Synthesis and Biological Study of 4-Aminopyridine-Peptide Derivatives Designed for the Treatment of Neurodegenerative Disorders.

BACKGROUND: Alzheimer's disease (AD) and Multiple sclerosis (MS) lead to neurodegenerative processes negatively affecting millions of people worldwide. Their treatment is still difficult and practically incomplete. One of the most commonly used drugs against these neurodegenerative diseases is 4-aminopyridine. However, its use is confined by the high toxicity. OBJECTIVES: The aim of this work is to obtain new peptide derivatives of 4-aminopyridine with decreased toxicity compared to 4-aminopyridine. METHODS: Synthesis was conducted in solution using a consecutive condensation approach. The new derivatives were characterized by melting points, NMR, and Mass spectra. Important ADME (absorption, distribution, metabolism, and excretion) properties have been studied in silico using ACD/Percepta v.2020.2.0 software. Acute toxicity was determined in mice according to a Standard protocol. All new derivatives were tested in vitro for cytotoxic activity in a panel of human (HEP-G2, BV-173) and murine (NEURO 2A) tumor cell lines via a standard MTT-based colorimetric method. ß-secretase inhibitory activity was determined by applying the fluorescent method. RESULTS: New derivatives of 4-aminopyridine containing analogues of the ß-secretase inhibitory peptide (Boc-Val-Asn-Leu-Ala-OH) were obtained. The in vivo toxicity of the tested compounds was found to be as high as 1500 mg/kg. Cell toxicity screening against tumor cell lines of different origins showed negligible growth-inhibitory effects of all investigated 4-aminopyridine analogues. CONCLUSION: Synthesis of new peptide derivatives of 4-aminopyridine is reported. Acute toxicity studies revealed a ca. 150 times lower toxicity of the new compounds as compared to 4-aminopyridine that may be ascribed to their peptide fragment.

Synthesis and biological study of new galanthamine-peptide derivatives designed for prevention and treatment of Alzheimer's disease.

The Alzheimer's disease leads to neurodegenerative processes and affecting negatively million people worldwide. The treatment of the disease is still difficult and incomplete in practice. Galanthamine is one of the most commonly used drugs against the illness. The main aim of this work is design and synthesis of new derivatives of galanthamine comprising peptide moiety as well as study of their ß-secretase inhibitory activity and the anti-aggregating effect. All new derivatives of galanthamine containing analogues of Leu-Val-Phe-Phe (Aß17-Aß20) were synthesized in solution using fragment and consecutive condensation approaches. The new derivatives were characterized by melting points, NMR, and HPLC/MS. They were tested in vitro for ß-secretase inhibition activity by means of fluorescent method and were investigated in vitro for anti-aggregation activity on sheep platelet-rich plasma. Although the new compounds do not contain a structural element responsible for the ß-secretase inhibition, five of them show high or good ß-secretase inhibitory activity between 19.98 and 51.19% with IC50 between 1.95 and 5.26 nM. Four of the new molecules were able to inhibit platelet aggregation between 55.0 and 90.0% with IC50 between 0.69 and 1.36 µM. Four of the compounds were able to inhibit platelet aggregation and two of them have high anti-aggregating effects.

Synthesis of New Galanthamine-Peptide Derivatives Designed for Prevention and Treatment of Alzheimer's Disease.

BACKGROUND: Although no effective treatment for the Alzheimer's disease currently exist, some drugs acting as Acetylcholinesterase inhibitors, like galanthamine have positively affected such patients. ß- and/or γ-secretase inhibitors are another type of potential drugs. Here we report synthesis of new peptide-galanthamine derivatives, with expected inhibitory activity against both Acetylcholinesterase and ß-secretase. OBJECTIVES: The aim of this work is obtaining new peptide derivatives of galanthamine with decreased toxicity compared to galanthamine. METHODS: Syntheses were conducted in solution using fragment condensation approach. The new derivatives were characterized by melting points, angle of optical rotation, NMR and Mass spectra. Acute toxicity was determined on mice, according to a Standard protocol. All new compounds were tested in vitro for cytotoxic activity in a panel of human (HEP-G2, BV-173) and murine (Neuro-2a) tumor cell lines via a standard MTT-based colorimetric method. RESULTS: New derivatives of galanthamine containing shortened analogues of ß-secretase inhibitor (Boc- Asn-Leu-Ala-Val-OH) and either nicotinic or isonicotinic residue, both connected with a linker (L-Asp) to position 11 of galanthamine were obtained. In vivo toxicity of some new compounds was found up to 1000 mg/kg. Cell toxicity screening against the tumor cell lines showed negligible growth-inhibiting properties of the galanthamine derivatives. CONCLUSION: Synthesis of new galanthamine derivatives comprising peptide moiety and nicotinic acid or isonicotinic acid is reported. Acute toxicity studies reveal they are about 100 times less toxic than galanthamine. This effect is due to the peptide fragment. Cytotoxicity studies show good correlation with low toxicity results. These results are encouraging for the application of this class compounds as medicines.

Synthesis of New Peptide Derivatives of Galanthamine Designed for Prevention and Treatment of Alzheimer's Disease.

New derivatives of galanthamine containing peptide fragments with ß-secretase inhibitor activity were synthesized. In position 6 of the galanthamine new shortened analogues of ß-secretase inhibitor OM 99-2 (Boc-Val-Asn-Leu-Ala-OH and Boc-Val-Asn-Leu-Ala-Val-OH) were included. The new derivatives of the galanthamine in position 11 including Boc and norgalanthamine in P3 or P4 positions, Val in P2' position and benzylamin in P3'-position were also synthesized. All new peptides were investigated on mice for acute toxicity. The test compounds were administered to mice via intraperitoneal (i.p.) route. They have low toxicity (LD50>1000 mg/kg) after i.p. The compound 11-N-demethyl-11-N-N-[Boc-Asp(Asp-Leu-Ala-Val-NH-Bzl)]-Galanthamine was investigated by two way active avoidance method. The compound has good influence on the conditioned reflexes, which improved the processes of learning and memory. Inhibition activity of newly synthesized compounds was monitored against BuChE and IC50 values are determined. All compounds show activity in micromolar concentration. Compounds 5 and 6 have around 10 times higher activity than galanthamine. Compounds 4 and 9 also show good activity. All newly synthesized compounds show low acute toxicity.

Synthesis and in vitro antitumor activity of new octapeptide analogs of somatostatin containing unnatural amino acids.

Some modified octapeptide analogs of somatostatin with the following structure D-Phe-c(Cys-Phe-D-Trp-Xxx-Yyy-Cys)-Thr-NH2, where Xxx is Lys or Orn and Yyy is Aib (α-aminoisobutyric acid), Ac5c (1-aminocyclopentanecarboxylic acid) or Ac6c (1-aminocyclohexane carboxylic acid) have been synthesized. The peptides were prepared by standard Fmoc-solid phase peptide chemistry method. The direct disulphide bond formation has been employed on the solid phase by Tl(CF3CO2)3. The cytotoxic effects of the compounds were tested in vitro against a panel of tumor cell lines: HT-29 (human colorectal cancer cell line), MDA-MB-23 (human breast cancer cell line), Hep-G2 (human hepatocellular carcinoma cell line), HeLa (cervical cancer cell line) and normal human diploid cell line Lep-3. The new peptides exhibited different concentration-dependent antiproliferative effect against the tumor cell lines after 24 h treatment. The compounds were most effective to the HT-29 tumor cells. The compound 4C (Orn(5), Aib(6)) demonstrated the most pronounced antiproliferative effects on HT-29 cells with the IC50 = 0.0199 µM.