Quantification of in vivo binding of [3H]RX 821002 in rat brain: Evaluation as a radioligand for central α2-adrenoceptors

On the basis of its established in vitro characteristics, [³H]RX 821002 was evaluated in rats as an in vivo radioligand for central α₂-adrenoceptors. Estimates for in vivo binding potential, obtained by compartmental analyses of time-radioactivity data, ranged between 1.9 for hypothalamus and 0.2 for cerebellum, with a regional distribution in brain which was similar to that observed in vitro. Selectivity and specificity of the signal were checked by predosing with either the α₂-antagonists, idazoxan or yohimbine, the α₂-agonist, clonidine, or the α₁-antagonist, prazosin. Pretreatment of the rats with the selective neurotoxin, DSP-4, had no significant effect on [³H]RX 821002 binding, suggesting that the majority of labelled sites were situated post-junctionally. The studies indicate that [³H]RX 821002 can be used experimentally as an in vivo marker for central α₂-adrenoceptors. The size and rate of expression of the specific signal encourage the development and assessment of [¹¹C]RX 821002 for clinical PET studies.     

In vivo evaluation of IGF1R/IR PET ligand [18F]BMS-754807 in rodents

In vivo evaluation of [¹⁸F]BMS-754807 binding in mice and rats using microPET and biodistribution methods is described herein. The radioligand shows consistent binding characteristics, in vivo, in both species. Early time frames of the microPET images and time activity curves of brain indicate poor penetration of the tracer across the blood brain barrier (BBB) in both species. However, microPET experiments in mice and rats show high binding of the radioligand outside the brain to heart, pancreas and muscle, the organs known for higher expression of IGF1R/1R. Biodistribution analysis 2 h after injection of [¹⁸F]BMS-754807 in rats show negligible [¹⁸F]defluorination as reflected by the low bone uptake and clearance from blood. Overall, the data indicate that [¹⁸F]BMS-754807 can potentially be a radiotracer for the quantification of IGF1R/IR outside the brain using PET.     

Radioiodinated ligands for the estrogen receptor: Tissue distribution of 17α-[125I]iodovinylestradiol derivatives in normal and tumor-bearing adult female rats

A series of three ¹²⁵I-labeled 17α-iodovinylestradiol derivatives previously demonstrated to have a selectivity for estrogen receptor tissues in immature female rats were selected for further evaluation in adult female rats. In normal adult female rats, the iodovinyl analogs of moxestrol (IVβME₂) and moxestrol-3-O methyl ether (IVβME₂-3-OMe) demonstrated high uterine uptake (0.296–0.437 and 0.135–0.199%ID-kg/g) and selectivity (10–18:1) over the 6 h time period. Subsequent evaluation in two tumor models indicated that [¹²⁵I]VβME₂ also possessed the highest tumor uptake and selectivity in the adult female rats bearing the estrogen responsive 9,10-dimethyl-1,2-benzanthracene(DMBA)-induced mammary tumors and that this was receptor mediated. An estrogen independent tumor, the transplanted Walker 256 mammary adenocarcinoma, showed no selectivity of radioligand uptake compared with nontarget tissues. The results suggest the applicability of this agent to the in vivo detection and characterization of estrogen responsive tumors in man.     

[11C]MADAM Used as a Model for Understanding the Radiometabolism of Diphenyl Sulfide Radioligands for Positron Emission Tomography (PET)

In quantitative PET measurements, the analysis of radiometabolites in plasma is essential for determining the exact arterial input function. Diphenyl sulfide compounds are promising PET and SPECT radioligands for in vivo quantification of the serotonin transporter (SERT) and it is therefore important to investigate their radiometabolism. We have chosen to explore the radiometabolic profile of [¹¹C]MADAM, one of these radioligands widely used for in vivo PET-SERT studies. The metabolism of [¹¹C]MADAM/MADAM was investigated using rat and human liver microsomes (RLM and HLM) in combination with radio-HPLC or UHPLC/Q-ToF-MS for their identification. The effect of carrier on the radiometabolic rate of the radioligand [¹¹C]MADAM in vitro and in vivo was examined by radio-HPLC. RLM and HLM incubations were carried out at two different carrier concentrations of 1 and 10 μM. Urine samples after perfusion of [¹¹C]MADAM/MADAM in rats were also analysed by radio-HPLC. Analysis by UHPLC/Q-ToF-MS identified the metabolites produced in vitro to be results of N-demethylation, S-oxidation and benzylic hydroxylation. The presence of carrier greatly affected the radiometabolism rate of [¹¹C]MADAM in both RLM/HLM experiments and in vivo rat studies. The good concordance between the results predicted by RLM and HLM experiments and the in vivo data obtained in rat studies indicate that the kinetics of the radiometabolism of the radioligand [¹¹C]MADAM is dose-dependent. This issue needs to be addressed when the diarylsulfide class of compounds are used in PET quantifications of SERT.     

In vivo binding and autoradiographic imaging of (+)−3-[125I]Iodo-MK-801 to the NMDA receptor-channel complex in rat brain

Radioiodinated (+)−3-Iodo-MK-801 is a high affinity radioligand for the N-methyl-d-aspartate (NMDA) receptor-channel complex. We have demonstrated in vivo localization in the CNS of rat which is stereoselective and blocked by coinjection of unlabeled MK-801. Autoradiography indicates localization in vivo which is in concordance with in vitro autoradiographic studies. These results indicate that radioiodinated (+)−3-Iodo-MK-801 is a useful probe for in vitro and in vivo autoradiographic studies and suggest that radioligands for the NMDA receptor may be developed which will provide in vivo images of receptor distribution in man.     

A new single-photon emission computed tomography (SPECT) imaging agent for serotonin transporters: [125I]Flip-IDAM, (2-((2-((dimethylamino)methyl)-4-iodophenyl)thio)phenyl)methanol

New ligands for in vivo brain imaging of serotonin transporter (SERT) with single photon emission tomography (SPECT) were prepared and evaluated. An efficient synthesis and radiolabeling of a biphenylthiol, FLIP-IDAM, 4, was accomplished. The affinity of FLIP-IDAM was evaluated by an in vitro inhibitory binding assay using [¹²⁵I]-IDAM as radioligand in rat brain tissue homogenates (K_i = 0.03 nM). New [¹²⁵I]Flip-IDAM exhibited excellent binding affinity to SERT binding sites with a high hypothalamus to cerebellum ratio of 4 at 30 min post iv injection. The faster in vivo kinetics for brain uptake and a rapid washout from non-specific regions provide excellent signal to noise ratio. This new agent, when labeled with ¹²³I, may be a useful imaging agent for mapping SERT binding sites in the human brain.     

Biodistribution,dosimetry, metabolism and monkey PET studies of [18F]GBR 13119. Imaging the dopamine uptake system in vivo

The in vivo charactersitics of a new radiotracer, [¹⁸F]GBR 13119, have been examined. Full body biodistribution in rats has been determined and the expected human dosimetry calculated. Pharmacological specificity of in vivo regional brain distribution in rats was examined. Blockage of specific binding was accomplished by dopamine reuptake inhibitors but no effect was observed for pretreatment with serotonin or norepinephrine reuptake inhibitors. Preliminary examination of rat blood shows the presence of radiolabeled metabolites, which can be rapidly identified using bonded-phase (Sep-Pak) chromatography. Finally, the striatum of living primates has been imaged using PET and i.v. administration of [¹⁸F]GBR 13119. These results represent the intermediate steps in the development of [¹⁸F]GBR 13119 as a radiotracer for the study of the dopamine uptake system in man.     

Effect of angiotensin II on the WNK-OSR1/SPAK-NCC phosphorylation cascade in cultured mpkDCT cells and in vivo mouse kidney

In our recent study using Wnk4^D561A/+ knockin mice, we determined that the WNK-OSR1/SPAK-NaCl cotransporter (NCC) phosphorylation cascade is important for regulating NCC function in vivo. Phosphorylation of NCC was necessary for its plasma membrane localization. Previously, angiotensin II infusion was shown to increase apical membrane expression of NCC in rats. Therefore, we investigated whether angiotensin II was an upstream regulator for the WNK-OSR1/SPAK-NCC cascade in cultured cells and in vivo kidney. In mpkDCT cells, the phosphorylation of OSR1 and NCC was increased 30 min after the addition of angiotensin II (10^-9-10⁻⁷ M) but returned to baseline after 18 h. In mice, a 5-min infusion of angiotensin II (5 ng/g/min) increased NCC phosphorylation in the kidney at 30 min and 2 h after the injection but returned to baseline 24 h later. This increase was inhibited by angiotensin II receptor blocker (valsartan) but not by aldosterone receptor blocker (eplerenone). Ten-day infusions of angiotensin II (720 ng/day) also increased phosphorylation of OSR1 and NCC in the mouse kidney, and both valsartan and eplerenone inhibited the increased phosphorylation. Although angiotensin II is identified as an upstream regulator for the WNK-OSR1/SPAK-NCC cascade in vivo, aldosterone appears to be the major regulator of this signal cascade in the long-term regulation by angiotensin II.     

[3H]A-69024: A non-benzazepine ligand for in vitro and in vivo studies of dopamine d1 receptors

[³H]A-69024 has been prepared as a radioligand for studying the dopamine D₁ receptor. [³H]A-69024 binds to rat striatal membranes with a K_D = 14.3 ± 3.2 nM (mean ± SEM; n = 3) and B_max = 63.5 ± 12.8 fmol/mg wet tissue (1.8 ± 0.3 pmol/mg protein). This ligand binds to only one site with a Hill coefficient close to unity. The in vivo biodistribution of [³H]A-69024 showed a high uptake in the striatum (5.9 %ID/g) at 5 min followed by clearance. As a measure of specificity, the striatum/cerebellar ratio reached a maximum of 6.7 at 30 min post-injection. Pre-treatment with the D₁ antagonist R(+)SCH 23390 (1 mg/kg) reduced this ratio to unity. The dopamine antagonist (+)butaclamol and unlabeled A-69024 inhibited striatal uptake by 70 and 51%, respectively. Spiperone (D₂/5-HT_2A) and ketanserin (5-HT_2A/5-HT_2C) at doses of 1 mg/kg had no inhibitory effect on [³H]A-69024 uptake in the striatum; however, increased uptake of [³H]A-69024 by > 30% in the whole brain was observed. The selectivity and affinity of [³H]A-69024 suggests that this non-benzazepine radioligand may be useful for in vitro and in vivo studies of the dopamine D₁ receptor.     

Synthesis and in vivo characterization of d-(+)-(N1-[11C]methyl)-2-Br-LSD: a radioligand for positron emission tomographic studies of serotonin 5-HT2 receptors

d-(+)-Nl-Methyl-2-Br-LSD (MBL), which displays high affinity and selectivity for serotonin receptors in vitro, has been labeled with carbon-11 for localization of cerebral serotonin 5-HT₂ receptors by positron emission tomography. [¹¹C]MBL was prepared from [¹¹C]iodomethane and d-(+)-2-Br-LSD within 20 min from end of bombardment. The average specific activity of [¹¹C]MBL was 2300 mCi/μ mol and the average radiochemical yield was 17%, both at end of synthesis. The in vivo regional distribution of radioactivity in brain after i.v. administration of [¹¹C]MBL to mice paralleled the known density of serotonin 5-HT₂ receptors. The maximum specific binding, defined by a frontal cortex to cerebellum radioactivity concentration ratio of 5.4 to 1, was reached 30 min postinjection. Administration of ketanserin, a potent serotonin 5-HT₂ receptor antagonist, markedly blocked radioligand binding in all brain regions examined except cerebellum.     

Preclinical comparison study between [18F]fluoromethyl-PBR28 and its deuterated analog in a rat model of neuroinflammation

We designed and synthesized deuterium-substituted [¹⁸F]fluoromethyl-PBR28 ([¹⁸F]1-d₂) as a novel translocator protein 18?kDa (TSPO)-targeted radioligand with enhanced in vivo stability. The comparison studies between [¹⁸F]fluoromethyl-PBR28 ([¹⁸F]1) and its deuterate analog ([¹⁸F]1-d₂) were investigated in terms of in vitro binding affinity, lipophilicity and in vivo stability. In addition, the accuracies of both radioligands were determined by comparing the PET imaging data in the same LPS-induced neuroinflammation rat model. Both aryloxyanilide analogs showed similar lipophilicity and in vitro affinity for TSPO. However, [¹⁸F]1-d₂ provided significantly lower femur uptake than [¹⁸F]1 (1.5?±?1.2 vs. 4.1?±?1.7%ID/g at 2?h post-injection) in an ex vivo biodistribution study. [¹⁸F]1-d₂ was also selectively accumulated in the inflammatory lesion with the binding potential of the specifically bound radioligand relative to the non-displaceable radioligand in tissue (BP_ND?=?3.17?±?0.48), in a LPS-induced acute neuroinflammation rat model, comparable to that of [¹⁸F]1 (BP_ND?=?2.13?±?0.51). These results indicate that [¹⁸F]1-d₂ had higher in vivo stability, which resulted in an enhanced target-to-background ratio compared to that induced by [¹⁸F]1.     

Comparison of In vivo D-2 dopamine receptor binding of IBZM and NMSP in rat brain

In vivo biodistribution of S- and R-isomers of [¹²⁵I]IBZM in rats showed a significant initial brain uptake (3.20 and 2.67% dose/organ at 2 min, respectively). The wash-out from the brain was slower for the S-isomer. The striatum to cerebellum ratio for [¹²⁵I]S-IBZM decreased with an increasing dose of cold carrier or spiperone, suggesting that the brain uptake is stereospecific and saturable, and may be related to the binding of D-2 dopamine receptors. In a dual isotope digital autoradiography study [¹²⁵I]IBZM and [³H]NMSP(N-methylspiperone) show comparable regional cerebral distribution in rats.     

Mechanisms of replenishment of nuclear and rogen receptor in rat ventral prostate

1. The concentration of androgen receptor in the nucleus of the prostatic cell is rapidly elevated by the administration in vivo of 2μg of [³H]testosterone to 1-day-castrated rats. From a concentration of 2300 receptors/nucleus at 5min after intravenous injection of hormone, there is an increase to 21000 receptors/nucleus at 60min. At the same time, the amount of binding of androgen in the cytoplasm remains constant at a relatively low value. 2. An identical dose of [³H]testosterone administered to 7-day-castrated rats produces a much smaller change in the concentration of nuclear receptor, from 700 receptors/nucleus at 5min to only 4300 receptors/nucleus at 60min. Thus the reservoir from which nuclear receptor is replenished is considerably smaller in regressed prostatic cells. Again, the amount of binding of androgen in the cytoplasm remains unchanged at a low value over the experimental time course of 60min. 3. In contrast with the scant labelling of cytoplasmic receptor achieved by injecting animals with [³H]testosterone, labelling in vitro, by incubation of tissue slices with radioisotope, indicates that prostate of 1-day-castrated animals actually contains 21400 receptors/cell in the cytoplasmic compartment, and prostate of 7-day-castrated animals 3000 receptors/cell. 4. Owing to the similarity between the concentration of nuclear receptor measured in vivo and the concentration of cytoplasmic receptor measured in vitro, the labelling techniques in vivo and in vitro were used in sequence to demonstrate the movement of most of the cytoplasmic receptor into the nucleus. In the 5–60min interval after the administration of [³H]testosterone to 1-day-castrated rats, a decrease of 17400 receptor molecules in the cytoplasm is exactly mirrored by an increase of 17200 receptor molecules in the nucleus. 5. These results imply that, in prostate of 1-day-castrated rats, nuclear receptor is replenished exclusively by translocation of cytoplasmic receptor. However, in the regressed prostate of 7-day-castrated rats, only about 25% of the nuclear receptor is replenished through translocation of existing cytoplasmic receptor. The remainder is ultimately synthesized during new rounds of cell division induced by hormone.     

Stable enhancement of calcium retention in mitochondria isolated from rat liver after the administration of glucagon to the intact animal

1. Mitochondria isolated from rat liver by centrifugation of the homogenate in buffered iso-osmotic sucrose at between 4000 and 8000g-min, 1h after the administration in vivo of 30μg of glucagon/100g body wt., retain Ca²⁺ for over 45min after its addition at 100nmol/mg of mitochondrial protein in the presence of 2mm-P_i. In similar experiments, but after the administration of saline (0.9% NaCl) in place of glucagon, Ca²⁺ is retained for 6–8min. The ability of glucagon to enhance Ca²⁺ retention is completely prevented by co-administration of 4.2mg of puromycin/100g body wt. 2. The resting rate of respiration after Ca²⁺ accumulation by mitochondria from glucagon-treated rats remains low by contrast with that from saline-treated rats. Respiration in the latter mitochondria increased markedly after the Ca²⁺ accumulation, reflecting the uncoupling action of the ion. 3. Concomitant with the enhanced retention of Ca²⁺ and low rates of resting respiration by mitochondria from glucagon-treated rats was an increased ability to retain endogenous adenine nucleotides. 4. An investigation of properties of mitochondria known to influence Ca²⁺ transport revealed a significantly higher concentration of adenine nucleotides but not of P_i in those from glucagon-treated rats. The membrane potential remained unchanged, but the transmembrane pH gradient increased by approx. 10mV, indicating increased alkalinity of the matrix space. 5. Depletion of endogenous adenine nucleotides by P_i treatment in mitochondria from both glucagon-treated and saline-treated rats led to a marked diminution in ability to retain Ca²⁺. The activity of the adenine nucleotide translocase was unaffected by glucagon treatment of rats in vivo. 6. Although the data are consistent with the argument that the Ca²⁺-translocation cycle in rat liver mitochondria is a target for glucagon action in vivo, they do not permit conclusions to be drawn about the molecular mechanisms involved in the glucagon-induced alteration to this cycle.     

Radiosynthesis and evaluation of [11C]CMP,a high affinity GSK3 ligand

Dysfunction of GSK3 is implicated in the etiology of many brain, inflammatory, cardiac diseases, and cancer. PET imaging would enable in vivo detection and quantification of GSK3 and can impact the choice of therapy, allow non-invasive monitoring of disease progression and treatment effects. In this report, the synthesis and evaluation of a high affinity GSK3 ligand, [¹¹C]2-(cyclopropanecarboxamido)-N-(4-methoxypyridin-3-yl)isonicotinamide, ([¹¹C]CMP, (3), (IC₅₀?=?3.4?nM, LogP?=?1.1) is described. [¹¹C]CMP was synthesized in 25?±?5% yield by radiomethylating the corresponding phenolate using [¹¹C]CH₃I. The radioligand exhibited modest uptake in U251 human glioblastoma cell lines with ～50% specific binding. MicroPET studies in rats indicated negligible blood–brain barrier (BBB) penetration of [¹¹C]CMP, despite its high affinity and suitable logP value for BBB penetration. However, administration of cyclosporine prior to [¹¹C]CMP injection showed significant improvement in brain radioactivity uptake and the tracer binding. This finding indicates that [¹¹C]CMP might be a P-gp efflux substrate and therefore has some limitations for routine in vivo PET evaluations in brain.     

Synthesis and biodistribution of a new radiotracer for in vivo labeling of serotonin uptake sites by PET,cis-N,N-[11C]dimethyl-3-(2′,4′-dichlorophenyl)-indanamine (cis-[11C]DDPI)

A new PET radiotracer for in vivo labeling of serotonin (5-HT) uptake sites, cis-N, N-[¹¹C]dimethyl-3-(2′,4′-dichlorophenyl)-indanamine, cis-[¹¹C]DDPI, was synthesized and its biological behavior was studied. The radiosynthesis of cis-[¹¹C]DDPI was performed by N-methylation of cis-N-methyl-3-(2′,4′-dichlorophenyl)-indanamine with [¹¹C]iodomethane. The average radiochemical yield was approx. 8%, with an average specific activity of 600mCi/μmol. Following intravenous administration, cis-[¹¹C]DDPI accumulated in mouse brain regions rich in 5-HT uptake sites, such as olfactory tubercles, hypothalamus and frontal cortex. Following pre-injection of 1 mg/kg of paroxetine, a high affinity 5-HT uptake blocker, the binding of cis-[¹¹C]DDPI in the olfactory tubercles, hypothalamus and frontal cortex was decreased by 23, 25 and 16%; this corresponds to 73, 82 and 59% of the specific binding in these regions. These results suggest that the accumulation of cis-[¹¹C]DDPI in the tissues rich in 5-HT sites is a result of specific binding of cis-[¹¹C]DDPI to 5-HT uptake sites. Due to the relatively high non-specific uptake and slow clearance of this compound from non-specific binding sites, the ratio between specific and non-specific binding increased slowly with time, reaching 1.5:1 at 60 min after injection.     

In Vivo Differences between Two Optical Isomers of Radioiodinated o-iodo-trans-decalinvesamicol for Use as a Radioligand for the Vesicular Acetylcholine Transporter

Purpose

To develop a superior VAChT imaging probe for SPECT, radiolabeled (-)-OIDV and (+)-OIDV were isolated and investigated for differences in their binding affinity and selectivity to VAChT, as well as their in vivo activities.

Procedures

Radioiodinated o-iodo-trans-decalinvesamicol ([¹²⁵I]OIDV) has a high binding affinity for vesicular acetylcholine transporter (VAChT) both in vitro and in vivo. Racemic [¹²⁵I]OIDV was separated into its two optical isomers (-)-[¹²⁵I]OIDV and (+)-[¹²⁵I]OIDV by HPLC. To investigate VAChT binding affinity (Ki) of two OIDV isomers, in vitro binding assays were performed. In vivo biodistribution study of each [¹²⁵I]OIDV isomer in blood, brain regions and major organs of rats was performed at 2,30 and 60 min post-injection. In vivo blocking study were performed to reveal the binding selectivity of two [¹²⁵I]OIDV isomers to VAChT in vivo. Ex vivo autoradiography were performed to reveal the regional brain distribution of two [¹²⁵I]OIDV isomers and (-)-[¹²³I]OIDV for SPECT at 60 min postinjection.

Results

VAChT binding affinity (Ki) of (-)-[¹²⁵I]OIDV and (+)-[¹²⁵I]OIDV was 22.1 nM and 79.0 nM, respectively. At 2 min post-injection, accumulation of (-)-[¹²⁵I]OIDV was the same as that of (+)-[¹²⁵I]OIDV. However, (+)-[¹²⁵I]OIDV clearance from the brain was faster than (-)-[¹²⁵I]OIDV. At 30 min post-injection, accumulation of (-)-[¹²⁵I]OIDV (0.62 ± 0.10%ID/g) was higher than (+)-[¹²⁵I]OIDV (0.46 ± 0.07%ID/g) in the cortex. Inhibition of OIDV binding showed that (-)-[¹²⁵I]OIDV was selectively accumulated in regions known to express VAChT in the rat brain, and ex vivo autoradiography further confirmed these results showing similar accumulation of (-)-[¹²⁵I]OIDV in these regions. Furthermore, (-)-[¹²³I]OIDV for SPECT showed the same regional brain distribution as (-)-[¹²⁵I]OIDV.

Conclusion

These results suggest that radioiodinated (-)-OIDV may be a potentially useful tool for studying presynaptic cholinergic neurons in the brain.     

Improved monoclonal antibody tumor/background ratios with exchange transfusions

Blood exchange transfusions were performed in nude rats with subcutaneous HTB77 human ovarian carcinoma xenografts in an attempt to improve specific monoclonal antibody (MoAb) tumor/non-tumor uptake ratios. Animals were injected intravenously with both ¹³¹I-5G6.4 specific and ¹²⁵I-UPC-10 non-specific MoAb. Twenty-four hours later 65–80% of the original blood was exchanged with normal heparinized rat blood and then these rodents were sacrificed. Exchange transfusion significantly (P < 0.05) decreased normal tissue activities of ¹³¹I (except for muscle) by 63–85%. while tumor activity decreased only 5%. Tumor to background ratios increased from 0.1–0.8 to 2.3–6.3. Exchange transfusions substantially enhance tumor/normal tissue antibody uptake ratios and, along with plasmapheresis, may be useful in enhancing antibody localization in vivo, particularly for therapy.     

In vivo evaluation of [18F]FECIMBI-36, an agonist 5-HT2A/2C receptor PET radioligand in nonhuman primate

We recently reported the radiosynthesis and in vitro evaluation of [¹⁸F]-2-(4-bromo-2,5-dimethoxyphenyl)-N-(2-(2-fluoroethoxy)benzyl)ethanamine, ([¹⁸F]FECIMBI-36) or ([¹⁸F]1), an agonist radioligand for 5HT_2A/2C receptors in postmortem samples of human brain. Herein we describe the in vivo evaluation of [¹⁸F]FECIMBI-36 in vervet/African green monkeys by PET imaging. PET images show that [¹⁸F]FECIMBI-36 penetrates the blood-brain barrier and a low retention of radioactivity is observed in monkey brain. Although the time activity curves indicate a somehow heterogeneous distribution of the radioligand in the brain, the low level of [¹⁸F]FECIMBI-36 in brain may limit the use of this tracer for quantification of 5-HT_2A/2C receptors by PET.     

Synthesis and binding characteristics of tritiated tipp[Φ], a highly specific and stable delta opioid antagonist

The pseudopeptide H-Tyr-TicΦ[CH₂-NH]Phe-Phe-OH (TIPP[Φ]) is a δ opioid antagonist with high δ receptor affinity and unprecedented δ selectivity. TIPP[Φ] was radiolabelled by catalytic tritiation of its precursor [Tyr(3′,5′-I₂)¹]TIPP[Φ]. The resulting radioligand, [³H]TIPP[Φ], had a specific activity of 1.77 TBq/mmol (47.9 Ci/mmol) and showed high stability against enzymatic degradation. [³H]TIPP[Φ] binding to rat brain membranes was saturable and Scatchard analysis indicated a single binding site with a K_d of 0.98 nM and a B_max of 105.4 fmol/mg. A study of [³H]TIPP[Φ] binding displacement by various receptor-selective opioids showed the expected rank order of potency (δ ⪢ μ > κ). [³H]TIPP[Φ] represents an excellent new radioligand for δ receptor labelling studies in vitro and in vivo.