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GPI-1046 Sale

(Synonyms: 1-(1,2-二氧代-3,3-二甲基戊基)-L脯氨酸-(3-吡啶基)-丙酯) 目录号 : GC38788

GPI-1046 是一种不含抗生素作用的免疫亲和素配体,通过上调 PFC 和 NAc 核心中的谷氨酸转运蛋白1 (GLT1) 来减少乙醇摄入。GPI-1046 是 FK506 的类似物,在神经退行性疾病模型中显示出神经保护作用。GPI-1046 易穿过血脑屏障并促进中枢神经系统中多巴胺 (DA) 细胞的再生,这与啮齿动物模型中的功能恢复相关。

GPI-1046 Chemical Structure

Cas No.:186452-09-5

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产品描述

GPI-1046 is a immunophilin ligand without antibiotic action and attenuates ethanol intake in part through the upregulation of glutamate transporter 1 (GLT1) in PFC and NAc-core. GPI-1046 is an analog of FK506, which is an immunophilin ligand that has been shown neuroprotective effects in neurodegenerative disease models[1]. GPI-1046 readily crosses the blood-brain barrier and promotes the regeneration of dopamine (DA) cells in the CNS in association with functional recovery in rodent models[2].

[1]. Sari Y, et al. Neuroimmunophilin GPI-1046 reduces ethanol consumption in part through activation of GLT1 in alcohol-preferring rats. Neuroscience. 2012 Dec 27;227:327-35. [2]. Eberling JL, et al. The immunophilin ligand GPI-1046 does not have neuroregenerative effects in MPTP-treated monkeys. Exp Neurol. 2002 Dec;178(2):236-42.

Chemical Properties

Cas No. 186452-09-5 SDF
别名 1-(1,2-二氧代-3,3-二甲基戊基)-L脯氨酸-(3-吡啶基)-丙酯
Canonical SMILES O=C(OCCCC1=CC=CN=C1)[C@H]2N(C(C(C(C)(C)CC)=O)=O)CCC2
分子式 C20H28N2O4 分子量 360.45
溶解度 DMSO: ≥ 100 mg/mL (277.43 mM) 储存条件 4°C, protect from light
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Research Update

GPI-1046 increases presenilin-1 expression and restores NMDA channel activity

Can J Neurol Sci 2010 Jul;37(4):457-67.PMID:20724252DOI:10.1017/s0317167100010465.

Background: Previously we showed that 6-hydroxydopamine lesions of the substantia nigra eliminate corticostriatal LTP and that the neuroimmunolophilin ligand (NIL), GPI-1046, restores LTP. Methods: We used cDNA microarrays to determine what mRNAs may be over- or under-expressed in response to lesioning and/or GPI-1046 treatment. Patch clamp recordings were performed to investigate changes in NMDA channel function before and after treatments. Results: We found that 51 gene products were differentially expressed. Among these we found that GPI-1046 treatment up-regulated presenilin-1 (PS-1) mRNA abundance. This finding was confirmed using QPCR. PS-1 protein was also shown to be over-expressed in the striatum of lesioned/GPI-1046-treated rats. As PS-1 has been implicated in controlling NMDA-receptor function and LTP is reduced by lesioning we assayed NMDA mediated synaptic activity in striatal brain slices. The lesion-induced reduction of dopaminergic innervation was accompanied by the near complete loss of NDMA receptor-mediated synaptic transmission between the cortex and striatum. GPI-1046 treatment of the lesioned rats restored NMDA-mediated synaptic transmission but not the dopaminergic innervation. Restoration of NDMA channel function was apparently specific as the sodium channel current density was also reduced due to lesioning but GPI-1046 did not reverse this effect. We also found that restoration of NMDA receptor function was also not associated with either an increase in NMDA receptor mRNA or protein expression. Conclusion: As it has been previously shown that PS-1 is critical for normal NMDA receptor function, our data suggest that the improvement of excitatory neurotransmission occurs through the GPI-1046-induced up-regulation of PS-1.

Neuroimmunophilin GPI-1046 reduces ethanol consumption in part through activation of GLT1 in alcohol-preferring rats

Neuroscience 2012 Dec 27;227:327-35.PMID:23059796DOI:10.1016/j.neuroscience.2012.10.007.

We have previously shown that ceftriaxone, β-lactam antibiotic known to upregulate glutamate transporter 1 (GLT1), reduced ethanol intake in alcohol-preferring (P) rats. GLT1 is a glial glutamate transporter that regulates the majority of extracellular glutamate uptake. We tested in this study the effects of neuroimmunophilin GPI-1046 (3-(3-pyridyl)-1-propyl (2S)-1-(3,3-dimethyl-1,2-dioxopentyl)-2-pyrrolidinecarboxylate), known also to upregulate GLT1 expression, in ethanol intake in P rats. Male P rats had concurrent access to free choice of 15% and 30% ethanol, water, and food for five weeks. On Week 6, P rats continued in this drinking and food regimen and they were administered either 10 or 20mg/kg GPI-1046 (i.p.), or a vehicle for five consecutive days. Body weight, ethanol intake, and water consumption were measured daily for 8 days starting on Day 1 of GPI-1046 or vehicle i.p. injections. We have also tested the effect of GPI-1046 (20mg/kg) on daily sucrose (10%) intake. The data revealed significant dose-dependent effects in the reduction of ethanol intake starting 48 h after the first treatment with GPI-1046 throughout treatment and post-treatment periods. There were also dose-dependent increases in water intake. However, GPI-1046 treatment did not affect the body weight of all animals nor sucrose intake. Importantly, GPI-1046 (20mg/kg) increased GLT1 level compared to all groups in nucleus accumbens core (NAc-core). Alternatively, GPI-1046 (10mg/kg) upregulated GLT1 level in NAc-core compared to vehicle (ethanol naïve) group. Moreover, both doses of GPI-1046 increased significantly GLT1 level in the prefrontal cortex (PFC) compared to ethanol naïve vehicle group. GPI-1046 (20mg/kg) increased GLT1 level in PFC compared to naïve control group that was exposed to water and food only. These findings demonstrated that neuroimmunophilin GPI-1046 attenuates ethanol intake in part through the upregulation of GLT1 in PFC and NAc-core.

GPI-1046 stimulates chicken dorsal root ganglion neurite outgrowth in the presence of nerve growth factor at low concentration in vitro

Sheng Li Xue Bao 2007 Dec 25;59(6):791-5.PMID:18157473doi

The purpose of this investigation was to re-evaluate the neurotrophic effect of GPI-1046 on neurite outgrowth in vitro. GPI-1046 was synthesized and identified with mass spectrometry, nuclear magnetic resonance and elemental analysis. Chicken dorsal root ganglions (DRGs) were removed and divided into three groups: (1) The DRGs were cultured in DMEM containing different concentrations of GPI-1046; (2) The DRGs were cultured in DMEM containing nerve growth factor (NGF) alone at 0.8 and 8 ng/mL, respectively; (3) The DRGs were cultured in DMEM containing both different concentrations of GPI-1046 and NGF at 0.8 ng/mL. The results showed that GPI-1046 alone could not stimulate chicken DRG neurite outgrowth; however, GPI-1046 stimulated DRG neurite outgrowth only in the presence of NGF at low concentration in the culture medium.

The immunophilin ligand GPI-1046 does not have neuroregenerative effects in MPTP-treated monkeys

Exp Neurol 2002 Dec;178(2):236-42.PMID:12504882DOI:10.1006/exnr.2002.8023.

Nonimmunosuppressant immunophilin ligands have been shown to have neurotrophic properties in rodent models of Parkinson's disease (PD), although little is known about the effects of these ligands in primates. The immunophilin ligand, GPI-1046, promotes the regeneration of dopamine (DA) cells in association with functional recovery in rodent models. We explored the regenerative effects of GPI-1046 in an MPTP primate model of PD. We used single photon emission computed tomography (SPECT) and the DA transporter tracer (DAT), [(123)I]beta-CIT, to evaluate DAT density and clinical recovery before and after treatment with GPI-1046 or vehicle. Subsequent histological studies were also performed. No effects of GPI-1046 were found on any of these measures. These findings show that GPI-1046 does not have regenerative effects in MPTP-treated primates and suggest that there may be species differences with respect to the trophic effects of GPI-1046 on nigrostriatal DA neurons.

Analysis of the neurotrophic effects of GPI-1046 on neuron survival and regeneration in culture and in vivo

Neuroscience 1999 Jan;88(1):257-67.PMID:10051205DOI:10.1016/s0306-4522(98)00221-8.

The putative neurotrophic effects of the immunophilin ligand GPI-1046 were evaluated in established experimental systems of neuron survival and axon growth in vitro and in vivo. GPI-1046 marginally increased neurite outgrowth of chick dorsal root ganglia in culture under conditions where a very robust effect of nerve growth factor was seen. GPI-1046 failed to protect dopaminergic neurons from 1-methyl-4-phenylpyridinium in culture or to protect cultured cortical neurons from experimentally induced apoptosis in vitro. In adult rats in vivo, daily administration of GPI-1046 (10 mg/kg, s.c.) for three days enhanced the maximal regeneration distance of both motor and large myelinated sensory axons measured using an electrophysiological assay. However, detailed morphometric analysis of these animals failed to provide evidence for an increase in axon numbers in GPI-1046-treated animals. The ability of GPI-1046 to promote the recovery of dopaminergic function following unilateral 6-hydroxydopamine lesions of the substantia nigra was also tested in rats. In the first study, the duration of amphetamine (3 mg/kg, s.c.)-induced circling, but not the maximal number of rotations, was significantly reduced in animals treated with GPI-1046 for five days (10 mg/kg/day). In a second study, testing the effects of delayed GPI-1046 administration, chronic treatment with GPI-1046 (10 mg/kg/day) for two weeks, beginning one month after surgery, did not alter circling responses. Morphometric analysis failed to reveal any changes in either the density of tyrosine hyroxylase-positive fibres in dopaminergic target areas or in cell numbers in the substantia nigra in both experiments. Thus, while GPI-1046 produced marginal effects on neurite outgrowth in dorsal root ganglia cultures and on functional paramaters of nerve regeneration in vivo, we failed to obtain evidence in support of the notion of a general neuroprotective effect of the compound or for an effect on morphologic nerve regeneration in vivo.