Solution studies, synthesis and antibacterial activity of Ga(III) complexes with bis-kojate derivatives

Given the recognized major problem of microbial drug resistance for human health, new metal-based drugs have been currently explored for their antimicrobial properties, including gallium-based compounds as potential metallophores that could perturb Fe’s interactions with proteins. Herein we have des...

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Veröffentlicht in:	Journal of inorganic biochemistry 2024-10, Vol.259, p.112663, Article 112663
Hauptverfasser:	O'Ferrall, L. More, Fantasia, A., Chan, K., Teixeira, L.M., Kavanagh, K., O'Connor, C., Santos, M.A., Chaves, S., Nurchi, V.M., Crisponi, G., Zoroddu, M.A., Griffith, D.M., Cappai, R.
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Sprache:	eng
Schlagworte:	Antibacterial Bis-kojic acid Gallium Hydroxypyrones Metallophores P. aeruginosa
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container_title	Journal of inorganic biochemistry
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creator	O'Ferrall, L. More Fantasia, A. Chan, K. Teixeira, L.M. Kavanagh, K. O'Connor, C. Santos, M.A. Chaves, S. Nurchi, V.M. Crisponi, G. Zoroddu, M.A. Griffith, D.M. Cappai, R.
description	Given the recognized major problem of microbial drug resistance for human health, new metal-based drugs have been currently explored for their antimicrobial properties, including gallium-based compounds as potential metallophores that could perturb Fe’s interactions with proteins. Herein we have designed and synthesized two bis-kojate ligands (named L4 and L6) and studied their Ga(III) complexes for their physico-chemical and biological properties. In particular a detailed study of their complexation properties in aqueous solution, showed equilibrium models with formation of quite stable dinuclear 2:3 metal:ligand complexes, though with different stability. Solid state complexes were also prepared and characterized and complementary DFT studies indicated that [Ga2(L4)3] complex, with higher stability, seems to adopt a three-ligand bridging conformation, while that for L6 adopt a one ligand bridging conformation. Preliminary investigation of the antibacterial activity of these gallium complexes showed antipseudomonal activity, which appeared higher for the complex with L4, a feature of potential interest for the scientific community. The solution studies, the synthesis and characterization of new Ga(III)-kojate compounds evidenced the formation of binuclear complexes with antibacterial activity against the Gram-negative bacteria P. aeruginosa though little or no activity as expected against Gram-positive S. aureus. [Display omitted] •Novel Ga(III) complexes with bis-kojate derivatives•Kojate coordination via the carbonyl oxygen and vicinal deprotonated hydroxy group•Ga(III) complexes active against Gram-negative bacteria P. aeruginosa•Similarities between Ga(III) and Fe(III) complexation•One- and three bridged conformations of Ga2L3 complexes
doi_str_mv	10.1016/j.jinorgbio.2024.112663
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More ; Fantasia, A. ; Chan, K. ; Teixeira, L.M. ; Kavanagh, K. ; O'Connor, C. ; Santos, M.A. ; Chaves, S. ; Nurchi, V.M. ; Crisponi, G. ; Zoroddu, M.A. ; Griffith, D.M. ; Cappai, R.</creator><creatorcontrib>O'Ferrall, L. More ; Fantasia, A. ; Chan, K. ; Teixeira, L.M. ; Kavanagh, K. ; O'Connor, C. ; Santos, M.A. ; Chaves, S. ; Nurchi, V.M. ; Crisponi, G. ; Zoroddu, M.A. ; Griffith, D.M. ; Cappai, R.</creatorcontrib><description>Given the recognized major problem of microbial drug resistance for human health, new metal-based drugs have been currently explored for their antimicrobial properties, including gallium-based compounds as potential metallophores that could perturb Fe’s interactions with proteins. Herein we have designed and synthesized two bis-kojate ligands (named L4 and L6) and studied their Ga(III) complexes for their physico-chemical and biological properties. In particular a detailed study of their complexation properties in aqueous solution, showed equilibrium models with formation of quite stable dinuclear 2:3 metal:ligand complexes, though with different stability. Solid state complexes were also prepared and characterized and complementary DFT studies indicated that [Ga2(L4)3] complex, with higher stability, seems to adopt a three-ligand bridging conformation, while that for L6 adopt a one ligand bridging conformation. Preliminary investigation of the antibacterial activity of these gallium complexes showed antipseudomonal activity, which appeared higher for the complex with L4, a feature of potential interest for the scientific community. The solution studies, the synthesis and characterization of new Ga(III)-kojate compounds evidenced the formation of binuclear complexes with antibacterial activity against the Gram-negative bacteria P. aeruginosa though little or no activity as expected against Gram-positive S. aureus. [Display omitted] •Novel Ga(III) complexes with bis-kojate derivatives•Kojate coordination via the carbonyl oxygen and vicinal deprotonated hydroxy group•Ga(III) complexes active against Gram-negative bacteria P. aeruginosa•Similarities between Ga(III) and Fe(III) complexation•One- and three bridged conformations of Ga2L3 complexes</description><identifier>ISSN: 0162-0134</identifier><identifier>ISSN: 1873-3344</identifier><identifier>EISSN: 1873-3344</identifier><identifier>DOI: 10.1016/j.jinorgbio.2024.112663</identifier><identifier>PMID: 39024775</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Antibacterial ; Bis-kojic acid ; Gallium ; Hydroxypyrones ; Metallophores ; P. aeruginosa</subject><ispartof>Journal of inorganic biochemistry, 2024-10, Vol.259, p.112663, Article 112663</ispartof><rights>2024 The Authors</rights><rights>Copyright © 2024 The Authors. Published by Elsevier Inc. 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Herein we have designed and synthesized two bis-kojate ligands (named L4 and L6) and studied their Ga(III) complexes for their physico-chemical and biological properties. In particular a detailed study of their complexation properties in aqueous solution, showed equilibrium models with formation of quite stable dinuclear 2:3 metal:ligand complexes, though with different stability. Solid state complexes were also prepared and characterized and complementary DFT studies indicated that [Ga2(L4)3] complex, with higher stability, seems to adopt a three-ligand bridging conformation, while that for L6 adopt a one ligand bridging conformation. Preliminary investigation of the antibacterial activity of these gallium complexes showed antipseudomonal activity, which appeared higher for the complex with L4, a feature of potential interest for the scientific community. The solution studies, the synthesis and characterization of new Ga(III)-kojate compounds evidenced the formation of binuclear complexes with antibacterial activity against the Gram-negative bacteria P. aeruginosa though little or no activity as expected against Gram-positive S. aureus. [Display omitted] •Novel Ga(III) complexes with bis-kojate derivatives•Kojate coordination via the carbonyl oxygen and vicinal deprotonated hydroxy group•Ga(III) complexes active against Gram-negative bacteria P. aeruginosa•Similarities between Ga(III) and Fe(III) complexation•One- and three bridged conformations of Ga2L3 complexes</description><subject>Antibacterial</subject><subject>Bis-kojic acid</subject><subject>Gallium</subject><subject>Hydroxypyrones</subject><subject>Metallophores</subject><subject>P. aeruginosa</subject><issn>0162-0134</issn><issn>1873-3344</issn><issn>1873-3344</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNqFkMtO3DAUQK2qqAy0v9B6SSUy9SOJJ0s0KnQkJBZ0b_lxAzfNxFPbGZi_x2go2y4se3GOr30I-cbZkjPe_hiWA04hPlgMS8FEveRctK38QBZ8pWQlZV1_JItCiopxWZ-Ss5QGxljT1OoTOZVdcZRqFuThPoxzxjDRlGePkC5pOkz5ERImaiZfVkZrXIaIZqTlgHvMBxp6emMuNpvNd-rCdjfCMyT6hPmRWkzVnzCYDNQXaW-KAekzOenNmODL235O7q9__l7_qm7vbjbrq9vKlQflqus7KURnHVOeWxCgWruSjKlOOtZ7azveCwnQSMsaL5k3jRWN6hjntfPynFwcb93F8HeGlPUWk4NxNBOEOWnJVqIVKylZQdURdTGkFKHXu4hbEw-aM_3aWA_6vbF-bayPjYv59W3IbLfg371_UQtwdQSgfHSPEHVyCJMDjxFc1j7gf4e8AK_ZkrI</recordid><startdate>20241001</startdate><enddate>20241001</enddate><creator>O'Ferrall, L. 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subjects	Antibacterial Bis-kojic acid Gallium Hydroxypyrones Metallophores P. aeruginosa
title	Solution studies, synthesis and antibacterial activity of Ga(III) complexes with bis-kojate derivatives
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