Neovascularization Effects of Carbon Monoxide Releasing Drugs Chemisorbed on Coscinodiscus Diatoms Carriers Characterized by Spectromicroscopy Imaging

Delasoie, Joachim; Radakovic, Natasa; Pavić, Aleksandar; Zobi, Fabio

doi:10.3390/app10207380

Cited by 13 publications

(13 citation statements)

References 93 publications

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“…Given the apparent affinity of the fac-[Re(CO)2(NO)] 2+ core for π-donors, we reasoned that fac-[Re I (CO)3(N-N)OR] species might offer us a different chemical approach for the design of an efficient synthetic strategy to fac-[Re(CO)2(NO)(N-N)L] 2+ compounds. Therefore, we decided to test the reaction of fac-[Re I (CO)3(N-N)OR], where OR = OH − , benzoate (10), 2-(4-bromophenyl)acetate (11).…”

Section: Reactivity Of Fac-[re I (Co)3(n-n)or] Species (Or = π-Base) With No +mentioning

confidence: 99%

“…Our group has been interested in the development of the chemistry of tri- and dicarbonyl rhenium complexes for applications in different medicinal fields [ 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 ], including their use as antibacterial agents. We recently reported studies on the antimicrobial properties of families of rhenium diimine (N-N) complexes and found several complexes of general formula fac -[Re I (CO) 3 (N-N)L] + (L = pyridine, py, type-ligand), showing low to no toxicity in vivo and potent in vitro and in vivo activity against infection of clinically relevant bacteria (MRSA) and fungi ( Candida species) [ 19 , 20 ].…”

Section: Introductionmentioning

confidence: 99%

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Efficient Direct Nitrosylation of α-Diimine Rhenium Tricarbonyl Complexes to Structurally Nearly Identical Higher Charge Congeners Activable towards Photo-CO Release

et al. 2021

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The reaction of rhenium α-diimine (N-N) tricarbonyl complexes with nitrosonium tetrafluoroborate yields the corresponding dicarbonyl-nitrosyl [Re(CO)2(NO)(N-N)X]+ species (where X = halide). The complexes, accessible in a single step in good yield, are structurally nearly identical higher charge congeners of the tricarbonyl molecules. Substitution chemistry aimed at the realization of equivalent dicationic species (intended for applications as potential antimicrobial agents), revealed that the reactivity of metal ion in [Re(CO)2(NO)(N-N)X]+ is that of a hard Re acid, probably due to the stronger π-acceptor properties of NO+ as compared to those of CO. The metal ion thus shows great affinity for π-basic ligands, which are consequently difficult to replace by, e.g., σ-donor or weak π-acids like pyridine. Attempts of direct nitrosylation of α-diimine fac-[Re(CO)3]+ complexes bearing π-basic OR-type ligands gave the [Re(CO)2(NO)(N-N)(BF4)][BF4] salt as the only product in good yield, featuring a stable Re-FBF3 bond. The solid state crystal structure of nearly all molecules presented could be elucidated. A fundamental consequence of the chemistry of [Re(CO)2(NO)(N-N)X]+ complexes, it that the same can be photo-activated towards CO release and represent an entirely new class of photoCORMs.

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Section: Reactivity Of Fac-[re I (Co)3(n-n)or] Species (Or = π-Base) With No +mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Efficient Direct Nitrosylation of α-Diimine Rhenium Tricarbonyl Complexes to Structurally Nearly Identical Higher Charge Congeners Activable towards Photo-CO Release

et al. 2021

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“…43,44 Our group has been interested in the chemistry of 18-and 17electron fac-[Re I (CO) 3 ] + and cis-[Re II (CO) 2 ] 2+ species for their potential use in medicinal chemistry, particularly as anticancer [45][46][47][48] and antibacterial agents 26,49,50 and CO-releasing molecules respectively. [51][52][53][54] While abundant literature is available for the biological effects of Re(I) tricarbonyl complexes, very little is known for corresponding Re(I) dicarbonyl species. We, therefore, set out to establish synthetic procedures that would allow accessing the latter core.…”

Section: Introductionmentioning

confidence: 99%

Aerobically stable and substitutionally labile α-diimine rhenium dicarbonyl complexes

2021

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“…42 Our groups are also interested in the chemistry of 18-and 17-electron fac-[Re I (CO) 3 ] + and cis-[Re II (CO) 2 ] 2+ species for their potential use in medicinal chemistry, as anticancer, [44][45][46] CO-releasing and antibacterial agents. [47][48][49] Recently, we reported a study on the antimicrobial properties of a series of 3arylcoumarin rhenium complexes and found that about half of the species investigated exhibit potent in vitro and in vivo activity against MRSA with MICs in the nanomolar range (ca. 350-700 nM in vivo).…”

Section: Introductionmentioning

confidence: 99%

Combatting AMR: a molecular approach to the discovery of potent and non-toxic rhenium complexes active against C. albicans-MRSA co-infection

Sovari

Radakovic

Roch

et al. 2021

Preprint

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Antimicrobial resistance (AMR) is a major emerging threat to public health, causing serious issues in the successful prevention and treatment of persistent diseases. While the problem escalates, lack of financial incentive has lead major pharmaceutical companies to interrupt their antibiotic drug discovery programs. The World Health Organisation (WHO) has called for novel solutions outside the traditional development pathway, with emphasis on new classes of active compounds with nonclassical mechanisms of action. Metal complexes are an untapped source of antibiotic potential owing to unique modes of action and a wider range of three-dimensional geometries as compared to purely organic compounds. In this study, we present the antimicrobial and antifungal efficacy of a family of rhenium tricarbonyl diimine complexes with varying ligands, charge and lipophilicity. Our study allowed the identification of potent and non-toxic complexes active in vivo against S. aureus infections at MIC doses as low as 300 ng/mL, as well as against C. albicans-MRSA mixed co-infection. The compounds are capable of suppressing the C. albicans morphogenetic yeast-to-hyphal transition, eradicating fungal-S. aureus co-infection, while showing no sign of cardio-, hepato-, hematotoxiciy or teratogenicity.The following ALERTS were generated. Each ALERT has the format test-name_ALERT_alert-type_alert-level. Click on the hyperlinks for more details of the test.

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Neovascularization Effects of Carbon Monoxide Releasing Drugs Chemisorbed on Coscinodiscus Diatoms Carriers Characterized by Spectromicroscopy Imaging

Cited by 13 publications

References 93 publications

Efficient Direct Nitrosylation of α-Diimine Rhenium Tricarbonyl Complexes to Structurally Nearly Identical Higher Charge Congeners Activable towards Photo-CO Release

Efficient Direct Nitrosylation of α-Diimine Rhenium Tricarbonyl Complexes to Structurally Nearly Identical Higher Charge Congeners Activable towards Photo-CO Release

Aerobically stable and substitutionally labile α-diimine rhenium dicarbonyl complexes

Combatting AMR: a molecular approach to the discovery of potent and non-toxic rhenium complexes active against C. albicans-MRSA co-infection

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