Georg-Speyer-Haus
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Arbeiten zur experimentellen Erhärtung der Vorstellungen über die Biogenese von Terpenen aus den Hemiterpenalkoholen Dimethylvinylcarbinol oder Prenol führten zur Auffindung der Dichloressigsäure als eines aliphatischen Polymerisationsbeschleunigers sowohl dieser beiden Alkohole als auch des ihnen zugrunde liegenden Dienkohlenwasserstoffs, des Isoprens. Die Ergebnisse mit dieser einfachen Carbonsäure regen zur Prüfung natürlicher organischer Säuren als Fermentmodelle an.
Die im Trockenweißkraut vorkommende Kropfnoxe wird durch haushaltsübliches Kochen zerstört. Durch Wasserdampfdestillation verliert das Kraut rund 50% seines Gesamtschwefelgehaltes sowie seine strumigene Aktivität. Eine Isolierung der wahrscheinlich S-haltigen Noxe ist bisher nicht gelungen.
Die Noxe des getrockneten Weißkrautes ist im Gegensatz zu der des weißen Senfsamens in heißem Alkohol unlöslich.
Das Senfölglykosid Sinalbin scheint bei Anwesenheit von Myrosinase die Schilddrüse im Sinne einer Struma diffusa parenchymatosa zu beeinflussen.
Die Reizschwelle des in kürzester Zeit basedowifizierend wirkenden Allylthioharnstoffs liegt bei gewöhnlichen Kaninchen zwischen 30 und 40 mg pro 1 kg Körpergewicht, für Angorakaninchen darunter. Allylthioharnstoff verändert die Schilddrüse zunächst im Sinne einer Struma diffusa parenchymatosa, die aber sehr schnell in eine Struma basedowificata übergeht. Tyronorman beeinflußt die Allylthioharnstoffwirkung, wenn es gleichzeitig mit der chemischen Noxe verabfolgt wird; die Drüse verharrt dabei in einem Präbasedowzustand.
Dijodtyrosin ruft unter den gleichen Bedingungen eine ähnliche, aber stärkere Wirkung hervor. Bei kurzfristiger Behandlung einer bereits längere Zeit durch Allylthioharnstoff geschädigten SD kommt es zur Ausbildung einer SD, die histologisch der Jodbasedow-Struma gleicht. Benzylthioharnstoff verändert die SD vorwiegend im Sinne einer Struma diffusa parenchymatosa und steht somit in seiner Wirkung der im Weißkraut vorhandenen Kropfnoxe nahe. Auch für Benzylthioharnstoff scheint die Reizschwelle im gleichen Größenbereich wie beim Allylthioharnstoff zu liegen.
Zur Biochemie der Schilddrüsenfunktion VII : Anzeichen der tierexperimentellen E-Hypervitaminose
(1947)
Vitamin-E-reiche Fütterung von männlichen jungen Kaninchen führt nach mehreren Wochen zu krankhaften Erscheinungen an der Schilddrüse (SD). Die drei Symptome der entstandenen E-Hypervitaminose in dem innersekretorischen Organ sind: 1. Abnorme Volumen- und Gewichtszunahme, 2. Jodfreiheit bzw. -mangel und 3. histologische Veränderung (gesteigertes Epithelwachstum). Vitamin-E-Gaben neutralisieren nicht die schilddrüsenschädigende Wirkung von Kohlkropfnahrung. Ein täglicher α-Toko-pherol-Zusatz zum Normalfutter verhindert nicht den kropferzeugenden Thiouracil-Effekt an Kaninchen, sondern wirkt im gleichen Sinne.
Bei langdauernder Injektion von Benzylthioharnstoff, der schwer resorbiert wird, entsteht beim Kaninchen keine Struma baśedowificata, sondern nur ein Präbasedow-Zustand. Eine Aktivierung der Schilddrüsen(SD)-Follikel tritt bei kurzfristiger Verfütterung von Benzylthioharnstoff auf.
Der symm. Dibenzylthioharnstoff erzeugt bei täglicher Injektion ein Vorstadium der Struma diffusa parenchymatosa. Seine Resorption ist schlecht.
Die Isothioharnstoffe sind für den Tierversuch wahrscheinlich zu giftig.
Thiouracil, subcutan gespritzt, ruft SD-Vergrößerung hervor und ist bei weitem nicht so toxisch wie Allylthioharnstoff. Die Größen der entarteten Drüsen sind den zugeführten Thiouracilmengen nicht proportional und meines Erachtens von der Konstitution der Versuchstiere weitgehend abhängig.
2-Thio-barbitursäure wirkt bei einer Injektion über drei Monate schwach schilddrüsenaktiv.
Die Natriumsalze des S-Kupfer-N-Allyl-N'-[m-carboxyphenyl]-iso-thioharnstoffes (Cuprion) und des S-Gold-N-Allyl-N'-[m-carboxyphenyl]-iso-thioharnstoffes (Lopion), parenteral gegeben, üben einen nachteiligen Einfluß auf die Schilddrüse aus. Lopion wird besser als Cuprion vertragen. Der N-Allyl-N'-[m-carboxyphenyl]-iso-thioharnstoff wird offenbar schnell vom Körper ausgeschieden, weshalb große Mengen des Grundkörpers erforderlich sind, um eine stärkere SD-Aktivität hervorzurufen.
Sulfanilylthioharnstoff verändert ein wenig die Kaninchen-SD, wenn er über zwei Monate verabfolgt wird.
Mengt man Sulfanilylguanidin dem Futter bei, dann wird die SD in geringem Grade aktiviert. Eine leichte Hypertrophie der Drüse wurde bei subcutaner Behandlung eines Tieres festgestellt.
Möglicherweise führen unter gewissen Bedingungen Benzylthioharnstoff, Sulfanilylguanidin, Cupro-N-Allyl-N'- [m-carboxyphenyl]-iso-thioharnstoff und Thiouracil, in dieser Reihe zunehmend wirksam, zu einer SD-Hypertrophie.
Die Art und Weise, wie die Kaninchen auf die schilddrüsenwirksamen Substanzen reagierten, weist auf die Entwicklung eines anormalen Zustandes der Thyreoidea hin. Unsere Befunde stehen mit der Erklärung der thyreostatischen Wirksamkeit chemischer Verbindungen durch amerikanische Autoren in Einklang.
NK cells are part of the innate immune system, and are important players in the body’s first defence line against virus-infected and malignantly transformed cells. While T cells recognize neoplastic cells in an MHC-restricted fashion, NK cells do not require prior sensitization and education about the target. In leukemia and lymphoma patients undergoing allogeneic hematopoietic stem cell transplantation not only T cells but also NK cells have been found to mediate potent graft-versus-tumor effects. Hence, autologous or donor-derived NK cells hold great promise for cancer immunotherapy. Since the generation of highly purified NK cell products for clinical applications is labor-intensive and time consuming, established human NK cell lines such as NK-92 are also being considered for clinical protocols. NK-92 cells display phenotypic and functional characteristics similar to activated primary NK cells. While NK-92 cells are highly cytotoxic towards malignant cells of hematologic origin, they do not affect healthy human tissues. NK-92 cells can be expanded under GMP-compliant conditions, and can therefore be provided in sufficient numbers with defined phenotypic characteristics for clinical applications. Safety of NK-92 cells for adoptive immunotherapy was already shown in two phase I/II clinical trials...
Safety concerns associated with the use of viral vectors in gene therapy applications have attracted considerable attention towards the development of nonviral vectors as alternatives for DNA delivery. While nonviral vectors are commonly not associated with safety problems, they are still very inefficient compared to viral vectors, and require significant improvements to approach the efficiency of their viral counterparts. Meanwhile ligands or single-chain antibody fragments that bind to cell surface receptors for increased and/or specific cellular uptake, endosome escape activities, and nuclear localization sequences (NLSs) to enhance transport of plasmid DNA into the nucleus, have become available that can be incorporated into nonviral vectors to improve their efficacy. However, as gene delivery is a multistep process, the challenge is to incorporate multiple of these functional elements into a single nonviral vector system, while retaining their specific activities. A promising method to attach such entities to plasmid DNA is the use of multifunctional fusion proteins that bind to DNA through a DNA-binding domain. In principle, two types of DNA-binding domains/proteins can be used to anchor additional functional domains or peptides to a plasmid, namely sequence-specific DNA-binding domains, described in the first part of this thesis, or those that bind DNA independent of its sequence, exemplified in the second part of this work by a derivative of the human HMGB2 protein. The first fusion protein constructed and analyzed contained the E. coli LexA repressor as a sequence-specific DNA-binding domain. In addition, this DNA-carrier protein, termed TEL, included a bacterial translocation domain as an integrated endosome escape activity, and human TGF-a for specific targeting to the EGF-receptor (EGFR). TEL was expressed in E. coli and purified under both native and denaturing conditions. Purified, denatured TEL was refolded and subsequently shown to bind specifically to EGFR-expressing cells. However, inclusion of TEL in complexes of plasmid DNA and poly-L-lysine (pL) did not lead to increased gene delivery into EGFR-expressing COS-1 cells. Most likely this was due to the absence of DNA-binding activity of the LexA moiety in TEL. In contrast, native TEL was able to interact specifically with DNA. Nevertheless, since this interaction was rather weak, and refolding of denatured TEL had not resulted in functional activity of all of its protein domains, it seemed unlikely that fusion proteins containing LexA would exhibit gene transfer capabilities superior to those of similar DNA-carrier proteins previously constructed in our group. Further work therefore focused on the use of the E2C-Sp1C protein as an alternative sequencespecific DNA-binding domain. This artificial zinc-finger protein was fused to the single-chain antibody fragment scFv(FRP5), directed against the human ErbB2 growth factor receptor. The resulting 5-E2C fusion protein was expressed in E. coli and purified under native and denaturing conditions. Refolded and native 5-E2C were found to bind specifically to ErbB2-expressing cells, indicating that scFv(FRP5) in 5-E2C was functional in both preparations. In contrast, whereas refolded 5-E2C bound DNA only weakly, significant DNA binding was observed for native 5-E2C. In addition, it could not only be shown that the interaction of native 5-E2C with DNA containing its recognition sequence was specific, but also that this protein was able to bind DNA and recombinant ErbB2 simultaneously, demonstrating the functionality of both domains in native 5-E2C. Despite these encouraging results, the inclusion of native 5-E2C in pL- or polyethyleneimine (PEI)-DNA complexes did not lead to an (5-E2C-specific) enhancement of gene transfer efficiency, irrespective of the presence of the endosome-disruptive reagent chloroquine during transfection. In the second part of this thesis an alternative approach for the development of DNA-carrier proteins for nonviral gene delivery is described, based on human HMGB2, a DNA-binding protein without sequence specificity. HMGB2 contains an acidic C-terminus that has been found to decrease the affinity of the protein for DNA. Therefore, this C-terminal tail was deleted, resulting in an HMGB2-variant consisting of amino acids 1-186. HMGB2186, purified under native conditions from E. coli lysates, was able to interact with DNA and bound to the surface of different cell lines. Importantly, after binding to plasmid DNA HMGB2186 mediated gene delivery into COS-7 cells with higher efficiency than pL. In addition, HMGB2186-mediated gene transfer was strongly enhanced in the presence of chloroquine, indicating that the endocytic pathway was involved in cellular uptake. To improve internalization and intracellular routing of HMGB2186 as a DNA-carrier, a derivative containing the TAT47-57 cell-penetrating peptide (CPP), reported to facilitate cell entry independent of endocytosis, was constructed. Since this peptide also contains an NLS, in addition an HGMB2186-variant containing the SV40-NLS was constructed to investigate the effect of a peptide that has only nuclear localizing properties. Interestingly, the resulting TAT-HMGB2186 and SV40-HMGB2186 fusion proteins displayed DNA-binding activities similar to HMGB2186, but mediated gene delivery into different cell lines clearly more efficiently than the parental molecule. Furthermore, the efficacy of both fusion proteins was enhanced markedly in the presence of chloroquine, an indication that endocytosis was involved in the transfection process mediated by these proteins. This suggests that the increased transfection efficiency observed for TAT-HMGB2186 was more likely due to the NLS function present in the TAT47-57 peptide, rather than to its ‘cell penetrating properties’. Finally, the incorporation of functional peptides derived from human proteins into HMGB2186 was investigated. An uncharged CPP originating from Kaposi-FGF, reported to facilitate efficient cellular uptake of fused protein domains in an endocytosis-independent manner, was fused to HMGB2186 together with the SV40-NLS. Interestingly, the resulting KSV40-HMGB2186 fusion protein bound DNA similarly as previously tested DNA-carrier proteins, but did not mediate enhanced transfection compared to HMGB2186. In addition, the importin-b-binding (IBB) domain derived from human importin-a2 was investigated as a component of a DNA-carrier protein. Since the IBB domain can function as an NLS, it was fused to HMGB2186 resulting in the DNA-carrier protein IBBHMGB2186. Although IBB-HMGB2186 bound DNA in a similar manner as the other HMGB2186-derivatives, gene delivery mediated by IBB-HMGB2186 was only as effective as HMGB2186 mediated transfection, suggesting no significant role of the IBB domain. However, addition of chloroquine resulted in a remarkable enhancement of IBB-HMGB2186-mediated gene transfer, which was now more efficient than with any other HMGB2186-variant tested, and not much lower than gene transfer mediated by PEI, one of the most efficient transfection reagents available to date. To enhance nonviral gene delivery even further, the HMGB2186-based DNA-carrier proteins described in this thesis might now serve as building blocks for novel fusion proteins that include additional complementing activities. In this respect it seems particularly promising that, under conditions of effective end some escape, IBB-HMGB2186, which consists entirely of protein domains of human origin, was the most efficient of all proteins tested in this work.
Mammalian oocytes are arrested in the dictyate stage of meiotic prophase I for long periods of time, during which the high concentration of the p53 family member TAp63α sensitizes them to DNA damage-induced apoptosis. TAp63α is kept in an inactive and exclusively dimeric state but undergoes rapid phosphorylation-induced tetramerization and concomitant activation upon detection of DNA damage. Here we show that the TAp63α dimer is a kinetically trapped state. Activation follows a spring-loaded mechanism not requiring further translation of other cellular factors in oocytes and is associated with unfolding of the inhibitory structure that blocks the tetramerization interface. Using a combination of biophysical methods as well as cell and ovary culture experiments we explain how TAp63α is kept inactive in the absence of DNA damage but causes rapid oocyte elimination in response to a few DNA double strand breaks thereby acting as the key quality control factor in maternal reproduction.
5-Lipoxygenase (5-LO) catalyzes the two initial steps in the biosynthesis of leukotrienes (LT), a group of inflammatory lipid mediators derived from arachidonic acid. Here, we investigated the regulation of 5-LO mRNA expression by alternative splicing and nonsense-mediated mRNA decay (NMD). In the present study, we report the identification of 2 truncated transcripts and 4 novel 5-LO splice variants containing premature termination codons (PTC). The characterization of one of the splice variants, 5-LOΔ3, revealed that it is a target for NMD since knockdown of the NMD factors UPF1, UPF2 and UPF3b in the human monocytic cell line Mono Mac 6 (MM6) altered the expression of 5-LOΔ3 mRNA up to 2-fold in a cell differentiation-dependent manner suggesting that cell differentiation alters the composition or function of the NMD complex. In contrast, the mature 5-LO mRNA transcript was not affected by UPF knockdown. Thus, the data suggest that the coupling of alternative splicing and NMD is involved in the regulation of 5-LO gene expression.
Oral presentations Background: We selected peptide ligands for the HIV-1 packaging signal PSI by screening phage displayed peptide libraries. Peptide ligands were optimized by screening spot synthesis peptide membranes. The aim of this study is the functional characterization of these peptide ligands with respect to inhibition of HIV-1 replication. Methods: Phage displayed peptide libraries were screened with PSI-RNA structures. The Trp-rich peptide motifs were optimized for specific binding on spot synthesis peptide membranes. The best binding peptide was expressed intracellularly in fusion with RFP or linked to a protein transduction domain (PTD) for intracellular delivery. The effects on virion production were analyzed using pseudotyped lentiviral particles. Results: After positive and negative selection rounds, phages binding specifically to PSI-RNA were identified by ELISA. Peptide inserts contained conserved motifs of aromatic amino acids known to be implicated in binding of PSI-RNA by the natural Gag ligand. The filter assay identified HKWPWW as the best binding ligand for PSI-RNA, which is delivered into several cell lines by addition of a PTD. Compared to a control peptide, the HKWPWW peptide inhibited HIV-1 replication as deduced from reduced titers of culture supernatants. As HKWPWW also binds to the TAR-RNA like the natural nucleocapsid PSI-RNA ligand, the effect on Tat-TAR inhibition will also be analyzed. Currently T-cell lines are established which stably express HKWPWW as well as a control peptide, which will be infected with HIV-1 to monitor the ability of HKWPWW to inhibit wild type HIV-1 replication. Conclusion: The selection of a peptide ligand for PSI-RNA able to inhibit HIV-1 replication proves the suitability of the phage display technology for the selection of peptides binding to RNA-structures. This enables the indentification of peptides serving as leads to interfere with additional targets in the HIV-1 replication cycle.