Добірка наукової літератури з теми "Multigram-scale microwave-assisted peptide synthesis"

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Статті в журналах з теми "Multigram-scale microwave-assisted peptide synthesis"

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Taddei, Marco, Phuong V. Dau, Seth M. Cohen, Marco Ranocchiari, Jeroen A. van Bokhoven, Ferdinando Costantino, Stefano Sabatini, and Riccardo Vivani. "Efficient microwave assisted synthesis of metal–organic framework UiO-66: optimization and scale up." Dalton Transactions 44, no. 31 (2015): 14019–26. http://dx.doi.org/10.1039/c5dt01838b.

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Rotolo, L., E. Calcio Gaudino, D. Carnaroglio, A. Barge, S. Tagliapietra, and G. Cravotto. "Fast multigram scale microwave-assisted synthesis of vitamin E and C10-, C15-analogues under vacuum." RSC Advances 6, no. 68 (2016): 63515–18. http://dx.doi.org/10.1039/c6ra13138g.

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D’Ercole, Annunziata, Lorenzo Pacini, Giuseppina Sabatino, Matteo Zini, Francesca Nuti, Arianna Ribecai, Alfredo Paio, Paolo Rovero, and Anna Maria Papini. "An Optimized Safe Process from Bench to Pilot cGMP Production of API Eptifibatide Using a Multigram-Scale Microwave-Assisted Solid-Phase Peptide Synthesizer." Organic Process Research & Development 25, no. 12 (November 24, 2021): 2754–71. http://dx.doi.org/10.1021/acs.oprd.1c00368.

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Wolkenberg, Scott E., William D. Shipe, Craig W. Lindsley, James P. Guare, and Joseph M. Pawluczyk. "Applications of Microwave-Assisted Organic Synthesis on the Multigram Scale." ChemInform 37, no. 35 (August 29, 2006). http://dx.doi.org/10.1002/chin.200635269.

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D’Ercole, Annunziata, Lorenzo Pacini, Giuseppina Sabatino, Matteo Zini, Lorenzo Milli, Francesca Nuti, Arianna Ribecai, Alfredo Paio, Paolo Rovero, and Anna Maria Papini. "Corrections to “An Optimized Safe Process from Bench to Pilot cGMP Production of API Eptifibatide Using a Multigram-Scale Microwave-Assisted Solid-Phase Peptide Synthesizer”." Organic Process Research & Development, July 29, 2022. http://dx.doi.org/10.1021/acs.oprd.2c00224.

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Дисертації з теми "Multigram-scale microwave-assisted peptide synthesis"

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D'Ercole, Annunziata. "Development and scale-up of synthetic strategies for exotic macrocyclisation to increase druggability of peptides as active pharmaceutical ingredients of industrial interest." Doctoral thesis, 2022. http://hdl.handle.net/2158/1264636.

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Анотація:
In the framework of the PhD project of industrial interest, I have been involved in the development and optimization of synthetic procedures to obtain peptides of pharmaceutical interest, both on the laboratory scale and for the industrial production, in the context of the University-Industry Joint Laboratory PeptFarm of the University of Florence. This research develops through two parallel lines. The former is related to the development of a multigram, scalable cGMP-compliant MW-SP synthetic approach for the manufacture of the cyclic peptide Active Pharmaceutical Ingredient Eptifibatide acetate. Additionally, an alternative, patentable synthetic approach has been developed to overcome patent restrictions. On the other hand, the development of an efficient synthetic strategy for the preparation of a library of stapled peptides of pre-clinical interest derived from relaxin hormone was performed, aiming to investigate their biological role. Moreover, the feasibility of an oral administration of serelaxin gastroprotected formulations were investigated. According to the industrial perspective on research needs and opportunities in manufacturing, automation of as many steps as possible within an industrial production frame is pivotal to guarantee safety requirements. Solid-phase strategies are considered methods of election for medium-length peptide syntheses not only at the research scale but for large-scale production, as well. The possibility to use microwave-assisted technology on the large scale recently introduced, prompted us to evaluate the possibility to conveniently set-up a safe and fully cGMP-compliant pilot process to produce Eptifibatide acetate Active Pharmaceutical Ingredients (API), a generic hexapeptide, characterized by a single disulfide bridge. We investigated strategies based on the use of the microwave-assisted solid-phase peptide synthesis (MW-SPPS), by the use of a DIC/Oxyma Pure coupling protocol at 90 °C. This fully automated technology, previously accessible only at R&D level, has been recently made available also for the large-scale manufacturing of peptide APIs, taking constantly into account 6 the cost-effectiveness and dangerousness of each procedure. Accordingly, we developed an optimized process at the laboratory scale (1-5 mmol), which was subsequently successfully scaled-up to 70 mmol, obtaining all the information required by regulatory agencies to validate the process and qualify the pilot-scale plant. The process consists of 5 steps: 1) automated microwave-assisted solid phase synthesis of Eptifibatide linear precursor; 2) cleavage from the resin with concomitant amino acid side-chains deprotection; 3) disulfide-bond formation in solution; 4) purification by flash column chromatography; 5) ion-exchange solid phase extraction. Since the direct scale-up of a kg-scale, cGMP compliant peptide API production procedure is a challenge that requires an accurate understanding of each involved step, we preliminary performed a quality management risk assessment, which enabled a smooth and effective achievement of a successful final result. Moreover, in our optimization process, a reduction in time, solvents and waste have been obtained, ensuring compliance with the quality specifications, according to regulatory agencies requirements (FDA and EMA). Satisfactory results were obtained in terms of Eptifibatide acetate HPLC purity (99.6%) and Yield (22.1%). Additionally, the investigation of an alternative on-resin cyclization strategy for therapeutic peptide industrial production of Eptifibatide acetate has been carried out in parallel with the aim to develop a robust and economically competitive production process avoiding intermediate steps of isolation to preserve the recovery guaranteeing a GMPs quality product, to overcome patent restrictions. A scalable, fully automated approach performed entirely in the same reactor has been developed. We explored and compared four solid-phase disulfide formation approaches (A, B, C, D) between the C-terminal Cys and the N-terminal 3- Mercaptopropionic acid (MPA). These mainly differ one from each other for the final cyclization step, obtained by direct formation of an S-S disulfide bridge (strategies A-B) or via side-chain-to-tail amide bond formation (strategies C-D). Strategy D resulted the best one, thanks to the concomitant reduction of the Stert- butylthio (StBu) Cys protecting group (PG) and disulfide formation with the MPA reducing agent, enjoying the advantage of using an already qualified starting material. This strategy (D) represents an inventive (non-obvious) 7 strategy, (since we were the first to propose MPA to deprotect StBu on cysteine), which proposes for the first time to perform all the processes including disulfide bond formation in a single reactor (novelty), scalable on multigram-scale by Liberty Pro synthesizer (Industrial applicability). Therefore, according to the three patentability criteria required for a new production process: Novelty; inventive and industrial applicability, the present PhD work identifies a new patentable production process.1 In line with the synthesis of conformationally constraint relaxin derivatives, the present work describes the development of an innovative, efficient and reproducible MW-assisted Copper-Catalyzed Azide-Alkyne Cycloaddition (SP MW-CuAAC) performed on solid phase to prepare side-chain-to-side-chain clicked H1-relaxin single B-chain analogues, overcoming the several synthetic drawbacks (aggregation tendency and poor solubility) which hamper relaxins syntheses. All the relevant parameters, that are, resin (PEG-PS vs PS), solvent mixtures (H2O:t-BuOH:DCM 1:1:1, DMSO:DMF 1:2), catalytic system (CuBr vs CuSO4), microwave energy and reaction time were optimized using a systematic approach.2 Two generations of H1-relaxin single B-chain stapled analogues were obtained. First-generation (VR and VIR) and second-generation H1-relaxin single B-chain peptides (VII and VIIR; VIII and VIIIR; IX and IXR) were characterized by different lengths and different positions and orientations of the triazolyl ring, and were designed with the aim to stabilize the α-helix conformation and to expose the binding cassette motif. The α-helicity induced by the side-chain to side-chain stapling obtained was demonstrated by the circular dichroism (CD) performed both in phosphate buffer and in SDS micelle, thanks to the collaboration with Prof. A. Carotenuto (University of Naples Federico II). Moreover, in the frame of the collaboration with Prof. D. Bani (University of Florence) and Prof. A. Hossein (Institute of Neuroscience and Mental Health, University of Melbourne, Australia), H1-relaxin analogues were biologically tested, to verify binding to cells expressing the receptor RXFP1 and activity 8 through cAMP signaling pathway in HEK-293T cells stably expressing the RXFP1 receptor. Moreover, since the major challenge in the development of peptide drugs is to improve their oral bioavailability, we investigated the relative bio-potency of the intact serelaxin molecule (the recombinant form of human H2-relaxin) and the purified porcine one, in comparison with their proteolytic fragments, obtained after treatment with Simulated Intestinal Digestion Fluid (SIF). Signalling events downstream receptor activation in THP-1 human monocytic cells was measured.
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