Synthesis, Antiproliferative Effect and In Silico LogP Prediction of BIM-23052 Analogs Containing Tyr Instead of Phe.

(1) Background: Hydrophobicity (or lipophilicity) is a limiting factor in the ability of molecules to pass through cell membranes and to perform their function. The ability to efficiently access cytosol is especially important when a synthetic compound has the potential to become a drug substance. D-Phe-Phe-Phe-D-Trp-Lys-Thr-Phe-Thr-NH2 (BIM-23052) is a linear analog of somatostatin with established in vitro GH-inhibitory activity in nanomolar (nm) concentrations and high affinity to different somatostatin receptors. (2) Methods: Series of analogs of BIM-23052 were synthesized where Phe residue(s) in the BIM-23052 molecule were replaced with Tyr using standard SPPS, Fmoc/t-Bu strategy. Analyses of target compounds were performed using HPLC/MS technique. Toxicity and antiproliferative activity were studied using in vitro NRU and MTT assays. The values of logP (partition coefficient in octanol/water) for BIM-23052 and its analogs were calculated. (3) Results: The obtained data show the best antiproliferative effect against studied cancer cells for compound D-Phe-Phe-Phe-D-Trp-Lys-Thr-Tyr7-Thr-NH2 (DD8), the most lipophilic compound according to the predicted logP values. (4) Conclusions: Multiple analyses of the obtained data reveal that compound D-Phe-Phe-Phe-D-Trp-Lys-Thr-Tyr7-Thr-NH2 (DD8) where one Phe is replaced by Tyr has the best combination of cytotoxicity, antiproliferative effect and hydrolytic stability.

Synthesis, Anticancer Activity, Docking Calculations and Hydrolytic Stability Studies of Bioconjugates of Monofluorenated Analogue of BIM- 23052.

BACKGROUND: The fight against cancer has started since its discovery and has not subsided to nowadays. Currently, the hybrid molecules have become a promising alternative to the standard chemotherapeutics for the treatment of multi-causal diseases, including cancers. OBJECTIVE: Herein, we report the synthesis, biological evaluation, mathematical docking calculations and hydrolytic stability of the new bioconjugates of monofluorinated analogues of BIM-23052, containing second pharmacophore naphthalimide, caffeic acid or the tripeptide Arg-Gly-Asp. METHODS: All new molecules are obtained using standard peptide synthesis on solid support. Anticancer potential is studied against a panel of tumor cell lines included human mammary carcinoma cell lines MCF-7 (ER+, PR+ and Her-2-); MDA-MB-231 (ER-, PR- and Her-2-), as well as cell lines BALB 3T3 (mouse embryonic fibroblasts) and MCF-10A (human breast epithelial cell line). RESULTS: The IC50 values found in the MCF-10A cell line assay were used to calculate the selective index (SI). The highest SI relative to MCF-7, with a value of 2.62 is shown by the compound Npht- Gly-D-Phe-Phe(4-F)-Phe-D-Trp-Lys-Thr-Phe-Thr-NH2. In MCF-10 cells, the weakest antiproliferative effect was caused by the same compound (IC50 = 622.9 ± 23.91 µM), which makes this analogue a good candidate for the new anticancer medical drug. Unfortunately, the hydrolytic stability studies reveal that this bioconjugate is the most unstable of hydrolysis under physiological conditions in the body. CONCLUSION: Even with lower anticancer activity and selectivity in comparison with Npht-Gly-DPhe- Phe(4-F)-Phe-D-Trp-Lys-Thr-Phe-Thr-NH2, the compound Arg-Gly-Asp-D-Phe-Phe(4-F)-Phe- D-Trp-Lys-Thr-Phe-Thr-NH2 is the best candidate between three investigated bioconjugates for practical application due to combination of activity and stability profiles. Mathematical docking calculation also reveals that synthesized bioconjugates show selectivity according to different somatostatin receptors on the surface of different cell lines.

Synthesis, in vitro biological activity, hydrolytic stability and docking of new analogs of BIM-23052 containing halogenated amino acids.

One of the potent somatostatin analogs, BIM-23052 (DC-23-99) D-Phe-Phe-Phe-D-Trp-Lys-Thr-Phe-Thr-NH2, has established in vitro growth hormone inhibitory activity in nM concentrations. It is also characterized by high affinity to some somatostatin receptors which are largely distributed in the cell membranes of many tumor cells. Herein, we report the synthesis of a series of analogs of BIM-23052 containing halogenated Phe residues using standard solid-phase peptide method Fmoc/OtBu-strategy. The cytotoxic effects of the compounds were tested in vitro against two human tumor cell lines-breast cancer cell line and hepatocellular cancer cell line, as well as on human non-tumorigenic epithelial cell line. Analogs containing fluoro-phenylalanines are cytotoxic in µM range, as the analog containing Phe (2-F) showed better selectivity against human hepatocellular cancer cell line. The presented study also reveals that accumulation of halogenated Phe residues does not increase the cytotoxicity according to tested cell lines. The calculated selective index reveals different mechanisms of antitumor activity of the parent compound BIM-23052 and target halogenated analogs for examined breast tumor cell lines. All peptides tested have high antitumor activity against the HepG2 cell line (IC50 ≈ 100 µM and SI > 5) compared to breast cells. This is probably due to the high permeability of the cell membrane and the higher metabolic activity of hepatocytes. In silico docking studies confirmed that all obtained analogs bind well with the somatostatin receptors with preference to ssrt3 and ssrt5. All target compounds showed high hydrolytic stability at acid and neutral pH, which mimic physiological condition in stomach and human plasma.

Synthesis, in vitro biological activity and docking of new analogs of BIM-23052 containing unnatural amino acids.

Somatostatin (SST) is an endogenous cyclic tetradecapeptide hormone that exerts multiple biological activities via a family of five receptors. BIM-23052 (DC-23-99) D-Phe-Phe-Phe-D-Trp-Lys-Thr-Phe-Thr-NH2 is a linear SST analog with established in vitro GH-inhibitory activity and high affinity to sstr5, sstr3 and sstr2. The different SSTR subtypes are expressed in different tissues and in some tumor cells. Based on this finding, a series of new analogs of BIM-23052 with expected antitumor activity have been synthesized. The Thr at position 6 in BIM-23052 was replaced by the conformationally hindered Tle, Aib, Ac5c and Ac6c of the new analogs. The peptides were synthesized by standard solid-phase peptide chemistry methods, Fmoc strategy. The cytotoxic effects of the compounds were tested in vitro against a panel of tumor cell lines: HT-29, MDA-MB-23, Hep-G2, HeLa and the normal human diploid cell line Lep-3. All five somatostatin receptor subtypes were modeled and docking was performed to determine the binding affinity of the analogs. The new peptides exhibited different concentration-dependent antiproliferative effect on the tumor cell lines after 24 h of treatment. The compound 3B (Aib6) demonstrated the most pronounced antiproliferative effects on HepG-2 cells with the IC50 = 0.01349 nM. Docking confirmed that all compounds bind well to SST receptors with preference to sstr3 and sstr5, which is most probably the reason for the observed biological effects.

Long-lasting effects of oxy- and sulfoanalogues of L-arginine on enzyme actions.

Arginine residues are very important for the structure of proteins and their action. Arginine is essential for many natural processes because it has unique ionizable group under physiological conditions. Numerous mimetics of arginine were synthesized and their biological effects were evaluated, but the mechanisms of actions are still unknown. The aim of this study is to see if oxy- and sulfoanalogues of arginine can be recognized by human arginyl-tRNA synthetase (HArgS)-an enzyme responsible for coupling of L-arginine with its cognate tRNA in a two-step catalytic reaction. We make use of modeling and docking studies of adenylate kinase (ADK) to reveal the effects produced by the incorporation of the arginine mimetics on the structure of ADK and its action. Three analogues of arginine, L-canavanine (Cav), L-norcanavanine (NCav), and L-sulfoarginine (sArg), can be recognized as substrates of HArgS when incorporated in different peptide and protein sequences instead of L-arginine. Mutation in the enzyme active center by arginine mimetics leads to conformational changes, which produce a decrease the rate of the enzyme catalyzed reaction and even a loss of enzymatic action. All these observations could explain the long-lasting nature of the effects of the arginine analogues.

Electrochemistry of coupled electron-ion transfer of a heme-like complex in an artificial organic membrane.

The electrochemistry of a heme-like complex 5,10,15,20-tetraphenylporphyriniron(III) chloride (Fe(III)-TPP-Cl) embedded in a lipophilic artificial membrane is studied by means of voltammetric techniques. The experimental system used comprises of a thin organic membrane hosting the redox probe, sandwiched between edge plane pyrolytic graphite electrode and an aqueous electrolyte solution. In the course of the voltammetric experiment the redox transformation of Fe(III)-TPP-Cl at the electrode|membrane interface is accompanied by concomitant ion transfer reactions across the membrane|water interface. The overall electrochemical process proceeds as a coupled electron-ion transfer reaction providing insight into energetic and kinetic aspects of the complex membrane charge-transfer reactions. The membrane electrochemistry of Fe(III)-TPP-Cl involves two quasireversible redox transformations typical for the Fe(III)/Fe(II) couple. Both redox processes are coupled with a chemical reactions proceeding inside the membrane as well as by complex ion transfer reactions across the membrane|water interface comprising chloride expulsion from the membrane and cation ingress from the aqueous phase.