Design of Rhenium Compounds in Targeted Anticancer Therapeutics

Collery, Philippe; Desmaële, Didier; Veena, V.

doi:10.2174/1381612825666190902161400

Cited by 66 publications

(59 citation statements)

References 140 publications

(148 reference statements)

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“…The in vitro antiproliferative effects of rhenium‐based complexes have been extensively detailed in previous reviews [6–8] . This also includes the photophysical and photobiological properties and their applications in photodynamic therapy (PDT) and photoactivated chemotherapy (PACT).…”

Section: Introductionmentioning

confidence: 99%

Rhenium‐Based Complexes and in Vivo Testing: A Brief History

2020

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The success of metal‐based anticancer therapeutics in the treatment of cancer is best exemplified by cisplatin. Currently used in 32/78 cancer regimens, metal‐based drugs have a clear role in cancer therapy. Despite this, metal‐based anticancer therapeutics are not without drawbacks, with issues such as toxic side effects and the development of resistance mechanisms. This has led to investigations of other metal‐based drug candidates such as auranofin, a gold‐based drug candidate as well as ruthenium‐based candidates, NAMI‐A, NKP‐1339 and TLD‐1433. All are currently undergoing clinical trials. Another class of complexes under study are rhenium‐based; such complexes have undergone extensive in vitro testing but only nine have been reported to display antitumour in vivo activity, which is a necessary step before entering clinical trials. This review will document, chronologically, the rhenium‐based drug candidates that have undergone in vivo testing and the outlook for such complexes.

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Section: Introductionmentioning

confidence: 99%

Rhenium‐Based Complexes and in Vivo Testing: A Brief History

2020

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“…Attempts to substitute platinum with other metals has not produced tangible results in a clinical setting. Among all metal-based drugs, those containing rhenium have recently attracted major interest: several rhenium-based compounds have been tested for their anticancer activity in vitro and in vivo with promising results (24,(46)(47)(48)(49). However, the lack of a known mechanism of action and molecular target represents a major obstacle in advancing these therapeutics to the clinical trial stage.…”

Section: Discussionmentioning

confidence: 99%

Rhenium N-heterocyclic Carbene Complexes Block Growth of Aggressive Cancers by Inhibiting FGFR- and SRC-Mediated Signalling

Domenichini

Casari

Simpson

et al. 2020

Preprint

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Background: Platinum-based anticancer drugs have been at the frontline of cancer therapy for the last 40 years, and are used in more than half of all treatments for different cancer types. However, they are not universally effective, and patients often suffer severe side effects because of their lack of cellular selectivity. There is therefore a compelling need to investigate the anticancer activity of alternative metal complexes. Here we describe the potential anticancer activity of rhenium-based complexes with preclinical efficacy in different types of solid malignancies.Methods: Kinase profile assay of rhenium complexes. Toxicology studies using zebrafish. Analysis of the growth of pancreatic cancer cell line-derived xenografts generated in zebrafish and in mice upon exposure to rhenium compounds.Results: We describe rhenium complexes which block cancer proliferation in vitro by inhibiting the signalling cascade induced by FGFR and Src. Initially, we tested the toxicity of rhenium complexes in vivo using a zebrafish model and identified one compound that displays anticancer activity with low toxicity even in the high micromolar range. Notably, the rhenium complex has anticancer activity in very aggressive cancers such as pancreatic ductal adenocarcinoma and neuroblastoma. We demonstrate the potential efficacy of this complex via a significant reduction in cancer growth in mouse xenografts.Conclusions: Our findings provide a basis for the development of rhenium-based chemotherapy agents with enhanced selectivity and limited side effects compared to standard platinum-based drugs.

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“…25,[30][31][32][33] The former type of complexes act as photodynamic therapy photosensitizers, the latter, of general formula fac-[Re(CO)3(α-diimine)PR3] + (PR3 = phosphine type-ligands) have been recently described by different authors. [34][35][36][37][38][39] Relatively recent and comprehensive reviews by Gasser et al, 11 Policar et al 40 , Lo et al, 41 Collery et al, 42 Kühn et al 43 and Wilson et al 44 have discussed the subject in detail, and it is apparent from these that the cytotoxicity of Re(I) tricarbonyl complexes is generally found to increase with lipophilicity, [45][46][47][48][49][50] (most probably due to an improved cellular uptake) although exceptions do exist. 51 Within the context above, we therefore decided to explore the antiproliferative efficacy of a series lipophilicity against different cell lines, but with a focus on cells derived from CRC.…”

Section: However Examples Of Antiproliferative Fac-[re(co)3] + Complmentioning

confidence: 99%

Highly Potent Rhenium(I) Tricarbonyl Complexes with Dual Anticancer and Anti-Angiogenic Activity Against Colorectal Carcinoma

Delasoie¹,

Pavić²,

Voutier³

et al. 2020

Preprint

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Synthesized and characterized a series of rhenium(I) trycarbonyl-based complexes with increased lipophilicity. Two of these novel compounds were discovered to possess remarkable anticancer, anti-angiogenic and antimetastatic activity <i>in vivo</i> (zebrafish-human CRC xenograft model), being effective at very low doses (1-3 µM). At doses as high as 250 µM the complexes did not provoke toxicity issues encountered in clinical anticancer drugs (cardio-, hepato-, and myelotoxicity). The two compounds exceed the antiproliferative and anti-angiogenic potency of clinical drugs cisplatin and sunitinib-malate, and display a large therapeutic window.

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Design of Rhenium Compounds in Targeted Anticancer Therapeutics

Cited by 66 publications

References 140 publications

Rhenium‐Based Complexes and in Vivo Testing: A Brief History

Rhenium‐Based Complexes and in Vivo Testing: A Brief History

Rhenium N-heterocyclic Carbene Complexes Block Growth of Aggressive Cancers by Inhibiting FGFR- and SRC-Mediated Signalling

Highly Potent Rhenium(I) Tricarbonyl Complexes with Dual Anticancer and Anti-Angiogenic Activity Against Colorectal Carcinoma

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