Analgesic properties of a peripherally acting and GalR2 receptor-preferring galanin analog in inflammatory, neuropathic, and acute pain models.

There are ongoing efforts to develop pain therapeutics with novel mechanisms of action that avoid common side effects associated with other analgesics. The anticonvulsant neuropeptide galanin is a potent regulator of neuronal excitability and has a well established role in pain modulation, making it a potential target for novel therapies. Our previous efforts focused on improving blood-brain-barrier penetration and enhancing the metabolic stability of galanin analogs to protect against seizures. More recently, we designed peripherally acting galanin analogs that reduce pain-related behaviors by acting in the periphery and exhibit preferential binding toward galanin receptor (GalR)2 over GalR1. In this study, we report preclinical studies of a monodisperse oligoethylene glycol-containing galanin analog, NAX 409-9 (previously reported as GalR2-dPEG24), in rodent analgesic and safety models. Results obtained with NAX 409-9 in these tests were compared with the representative analgesics gabapentin, ibuprofen, acetylsalicylic acid, acetaminophen, and morphine. In mice that received intraplantar carrageenan, NAX 409-9 increased paw withdrawal latency with an ED50 of 6.6 mg/kg i.p. NAX 409-9 also increased the paw withdrawal threshold to mechanical stimulation following partial sciatic nerve ligation in rats (2 mg/kg). Conversely, NAX 409-9 had no effect in the tail flick or hot plate assays (up to 24 mg/kg). Importantly, NAX 409-9 did not negatively affect gastrointestinal motility (4-20 mg/kg), respiratory rate (40-80 mg/kg), or bleed time (20 mg/kg). These studies illustrate that this nonbrain-penetrating galanin analog reduces pain behaviors in several models and does not produce some of the dose-limiting toxicities associated with other analgesics.

Cell penetrating peptides fail to induce an innate immune response in epithelial cells in vitro: implications for continued therapeutic use.

Cell penetrating peptides (CPPs) offer the exciting potential of effectively delivering macromolecules to the cytoplasm of a cell that are otherwise impermeable to the plasma membrane. Although the use of these peptides has so far been well tolerated in clinical trials, it is important to remember that some of these CPPs were originally derived from pathogenic material. We therefore sought to determine if three of the most widely studied CPPs; HIV-TAT, Antennapedia and Transportan, initiated an immune response in epithelial cells. Using conditions where these peptides efficiently delivered a rhodamine tagged BSA cargo to the interior of epithelial cells, we failed to observe an effect on cell viability as determined by MTT assay (P>0.05). Further, CPP-mediated delivery of this protein cargo failed to activate NFκB, which would be indicative of toll-like receptor signalling. Finally, no significant increase in the release of the inflammatory cytokines interleukin (IL)-8 and IL-6 was detected in epithelial cells exposed to CPP complexes for 72 h (P>0.05). Together, these results indicate that these commonly used CPPs are passive carriers that do not initiate epithelial cell-associated 'danger signals' during the process of cytoplasmic delivery of a model protein cargo.

Study of the effect of inhibiting galanin in Alzheimer's disease induced in rats.

It is recently reported that galanin plays a role in memory decline that is the primary behavioral symptom of Alzheimer's disease. The aim of the present study was to study the impact of administration of two antidiabetic drugs that might inhibit galanin, namely glibenclamide and pioglitazone, on the behavioral, and neurochemical changes in Alzheimer's disease--induced in rats by intracerebroventricular (i.c.v.) injection of beta amyloid (Abeta). The present study was conducted on 60 male Wistar rats that were divided into 6 groups: group I (control group) which received i.c.v. scrambled peptide, group II (i.c.v.-Abeta group) which received i.c.v.-Abeta, groups III and IV that received, respectively, glibenclamide and pioglitazone daily orally for 3 weeks following scrambled peptide administration as well as groups V and VI that received, respectively, glibenclamide and pioglitazone daily orally for 3 weeks following Abeta administration. i.c.v.-Abeta resulted in significant behavioral alterations suggesting Alzheimer's disease, where there was significant impairment in spatial cognition, evaluated by Morris water maze task, and in learning and memory performance, assessed using passive-avoidance learning task. i.c.v.-Abeta also resulted in significant increase in hippocampal hyperphosphorylated tau protein as well as galanin. Administration of studied antidiabetic drugs, glibenclamide and pioglitazone, resulted in significant improvement in spatial cognition and in learning and memory performance, as well as significant decrease in hippocampal hyperphosphorylated tau protein and hippocampal galanin. Our findings suggest that a pharmacologic approach to inhibit galanin in the brain, either by glibenclamide or pioglitazone might dramatically improve symptoms in Alzheimer's disease.

Deficits in trace cued fear conditioning in galanin-treated rats and galanin-overexpressing transgenic mice.

Galanin inhibits the release of several neurotransmitters and produces performance deficits in a variety of spatial and aversive learning and memory tasks. The experiments in this study investigated the role galanin has in emotional learning and memory using a standard delay cued and contextual fear conditioning task. Rats were administered galanin into the lateral ventricles before training, and scored for freezing behavior in the same context and in a novel context with and without an auditory cue (CS) that had been paired previously with an aversive stimulus (US). Galanin-overexpressing transgenic mice were tested in an identical behavioral protocol. The galanin-administered rats and the transgenic mice were not significantly different from their respective controls on this task. A more challenging trace cued and contextual fear conditioning procedure was administered to separate groups of galanin-treated rats and galanin-overexpressing transgenic mice. Subjects were trained with the same CS and US, however, a 2.5-sec delay was inserted between CS offset and US onset. Following the trace conditioning, rats administered galanin and mice overexpressing galanin both exhibited significantly less freezing to the CS in the novel context as compared with their control groups. These results indicate that the observed disruption of cued fear conditioning was specific to the more difficult trace conditioning task. These findings are the first demonstration that galanin impairs performance on an emotional memory task and support the hypothesis that galanin-induced deficits are specific to more difficult cognitive tasks.

Influence of galanin and serotonin on the endocrine response to Hexarelin, a synthetic peptidyl GH-secretagogue, in normal women.

Hexarelin (HEX) is a synthetic GH-secretagogue (GHS) which acts on specific receptors either at the pituitary or the hypothalamic level to stimulate GH release both in animal and in man. Like other GHS, HEX possesses also PRL-, ACTH- and cortisol (F)-releasing activity but the mechanisms underlying these effects are even less clear. On the other hand, galanin (GAL) and serotonin play an important role in the neural control of GH, PRL and ACTH secretion both in animal and in man. In order to study the interaction between HEX and GAL and to verify whether serotoninergic mechanisms underly the endocrine effects of GHS, in 12 normal young volunteers (24-30 yr) the following tests were performed: group A (N = 5), HEX (2.0 micrograms/kg i.v. at 0 min), GAL (15.0 micrograms/kg i.v. from 0 to 60 min) and HEX + GAL; group B (N = 7), HEX alone and preceeded by cyproeptadine (CYPRO, 8 mg os at -60 min). In group A, the GH response to HEX (1204.2 +/- 312.9 micrograms*min/L) was higher (p < 0.05) than that to GAL alone (305.6 +/- 35.5 micrograms*min/L) and was not modified by GAL co-administration (1021.8 +/- 249.9 micrograms*min/L). PRL secretion was increased to the same extent by HEX and GAL (507.9 +/- 81.1 and 743.0 +/- 164.7 micrograms*min/L) which showed no interaction (603.5 +/- 75.7 micrograms*min/L). HEX elicited an increase in both ACTH and F secretion (924.5 +/- 169.7 pg*min/ml and 6131.3 +/- 616.6 micrograms*min/L) while GAL had no effect when given alone (759.5 +/- 185.5 pg*min/ml and 5350.3 +/- 755.6 micrograms*min/L) and did not modify the effect of HEX (891.3 +/- 159.2 pg*min/ml and 5877.8 +/- 554.4 micrograms*min/L). In group B, the GH response to HEX (1636.4 +/- 267.5 micrograms*min/L) was blunted by CYPRO (1164.8 +/- 212.3 micrograms*min/L) but this difference did not attained statistical significance. On the other hand, CYPRO did not modify the HEX-induced PRL (599.5 +/- 129.2 vs 638.9 +/- 131.9 micrograms*min/L), ACTH (1282.8 +/- 222.0 vs 1330.2 +/- 347.0 pg*min/ml) and F response (4738.3 +/- 355.3 vs 4580.9 +/- 857.3 micrograms*min/L). Our present data demonstrate that Hexarelin has no interaction with galanin; thus thereotically, the stimulatory effect of GHS on GH and PRL secretion could involve, at least partially, a galanin-mediated mechanism. On the other hand, our data demonstrate that serotonin does not mediate the stimulatory effect of GHS on PRL, ACTH and cortisol; the intrinsic anticholinergic property of cyproeptadine could account for the trend toward its blunting effect on the GH response to Hexarelin.