@phdthesis{Schmitz2016,
  author    = {Schmitz, Michael},
  title     = {Functional hydrophilic polymers for chemoselective coupling},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-145629},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2016},
  abstract  = {Chemoselective poly(oxazolines) (POx) and poly[(oligo ethylene glycol) acrylates] were synthesized. An initiator was produced for the preparation of poly(oxazoline)s capable of participating in click chemistry reactions which allows the functionalization of the polymer at the α terminus which was confirmed by 1H NMR spectroscopy. The initiator was used for the polymerization of hydrophilic 2 methyl 2 oxazoline (MeOx), whereby chemoselective, alkyne functionalized polymers could be prepared for Cu-catalyzed azide-alkyne cycloaddition. The desired molecular weight could be achieved through the living, ring opening cationic polymerization and was confirmed by 1H NMR, SEC and MALDI ToF measurements. Polymers were terminated with piperidine if no further functionalization was needed, or with an ester derivate for enabling amine attachment in a subsequent step. In addition, polymers were functionalized by termination with NaN3 in order to provide the counterpart to the azide-alkyne reaction. IR spectroscopy was suitable for the azide detection. The coupling of polymers showed the reactivity and could be confirmed by SEC, 1H NMR and IR spectroscopy. The composition of cysteine functionalized POx was completed by thiol-ene chemistry. Since the commercially available iso 2 propyl 2 oxazoline is not available for the cationic polymerization, 2 butenyl and 2 decenyl 2 oxazoline (ButenOx and DecenOx) were first prepared. The synthesis of both copolymers, based on MeOx could be confirmed by 1H NMR as well as with SEC, whereby narrow distributions with dispersities of 1.06 could be achieved. The cysteine functionalization of the copolymers was enabled by the creation of a thiazolidine component which could be synthesized by acetal and formyl protection of cysteine and subsequent functionalization with a thiol. The component enabled the reaction with a polymer by thiol-ene reaction which was started by the addition of dimethoxyphenyl-acetophenone and was catalyzed by irradiation with UV light. Both copolymers, with a shorter (polymers with BuenOx) and longer (polymers with DecenOx) hydrophobic sidechain could be functionalized. 1H NMR spectroscopic analysis showed a quantitative reaction with the thiazolidine derivate. After deprotection by acidic workup the desired, cysteine functionalized polymer could be isolated. Quantification of cysteine functions was ensured by a modified TNBSA assay, whereby the thiols were first oxidized in order to confirm an independent measurement of amine functions. Both, the TNBSA assay as well as the NMR measurement showed the desired number of cysteine residues. The cytotoxicity of functionalized polymers with different compositions was tested by a luminescent cell viability assay (LCVA). Both, the amount of cysteine functions (5-10\%) in the copolymers as well as the length of the hydrophobic side chain were varied. All polymers did not show cytotoxicity up to concentrations of 10 mg∙mL-1. The cell activity and cell numbers only decreased below 50\% and 20\% respectively, when copolymers with 5\% cysteine and longer sidechains were measured, which was attributed to a contamination of the sample itself. The cooperation partner performed Native Chemical Ligation (NCL) with model peptides and purified the products by HPLC. A sterically non demanding peptide was synthesized, consisting of an aromatic amino acid and four glycine units. The aromatic unit was used for the quantification of the polymer-peptide conjugate in the 1H NMR spectroscopy. A polymer having five cysteine side chains has been fully implemented by NCL to a conjugate of one polymer with five peptides. A sterically more demanding peptide was additionally used and MALDI ToF measurements confirmed the successful conjugation. Furthermore the cysteine functionalized polymer was used for nanogel synthesis. The thiol of the cysteine function was oxidized in an inverse mini-emulsion by H2O2, resulting in nanogels (~500 nm) which could be confirmed by SEM, AFM, DLS and NTA measurements. Besides POx, oligo (ethylene glycol)acrylates (OEGA) were polymerized; by copolymerization with the reactive pentafluorophenyl acrylate (PFPA) reactive and amphiphilic polymers were obtained. The synthesis of PFPA could be confirmed spectroscopically by 1H , 19F NMR, and by FT IR. Copolymers were synthesized by RAFT polymerization with narrow dispersities. Functionalization with an amine functionalized thiazolidine led to a hydrophilic cysteine functionalized polymer after acidic deprotection. Apart from this polymer, a thioester functionalization was successfully performed by reaction of the active polymer with a cyclic amine functionalized thioester which does not release a toxic by product (such as the resulting thiol) during NCL and thus features a very high potential to replace former thioester.},
  subject      = {Konjugate},
  language  = {en}
}
@phdthesis{Hu2012,
  author    = {Hu, Wanning},
  title     = {Organometal half-sandwich complexes and their bioconjugates: Biological activity on cancer cells and potential applications in biolabelling},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-87899},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2012},
  abstract  = {In summary, structure-activity relationships in peptide and dendrimer carriers modified with different organometal complexes were studied on a human breast cancer cell line. Variation of the organometal cargo and carrier can significantly influence their biological properties and might open the way to new approaches in chemotherapy. Furthermore, the incorporation of complexes with different C≡O vibrational signatures in a model peptide was explored to examine information encoding in biomolecules in a barcoding strategy for potential imaging applications. In particular for the latter, additional stable metal-carbonyl markers need to be prepared in future work to expand the pool of vibrational labels available.},
  subject      = {Konjugate},
  language  = {en}
}