichtlich der Veränderung ihrer Oberflächenproteine sowie die mesenteriale Lymphknoten auf die Veränderung der Leukozytenpopulationen analysiert. Die Ergebnisse zeigten, dass die Anzahl regulatorischer T-Lymphozyten, deren Rolle die Immunsuppression sowohl im physiologischen als auch im pathologischen Milieu ist, nach dem Transfer von stimulierten Leukozyten deutlich abnimmt. Die Analyse der reisolierten Tumorzellen hat gezeigt, dass die Menge von MHC I ansteigt und die des PD-L1 sinkt, wodurch die Tumorzellen anfälliger für den zytotoxischen Angriff durch T-Lymphozyten sind. Diese Ergebnisse liefern den deutlichen Hinweis, dass der Rückgang der Tumormasse nicht auf das aktive Virus im Organismus, sondern auf die Aufhebung der Immunsuppression und die Erhöhung der Immunogenität des Tumors zurückzuführen ist.
Die Kenntnis über die im Gastrointestinaltrakt ablaufenden Prozesse spielt in der Entwicklung neuer Arzneiformen eine entscheidende Rolle. Besonders im Dickdarm ist dabei neben den physiologischen Bedingungen die bakterielle Besiedlung zu beachten, welche sowohl inter- als auch intraindividuell hoch variabel ist. Bislang gibt es keine einheitliche Methode zur Untersuchung des Einflusses der intestinalen Mikrobiota auf die Metabolisierung von Arzneistoffen. Diese Methoden sind jedoch entscheidend für das Verständnis des Einflusses der bakteriellen Metabolisierung auf die Pharmakokinetik und -dynamik der Arzneistoffe.
Übergeordnetes Ziel dieser Arbeit war es, ein In vitro-Modell zu entwickeln und anzuwenden, welches die dynamischen Bedingungen im Colon ascendens, insbesondere im Hinblick auf die pH-Werte, Durchmischung und bakterielle Besiedlung, darstellt.
Um dieses Ziel zu erreichen, wurde im Rahmen erster Versuche untersucht, wie es sowohl mit monographierten als auch biorelevanten Modellen möglich ist, die mechanische Belastung, die auf eine Arzneiform im GIT ausgeübt wird, darzustellen. Die Verwendung der SmartPill™ eröffnete die Möglichkeit, in den Apparaturen auftretende Drücke aufzuzeichnen. Außerdem konnten die gemessenen Drücke anschließend mit Daten aus In vivo-Studien verglichen werden. Die Untersuchungen ergaben, dass in den monographierten Apparaturen keine Drücke auftreten, die den während der Magen-Darm-Passage auftretenden Drücken entsprechen. Im Gegensatz dazu können im DOFTA gezielt Drücke und so auch vollständige Druckprofile simuliert werden.
Im weiteren Verlauf der Arbeit waren die zuvor gewonnenen Erkenntnisse hilfreich für die Entwicklung des neuen Modells zur Darstellung des Colon ascendens. In das MimiCol wurden pH-Wert-Daten aus einer SmartPill™-Studie implementiert. Die Vorteile des neuartigen Bioreaktors MimiCol sind das kleinere Medienvolumen, das den In vivo-Bedingungen näherkommt, die Möglichkeit, Medienwechsel durchzuführen und dadurch Metabolite abzuführen und neue Nährstoffe hinzuzufügen sowie die genauere Simulation von In vivo-Durchmischungsmustern.
Ziel der durchgeführten Untersuchung war der Vergleich der Metabolisierung des Modellarzneistoffs Sulfasalazin in dem neuartigen dynamischen Bioreaktor MimiCol und einem statischen Standard-Batch-Fermenter. Beide wurden mit der gleichen, kryokonservierten fäkalen Standardmikrobiota beimpft. Die Experimente zeigten, dass das MimiCol in der Lage ist, die dynamischen Bedingungen im aufsteigenden Dickdarm zu simulieren. Die dynamischen Bedingungen im MimiCol führten zu einer Verdopplung der Metabolisierungskonstanten im Vergleich zum statischen Batch-Fermenter. Das MimiCol ahmt, besonders in Bezug auf pH-Fluktuationen und Bakterienwachstum, die dynamischen Bedingungen im aufsteigenden Dickdarm nach und könnte sich in allen Phasen der Arzneimittel- und Formulierungsentwicklung als nützlich erweisen.
Zur Erleichterung und Beschleunigung der Datengenerierung wurde im nächsten Schritt eine Erweiterung des Modells angestrebt. Hierbei war es die größte Herausforderung, die ursprünglichen Parameter auf ein erweitertes Modell mit einer anderen Steuerung und anderen Komponenten zu übertragen. Außerdem wurde in diesem Zuge die Charakterisierung komplexer Bakterienkulturen mittels 16S rRNA-Sequenzierung eingeführt. Bei der Erweiterung des Modells wurde besonderes Augenmerk auf die Einfachheit des Designs und die leichte Skalierbarkeit gelegt.
Um zu beweisen, dass die Übertragung der Parameter erfolgreich war, wurde erneut der Abbau von Sulfasalazin untersucht und die bakterielle Zusammensetzung während des Experiments durch 16S rRNA-Sequenzierung analysiert. Die Übertragung der Versuchsbedingungen auf das neue Modell war erfolgreich. Kommerziell erhältliche Komponenten wurden in den Aufbau implementiert. Das Modell MimiCol³ repräsentierte das Colon ascendens in seinen Eigenschaften bezüglich des Volumens, pH-Werts und Redoxpotentials zufriedenstellend. Die 16S rRNA-Sequenzierung führte zu weiteren Erkenntnissen über die bakterielle Zusammensetzung in den drei Gefäßen. Der Abbau von Sulfasalazin stand in guter Übereinstimmung mit den In vivo-Daten und den im MimiCol gewonnenen Daten. Das neue Modell des Colon ascendens MimiCol³ ermöglichte es, zuverlässigere Daten zu sammeln, da drei Experimente gleichzeitig unter denselben Bedingungen durchgeführt wurden.
Die durchgeführten Untersuchungen zeigen, dass ein wichtiges Instrument zur Untersuchung des Einflusses unseres Mikrobioms im Darm auf den Abbau von Arzneistoffen und Arzneiformen entwickelt wurde.