Marco Lanza

CGP 52432 : a novel potent and selective GABAB autoreceptor antagonist in rat cerebral cortex

As previously reported GABAB receptors are heterogeneous. Three pharmacologically distinct receptor subtypes mediating inhibition of gamma-aminobutyric acid (GABA), glutamate or somatostatin release, respectively, exist on axon terminals of rat cerebral cortex. We investigated the novel GABAB receptor antagonist, [3-[[(3,4-dichlorophenyl)methyl]amino]propyl](diethoxy-methyl) phosphinic acid (CGP 52432), on the above receptor subtypes. The effects of (-)-baclofen on the K(+)-evoked release of GABA, glutamate or somatostatin from rat cortical synaptosomes were antagonized by CGP 52432. The IC50 of the drug at GABA autoreceptors (0.085 microM) was 35- and 100-fold lower than at the receptors regulating somatostatin and glutamate overflow, respectively. At the autoreceptor the calculated pA2 for CGP 52432 amounted to 7.70, which makes the drug about 1000-fold more potent than phaclofen at this receptor. The potency and selectivity characteristics of CGP 52432 indicate that the drug is by far the most appropriate tool to investigate the terminal GABAB autoreceptors of the rat cerebral cortex.

Release of endogenous glutamic and aspartic acids from cerebrocortex synaptosomes and its modulation through activation of a γ-aminobutyric acidB (GABAB) receptor subtype

The depolarization-evoked release of endogenous glutamate (GLU) and -aspartate (ASP) and its modulation mediated by gamma-aminobutyric acid (GABA) heteroreceptors was investigated in superfused rat cerebrocortical synaptosomes. Exposure to 12 mM K+ enhanced the release of GLU and ASP. The K(+)-evoked overflow of both amino acids was largely Ca(2+)-dependent. Exogenous GABA inhibited the K(+)-evoked overflow of GLU (EC50 2.8 microM) and ASP (EC50 2.7 microM). The effect of GABA was mimicked by the GABAB receptor agonist (-)-baclofen (EC50 2.0 microM for GLU and 1.3 microM for ASP release) but not by the GABAA receptor agonist muscimol, up to 100 microM. Accordingly, the GABA-induced inhibition of GLU and ASP release was not affected by the GABAA receptor antagonists, bicuculline or picrotoxin, but was antagonized by the GABAB receptor antagonist, 3-amino-propyl(diethoxymethyl)phosphinic acid (CGP 35348). The GABA effect was, however, insensitive to another GABAB receptor antagonist, phaclofen, up to 1,000 microM. It can be concluded that GABA heteroreceptors of the GABAB type regulating the depolarization-evoked release of GLU and ASP are present on cortical GLU/ASP-releasing nerve terminals. These receptors may be classified as a phaclofen-insensitive GABAB receptor subtype.

Analgesic efficacy of CR4056, a novel imidazoline-2 receptor ligand, in rat models of inflammatory and neuropathic pain

Two decades of investigations have failed to unequivocally clarify the functions and the molecular nature of imidazoline-2 receptors (I2R). However, there is robust pharmacological evidence for the functional modulation of monoamino oxidase (MAO) and other important enzyme activities by I2 site ligands. Some compounds of this class proved to be active experimental tools in preventing both experimental pain and opioid tolerance and dependence. Unfortunately, even though these compounds bind with high potency to central I2 sites, they fail to represent a valid clinical opportunity due to their pharmacokinetic, selectivity or side-effects profile. This paper presents the preclinical profile of a novel I2 ligand (2-phenyl-6-(1H-imidazol-1yl) quinazoline; [CR4056]) that selectively inhibits the activity of human recombinant MAO-A in a concentration-dependent manner. A sub-chronic four day oral treatment of CR4056 increased norepinephrine (NE) tissue levels both in the rat cerebral cortex (63.1% ±4.2%; P < 0.05) and lumbar spinal cord (51.3% ± 6.7%; P < 0.05). In the complete Freund’s adjuvant (CFA) rat model of inflammatory pain, CR4056 was found to be orally active (ED50 = 5.8 mg/kg, by mouth [p.o.]). In the acute capsaicin model, CR4056 completely blocked mechanical hyperalgesia in the injured hind paw (ED50 = 4.1 mg/kg, p.o.; ED100 = 17.9 mg/kg, p.o.). This effect was dose-dependently antagonized by the non-selective imidazoline I2/α2 antagonist idazoxan. In rat models of neuropathic pain, oral administration of CR4056 significantly attenuated mechanical hyperalgesia and allodynia. In summary, the present study suggests a novel pharmacological opportunity for inflammatory and/or neuropathic pain treatment based on selective interaction with central imidazoline-2 receptors.

Glutamate signaling in chondrocytes and the potential involvement of NMDA receptors in cell proliferation and inflammatory gene expression

OBJECTIVE Increased levels of glutamate, the main excitatory neurotransmitter, are found in the synovial fluid of osteoarthritis (OA) patients. Our aim was to study glutamate signaling in chondrocytes, focusing on the composition, pharmacology, and functional role of N-methyl-d-aspartate (NMDA) glutamate receptors. METHODS We used the human chondrocyte cell line SW1353 and, in parallel, primary rat articular chondrocytes. Glutamate release and uptake were measured by fluorimetric and radiometric methods, respectively. Gene expression was analyzed by quantitative polymerase chain reaction. NMDA receptor pharmacology was studied in binding experiments with [3H]MK-801, a specific NMDA receptor antagonist. RNA interference was used to knock-down the expression of NR1, a subunit of NMDA receptors. RESULTS Glutamate release, sodium- and calcium-dependent glutamate uptake, and the expression of a glutamate transporter were observed in chondrocytes. NR2D was the most abundant NMDA receptor subunit in these cells. Consistent with this observation, the binding affinity of [3H]MK-801 was much lower in chondrocytes than in rat brain membranes (mean K(d) values of 700 and 2.6 nM, respectively). NR1 knock-down, as well as NMDA receptor blockade with MK-801, reduced chondrocyte proliferation. Interleukin (IL)-1beta significantly altered glutamate release and uptake (about 90% increase and 50% decrease, respectively, in SW1353 cells). Moreover, IL-1beta induced the gene expression of cytokines and enzymes involved in cartilage degradation, and MK-801 significantly inhibited this response. CONCLUSIONS Our findings suggest that chondrocytes express a self-sufficient machinery for glutamate signaling, including a peripheral NMDA receptor with unique properties. This receptor may have a role in the inflammatory process associated with cartilage degradation, thus emerging as a potential pharmacological target in OA.

CR4056, a new analgesic I2 ligand, is highly effective against bortezomib-induced painful neuropathy in rats

Although bortezomib (BTZ) is the frontline treatment for multiple myeloma, its clinical use is limited by the occurrence of painful peripheral neuropathy, whose treatment is still an unmet clinical need. Previous studies have shown chronic BTZ administration (0.20 mg/kg intravenously three times a week for 8 weeks) to female Wistar rats induced a peripheral neuropathy similar to that observed in humans. In this animal model of BTZ-induced neurotoxicity, the present authors evaluated the efficacy of CR4056, a novel I2 ligand endowed with a remarkable efficacy in several animal pain models. CR4056 was administered in a wide range of doses (0.6–60 mg/kg by gavage every day for 2–3 weeks) in comparison with buprenorphine (Bupre) (28.8 μg/kg subcutaneously every day for 2 weeks) and gabapentin (Gaba) (100 mg/kg by gavage every day for 3 weeks). Chronic administration of BTZ reduced nerve conduction velocity and induced allodynia. CR4056, Bupre, or Gaba did not affect the impaired nerve conduction velocity. Conversely, CR4056 dose-dependently reversed BTZ-induced allodynia (minimum effective dose 0.6 mg/kg). The optimal dose found, 6 mg/kg, provided a constant pain relief throughout the treatment period and without rebound after suspension, being effective when coadministered with BTZ, starting before or after allodynia was established, or when administered alone after BTZ cessation. A certain degree of tolerance was seen after 7 days of administration, but only at the highest doses (20 and 60 mg/kg). Bupre was effective only acutely, since tolerance was evident from the fourth day onwards. Gaba showed a significant activity only at the fourth day of treatment. CR4056, over the range of concentrations of 3–30 μM, was unable to hinder BTZ cytotoxicity on several tumor cell lines, which could indicate that this substance does not directly interfere with BTZ antitumor activity. Therefore, CR4056 could represent a new treatment option for BTZ-induced neuropathic pain.

Experimental Pharmacology of Glucosamine Sulfate

Several clinical studies demonstrated that glucosamine sulfate (GS) is effective in controlling osteoarthritis (OA), showing a structure-modifying action. However, little is known about the molecular mechanism(s) by which GS exerts such action and about the effects of GS at a tissue level on osteoarthritic cartilage and other joint structures. Here we provide mechanistic evidence suggesting that in vitro GS attenuates NF-κB activation at concentrations in the range of those observed after GS administration to volunteers and patients, thus strengthening previous findings. Furthermore, we describe the effects of GS at a tissue level on the progression of the disease in a relevant model of spontaneous OA, the STR/ort mouse. In this model, the administration of GS at human corresponding doses was associated with a significant decrease of OA scores. Histomorphometry showed that the lesion surface was also significantly decreased, while the number of viable chondrocytes within the matrix was significantly increased. GS improved the course of OA in the STR/Ort mouse, by delaying cartilage breakdown as assessed histologically and histomorphometrically.

Synthesis and structure–activity relationship studies in serotonin 5-HT1A receptor agonists based on fused pyrrolidone scaffolds

A new class of serotonin 5-HT1A receptor ligands related to NAN-190, buspirone and aripiprazole has been designed using our potent 5-HT3 receptor ligands as templates. The designed pyrrolidone derivatives 10a-n were prepared by means of the straightforward chemistry consisting in the reaction of the appropriate γ-haloester derivatives with the suitable arylpiperazinylalkylamines. The nanomolar 5-HT1A receptor affinity and the agonist-like profile shown by fused pyrrolidone derivatives 10k,m stimulated the rationalization of the interaction with an homology model of the 5-HT1A receptor and the evaluation of their selectivity profiles and the pharmacokinetic properties. Interestingly, the results of the profiling assays suggested for close congeners 10k,m a significantly divergent binding pattern with compound 10m showing an appreciable selectivity for 5-HT1AR.

Modulation of imidazoline I2 binding sites by CR4056 relieves postoperative hyperalgesia in male and female rats

CR4056 is a novel imidazoline‐2 (I2) ligand exhibiting potent analgesic activity in animal models of pain. In this study, we investigated the effects of CR4056 in a well‐established model of postoperative pain where rats develop hyperalgesia in the injured hind paw.

In vivo neurochemical effects of the NR2B selective NMDA receptor antagonist CR 3394 in 6-hydroxydopamine lesioned rats

Microdialysis in intact and denervated striatum of unilaterally 6-hydroxydopamine (6-OHDA) lesioned rats was used to investigate whether CR 3394, N-[2-(3,5-dimethyl-1-adamantyl)ethyl]acetamidine, an adamantane derivative with preferential selectivity for the NR2B subunit of the NMDA receptor, has dopamine releasing properties in vivo. We also investigated whether this NMDA antagonist can potentiate the effects of L-Dopa on extracellular dopamine in these animals. After systemic injection, there was no significant effect of CR 3394 on extracellular dopamine, at all doses studied (1, 5 and 20 mg/kg i.p.), in either intact or in denervated striatum. On the other hand, striatal perfusion with 100 microM of the compound elicited release of dopamine in intact, but not in denervated striatum. In denervated striatum of the 6-OHDA-lesioned rats, CR 3394 (5 mg/kg) significantly enhanced the dopamine release induced by L-Dopa administration (25 mg/kg i.p.) in combination with benserazide (10 mg/kg i.p.). In particular, the onset of action of L-Dopa was potentiated. However, when combined with a subthreshold dose of L-Dopa (5 mg/kg), the effects of CR 3394 were lost. We conclude that CR 3394, like other NR2B receptor antagonists, has dopamine releasing properties in vivo. It enhances the effects of suprathreshold doses of L-Dopa in the denervated striatum, but not of low doses of L-Dopa. Therefore, future studies are necessary to establish the potential of selective NR2B receptor antagonists as L-Dopa-sparing agents.

Exploring multitarget interactions to reduce opiate withdrawal syndrome and psychiatric comorbidity.

Opioid addiction is often characterized as a chronic relapsing condition due to the severe somatic and behavioral signs, associated with depressive disorders, triggered by opiate withdrawal. Since prolonged abstinence remains a major challenge, our interest has been addressed to such objective. Exploring multitarget interactions, the present investigation suggests that 3 or its (S)-enantiomer and 4, endowed with effective α2C-AR agonism/α2A-AR antagonism/5-HT1A-R agonism, or 7 and 9-11 producing efficacious α2C-AR agonism/α2A-AR antagonism/I2-IBS interaction might represent novel multifunctional tools potentially useful for reducing withdrawal syndrome and associated depression. Such agents, lacking in sedative side effects due to their α2A-AR antagonism, might afford an improvement over current therapies with clonidine-like drugs.