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Auxiliar-vermittelte Synthese von nicht-natürlichen Aminosäuren als Bausteine für RNA-Liganden
(2005)
In den letzten Jahren wurde deutlich, daß mRNAs regulatorische Elemente aufweisen.Ein Beispiel hierfür ist z. B. die Transkription des Human Immunodeficiency Virus Typ1 (HIV-1). Die Arginin-reiche Domäne des Tat-Proteins interagiert hierbei mit einer Bindungstelle innerhalb der Bulge-Region der TAR-RNA. Das Vorliegen des hochkonservierten Tat-TAR-Komplexes ist die Voraussetzung für die effiziente Transkription viraler Gene. Eine kompetitive Bindung synthetischer Liganden an die Bulge-Region sollte daher den viralen Vermehrungszyklus unterbrechen. Hochspezifische Liganden mit inhibitorischem Potential sind somit von größtem Interesse. Für eine hohe Liganden-Affinität sind neben ionischen Wechselwirkungen und HBrücken-Interaktionen vor allem auch Stapelwechselwirkungen (stacking) von entscheidender Bedeutung. Die Ligandensuche wurde auf Tripeptide fokussiert. Da die Anzahl natürlich vorkommender aromatischer Aminosäuren sehr limitiert ist,erfolgte im Rahmen dieser Arbeit zunächst eine stereoselektive Synthese von neuen,nicht-natürlichen Aminosäuren mit heteroaromatischen Seitenketten. Um den generellen Einsatz dieser Bausteine in kombinatorischen Bibliotheken zu demonstrieren,wurden zunächst Tripeptide des Musters Arg-X-Arg hergestellt. Bereits diese Tripeptide zeigten in einem Fluoreszenz-Assay inhibierende Effekte auf den Tat- TAR-Komplex von HIV-1 mit IC50-Werten von 2 - 80 µM. Diese vielversprechenden Liganden wiesen auch in einem Tat-TAR kontrollierten Reportergen-Assay stark inhibierende Wirkung in den Zellkulturen auf. Am Beispiel eines Peptides ließ sich mittels NMR-Spektroskopie eine Komplexkonformation bestimmen, die der des bekannten TAR-Argininamid-Komplexes entspricht. Durch den Einsatz von nichtnatürlichen und Standard-Aminosäuren in kombinatorischen Tripeptidbibliotheken (split and combine-Methode) konnte die Suche von potentiellen Peptid-Liganden um ein Vielfaches erweitert werden. Über ein on-bead-Screening ließen sich weitere vielversprechende TAR-bindende Tripeptide identifizieren. Die RNA-Ligandensuche wurde desweiteren auf die psi-RNA (HIV-1) und auf die mRNA des onkogenen bcr-abl Proteins ausgeweitet. Auch hier konnten einige RNA-bindende Tripeptide isoliert werden.
Protein catabolism should be reduced and protein synthesis promoted with parenteral nutrion (PN). Amino acid (AA) solutions should always be infused with PN. Standard AA solutions are generally used, whereas specially adapted AA solutions may be required in certain conditions such as severe disorders of AA utilisation or in inborn errors of AA metabolism. An AA intake of 0.8 g/kg/day is generally recommended for adult patients with a normal metabolism, which may be increased to 1.2–1.5 g/kg/day, or to 2.0 or 2.5 g/kg/day in exceptional cases. Sufficient non-nitrogen energy sources should be added in order to assure adequate utilisation of AA. A nitrogen calorie ratio of 1:130 to 1:170 (g N/kcal) or 1:21 to 1:27 (g AA/kcal) is recommended under normal metabolic conditions. In critically ill patients glutamine should be administered parenterally if indicated in the form of peptides, for example 0.3–0.4 g glutamine dipeptide/kg body weight/day (=0.2–0.26 g glutamine/kg body weight/day). No recommendation can be made for glutamine supplementation in PN for patients with acute pancreatitis or after bone marrow transplantation (BMT), and in newborns. The application of arginine is currently not warranted as a supplement in PN in adults. N-acetyl AA are only of limited use as alternative AA sources. There is currently no indication for use of AA solutions with an increased content of glycine, branched-chain AAs (BCAA) and ornithine-α-ketoglutarate (OKG) in all patients receiving PN. AA solutions with an increased proportion of BCAA are recommended in the treatment of hepatic encephalopathy (III–IV).
The impact of the incorporation of a non-natural amino acid (NNAA) on protein structure, dynamics, and ligand binding has not been studied rigorously so far. NNAAs are regularly used to modify proteins post-translationally in vivo and in vitro through click chemistry. Herein, structural characterisation of the impact of the incorporation of azidohomoalanine (AZH) into the model protein domain PDZ3 is examined by means of NMR spectroscopy and X-ray crystallography. The structure and dynamics of the apo state of AZH-modified PDZ3 remain mostly unperturbed. Furthermore, the binding of two PDZ3 binding peptides are unchanged upon incorporation of AZH. The interface of the AZH-modified PDZ3 and an azulene-linked peptide for vibrational energy transfer studies has been mapped by means of chemical shift perturbations and NOEs between the unlabelled azulene-linked peptide and the isotopically labelled protein. Co-crystallisation and soaking failed for the peptide-bound holo complex. NMR spectroscopy, however, allowed determination of the protein-ligand interface. Although the incorporation of AZH was minimally invasive for PDZ3, structural analysis of NNAA-modified proteins through the methodology presented herein should be performed to ensure structural integrity of the studied target.
Low serum concentrations of the amino acid homoarginine (HA) are associated with increased cardiovascular mortality by incompletely understood mechanisms. This study sought to assess the influence of HA on cardiac remodeling in rats undergoing either transaortic banding or inhibition of nitric oxide synthesis by Nω-Nitro-L-arginine methyl ester hydrochloride (L-NAME). Male Wistar rats (n = 136) underwent sham operation (SH) or aortic banding (AB). Both groups were equally divided into 14 subgroups, receiving different doses of HA alone or in combination with lisinopril, spironolactone, or L-NAME for 4 weeks. HA treatment in AB animals resulted in a dose-dependent improvement of cardiac function up to a concentration of 800 mg·kg−1·day−1. Combining 800 mg·kg−1·day−1 HA with spironolactone or lisinopril yielded additional effects, showing a positive correlation with LV ejection fraction (+33%, p = 0.0002) and fractional shortening (+41%, p = 0.0014). An inverse association was observed with collagen area fraction (−41%, p < 0.0001), myocyte cross-sectional area (−22%, p < 0.0001) and the molecular markers atrial natriuretic factor (−74%, p = 0.0091), brain natriuretic peptide (−42%, p = 0.0298), beta-myosin heavy chain (−46%, p = 0.0411), and collagen type V alpha 1 chain (−73%, p = 0.0257) compared to placebo-treated AB animals. Co-administration of HA and L-NAME was found to attenuate cardiac remodeling and prevent NO-deficient hypertension following AB. HA treatment has led to a dose-dependent improvement of myocardial function and marked histological and molecular changes in cardiac remodeling following AB. Combining HA with standard heart failure medication resulted in additional beneficial effects boosting its direct impact on heart failure pathophysiology.