Self‐Assembled Multinuclear Complexes Incorporating <sup>99m</sup>Tc

Frei, Angelo; Mokolokolo, Pennie P.; Bolliger, Robin; Braband, Henrik; Tsosane, Mampotso S.; Brink, Alice; Roodt, Andreas; Alberto, Roger

doi:10.1002/chem.201800600

Cited by 18 publications

(23 citation statements)

References 48 publications

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“…Reactionof1 + + (Re) and 1 + + ( 99m Tc )w ith 2-mercapto-ethanol yields the dinuclear heterometallic (Re/ 99m Tc )complex 2 À À (top). HPLC traces of 2 À À (g-detection,red trace, R t = 18.6 min) and Re 2 (m 2 -S(CH 2 ) 2 OH) 3 (CO) 6 ] À (UV-detection, black trace, R t = 17.7 min)c onfirm the structurali dentity of the two homologues. The signals at longer retention times are complexes of higher nuclearity.…”

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confidence: 76%

“…We recently showed that multinuclear complexes comprising one 99m Tc moiety are accessible either by a pre‐ or a self‐assembly approach . Extending this concept from oxygen‐ to sulfur bridging ligands, we found that [Re(OH 2 ) 3 (CO) 3 ] + ( 1 + (Re)) together with [ 99m Tc(OH 2 ) 3 (CO) 3 ] + ( 1 + ( 99m Tc)) and 2‐mercaptoethanol HS(CH 2 ) 2 OH rapidly led to quantitative consumption of 1 + ( 99m Tc) and the formation of 2 − as the major product (Figure , top), besides higher molecular clusters as minor products.…”

Section: Figurementioning

confidence: 98%

“…Crystals were grown using nano-crystallization screening experiments. [8] (19), Re1-S1-Re2 86.27 (5),R e1-S2-Re2 86.32 (6), Re1-S3-Re2 86.31 (6). and with a 99m Tc-concentration of about 100 nm,o ne main radioactive species was observed as as ingle peak on HPLC (R t = 18.4 min, g-channel, Figures S3 and S4).…”

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confidence: 98%

“…We recently showedt hat multinuclear complexesc omprising one 99m Tc moiety are accessible either by apre-or as elf-assembly approach. [6] Extending this concept from oxygen-to sulfur bridging ligands, we found that [Re(OH 2 ) 3 (CO) 3 ] + (1 + + (Re)) togetherw ith [ 99m Tc (OH 2 ) 3 (CO) 3 ] + (1 + + ( 99m Tc )) and2 -mercaptoethanol HS(CH 2 ) 2 OH rapidly led to quantitative consumption of 1 + + ( 99m Tc )a nd the formationof2 À À as the major product (Figure 1, top), besides higherm olecular clusters as minor products.P erforming the synthesis with microwave assisted heating, insteado fs tirring at room temperature, diminished the formation of higher molecular clusters and thus led to better yields of 2 À À .F igure 1b ottom shows the HPLC traces in the UV/Vis and g-channel of such am icrowavea ssisted reaction (for the r.t. experiment see Figure S2).…”

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confidence: 99%

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Chemistry at High Dilution: Dinuclear ^99 mTc Complexes

Bolliger

Frei

Braband

et al. 2019

Chemistry A European J

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The formation of di‐ or polynuclear complexes at nanomolar concentrations is generally too slow to be observed with 99mTc. It is reported in this communication that an appropriate choice of potentially bridging ligands, herein thiols HS‐R, accelerates the dimerization reaction to an extent that dinuclear complexes are formed at very high dilution. The dinuclear nature of [99mTc2(μ2‐SR)3(CO)6]− is shown by chromatographic comparison, not only with its rhenium homologue as commonly done, but also with the true 99Tc analogue.

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confidence: 76%

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confidence: 98%

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Chemistry at High Dilution: Dinuclear ^99 mTc Complexes

Bolliger

Frei

Braband

et al. 2019

Chemistry A European J

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“…This has been followed by two strategies which can prepare multinuclear rhenium(I) and technetium(I) tricarbonyl complexes, either di-or tetranuclear clusters, in a one-pot reaction. Furthermore, it allows for a tetranuclear cluster containing both rhenium and technetium metal centres to be a model theranostic agent (Frei et al, 2018).…”

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confidence: 99%

Formation of a highly dense tetra-rhenium cluster in a protein crystal and its implications in medical imaging

Brink

Helliwell

2019

Int Union Crystallogr J

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The fact that a protein crystal can serve as a chemical reaction vessel is intrinsically fascinating. That it can produce an electron-dense tetranuclear rhenium cluster compound from a rhenium tricarbonyl tribromo starting compound adds to the fascination. Such a cluster has been synthesized previously in vitro, where it formed under basic conditions. Therefore, its synthesis in a protein crystal grown at pH 4.5 is even more unexpected. The X-ray crystal structures presented here are for the protein hen egg-white lysozyme incubated with a rhenium tricarbonyl tribromo compound for periods of one and two years. These reveal a completed, very well resolved, tetra-rhenium cluster after two years and an intermediate state, where the carbonyl ligands to the rhenium cluster are not yet clearly resolved, after one year. A dense tetranuclear rhenium cluster, and its technetium form, offer enhanced contrast in medical imaging. Stimulated by these crystallography results, the unusual formation of such a species directly in an in vivo situation has been considered. It offers a new option for medical imaging compounds, particularly when considering the application of the pre-formed tetranuclear cluster, suggesting that it may be suitable for medical diagnosis because of its stability, preference of formation and biological compatibility.

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The “Carbonyl Story” and Beyond; Experiences, Lessons and Implications

Alberto

2020

ChemBioChem

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The complex [ 99m Tc(OH 2) 3 (CO) 3 ] + has become a versatile building block in radiopharmaceutical chemistry, applied by many groups worldwide. However, despite widespread efforts, only one compound has made it right the way through clinical trials. Along the way from its discovery to its development into an eventual product, the author experienced issues that he would handle differently in retrospect. In this article, these experiences are turned into "lessons" that might be helpful for young researchers finding themselves in similar situations. Beside issues with patenting and company strategies, the carbonyl story has provided scientific implications beyond its own story, and insights from which any future 99m Tc-based chemistry for radiopharmacy or molecular imaging might benefit. Carbon monoxide complexes are not a class of compounds one would immediately relate to imaging agents with short-lived radionuclides such as 99m Tc (t 1/2 = 6 h). As they are typically prepared under high pressure/high temperature conditions and in organic solvents, their syntheses seem to contradict any preparative requirements for routine application in hospitals. Indeed, such CO complexes were not supposed to find any application in the beginning, when the main question was about how to prepare complexes with the fac-[ 99 Tc(CO) 3 ] + core at ambient CO pressure. The question arose from the chase to the still elusive complex [Cp* 99 TcO 3 ], a homologue of the wellknown [Cp*ReO 3 ] (Cp* = [C 5 Me 5 ] À). [1] [ 99 Tc 2 (CO) 10 ] was prepared by an adapted rhenium synthesis [2] under medium-high pressure conditions at Los Alamos National Laboratory in Sattelberger's group. This method could though not be pursued in our labs since reactions in autoclaves with radioactive materials were not allowed. The other medium CO pressure synthesis by Knight et al. to Tc 2 (CO) 10 was also not appropriate for the same reasons. [3] Challenged by the fundamental question to prepare fac-[ 99 Tc(CO) 3 ] +-type complexes at ambient CO pressure, we bypassed 99 Tc 2 (CO) 10 and found a direct path to [ 99 TcCl 3 (CO) 3 ] 2À directly from [ 99 TcO 4 ] À or [ 99 TcOCl 4 ] À. [4] Subjecting many reductants to the reaction of [ 99 TcO 4 ] À to carbonyls, borane H 3 B•THF turned out to be the reductant of choice. This purely fundamental 99 Tc chemistry did not imply its use in radioimaging agents at all. This vista turned when we stated excellent water solubility and stability of [ 99 TcCl 3 (CO) 3 ] 2À or whatever formed from it in solution. We identified this compound as [ 99 Tc(OH 2) 3 (CO) 3 ] + , an organometallic semi-aquaion, as we termed it. Educated in the spirit of "no water/no air" in organometallic chemistry we learned in lesson 1 that [a

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Self‐Assembled Multinuclear Complexes Incorporating ^99mTc

Cited by 18 publications

References 48 publications

Chemistry at High Dilution: Dinuclear ^99 mTc Complexes

Chemistry at High Dilution: Dinuclear ^99 mTc Complexes

Formation of a highly dense tetra-rhenium cluster in a protein crystal and its implications in medical imaging

The “Carbonyl Story” and Beyond; Experiences, Lessons and Implications

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Self‐Assembled Multinuclear Complexes Incorporating 99mTc

Cited by 18 publications

References 48 publications

Chemistry at High Dilution: Dinuclear 99 mTc Complexes

Chemistry at High Dilution: Dinuclear 99 mTc Complexes

Formation of a highly dense tetra-rhenium cluster in a protein crystal and its implications in medical imaging

The “Carbonyl Story” and Beyond; Experiences, Lessons and Implications

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Product

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Self‐Assembled Multinuclear Complexes Incorporating ^99mTc

Chemistry at High Dilution: Dinuclear ^99 mTc Complexes

Chemistry at High Dilution: Dinuclear ^99 mTc Complexes