Master Degree / Yüksek Lisans Tezleri

Permanent URI for this collectionhttps://hdl.handle.net/11147/3008

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Author: search.filters.author.Top, AybenSubject: search.filters.subject.Peptides

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  • Master Thesis
    Development of Peg-Peptide Conjugate Based Curcumin Delivery Systems
    (01. Izmir Institute of Technology, 2022) Aydoğan, Gamze; Top, Ayben
    In this study, a drug delivery system based on Pluronic F127 and a peptide conjugate was proposed. The F127-peptide conjugate was prepared by the reaction between succinimidyl functionalized F127 (SC-F127) and peptide. SC-F127 was synthesized using disuccinimidyl carbonate and DMAP. Folic acid-functionalized F127 (FA-F127) was also prepared to obtain active targeting copolymers. Four peptides containing pH-responsive multiple histidines and endosome disruptive GFWFG domain were synthesized using the Fmoc procedure. H-Gly-2-ClTrt resin and Rink amide MBHA resin were used to synthesize side-chain-protected and deprotected peptides, respectively. 2-chlorotrityl resin failed in synthesizing the high-purity peptides with adjacent histidines in their sequences. Peptide-4 having a sequence of GGH6GFWFG, was prepared with acceptable purity using rink amide MBHA resin and was conjugated to SC-F127. Curcumin was loaded to F127 and F127-peptide using the thin film method with DCM solvent. Almost all curcumin was encapsulated into F127 micelles. However, the entrapment efficiency % of the F127-peptide micelles was ~86% due to the lower solubility of F127-peptide conjugate in DCM. Dynamic light scattering experiments were used to determine the stability and size distribution of the micelles. Number-based size distributions of both micelles indicated that a single peak between 10 and 30 nm was independent of pH. The peak position did not change upon incubating the micelles at 37oC up to a few days. Initially, intensity-based results of both samples indicate bidisperse populations at pH 5.0 and 7.4. Curcumin-loaded F127 micelles aggregated in the three days, as revealed by the formation of the third peak above 1000 nm independent of pH. Curcumin-loaded F127-peptide micelles, on the other hand, retain their stability for up to five days at neutral pH. For this sample, the third peak was observed only at pH 5.0 on days 2 and 5.
  • Master Thesis
    Peptide Hydrogels Containing Cell Attachment Molecules
    (Izmir Institute of Technology, 2019) Uysal, Berk; Top, Ayben; Top, Ayben
    In this study, peptides with sequences and notations as KLELKLELKLEL (KLEL), KLDVKLDVKLDV (KLDV), KLDVKLDVKLKV (KLKV1), KLKVKLDVKLKV (KLKV2), KLKVKLKVKLKV (KLKV3) were synthesized using solid phase peptide synthesis (SPPS) method based on Fmoc chemistry. Reverse phase HPLC and MALDI-TOF mass spectroscopy characterization methods were used to assess the purity of the peptides. Three different synthesis procedures were tested, and it was found that employing DMF:DMSO at 1:1 ratio as a solvent increased purity of the resultant peptide. FTIR results indicated the presence of expected β-sheet secondary structure, as well as an interference band from TFA salts for all of the peptides. All the peptides formed hydrogels at pH 7.4 with 1 wt% concentration in deionized water (DIW). AFM results of these hydrogels indicated that KLKV1 and KLKV2 had fibrous morphology with a width of 5-20 nm and 7-18 nm respectively. KLDV and KLKV3 peptide hydrogels, on the other hand, exhibited globular structures, having sizes with 15-50 nm and 8-15 nm, respectively. Storage moduli (G’) of these hydrogels in DIW were obtained as ~860 ± 150 Pa, ~260 ± 60 Pa, ~210 ± 30 Pa and ~1850 ± 200 Pa for KLDV, KLKV1, KLKV2 and KLKV3 respectively. Of these peptides, only HCl salt of KLDV and KLKV1 peptides more readily formed hydrogels in PBS but at 1.5 wt% concentration. G’ values of these KLDV and KLKV1 hydrogels were determined as ~1810 ± 850 Pa and ~700 ± 230 Pa, respectively. Cell proliferation tests (CCK-8 assay) of KLDV and KLKV1 hydrogels were performed by using L929 mouse fibroblast cells. Empty wells (TCPS) were used as a control group. Cell proliferation was observed to be comparable for both select hydrogels and empty wells, suggesting possible applications of these hydrogels in tissue engineering.