Synthesis of Isosteric Triterpenoid Derivatives and Antifungal Activity

Innocente, Adrine Maria; Casanova, Bruna Bento; Klein, Fernanda; Lana, Aline D.; Pereira, Dariane Castro; Muniz, Mauro Neves; Sonnet, Pascal; Gosmann, Grace; Fuentefría, Alexandre Meneghello; Gnoatto, Simone Cristina Baggio

doi:10.1111/cbdd.12251

Cited by 22 publications

(19 citation statements)

References 22 publications

(44 reference statements)

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“…The most potent compound was the amide of 3-acetyl-betulinic acid with N,N-bis-2-aminoethylpiperazine. It should be noted that this compound was also the most potent against different species of fungi belonging to Candida, Tricophyton, Epidermophyton, Microsporum, and Scytalidium [76].…”

Section: Parasiticidal and Anti-infectious Activitymentioning

confidence: 89%

New Pharmacological Opportunities for Betulinic Acid

2017

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Betulinic acid is a naturally occurring pentacyclic lupane-type triterpenoid usually isolated from birch trees, but present in many other botanical sources. It is found in different plant organs, both as a free aglycon and as glycosyl derivatives. A wide range of pharmacological activities has been described for this triterpenoid, including antiviral and antitumor effects. In addition, several other interesting properties have been identified in the fields of immunity and metabolism, namely antidiabetic, antihyperlipidemic, and anti-inflammatory activities. Taken together, these latter three properties make betulinic acid a highly interesting prospect for treating metabolic syndrome. The present review focuses on the therapeutic potential of this agent, along with several of its semisynthetic derivatives, which could open new frontiers in the use of natural product-based medicines.

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Section: Parasiticidal and Anti-infectious Activitymentioning

confidence: 89%

New Pharmacological Opportunities for Betulinic Acid

2017

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“…The minimum inhibitory concentrations (MICs) of ursolic and oleanolic acids against various Staphylococcus aureus strains, including the methicillin-resistant (MRSA) strain, were in the range from 8 to 64 μg/mL, while betulinic acid was less active against these strains [20]. Some semisynthetic analogues of betulinic, ursolic, and oleanolic acids were synthesized and studied in vitro as potential antimicrobial agents [21][22][23]. We have studied the antibacterial activities of dihydrobetulinic, ursolic, and oleanolic acids and their conjugates 2, 3, 5, 6, 8, and 9 using four bacterial strains, including Gram-negative Escherichia coli, Acinetobacter baumannii, and Pseudomonas aeruginosa and Gram-positive methicillin-resistant Staphylococcus aureus (MRSA).…”

Section: Chemistrymentioning

confidence: 99%

C-28 Esters of Triterpenoid Acids Bearing Tris(hydroxymethyl)aminomethane: Synthesis and Anticancer/Antimicrobial Activity

Spivak

Nedopekina

Dzhemileva

et al. 2019

The 23rd International Electronic Conference on Synthetic Organic Chemistry

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Widespread secondary plant metabolites (betulinic, ursolic, and oleanolic acids) are promising scaffolds for the discovery of new drugs. Among the many semi-synthetic derivatives of lupane triterpenoids known today, the anticancer agent C-28 ester of betulinic acid with tris(hydroxymethyl)aminomethane (NVX-207) has been actively studied. This betulinic acid derivative, which has shown significant antitumor activity in vitro and in vivo against various malignant tumors, is a candidate drug. It is known that modification of the structure of the triterpenoid skeleton can lead to significant changes in biological properties. In this regard, we have synthesized C-28 esters of ursolic and oleanolic acids and C20-29 hydrogenated betulinic acid bearing tris(hydroxymethyl)aminomethane (TRIS), and transformed them into guanidinium salts by guanylation of the primary amino group in a branched ester fragment under the action of 1H-pyrazole-1-carboxamidine hydrochloride. The obtained compounds were tested in in vitro experiments on three human cancer cell lines. The presence of the TRIS-fragment in the triterpenoid conjugates markedly enhanced the cytotoxic action as compared to the parent compounds, dihydrobetulinic, ursolic, and oleanolic acids (IC50 values 2.8-7.6 μM for Jurkat cells and 1.1-6.8 μM for U937 cells), while the correlation between the cytotoxic activity and the chemical structure of the triterpenoid skeleton was not observed. Extended biological testing of these triterpenoids by using flow cytometry analysis showed that antitumor activity of compounds is caused by apoptotic processes and induction of cell cycle arrest in the S-phase. New triterpenoids were also tested for their antimicrobial activity against the growth of four bacterial strains (Escherichia coli, Acinetobacter baumannii, Pseudomonas aeruginosa, and Staphylococcus aureus (MRSA)) and two fungal strains (Candida albicans and Cryptococcus neoformans). The TRIS-dihydrobetulinic acid conjugate and its guanidinium derivative did not exhibit antimicrobial properties. The corresponding ursane and oleane-skeleton pentacyclic tritrerpenoids showed good bacteriostatic activity against methicillin-resistant S. aureus (MICs 4 and 32 μg/mL) and excellent antifungal effect against Cryptococcus neoformans and Candida albicans (MICs 4 and 0.25 μg/mL).

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“…Natural products represent a great source for to study and develop new drugs candidates for the treatment of diabetes (Liu, Chen, Hu, Guo, & Shen, ). Ursolic acid (UA) is a triterpene that has shown metabolic (Sheng & Sun, ), cardiovascular (Aguirre‐Crespo et al, ; Rios et al, ; Somova, Nadar, Rammanan, and Shode, ; Somova, Shode, Ramnanan, & Nadar, ), antibacterial (Nascimento et al, ), antifungal (Innocente et al, ), cytotoxic (Li et al, ), antidepressant (Colla et al, ; Machado et al, ), antioxidant and antiatherogenic effects (Allouche, Beltrán, Gaforio, Uceda, & Mesa, ), among others, which makes it an important scaffold in medicinal chemistry. Currently, is known that the ursolic acid antidiabetic effect is mediated by its interaction with different targets: UA acts as insulinomimetic (Jung et al, ), increasing the autophosphorylation and activation of insulin receptor, and also proceeds as insulin sensitizer since it is able to inhibit the PTP‐1B enzyme (Ramírez‐Espinosa et al, ; Zhang et al, ).…”

Section: Introductionmentioning

confidence: 99%

Ursolic acid derivatives as potential antidiabetic agents: In vitro, in vivo, and in silico studies

Guzmán-Ávila

Flores‐Morales

Paoli

et al. 2018

Drug Development Research

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Hit, Lead & Candidate Discovery Protein tyrosine phosphatase 1B (PTP-1B) has attracted interest as a novel target for the treatment of type 2 diabetes, this because its role in the insulin-signaling pathway as a negative regulator. Thus, the aim of current work was to obtain seven ursolic acid derivatives as potential antidiabetic agents with PTP-1B inhibition as main mechanism of action. Furthermore, derivatives 1-7 were submitted in vitro to enzymatic PTP-1B inhibition being 3, 5, and 7 the most active compounds (IC = 5.6, 4.7, and 4.6 μM, respectively). In addition, results were corroborated with in silico docking studies with PTP-1B orthosteric site A and extended binding site B, showed that 3 had polar and Van der Waals interactions in both sites with Lys120, Tyr46, Ser216, Ala217, Ile219, Asp181, Phe182, Gln262, Val49, Met258, and Gly259, showing a docking score value of -7.48 Kcal/mol, being more specific for site A. Moreover, compound 7 showed polar interaction with Gln262 and Van der Waals interactions with Ala217, Phe182, Ile219, Arg45, Tyr46, Arg47, Asp48, and Val49 with a predictive docking score of -6.43 kcal/mol, suggesting that the potential binding site could be localized in the site B adjacent to the catalytic site A. Finally, derivatives 2 and 7 (50 mg/kg) were selected to establish their in vivo antidiabetic effect using a noninsulin-dependent diabetes mice model, showing significant blood glucose lowering compared with control group (p < .05).

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Synthesis of Isosteric Triterpenoid Derivatives and Antifungal Activity

Cited by 22 publications

References 22 publications

New Pharmacological Opportunities for Betulinic Acid

New Pharmacological Opportunities for Betulinic Acid

C-28 Esters of Triterpenoid Acids Bearing Tris(hydroxymethyl)aminomethane: Synthesis and Anticancer/Antimicrobial Activity

Ursolic acid derivatives as potential antidiabetic agents: In vitro, in vivo, and in silico studies

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