Graeme McRobbie

Binding optimization through coordination chemistry: CXCR4 chemokine receptor antagonists from ultrarigid metal complexes

A new copper(II) containing bis-macrocyclic CXCR4 chemokine receptor antagonist is shown to have improved binding properties to the receptor protein in comparison to the drug AMD3100 (Plerixafor, Mozobil). The interaction of the metallodrug has been optimized by using ultrarigid chelator units that offer an equatorial site for coordination to the amino acid side chains of the protein. Binding competition assays with anti-CXCR4 antibodies show that the new compound stays bound longer and it has improved anti-HIV potency in vitro (EC(50) = 4.3 nM). X-ray structural studies using acetate as a model for carboxylate amino acid side chains indicate the nature of the coordination interaction.

Triaza-macrocyclic complexes of aluminium, gallium and indium halides: fast 18F and 19F incorporation via halide exchange under mild conditions in aqueous solution

Rapid and complete fluorination of the complexes [MCl3(L)] (L = Me3-tacn, BzMe2-tacn, M = Al, Ga, In) occurs at room temperature via reaction of a MeCN solution of the complex with 3 mol equiv. of KF in water. The Ga and In complexes are also readily fluorinated using R4NF (R = Me or nBu) in MeCN solution, whereas no reaction occurs with the Al species under these conditions. The distorted octahedral fac-trifluoride coordination at M is confirmed in solution by multinuclear (19F, 27Al, 71Ga and 115In) NMR spectroscopic studies, leading to sharp resonances with 19F–71Ga and 19F–115In couplings evident. The [MF3(L)] are extremely stable in aqueous solution and at low pH; they crystallise as tetrahydrates, [MF3(Me3-tacn)]·4H2O, with extended H-bonding networks formed through both F⋯H–O and O⋯H–O contacts. [InF3(BzMe2-tacn)]·1.2H2O also shows intermolecular F⋯H–O hydrogen bonding contacts. The prospects for developing this coordination chemistry further to take advantage of the high metal–fluoride bond energies to enable rapid, late-stage fluorination of large macromolecules under mild conditions for PET imaging applications in nuclear medicine are discussed. This work also demonstrates that F-18 radiolabelling to form [F-18] [GaF3(BzMe2-tacn)] is effected readily at room temperature in aqueous MeCN over 30–60 min on addition of 2.99 mol equiv. of [19F]–KFaq and 0.4 mL [18F]–KFaq (100–500 MBq) to [GaCl3(BzMe2-tacn)] with ca. 30% incorporation.

Radiofluorination of a Pre-formed Gallium(III) Aza-macrocyclic Complex: Towards Next-Generation Positron Emission Tomography (PET) Imaging Agents

As part of a study to investigate the factors influencing the development of new, more effective metal-complex-based positron emission tomography (PET) imaging agents, the distorted octahedral complex, [GaCl(L)]⋅2 H2O has been prepared by reaction of 1-benzyl-1,4,7-triazacyclononane-4,7-dicarboxylic acid hydrochloride (H2L⋅HCl) with Ga(NO3)3⋅9 H2O, which is a convenient source of GaIII for reactions in water. Spectroscopic and crystallographic data for [GaCl(L)]⋅2 H2O are described, together with the crystal structure of [GaCl(L)]⋅MeCN. Fluorination of this complex by Cl−/F− exchange was achieved in high yield by treatment with KF in water at room temperature over 90 minutes, although the reaction was complete in approximately 30 minutes if heated to 80 °C, giving [GaF(L)]⋅2 H2O in good yield. The same complex was obtained by hydrothermal synthesis from GaF3⋅3 H2O and Li2L, and has been characterised by single-crystal X-ray analysis, IR, 1H and 19F{1H} NMR spectroscopy and ESI+ MS. Radiofluorination of the pre-formed [GaCl(L)]⋅2 H2O has been demonstrated on a 210 nanomolar scale in aqueous NaOAc at pH 4 by using carrier-free 18F−, leading to 60–70 % 18F-incorporation after heating to 80 °C for 30 minutes. The resulting radioproduct was purified easily by using a solid-phase extraction (SPE) cartridge, leading to 98–99 % radiochemical purity. The [Ga18F(L)] is stable for at least 90 minutes in 10 % EtOH/NaOAc solution at pH 6, but defluorinates over this time scale at pH of approximately 7.5 in phosphate buffered saline (PBS) or human serum albumin (HSA). The subtle role of the Group 13 metal ion and co-ligand donor set in influencing the pH dependence of this system is discussed in the context of developing potential new imaging agents for PET.

Mixtures of disc-shaped and rod-shaped mesogens with chiral components

A novel mesogen has been synthesised, that not only combines two one disc-shaped and rod-shaped mesogens, but also includes a chiral group in the centre of the molecule. A protection and selective deprotection procedure allows the introduction of the chiral group in the central linking group of the mesogen. However, using this versatile procedure, a variety of other groups can be introduced selectively into the mesogen. The chiral group induces the formation of a cholesteric phase. Interestingly, the N* mesophase is miscible with the nematic phases of the precursor discs and rods. This study provides further evidence for the miscibility of discs and rods in a (chiral) nematic phase.

c-Met PET Imaging Detects Early-Stage Locoregional Recurrence of Basal-Like Breast Cancer

Locoregional recurrence of breast cancer poses significant clinical problems because of frequent inoperability once the chest wall is involved. Early detection of recurrence by molecular imaging agents against therapeutically targetable receptors, such as c-Met, would be of potential benefit. The aim of this study was to assess 18F-AH113804, a peptide-based molecular imaging agent with high affinity for human c-Met, for the detection of early-stage locoregional recurrence in a human basal-like breast cancer model, HCC1954. Methods: HCC1954 tumor–bearing xenograft models were established, and 18F-AH113804 was administered. Distribution of radioactivity was determined via PET at 60 min after radiotracer injection. PET and CT images were acquired 10 d after tumor inoculation, to establish baseline distribution and uptake, and then on selected days after surgical tumor resection. CT images and caliper were used to determine the tumor volume. Radiotracer uptake was assessed by 18F-AH113804 PET imaging. c-Met expression was assessed by immunofluorescence imaging of tumor samples and correlated with 18F-AH113804 PET imaging results. Results: Baseline uptake of 18F-AH113804, determined in tumor-bearing animals after 10 d, was approximately 2-fold higher in the tumor than in muscle tissue or the contralateral mammary fat pad. The tumor growth rate, determined from CT images, was comparable between the animals with recurrent tumors, with detection of tumors of low volume (<10 mm3) only possible by day 20 after tumor resection. 18F-AH113804 PET detected local tumor recurrence as early as 6 d after surgery in the recurrent tumor–bearing animals and exhibited significantly higher 18F-AH113804 uptake (in comparison to mammary fatty tissue), with a target-to-background (muscle) ratio of approximately 3:1 (P < 0.01). The c-Met expression of individual resected tumor samples, determined by immunofluorescence, correlated with the respective 18F-AH113804 imaging signals (r = 0.82, P < 0.05). Conclusion: 18F-AH113804 PET provides a new diagnostic tool for the detection of c-Met–expressing primary tumor and has potential utility for the detection of locoregional recurrence from an early stage.

Abstract 4294: GE152: In vivo detection of tumor apoptosis as a tool for assessment of therapeutic efficacy

Proceedings: AACR 103rd Annual Meeting 2012‐‐ Mar 31‐Apr 4, 2012; Chicago, IL A major challenge in personalized healthcare is predicting how effective a drug treatment is. This is particularly the case in oncology, where there is a call for better therapy monitoring to maximize drug treatment effectiveness leading to improved patient survival and help reduce healthcare costs. GE152, a nuclear imaging agent under development at GE Healthcare, is being evaluated preclinically as a tool to assess therapeutic efficacy by detecting tumor apoptosis. GE152 is based on a 99mTechnetium radiolabelled peptide that shows nanomolar affinity for a specific cell death target, as demonstrated by studies using Biacore technology. Biodistribution using the murine lymphoma (EL4) tumour therapy model has shown increased tumor uptake and retention of GE152 following chemotherapy, with positive tumor:muscle and tumor:blood ratios. Correlation of tumor apoptosis levels (determined by caspase activity) with GE152 tumor retention suggest a trend of increasing agent retention with rising levels of apoptosis (GE152 retention in low apoptotic tumors is 4.9%ID/g; GE152 retention in high apoptotic tumors is 8.2%ID/g).Further validation of GE152 was carried out using an apoptosis-specific inducible cell death model whereby HT29 colorectal cancer cell xenografts engineered to inducibly express either a constitutively active form of caspase-3 (which causes synchronous cell death in vivo when exposed to doxycycline) or an inactive point mutant. GE152 demonstrated greater uptake in tumors undergoing apoptosis (3.6% ID/g) than in controls (1.2% ID/g), correlating with caspase activity levels (and subsequent apoptosis) as determined both enzymatically and by IHC and blood-borne biomarkers of cell death. These results are in agreement with preliminary preclinical imaging studies using SPECT/CT, where region of interest analysis has demonstrated increased post-therapy tumor retention of GE152. We are currently optimizing the performance of GE152 by assessing different radiolabelling precursors to improve imaging agent pharmacokinetics. In addition to the current 99mTechnetium-based approach, we are exploring 18F radiolabelling options that would allow expansion of the agents utility to PET imaging. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 4294. doi:1538-7445.AM2012-4294

Abstract 357: Nonclinical tumor efficacy studies of [18F]AH113804, a novel PET imaging agent with high affinity for the human c-Met receptor

c-Met, the tyrosine-kinase receptor for hepatocyte growth factor (HGF)/scatter factor, is involved in tumour growth, invasion and metastasis in many human cancers of epithelial origin. Various tumour types are reported to overexpress c-Met, whilst expression in most normal tissues is relatively low. [18F]AH113804 is a peptide-based molecular imaging agent being developed by GE Healthcare for the in vivo evaluation of tumour and metastatic c-Met expression by PET imaging. In vitro affinity studies with fluorescently labelled analogues confirmed that whilst the AH113804 peptide had high affinity for human c-Met (hc-Met), there was limited or no affinity for dog or rodent c-Met, respectively. In mice, relatively high uptake of [18F]AH113804 was observed in human xenograft tumours known to express high levels of hc-Met, with rapid clearance from key background tissues such as muscle (tumour to muscle ratio of >5 achieved by 30 minutes post-injection). This biodistribution profile allowed the tumour to be clearly visualised by micro-PET imaging. Tumour uptake was significantly reduced by co-administration of excess non-radioactive peptide, confirming tumour uptake was specific. Tumour uptake of [18F]AH113804 was also shown to correlate with expression of hcMet, with a relative retention of 2.0±0.1, 1.2±0.2 and 0.7±0.2% retained dose per gram normalised for body weight (% rd/g/100g bw) 60 minutes post-injection in xenograft tumours with relatively high (HT-29 tumours), lower (U87 tumours) and no (LLC tumours) expression of hc-Met respectively (as assayed by ELISA). Finally, 111InCl3 was used in a dual tumour model as a non-specific marker of blood pool to confirm differences in tumour uptake were not related to differences in tumour blood pool or delivery. There was a significant difference in [18F]AH113804 uptake between HT-29 (2.2±0.8% rd/g/100 g bw) and LLC (0.9±0.2% rd/g/100 g bw) tumours (p Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr 357. doi:1538-7445.AM2012-357

Rapid Aqueous Late‐Stage Radiolabelling of [GaF3(BnMe2‐tacn)] by 18F/19F Isotopic Exchange: Towards New PET Imaging Probes

Abstract A simple and rapid method for 18F radiolabelling of [GaF3(BnMe2‐tacn)] by 18F/19F isotopic exchange is described. The use of MeCN/H2O or EtOH/H2O (75:25) and aqueous [18F]F− (up to 200 MBq) with heating (80 °C, 10 min) gave 66±4 % 18F incorporation at a concentration of 268 nm, and 37±5 % 18F incorporation at even lower concentration (27 nm), without the need for a Lewis acid promoter. A solid‐phase extraction method was established to give [Ga18F19F2(BnMe2‐tacn)] in 99 % radiochemical purity in an EtOH/H2O mixture.

Late stage iodination of biologically active agents using a one-pot process from aryl amines

A simple and effective one-pot tandem procedure that generates aryl iodides from readily available aryl amines via stable diazonium salts has been developed. The operationally simple procedure and mild conditions allow late-stage iodination of a wide range of aryl compounds bearing various functional groups and substitution patterns. A novel synthetic strategy involving the preparation of nitroaryl compounds followed by a chemoselective tin(II) dichloride reduction and the use of the one-pot diazotisation–iodination transformation was also developed. The general applicability of this approach was demonstrated with the preparation of a number of medicinally important compounds including CNS1261, a SPECT imaging agent of the N-methyl-D-aspartate (NMDA) receptor and IBOX, a compound used to detect amyloid plaques in the brain.