The medicinal chemistry of Cyclo (D-PHE-4I-PRO) and Cyclo (L-PHE-4I-PRO)
- Authors: Qhola, Lipolelo
- Date: 2012
- Subjects: Cyclic peptides , Pharmaceutical chemistry , Peptide drugs
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10152 , http://hdl.handle.net/10948/d1011619 , Cyclic peptides , Pharmaceutical chemistry , Peptide drugs
- Description: Cyclic dipeptides have been widely used as pharmaceutical agents due to their favourable properties and the fact that they are more stable and membrane permeable than their linear analogues. These characteristics make cyclic dipeptides attractive to protein-based drug developers (Martins & Carvalho, 2007). In this research study, the method of Milne et al. (1992) was used to synthesize the protected linear dipeptide esters. This was followed by boiling the unprotected, linear dipeptide esters under reflux in an oil bath (Sec-butanol: toluene (4:1)). This method gave good yields and pure cyclic dipeptides. Scanning electron microscopy, thermal analysis, X-ray powder diffraction and differential scanning calorimetry were used for evaluation of the physiochemical properties of the cyclic dipeptides. High-performance liquid chromatography and thin layer chromatography were used to determine the purity of the cyclic dipeptides. The structures of the cyclic dipeptides were elucidated using infrared spectroscopy, mass spectrometry, nuclear magnetic resonance spectroscopy and molecular modeling and computational chemistry. The aim of the study was to determine the possible therapeutic activity of cyclo(D-Phe-4I-Pro) and cyclo(L-Phe-4I-Pro) with regard to antimicrobial, anticancer, antidiabetes and haematological effects. Both cyclic dipeptides showed a significant growth inhibition of Gram-positive, Gram-negative and fungal microorganisms in the antimicrobial study. Anticancer studies showed that both cyclic dipeptides caused growth inhibition of the MCF-7, HT-29 and HeLa cancer cell lines. Both cyclic dipeptides showed no antidiabetic activity. Haematological studies revealed that both cyclic dipeptides caused a significant effect on the clotting time and platelet aggregation. They caused an increase in clotting time and also inhibited platelet aggregation.
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- Date Issued: 2012
The medicinal chemistry of cyclo(Phe-4CI-Pro) and Cyclo(D-Phe-4CI-Pro)
- Authors: Milne, Marnus
- Date: 2012
- Subjects: Cyclic peptides , Pharmaceutical chemistry , Peptide drugs
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10157 , http://hdl.handle.net/10948/d1011848 , Cyclic peptides , Pharmaceutical chemistry , Peptide drugs
- Description: Cyclic dipeptides have limited conformational freedom due to their diketopiperazine backbone and their small size. They are relatively simple to synthesise, making them ideal subjects for investigation into their biological effects. Cyclic dipeptides have also been known for their multitude of biological activities, including antimicrobial, anticancer and haematological properties. In this study the cyclic dipeptides, cyclo(Phe-4Cl-Pro) and cyclo(D-Phe-4Cl-Pro), were synthesised from their corresponding linear precursors using a modified phenol-induced cyclisation procedure. The phenol induced cyclisation procedure resulted in good yields and purity of the cyclic dipeptides. Quantitative analysis and evaluation of the physiochemical properties of the cyclic dipeptides was achieved using high-performance liquid chromatography, scanning electron microscopy, thermal analysis and X-ray powder diffraction. Structural elucidation of the cyclic dipeptides was done by means of infrared spectroscopy, mass spectroscopy, nuclear magnetic resonance spectroscopy and molecular modelling. The study‟s aim was to determine the biological activity of cyclo(Phe-4Cl-Pro) and cyclo(D-Phe-4Cl-Pro) with respect to their anticancer, antimicrobial, haematological and ant-diabetic studies. Anticancer studies revealed that cyclo(Phe-4Cl-Pro) and cyclo(D-Phe-4Cl-Pro) inhibited the growth of HeLa (cervical cancer), HT-29 (colon cancer) and MCF-7 (breast cancer) cancer cell lines. Both cyclic dipeptides also inhibited the growth of certain selected Gram-positive, Gram-negative and fungal microorganisms in the antimicrobial study. Although the inhibition of growth in the anticancer and antimicrobial studies was statistically significant, the clinical relevance is questionable, since the inhibition produced by both cyclic dipeptides was very limited compared to other pre-existing anticancer and antimicrobial agents. Both cyclic dipeptides caused a significant shortening of the APTT and PT clotting times and an increase in the fibrin and D-Dimer formation. Cyclo(D-Phe-4Cl-Pro) at a screening concentration of 12.5 mM and 3.125 mM, showed significant anti-platelet activity. Both cyclic dipeptides failed to produce any inhibition of the α-Glucosidase enzyme and very limited inhibition of the α-Amylase enzyme.
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- Date Issued: 2012
The medicinal chemistry of cyclo(D-Phe-2Cl-Pro) and cyclo(Phe-4F-Pro)
- Authors: Ndung'u, Susan Wanjiru
- Date: 2011
- Subjects: Peptide drugs , Cyclic peptides , Pharmaceutical chemistry , Peptides -- Synthesis
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: http://hdl.handle.net/10948/7083 , vital:21223
- Description: Although peptides and proteins are considered as lead compounds for the discovery and development of new therapeutic agents, poor metabolic and physical properties have limited their optimisation as drug candidates (Adessi & Soto, 2002). Research by medicinal chemists however, generated the discovery of structural similarities between some peptides and diketopiperazines and the common occurrence of such compounds in natural products. This discovery initiated the synthesis of diketopiperazines from amino acids in an attempt to bypass the previously mentioned limitations of using peptides as drug candidates (Dinsmore & Beshore, 2002). Diketopiperazines (DKPs) are the simplest form of cyclic dipeptides, and a class of unexplored bioactive peptides that have great potential for the future. The compounds are relatively simple to synthesise and are prevalent in nature (Prasad, 1995). The DKP backbone is rigid and therefore poses conformational constraint on the compounds. This rigidity allows for simple conformational analysis of the compounds and also gives insight into the conformational requirements for interaction with the targets involved in their biological activity. The reduced conformational freedom also increases the receptor specificity and thus the compounds are proposed to have less unfavourable effects (Anteunis, 1978). The aim of the study was to synthesise compounds that would exhibit metabolic stability, receptor specificity and enhanced lipophilicity which would increase the bioavailability of the compounds. This was to be achieved by the introduction of fluorine and chlorine elements into the DKPs. The structure of the DKPs would be altered which in turn would improve the physicochemical properties and the biological activity of the compounds (Naumann, 1999). Cyclo(D-Phe-2Cl-Pro) and cyclo(Phe-4F-Pro) were synthesised using the method of Milne et al. (1992) and by boiling the linear counterparts under reflux in sec-butanol-toluene. The structures of the synthesised DKPs were elucidated using mass spectrometry, nuclear magnetic resonance spectroscopy, infrared spectroscopy and molecular modeling. Qualitative analysis and evaluation of the physicochemical properties of the DKPs were performed using high-performance liquid chromatography, scanning electron microscopy, thermogravimetric analysis, differential scanning calorimetry and x-ray powder diffraction. The study aimed to determine the biological activity of cyclo(D-Phe-2Cl-Pro) and cyclo(Phe-4F-Pro) with respect to their anticancer, antimicrobial, haematological and antidiabetic effects. The anticancer results obtained indicated that the percentage inhibition produced by both DKPs were lower than those proposed by Graz et al. (2000) for proline-containing DKPs where, a greater than 50% inhibition was observed for cyclo(Phe-Pro). Antimicrobial studies revealed that both DKPs demonstrated marginal effects on Gram-positive and Gram-negative organisms but showed significant effects against C. albicans. The haematological studies revealed that cyclo(D-Phe-2Cl-Pro) at a screening concentration of 12.5 mM, significantly decreased the levels of D-dimer (P < 0.0001). The antidiabetics studies showed limited activity of the DKPs in inhibiting the activity of α-glucosidase and α-amylase enzymes.
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- Date Issued: 2011