PET imaging for tyrosine kinase inhibitor (TKI) biodistribution in mice.

Receptor tyrosine kinases play a critical role in cell growth, survival, and proliferation, and are considered potential molecular targets for the treatment of cancer. Although several tyrosine kinase inhibitors (TKIs), such as erlotinib and gefitinib, have demonstrated clinical efficacy via the inhibition of the epidermal growth factor receptor (EGFR), most TKIs are only effective in a small proportion of patients. Positron emission tomography (PET) imaging is a methodology of molecular imaging based on nuclear imaging. PET imaging in combination with radiolabeled TKIs improves accuracy of quantitative imaging strategies and the probability of successful drug development, and may facilitate the stratification of patients. Here, we describe a protocol for PET imaging using radiolabeled TKI in preclinical trials.

Pre-clinical validation of orthotopically-implanted pulmonary tumor by imaging with 18F-fluorothymidine-positron emission tomography/computed tomography.

The development of positron-emission tomography (PET) and X-ray computed tomography (CT) imaging has improved the detection of tumor burden and, in turn, pre-clinical drug development and clinical treatment. In pre-clinical drug development, clinically-relevant murine cancer models, such as orthotopic models of lung cancer, have provided an accurate representation of tumor burden in humans. However, evidence demonstrating the capability of imaging-guided evaluation of these clinically-relevant models is limited. Here, we combined (18)F-fluorothymidine (FLT)-PET/CT imaging and a murine model of human non-small cell lung cancer (NSCLC) to improve the accuracy of anticancer drug evaluation in pre-clinical studies. We found that FLT-PET/CT imaging enabled the progression of pulmonary tumors to be longitudinally monitored rather than FDG-PET/CT. Furthermore, in an efficacy study of a standard treatment of docetaxel in a murine lung cancer model, FLT-PET imaging detected the anticancer response earlier than volumetric analysis by CT imaging. We, thus, observed a relationship between the alteration of FLT signals and Ki-67 index in the pulmonary tumor during the period of chemotherapy. These results indicate that the combination of FLT-PET/CT imaging and an orthotopic NSCLC model is an effective strategy for evaluating clinical efficacy and potential of an anticancer agent during pre-clinical development.

Radiosynthesis, biodistribution and imaging of [11C]YM155, a novel survivin suppressant, in a human prostate tumor-xenograft mouse model.

INTRODUCTION: Sepantronium bromide (YM155) is an antitumor drug in development and is a first-in-class chemical entity, which is a survivin suppressant. We developed a radiosynthesis of [(11)C]YM155 to non-invasively evaluate its tissue and tumor distribution in mice bearing human prostate tumor xenografts. METHODS: Methods utilizing [(11)C]acetyl chloride and [(11)C]methyl triflate, both accessible with automated radiosynthesis boxes, were evaluated. The O-methylation of ethanolamine-alkolate with [(11)C]methyl triflate proved to be the key development toward a rapid and efficient process. The whole-body distribution of [(11)C]YM155 in PC-3 xenografted mice was examined using a planar positron imaging system (PPIS). RESULTS: Sufficient quantities of radiopharmaceutical grade [(11)C]YM155 were produced for our PET imaging and distribution studies. The decay corrected (EOB) radiochemical yield was 16-22%, within a synthesis time of 47 min. The radiochemical purity was higher than 99%, and the specific activity was 29-60 GBq/µmol (EOS). High uptake levels of radioactivity (%ID/g, mean±SE) were observed in tumor (0.0613±0.0056), kidneys (0.0513±0.0092), liver (0.0368±0.0043) and cecum (0.0623±0.0070). The highest tumor uptake was observed at an early time point (from 10 min after) following injection. Tumor-to-blood and tumor-to-muscle uptake ratios of [(11)C]YM155, at 40 min after injection, were 26.5 (±2.9) and 25.6 (±3.6), respectively. CONCLUSION: A rapid method for producing a radiopharmaceutical grade [(11)C]YM155 was developed. An in vivo distribution study using PPIS showed high uptake of [(11)C]YM155 in tumor tissue. Our methodology may facilitate the evaluation and prediction of response to YM155, when given as an anti-cancer agent.

Bacterial degradation and reduction in the estrogen activity of 4-nonylphenol.

Bacteria capable of degrading 4-nonylphenol (NP) were isolated and identified, and their ability to degrade NP was determined. The screening of microorganisms in river water and soil led to a collection of 23 strains of bacteria and five strains of fungi. Two strains of bacteria, identified as Pseudomonas sp. and Acidovorax sp., possessed great ability for degrading NP. The NP degradation rate of Pseudomonas sp. did not change with the NP concentration (50-100mg/L) . In contrast, the NP degradation rate of Acidovorax sp. increased with increasing NP concentration. Acidovorax sp. possessed the greatest NP degradation activity at 35°C. No NP degradation activity was observed for Pseudomonas sp. at temperatures higher than 30°C. Even when non-NP carbon sources such as glucose or sucrose were added, the NP degradation rates for both bacteria did not decrease. In addition, the estrogenic activity of NP decreased depending on the amount of NP residues determined by the yeast two-hybrid system.

Brain penetration of telmisartan, a unique centrally acting angiotensin II type 1 receptor blocker, studied by PET in conscious rhesus macaques.

INTRODUCTION: Telmisartan is a widely used, long-acting antihypertensive agent. Known to be a selective angiotensin II type 1 (AT(1)) receptor (AT(1)R) blocker (ARB), telmisartan acts as a partial agonist of peroxisome proliferator-activated receptor-gamma (PPAR-γ) and inhibits centrally mediated effects of angiotensin II in rats following peripheral administration, although the brain penetration of telmisartan remains unclear. We investigated the brain concentration and localization of telmisartan using (11)C-labeled telmisartan and positron emission tomography (PET) in conscious rhesus macaques. METHODS: Three male rhesus macaques were bolus intravenously administered [(11)C]telmisartan either alone or as a mixture with unlabeled telmisartan (1mg/kg). Dynamic PET images were acquired for 95min following administration. Blood samples were collected for the analysis of plasma concentration and metabolites, and brain and plasma concentrations were calculated from detected radioactivity using the specific activity of the administered drug preparation, in which whole blood radioactivity was used for the correction of intravascular blood radioactivity in brain. RESULTS: Telmisartan penetrated into the brain little but enough to block AT(1)R and showed a consistently increasing brain/plasma ratio within the PET scanning period, suggesting slow clearance of the compound from the brain compared to the plasma clearance. Brain/plasma ratios at 30, 60, and 90min were 0.06, 0.13, and 0.18, respectively. No marked localization according to the AT(1)R distribution was noted over the entire brain, even on tracer alone dosing. CONCLUSIONS: Telmisartan penetrated into the brain enough to block AT(1)R and showed a slow clearance from the brain in conscious rhesus macaques, supporting the long-acting and central responses of telmisartan as a unique property among ARBs.

Effect of an age-mismatched and sex-mismatched normal database on the diagnostic performance of ¹8F-FDG PET for Alzheimer's disease: the Ishikawa Brain Imaging Study.

OBJECTIVES: ¹8F-FDG PET with voxel-based statistical image analysis plays an important role in the diagnosis of Alzheimer's disease (AD). However, the effect of an age-matched and sex-matched or mismatched normal database (NDB) on the diagnostic performance of ¹8F-FDG PET has not yet been investigated systematically. The aim of this study was to determine whether an age-matched and sex-matched NDB is necessary for the detection of AD using ¹8F-FDG PET. METHODS: We generated 11 NDB sets for ¹8F-FDG PET, including six age-specific NDB sets consisting of participants ranging in age from 20 to 70 years, one age-non-specific NDB set, one age-matched NDB set, two sex-specific NDB sets, each consisting of 20 men or 20 women, and one sex-matched NDB set. The average z-scores in predefined AD-specific regions of interest of the PET images were calculated using those NDB sets and a receiver-operating characteristic analysis was carried out to assess the diagnostic performance of ¹8F-FDG PET to discriminate 46 patients with AD from 50 normal controls. RESULTS: There was no significant difference in each area under the receiver-operating characteristic curve using either age-matched/mismatched NDB sets or sex-matched/mismatched NDB sets. CONCLUSION: The diagnostic performance of ¹8F-FDG PET was rather insensitive to differences in age or sex in the NDB, indicating that exact age-matched or sex-matched NDB may not be essential for discriminating patients with AD from normal participants using ¹8F-FDG PET.

Inhibition of oligopeptide transporter suppress growth of human pancreatic cancer cells.

Oligopeptide transporters are abundantly expressed in various types of cancer cells. We here synthesized two novel dipeptides, l-phenylalanyl sarcosine (Phe-Sar) and 4-(4-methoxyphenyl)-l-phenylalanyl sarcosine (Bip(OMe)-Sar), and examined their effect on the growth of human pancreatic cancer AsPC-1 cells, which are known to highly express oligopeptide transporter PEPT1/SLC15A1. Growth of AsPC-1 cells was inhibited by these two peptides and a typical PEPT1/SLC15A1 substrate Gly-Sar. Growth inhibition by Gly-Sar, Phe-Sar and Bip(OMe)-Sar was concentration-dependent with half-maximal inhibitory concentration of 50, 0.91 and 0.55mM, respectively. These peptides also inhibited PEPT1-mediated [(3)H]Gly-Sar uptake with half-maximal inhibitory concentration of 2.6, 0.81 and 0.27mM, respectively. Thus, the rank order of the tumor cell growth inhibition by these three peptides was the same as that of PEPT1-inhibitory activity. Growth of AsPC-1 cells was also inhibited by 2-aminobicyclo(2,2,1)heptane-2-carboxylic acid (BCH), which is a typical inhibitor of amino acid transporter system L. The growth inhibition by BCH and Gly-Sar was additive, suggesting that these compounds act at distinct loci. Oligopeptide transporters thus appear to be a promising target for inhibition of pancreatic cancer progression. These results also proposed the idea that oligopeptide transporter is required for growth of AsPC-1 cells.

Evaluation of the kappa-opioid receptor-selective tracer [(11)C]GR103545 in awake rhesus macaques.

PURPOSE: The recent development in radiosynthesis of the (11)C-carbamate function increases the potential of [(11)C]GR103545, which for the last decade has been regarded as promising for imaging the kappa-opioid receptor (kappa-OR) with PET. In the present study, [(11)C]GR103545 was evaluated in awake rhesus macaques. Separate investigations were performed to clarify the OR subtype selectivity of this compound. METHODS: Regional brain uptake kinetics of [(11)C]GR103545 was studied 0-120 min after injection. The binding affinity and opioid subtype selectivity of [(11)C]GR103545 was determined in cells transfected with cloned human opioid receptors. RESULTS: In vitro binding assays demonstrated a high affinity of GR103545 for kappa-OR (K(i) = 0.02 +/- 0.01 nM) with excellent selectivity over mu-OR (6 x 10(2)-fold) and) delta-OR (2 x 10(4)-fold). PET imaging revealed a volume of distribution (V(T)) pattern consistent with the known distribution of kappa-OR, with striatum = temporal cortex > cingulate cortex > frontal cortex > parietal cortex > thalamus > cerebellum. CONCLUSION: [(11)C]GR103545 is selective for kappa-OR and holds promise for use to selectively depict and quantify this receptor in humans by means of PET.

Low-dose cytarabine and aclarubicin in combination with granulocyte colony-stimulating factor for elderly patients with previously untreated acute myeloid leukemia.

We evaluated the efficacy of low-dose cytarabine and aclarubicin combined with granulocyte colony-stimulating factor (CAG) in elderly patients with previously untreated acute myeloid leukemia. Patients aged between 60 and 70 years who were not eligible for standard chemotherapy protocols and patients aged over 70 years were all registered. Thirty-three of 68 patients (49%) achieved remission. Median disease-free survival was 10 months and overall survival was nine months. Performance status after chemotherapy in patients who achieved remission was generally favorable. The present study demonstrates that CAG therapy is efficacious and well tolerated in the majority of elderly patients.

Donepezil- and scopolamine-induced rCMRglu changes assessed by PET in conscious rhesus monkeys.

OBJECTIVE: [(18)F]Fluoro-2-deoxyglucose positron emission tomography (FDG-PET) is a useful tool for measuring the regional cerebral metabolic rate of glucose (rCMRglu), which is an index of neuronal activity. Donepezil, an acetylcholine esterase inhibitor (AChEI), has been recommended as a treatment option for patients with Alzheimer's disease (AD). We aimed to characterize the effects of donepezil on rCMRglu using FDG-PET in non-human primates. METHODS: We investigated the effects of administration of donepezil (500 microg/kg, i.m.), the non-selective muscarinic ACh receptor antagonist scopolamine (30 microg/kg, i.m.), and the coadministration of both drugs on the rCMRglu of conscious young rhesus monkeys. RESULTS: Donepezil increased the rCMRglu in all regions of interest except in the thalamus. Scopolamine treatment also increased the rCMRglu in all regions of interest except the cerebellum and thalamus. However, these effects disappeared with coadministration of the drugs. CONCLUSIONS: This PET study showed that administration of donepezil or scopolamine alone increased the rCMRglu in conscious rhesus monkeys. We also found that the donepezil-induced increase was abolished by simultaneous administration of scopolamine, suggesting that muscarinic ACh receptor function plays an important role in the effect of donepezil.

Effects of non-steroidal anti-inflammatory drugs on Abeta deposition in Abeta(1-42) transgenic C. elegans.

Although epidemiological studies have shown that long-term treatment with non-steroidal anti-inflammatory drugs (NSAIDs) may protect against Alzheimer's disease (AD), the mechanism(s) by which NSAIDs reduce the risk of AD remain to be determined. As C. elegans possess neither inflammatory cells nor the arachidonate cascade, we could evaluate the effects of NSAIDs on amyloid beta (Abeta) deposition in the absence of immune cells using Abeta-transgenic C. elegans. For this purpose, we established a strain of Abeta-transgenic C. elegans in which thioflavin S-reactive deposits are reproducibly detectable by confocal microscopy. Among the NSAIDs examined, ibuprofen and naproxen reduced the number of thioflavin S-reactive deposits. Furthermore, ibuprofen and naproxen neither affect the thioflavin S binding to Abeta nor Abeta expression in transgenic C. elegans. These data suggest that ibuprofen and naproxen, the most frequently used NSAIDs for the treatment of AD, have an inhibitory effect on Abeta deposition that is independent of the arachidonate cascade and cellular immune systems.

[Consideration on molecular imaging technology as a tool for drug research and development].

Molecular imaging technology such as positron emission tomography (PET) and magnetic resonance imaging (MRI) are known as powerful tools for clinical diagnosis in neurology, oncology and so on. As applications to new drug research and development, there are three methodologies which are PK (Pharmacokinetics study), PD (Pharmacodynamic study), and efficacy study. When we use these methodologies for the drug research, we must consider construction of technological environment (tracer, animal model, imaging analysis software, and clinical database) and regulatory environment for GMP (Good Manufacturing Practice) and GCP (Good Clinical Practice) level. Additionally, concept of microdosing and exploratory clinical study was proposed in western countries and the guidance on microdosing study was also announced by Health, Labor and Welfare Ministry on June 3rd 2008. However they may be still in learning phase, we must meet with complexity, high cost, and indigestion. To promote molecular imaging technology into the drug research, integration of the scientists between academia and industry is important because it needs much type of the advanced technologies and skills.

Brain adenosine A2A receptor occupancy by a novel A1/A2A receptor antagonist, ASP5854, in rhesus monkeys: relationship to anticataleptic effect.

UNLABELLED: The purpose of the present study was to measure adenosine A(2A) receptor (A(2A)R) occupancy in the brain by a novel adenosine A(1)/A(2A) antagonist, 5-[5-amino-3-(4fluorophenyl)pyrazin-2-yl]-1-isopropylpyridine-2(1H)-one (ASP5854), and to determine the degree of receptor occupancy necessary to inhibit haloperidol-induced catalepsy in rhesus monkeys. METHODS: A(2A)R occupancy by ASP5854 (0.001-0.1 mg/kg) was examined in the striatum using an A(2A)R-specific radiotracer, (11)C-SCH442416, and PET in conscious rhesus monkeys. A(2A)R occupancy was monitored after a single intravenous administration of ASP5854 in 3 animals, and a dynamic PET scan was performed at 1, 4, and 8 h after an intravenous bolus injection of the tracer for approximately 740 MBq. Catalepsy was induced by haloperidol (0.03 mg/kg, intramuscularly) and examined for incidence and duration. RESULTS: ASP5854 dose-dependently increased A(2A)R occupancy in the striatum and showed long-lasting occupancy even after the reduction of plasma concentration. Haloperidol induced severe catalepsy at 40 min after intramuscular injection. The incidence and duration of cataleptic posture were dose-dependently reduced by ASP5854 at 1 h after oral administration, and the minimum ED(50) value was 0.1 mg/kg. Administration of a dose of 0.1 mg/kg yielded a plasma concentration of 97 +/- 16.3 ng/mL, which corresponded to 85%-90% of A(2A)R occupancy. CONCLUSION: These results showed that ASP5854 antagonized A(2A)R in the striatum, and the dissociation from A(2A)R was relatively slow. In addition, more than 85% A(2A)R occupancy by ASP5854 resulted in an inhibition of haloperidol-induced catalepsy. Thus, such a pharmacodynamic study directly demonstrates both the kinetics of a drug in the brain and the relationship between dose-dependent receptor occupancy and plasma level.

The evolutionarily conserved G protein-coupled receptor SREB2/GPR85 influences brain size, behavior, and vulnerability to schizophrenia.

The G protein-coupled receptor (GPCR) family is highly diversified and involved in many forms of information processing. SREB2 (GPR85) is the most conserved GPCR throughout vertebrate evolution and is expressed abundantly in brain structures exhibiting high levels of plasticity, e.g., the hippocampal dentate gyrus. Here, we show that SREB2 is involved in determining brain size, modulating diverse behaviors, and potentially in vulnerability to schizophrenia. Mild overexpression of SREB2 caused significant brain weight reduction and ventricular enlargement in transgenic (Tg) mice as well as behavioral abnormalities mirroring psychiatric disorders, e.g., decreased social interaction, abnormal sensorimotor gating, and impaired memory. SREB2 KO mice showed a reciprocal phenotype, a significant increase in brain weight accompanying a trend toward enhanced memory without apparent other behavioral abnormalities. In both Tg and KO mice, no gross malformation of brain structures was observed. Because of phenotypic overlap between SREB2 Tg mice and schizophrenia, we sought a possible link between the two. Minor alleles of two SREB2 SNPs, located in intron 2 and in the 3' UTR, were overtransmitted to schizophrenia patients in a family-based sample and showed an allele load association with reduced hippocampal gray matter volume in patients. Our data implicate SREB2 as a potential risk factor for psychiatric disorders and its pathway as a target for psychiatric therapy.

Amyloid imaging in aged and young macaques with [11C]PIB and [18F]FDDNP.

[11C]PIB and [18F]FDDNP were examined on five aged and five young adult male rhesus macaques using positron emission tomography. Both tracers showed increased accumulation in the striatum, thalamus, cingulate and pons in the aged group. Compared to [11C]PIB, [18F]FDDNP showed higher accumulation in the cortical regions of aged animals as well as young animals. Although [18F]FDDNP may have possible usefulness for imaging, including other proteins, [11C]PIB may be better for amyloid imaging owing to lower non-specific binding.

Cancer detection using a PET tracer, 11C-glycylsarcosine, targeted to H+/peptide transporter.

UNLABELLED: H+/peptide transporter, PEPT1, is functionally expressed in some human cancer cell lines and might be a candidate molecular target for detection of cancers in vivo using PET. The aim of the present study was to establish a novel tumor-imaging technology using a PET tracer targeted to H+/peptide transporter(s). We also compared the tracer with 18F-FDG, focusing on the specificity of their accumulation between tumor and inflammatory tissues. METHODS: A dipeptide PET tracer, 11C-glycylsarcosine (11C-Gly-Sar), was injected intravenously into athymic mice transplanted with human pancreatic, prostate, and gastric cancer cells. The distribution patterns of 11C-Gly-Sar and 18F-FDG in the tumor-bearing mice, and in mice with inflammatory tissue, were assessed by imaging with a positron planar imaging system (PPIS). Tissue distributions of tracer radioactivity were also measured. The expression levels of PEPT1 and PEPT2 (PEPTs) proteins in tumor xenografts and inflammatory tissue were examined by immunohistochemical analysis. The messenger RNA expression levels of PEPTs in 58 available cancer cell lines were quantified by means of real-time polymerase chain reaction. RESULTS: All 3 tumor xenografts were well visualized with the PPIS after injection of 11C-Gly-Sar. Expression of PEPTs in those xenografts was confirmed by immunohistochemical analysis. Tumor-to-blood concentration ratios of 11C-Gly-Sar increased in a time-dependent manner and were much higher than unity. Most of the radioactivity found in the tumor tissue was recovered as the intact tracer. These results indicated that 11C-Gly-Sar was taken up by the PEPTs in tumor xenografts. It is noteworthy that 11C-Gly-Sar was minimally present in inflammatory tissues that expressed no PEPT1 or PEPT2 protein, whereas 18F-FDG was highly accumulated, with the values of the selectivity index being >25.1 and 0.72 for 11C-Gly-Sar and 18F-FDG, respectively. The mRNAs of PEPT1 and PEPT2 were expressed in 27.6% and 93.1%, respectively, of the cancer cell lines examined in the present study. CONCLUSION: The present study indicates that 11C-Gly-Sar is a promising tumor-imaging agent and is superior to 18F-FDG for distinguishing between tumors and inflammatory tissue. Because PEPTs were ubiquitously expressed in various types of tumor cells examined, 11C-Gly-Sar could be useful for the detection of many types of cancers.

Effect of sample size for normal database on diagnostic performance of brain FDG PET for the detection of Alzheimer's disease using automated image analysis.

OBJECTIVE: To investigate the relationship between the sample size for a normal database (NDB) and diagnostic performance of FDG PET using three-dimensional stereotactic surface projection for the detection of Alzheimer's disease. METHODS: We generated nine NDB sets consisting of 4, 6, 8, 10, 20, 30, 40, 50 and 60 normal subjects. In order to assess the diagnostic performance using these NDBs to distinguish Alzheimer's disease patients from normal subjects, we recruited 52 patients with probable Alzheimer's disease (25 males, 27 females; mean age, 66.8+/-8.1 years) and 50 normal subjects (24 males, 26 females; mean age, 65.7+/-9.4 years). A receiver operating characteristic (ROC) analysis was performed for comparison of diagnostic accuracy among NDB sets. RESULTS: Small NDBs (n< or =10) yielded poor quality of mean and SD images as compared with large NDBs (n> or =20). The ROC curves of the smaller group varied inconsistently, whereas those of the larger group were nearly superimposable. The area under the ROC curve (AUC) of the NDBs with sample size 6 (0.911) or 8 (0.929) was significantly smaller than that of the largest NDB (n=60, 0.956). The AUCs of the larger group did not fall below 0.950, whereas AUCs of the smaller subgroup never exceeded 0.950. CONCLUSIONS: Our data indicate that the sample size for an NDB affects the diagnostic performance of FDG PET using automated statistical approach, and that inclusion of at least 10 subjects is recommended, and 20 seems to be preferable for generating NDBs, although even a small NDB may provide clinically relevant results.

PET measurement of FK506 concentration in a monkey model of stroke.

INTRODUCTION: The immunosuppressive agent FK506 (tacrolimus) has neuroprotective properties in an experimental model of cerebral ischemia. To improve the accuracy of clinical studies in acute stroke, a clinical dose setting should be based on the brain concentration, but not on the blood concentration of agents in humans. We have already established a measurement method using PET for FK506 concentration in the normal monkey brain, which could be applicable for human study; however, under ischemic conditions, in this study, we aimed to examine the brain concentration of FK506 in a monkey model of stroke. METHODS: Studies were performed on six male cynomolgus monkeys (Macaca fascicularis) and a middle cerebral artery (MCA) occlusion model was used. Regional cerebral blood flow (rCBF) was measured by an intravenous injection of [(15)O]H(2)O 165 min after MCA occlusion. FK506 (0.1 mg/kg) containing [(11)C]FK506 was intravenously injected into the monkeys 180 min after MCA occlusion, and dynamic PET images were acquired for 30 min after administration. FK506 concentrations in the brain were calculated in moles per liter (M) units using the specific activity of injected FK506. RESULTS: MCA occlusion produced ischemia, confirmed by rCBF measurement before the administration of [(11)C]FK506. Fifteen minutes after FK506 (0.1 mg/kg) administration, the concentrations in the contralateral and ipsilateral cortex were 22.4+/-6.4 and 19.7+/-4.0 ng/g, respectively. CONCLUSION: We successfully measured the brain concentration of FK506 in a monkey model of stroke. The difference between the contralateral and ipsilateral concentrations of FK506 was not significant. This characteristic that FK506 readily penetrates ischemic tissue as well as normal tissue might explain the neuroprotective effect of FK506 in the ischemic brain and is suitable for the treatment of stroke patients.