Syntheses and in vitro evaluation of decalinvesamicol analogues as potential imaging probes for vesicular acetylcholine transporter (VAChT)

A series of vesamicol analogues, o-iodo-trans-decalinvesamicol (OIDV) or o-bromo-trans-decalinvesamicol (OBDV), were synthesized and their affinities to vesicular acetylcholine transporter (VAChT) and σ receptors (σ-1, σ-2) were evaluated by in vitro binding assays using rat cerebral or liver membranes. OIDV and OBDV showed greater binding affinity to VAChT (K(i)=20.5±5.6 and 13.8±1.2nM, respectively) than did vesamicol (K(i)=33.9±18.1nM) with low affinity to σ receptors. A saturation binding assay in rat cerebral membranes revealed that [(125)I]OIDV had a single high affinity binding site with a K(d) value of 1.73nM and a B(max) value of 164.4fmol/mg protein. [(125)I]OIDV revealed little competition with inhibitors, which possessed specific affinity to each σ (σ-1 and σ-2), serotonin (5-HT(1A) and 5-HT(2A)), noradrenaline, and muscarinic acetylcholine receptors. In addition, BBB penetration of [(125)I]OIDV was verified in in vivo. The results of the binding studies indicated that OIDV and OBDV had great potential to be VAChT imaging probes with high affinity and selectivity.     

Synthesis and in vitro autoradiographic evaluation of a novel high-affinity radioiodinated ligand for imaging brain cannabinoid subtype-1 receptors

There is strong interest to study the involvement of brain cannabinoid subtype-1 (CB₁) receptors in neuropsychiatric disorders with single photon emission computed tomography (SPECT) and a suitable radioligand. Here we report the synthesis of a novel high-affinity radioiodinated CB₁ receptor ligand ([¹²⁵I]8, [¹²⁵I]1-(2-iodophenyl)-4-cyano-5-(4-methoxyphenyl)-N-(piperidin-1-yl)-1H-pyrazole-3-carboxylate, [¹²⁵I]SD7015). By autoradiography in vitro, [¹²⁵I]8 showed selective binding to CB₁ receptors on human brain postmortem cryosections and now merits labeling with iodine-123 for further evaluation as a SPECT radioligand in non-human primate.     

Bacterial Thymidine Kinase as a Non-Invasive Imaging Reporter for Mycobacterium tuberculosis in Live Animals

Background

Bacteria can be selectively imaged in experimentally-infected animals using exogenously administered 1-(2′deoxy-2′-fluoro-β-D-arabinofuranosyl)-5-[¹²⁵I]-iodouracil ([¹²⁵I]-FIAU), a nucleoside analog substrate for bacterial thymidine kinase (TK). Our goal was to use this reporter and develop non-invasive methods to detect and localize Mycobacterium tuberculosis.

Methodology/Principal Findings

We engineered a M. tuberculosis strain with chromosomally integrated bacterial TK under the control of hsp60 - a strong constitutive mycobacterial promoter. [¹²⁵I]FIAU uptake, antimicrobial susceptibilities and in vivo growth characteristics were evaluated for this strain. Using single photon emission computed tomography (SPECT), M. tuberculosis P_hsp60 TK strain was evaluated in experimentally-infected BALB/c and C3HeB/FeJ mice using the thigh inoculation or low-dose aerosol infection models. M. tuberculosis P_hsp60 TK strain actively accumulated [¹²⁵I]FIAU in vitro. Growth characteristics of the TK strain and susceptibility to common anti-tuberculous drugs were similar to the wild-type parent strain. M. tuberculosis P_hsp60 TK strain was stable in vivo and SPECT imaging could detect and localize this strain in both animal models tested.

Conclusion

We have developed a novel tool for non-invasive assessment of M. tuberculosis in live experimentally-infected animals. This tool will allow real-time pathogenesis studies in animal models of TB and has the potential to simplify preclinical studies and accelerate TB research.     

In vitro characterization of radioiodinated (+)-2-[4-(4-iodophenyl) piperidino]cyclohexanol [(+)-pIV] as a sigma-1 receptor ligand

We investigated the binding characteristics of a (+)-enantiomer of radioiodinated 2-[4-(4-iodophenyl)piperidino]cyclohexanol [(+)-[125I]pIV], radioiodinated at the para-position of the 4-phenylpiperidine moiety, to sigma receptors (sigma-1, sigma-2) and to vesicular acetylcholine transporters (VAChT) in membranes of the rat brain and liver. In competitive inhibition studies, (+)-pIV (Ki=1.30 nM) had more than 10 times higher affinity to the sigma-1 (sigma-1) receptor than (+)-pentazocine (Ki=19.9 nM) or haloperidol (Ki=13.5 nM) known as sigma ligands. Also, the binding affinity of (+)-pIV for the sigma-1 receptor (Ki=1.30 nM), was about 16 times higher than the sigma-2 (sigma-2) receptor (Ki=20.4 nM). (+)-pIV (Ki=1260 nM) had a much lower affinity for VAChT than (-)-vesamicol (Ki=13.0 nM) or (-)-pIV (Ki=412 nM). (+)-[125I]pIV had low affinity for the dopamine, serotonin, adrenaline, and acetylcholine receptors. Furthermore, in a saturation binding study, (+)-[125I]pIV exhibited a K) of 6.96 nM with a Bmax of 799 fmol/mg of protein. These results showed that (+)-pIV binds to the sigma-1 receptor with greater affinity than sigma receptor ligands such as (+)-pentazocine or haloperidol, and that radioiodinated (+)-pIV is suitable as radiotracer for sigma-1 receptor studies in vitro.     

Characterization of radioiodinated (-)-ortho-iodovesamicol binding in rat brain preparations

We investigated the binding characteristics of optical isomers of three iodovesamicol analogs to vesicular acetylcholine transporters (VAChT) and to sigma receptors (sigma-1, sigma-2) in rat brains. In competitive inhibition studies, (-)-enantiomers [(-)-ortho-iodovesamicol ((-)-oIV), (-)-meta-iodovesamicol ((-)-mIV), (-)-vesamicol] displayed a higher affinity for VAChT than (+)-enantiomer [(+)-oIV, (+)-mIV, (+)-vesamicol]. (-)-oIV and (-)-mIV showed the same high affinity for VAChT as (-)-vesamicol. For sigma receptors(sigma-1, sigma-2), (-)-oIV (Ki = 62.2 nM (to sigma-1) and 554 nM(to sigma-2)) showed a lower affinity than (-)-mIV (Ki = 4.5 nM (to sigma-1) and 42.9 nM (to sigma-2)). Furthermore, in a saturation binding study, (-)-[125I]-oIV exhibited a Kd of 17.4 +/- 5.1 nM with a maximum number of binding sites, Bmax, of 559 +/- 51 fmol/ mg of protein. These results showed that (-)-oIV binds to vesicular acetylcholine transporters (VAChT) more selectively than (-)-mIV, previously reported as a VAChT mapping agent, and may be suitable for VAChT imaging studies.     

Assessment of [125I]WYE-230949 as a Novel Histamine H3 Receptor Radiopharmaceutical

Histamine H₃ receptor therapeutics have been proposed for several diseases such as schizophrenia, attention deficit hyperactivity disorder, Alzheimer''s disease and obesity. We set out to evaluate the novel compound, [¹²⁵I]WYE-230949, as a potential radionuclide imaging agent for the histamine H₃ receptor in brain. [¹²⁵I]WYE-230949 had a high in vitro affinity for the rat histamine H₃ receptor (K_d of 6.9 nM). The regional distribution of [¹²⁵I]WYE-230949 binding sites in rat brain, demonstrated by in vitro autoradiography, was consistent with the known distribution of the histamine H₃ receptor. Rat brain uptake of intravenously injected [¹²⁵I]WYE-230949 was low (0.11 %ID/g) and the ratio of specific: non-specific binding was less than 1.4, as determined by ex vivo autoradiography. In plasma, metabolism of [¹²⁵I]WYE-230949 into a less lipophilic species occurred, such that less than 38% of the parent compound remained 30 minutes after injection. Brain uptake and metabolism of [¹²⁵I]WYE-230949 were increased and specific binding was reduced in anaesthetised compared to conscious rats. [¹²⁵I]WYE230949 is not a potential radiotracer for imaging rat histamine H₃ receptors in vivo due to low brain uptake, in vivo metabolism of the parent compound and low specific binding.     

Synthesis and biological evaluation of indole-chalcone derivatives as β-amyloid imaging probe

A series of chaclone derivatives containing an indole moiety were evaluated in competitive binding assays with Aβ_1-42 aggregates versus [¹²⁵I]IMPY. The affinity of these compounds ranged from 4.46 to >1008 nM, depending on the substitution on the phenyl ring. Fluorescent staining in vitro showed that one compound with a N,N-dimethylamino group intensely stained Aβ plaques within brain sections of AD transgenic mice. The radioiodinated probe [¹²⁵I]-(E)-3-(1H-indol-5-yl)-1-(4-iodophenyl)prop-2-en-1-one, [¹²⁵I]4, was prepared and autoradiography in sections of brain tissue from an animal model of AD showed that it labeled Aβ plaques specifically. However, experiments with normal mice indicated that [¹²⁵I]4 exhibited a low uptake into the brain in vivo (0.41% ID/g at 2 min). Additional chemical modifications of this indole-chalcone structure may lead to more useful imaging agents for detecting β-amyloid plaques in the brains of AD patients.     

Synthesis and evaluation of ethyleneoxylated and allyloxylated chalcone derivatives for imaging of amyloid β plaques by SPECT

We report radioiodinated chalcone derivatives as new SPECT imaging probes for amyloid β (Aβ) plaques. The monoethyleneoxy derivative 2 and allyloxy derivative 8 showed a high affinity for Aβ(1–42) aggregates with K_i values of 24 and 4.5 nM, respectively. Fluorescent imaging demonstrated that 2 and 8 clearly stained thioflavin-S positive Aβ plaques in the brain sections of Tg2576 transgenic mice. In vitro autoradiography revealed that [¹²⁵I]2 displayed no clear accumulation toward Aβ plaques in the brain sections of Tg2576 mice, whereas the accumulation pattern of [¹²⁵I]8 matched with the presence of Aβ plaques both in the brain sections of Tg2576 mice and an AD patient. In biodistribution studies using normal mice, [¹²⁵I]2 showed preferable in vivo pharmacokinetics (4.82%ID/g at 2 min and 0.45%ID/g at 60 min), while [¹²⁵I]8 showed only a modest brain uptake (1.62%ID/g at 2 min) with slow clearance (0.56%ID/g at 60 min). [¹²⁵I]8 showed prospective binding properties for Aβ plaques, although further structural modifications are needed to improve the blood brain barrier permeability and washout from brain.     

In vitro binding properties and autoradiographic imaging of 3-iodobenzamide ([125I]-IBZM): a potential imaging ligand for D-2 dopamine receptors in SPECT

The in vitro binding properties of the [125I] labeled benzamide (S(-)-N-[(1-ethyl-2-pyrrolidinyl)-methyl]-2-hydroxy-3-iodo-6-methoxy- benzamide, IBZM) were determined in bovine and mouse caudate membrane homogenates and by autoradiography of mouse brain slices. [125I]-IBZM binding is saturable and reversible with a Bmax of 373 +/- 51 fmol/mg protein and a Kd of 3.1 +/- 0.62 nM (mean +/- SD, Scatchard analyses) and 0.56 nM as calculated by association and dissociation time constants. In competition experiments, Ki values for the D-2 antagonists YM-09151-2 and spiperone are 4 orders of magnitude lower than the Ki value for the D-1 antagonist SCH-23390 and S(-)-IBZM is ten-fold more potent than R(+)-IBZM. [125I]-IBZM has a low affinity for serotonin S-2 and for alpha receptors. Therefore, it is a highly selective ligand for dopamine D-2 receptors. Autoradiographic images of brain sections incubated with [125I]-IBZM show the dopamine D-2 receptors of the striatum, nucleus accumbens and olfactory tubercle with a high ratio of specific to nonspecific binding. Thus, S(-)-IBZM, when labeled with [123I], may be useful for in vivo imaging of dopamine D-2 receptors by single photon emission computerized tomography (SPECT).     

Evaluation of 89Zr-Labeled Human Anti-CD147 Monoclonal Antibody as a Positron Emission Tomography Probe in a Mouse Model of Pancreatic Cancer

Introduction

Pancreatic cancer is an aggressive cancer and its prognosis remains poor. Therefore, additional effective therapy is required to augment and/or complement current therapy. CD147, high expression in pancreatic cancer, is involved in the metastatic process and is considered a good candidate for targeted therapy. CD147-specfic imaging could be useful for selection of appropriate patients. Therefore, we evaluated the potential of a fully human anti-CD147 monoclonal antibody 059-053 as a new positron emission tomography (PET) probe for pancreatic cancer.

Methods

CD147 expression was evaluated in four pancreatic cancer cell lines (MIA Paca-2, PANC-1, BxPC-3, and AsPC-1) and a mouse cell line A4 as a negative control. Cell binding, competitive inhibition and internalization assays were conducted with ¹²⁵I-, ⁶⁷Ga-, or ⁸⁹Zr-labeled 059-053. In vivo biodistribution of ¹²⁵I- or ⁸⁹Zr-labeled 059-053 was conducted in mice bearing MIA Paca-2 and A4 tumors. PET imaging with [⁸⁹Zr]059-053 was conducted in subcutaneous and orthotopic tumor mouse models.

Results

Among four pancreatic cancer cell lines, MIA Paca-2 cells showed the highest expression of CD147, while A4 cells had no expression. Immunohistochemical staining showed that MIA Paca-2 xenografts also highly expressed CD147 in vivo. Radiolabeled 059-053 specifically bound to MIA Paca-2 cells with high affinity, but not to A4. [⁸⁹Zr]059-053 uptake in MIA Paca-2 tumors increased with time from 11.0±1.3% injected dose per gram (ID/g) at day 1 to 16.9±3.2% ID/g at day 6, while [¹²⁵I]059-053 uptake was relatively low and decreased with time, suggesting that 059-053 was internalized into tumor cells in vivo and ¹²⁵I was released from the cells. PET with [⁸⁹Zr]059-053 clearly visualized subcutaneous and orthotopic tumors.

Conclusion

[⁸⁹Zr]059-053 is a promising PET probe for imaging CD147 expression in pancreatic cancer and has the potential to select appropriate patients with CD147-expressing tumors who could gain benefit from anti-CD147 therapy.     

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 characterization of radioiodinated 3-phenethyl-2-indolinone derivatives for SPECT imaging of survivin in tumors

Survivin, overexpressed in most cancers, is associated with poor prognosis and resistance to radiation therapy and chemotherapy. Herein, we report the synthesis of three 3-phenethyl-2-indolinone derivatives and their application as in vivo imaging agents for survivin. Of these, 3-(2-(benzo[d][1,3]dioxol-5-yl)-2-oxoethyl)-3-hydroxy-5- iodoindolin-2-one (IPI-1) showed the highest binding affinity (K_d?=?68.3?nM) to recombinant human survivin, as determined by quartz crystal microbalance (QCM). In vitro studies demonstrated that the [¹²⁵I]IPI-1 binding in survivin-positive MDA-MB-231 cells was significantly higher than that in survivin-negative MCF-10A cells. In addition, uptake of [¹²⁵I]IPI-1 by MDA-MB-231 cells decreased in a dose-dependent manner in the presence of the high-affinity survivin ligand S12; this is indicative of specific binding of [¹²⁵I]IPI-1 to cellular survivin protein in vitro. Biodistribution studies in MDA-MB-231 tumor-bearing mice demonstrated the moderate uptake of [¹²⁵I]IPI-1 in the tumor tissue (1.37%?ID/g) at 30?min that decreased to 0.32%?ID/g at 180?min. Co-injection of S12 (2.5?mg/kg) slightly reduced tumor uptake and the tumor/muscle ratio of [¹²⁵I]IPI-1. Although further structural modifications are necessary to improve pharmacokinetic properties, our results indicate that PI derivatives may be useful as tumor-imaging probes targeting survivin.     

Radiosynthesis and evaluation of a fluorine-18 labeled radioligand targeting vesicular acetylcholine transporter

Vesicular acetylcholine transporter (VAChT) is a reliable biomarker for assessing the loss of cholinergic neurons in the brain that is associated with cognitive impairment of patients. 5-Hydrotetralin compound (±)-5-OH-VAT is potent (K_i?=?4.64?±?0.32?nM) and selective for VAChT (>1800-fold and 398-fold for σ₁ and σ₂ receptor, respectively) with favorable hydrophilicity (LogD?=?1.78), while (?)-5-OH-VAT originally serves as the radiolabeling precursor of (?)-[¹⁸F]VAT, a promising VAChT radiotracer with a logD value of 2.56. To evaluate (?)-5-OH-[¹⁸F]VAT as a radiotracer for VAChT, we performed in vitro binding assay to determine the potency of the minus enantiomer (?)-5-OH-VAT and plus enantiomer (+)-5-OH-VAT, indicating that (?)-5-OH-VAT is a more potent VAChT enantiomer. Radiosynthesis of (?)-5-OH-[¹⁸F]VAT was explored using three strategies. (?)-5-OH-[¹⁸F]VAT was achieved with a good yield (24?±?6%) and high molar activity (～37?GBq/µmol, at the end of synthesis) using a microwave assisted two-step one-pot procedure that started with di-MOM protected nitro-containing precursor (?)-6. MicroPET studies in the brain of nonhuman primate (NHP) suggest that (?)-5-OH-[¹⁸F]VAT readily penetrated the blood brain barrier and specifically accumulated in the VAChT-enriched striatum with improved washout kinetics from striatum compared to [¹⁸F]VAT. Nevertheless, the lower target to non-target ratio may limit its use for in vivo measurement of the VAChT level in the brain.     

Synthesis and in vitro evaluation of N-substituted aza-trozamicol analogs as vesicular acetylcholine transporter ligands

As dysfunction of cerebral cholinergic neurotransmission is one of the main features in patients with Alzheimer's disease, in vivo imaging of the vesicular acetylcholine transporter (VAChT) can be of great value for the early diagnosis of this disease. Two series of positional isomers of m-iodobenzyltrozamicol (MIBT): 3-hydroxy-4-(N-phenylpiperazinyl)piperidine and 4-hydroxy-3-(N-phenylpiperazinyl)piperidine substituted by benzyl, aryl, alkyl or vinyl groups at the nitrogen have been synthesized. These compounds have been evaluated in vitro by competition studies and five compounds (N-benzyl derivatives) showed high affinity for the VAChT (11nM相似文献   

Development of a Radiolabeled Peptide-Based Probe Targeting MT1-MMP for Breast Cancer Detection

Breast cancer is one of the most frequent and aggressive primary tumors among women of all races. Matrix metalloproteinase (MMPs), a family of zinc- and calcium-dependent secreted or membrane anchored endopeptidases, is overexpressed in varieties of diseases including breast cancer. Therefore, noninvasive visualization and quantification of MMP in vivo are of great interest in basic research and clinical application for breast cancer early diagnosis. Herein, we developed a ^99mTc labeled membrane type I matrix metalloproteinase (MT1-MMP) specific binding peptide, [^99mTc]-(HYNIC-AF7p)(tricine)(TPPTS), for in vivo detection of MDA-MB-231 breast tumor by single photon emission computed tomography (SPECT). [^99mTc]-(HYNIC-AF7p)(tricine)(TPPTS) demonstrated nice biostability and high MT1-MMP binding affinity in vitro and in vivo. Tumor-to-muscle ratio was found to reach to the highest (4.17±0.49) at 2 hour after intravenously administration of [^99mTc]-(HYNIC-AF7P)(tricine)(TPPTS) into MDA-MB-231 tumor bearing mice. Overall, [^99mTc]-(HYNIC-AF7P)(tricine)(TPPTS) demonstrated great potential for MT1-MMP targeted detection in vivo and it would be a promising molecular imaging probe that are probably beneficial to breast cancer early diagnoses.     

Reduction of [11C](+)3-MPB Binding in Brain of Chronic Fatigue Syndrome with Serum Autoantibody against Muscarinic Cholinergic Receptor

Background

Numerous associations between brain-reactive antibodies and neurological or psychiatric symptoms have been proposed. Serum autoantibody against the muscarinic cholinergic receptor (mAChR) was increased in some patients with chronic fatigue syndrome (CFS) or psychiatric disease. We examined whether serum autoantibody against mAChR affected the central cholinergic system by measuring brain mAChR binding and acetylcholinesterase activity using positron emission tomography (PET) in CFS patients with positive [CFS(+)] and negative [CFS(−)] autoantibodies.

Methodology

Five CFS(+) and six CFS(−) patients, as well as 11 normal control subjects underwent a series of PET measurements with N-[¹¹C]methyl-3-piperidyl benzilate [¹¹C](+)3-MPB for the mAChR binding and N-[¹¹C]methyl-4-piperidyl acetate [¹¹C]MP4A for acetylcholinesterase activity. Cognitive function of all subjects was assessed by neuropsychological tests. Although the brain [¹¹C](+)3-MPB binding in CFS(−) patients did not differ from normal controls, CFS(+) patients showed significantly lower [¹¹C](+)3-MPB binding than CFS(−) patients and normal controls. In contrast, the [¹¹C]MP4A index showed no significant differences among these three groups. Neuropsychological measures were similar among groups.

Conclusion

The present results demonstrate that serum autoantibody against the mAChR can affect the brain mAChR without altering acetylcholinesterase activity and cognitive functions in CFS patients.     

Upregulation of (+)-7-Hydroxy-N,N-di-n-[3H]Propyl-2-Aminotetralin Binding Following Intracerebroventricular Administration of a Nitric Oxide Generator

Nitric oxide modulation of dopamine D₂ and D₃ receptor binding was examined using [¹²⁵I]epidepride (D₂) and (+)7-hydroxy-N,N-di-n-[³H]propyl-2-aminotetralin([³H](+)-7-OH-DPAT, D₃). Nitric oxide, generated by i.c.v. injection of S-nitroso-N-acetyl-penicillamine (SNAP; 5 g or 10 g), significantly increased the density of [³H](+)-7-OH-DPAT binding sites (39% and 134%, respectively) in the striatum 24 hours post-injection in the absence of Gpp(NH)p, representing an upregulation of either D₃, receptors or high affinity D₂ receptors. In the presence of 10 M Gpp(NH)p, D₃ receptor upregulation was maintained in both the 5 g (increased 35%) and 10 g SNAP (increased 44%) groups. [³H](+)-7-OH-DPAT binding was reduced in both striatum and nucleus accumbens in the presence of 10 M Gpp(NH)p compared to binding in the absence of Gpp(NH)p, suggesting an upregulation of D₃ receptors. Administration of SNAP did not alter total specific [¹²⁵I]epidepride binding in either brain region. These data suggest that; 1) D₃ receptor density is modified following nitric oxide generation, and 2) the density of high affinity D₂ receptors identified by [³H](+)-7-OH-DPAT increases in the striatum, but decreases in the nucleus accumbens.     

Synthesis of [I]iodoDPA-713: A new probe for imaging inflammation

[¹²⁵I]IodoDPA-713 [¹²⁵I]1, which targets the translocator protein (TSPO, 18 kDa), was synthesized in seven steps from methyl-4-methoxybenzoate as a tool for quantification of inflammation in preclinical models. Preliminary in vitro autoradiography and in vivo small animal imaging were performed using [¹²⁵I]1 in a neurotoxicant-treated rat and in a murine model of lung inflammation, respectively. The radiochemical yield of [¹²⁵I]1 was 44 ± 6% with a specific radioactivity of 51.8 GBq/μmol (1400 mCi/μmol) and >99% radiochemical purity. Preliminary studies showed that [¹²⁵I]1 demonstrated increased specific binding to TSPO in a neurotoxicant-treated rat and increased radiopharmaceutical uptake in the lungs of an experimental inflammation model of lung inflammation. Compound [¹²⁵I]1 is a new, convenient probe for preclinical studies of TSPO activity.     

Synthesis and evaluation of novel benzothiazole derivatives based on the bithiophene structure as potential radiotracers for β-amyloid plaques in Alzheimer’s disease

In this study, six novel benzothiazole derivatives based on the bithiophene structure were developed as potential β-amyloid probes. In vitro binding studies using Aβ aggregates showed that all of them demonstrated high binding affinities with K_i values ranged from 0.11 to 4.64 nM. In vitro fluorescent staining results showed that these compounds can intensely stained Aβ plaques within brain sections of APP/PS1 transgenic mice, animal model for AD. Two radioiodinated compounds [¹²⁵I]-2-(5′-iodo-2,2′-bithiophen-5-yl)-6-methoxybenzo[d]thiazole [¹²⁵I]10 and [¹²⁵I]-2-(2,2′-bithiophen-5-yl)-6-iodobenzo[d]thiazole [¹²⁵I]13 were successfully prepared through an iododestannylation reaction. Furthermore, in vitro autoradiography of the AD model mice brain sections showed that both [¹²⁵I]10 and [¹²⁵I]13 labeled the Aβ plaques specifically with low background. In vivo biodistribution studies in normal mice indicated that [¹²⁵I]13 exhibited high brain uptake (3.42% ID/g at 2 min) and rapid clearance from the brain (0.53% ID/g at 60 min), while [¹²⁵I]10 showed lower brain uptake (0.87% ID/g at 2 min). In conclusion, these preliminary results of this study suggest that the novel radioiodinated benzothiazole derivative [¹²⁵I]13 may be a candidate as an in vivo imaging agent for detecting β-amyloid plaques in the brain of AD patients.     

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.