L-Ala-substituted rat galanin analogs distinguish between hypothalamic and jejunal galanin receptor subtypes

In order to explore which amino acids or which blocks of amino acids in the 29 amino acid neuropeptide galanin are important for recognition of the endogenous ligand by galanin receptor subtypes present in the jejunum and in the hypothalamus, respectively, we have carried out L-Ala substitutions of individual amino acids or of blocks of amino acids in the rat galanin sequence and examined the binding of the obtained analogs to the rat hypothalamic and jejunal galanin receptor subtypes. This study reveals that the galanin sequence YLLGPH^9–14 is essential for recognition of galanin by both the rat hypothalamic and jejunal galanin receptor subtypes. Substitution of the N-terminal amino acids, GWTL^1–4, leads to total loss of affinity of galanin for both hypothalamic and jejunal galanin receptors. The α-helical C-terminal amino acid (25–29) part of galanin has no greater influence on the affinity of galanin to the hypothalamic galanin receptor subtype. L-Ala substitution of the C-terminal amino acids of galanin KHGLT^25–29 shows, however, that this C-terminal motif is essential for the recognition by the jejunal galanin receptor subtype, whereas amino acids in the middle portion of galanin NSAG^5–8 are of importance for binding to the hypothalamic but not to the jejunal receptor. [Ala^5–8] Galanin thus has a more than 100-fold higher affinity to jejunal receptor than to the hypothalamic receptor, while [Ala^25–29] galanin has a more than 100-fold higher affinity for the hypothalamic than for jejunal galanin receptor subtypes. pH dependence of the galanin binding to these receptor subtypes is also different. © Munksgaard 1997.     

Galanin-like innervation of rat submandibular and sublingual salivary glands: origin and effect on acinar cell membranes.

The distribution and source of a galanin-like innervation of rat salivary glands has been examined. Additionally, submandibular and sublingual acinar cell membrane responses to galanin or a cholinergic agonist were studied. Galanin-immunoreactive fibers were observed throughout the submandibular and sublingual glands in association with ducts and acini. A subset of submandibular ganglion cells expresses galanin immunoreactivity. Parasympathectomy resulted in a marked decrease in galanin immunoreactivity in the glands. Sympathectomy resulted in marked reduction of dopamine beta-hydroxylase immunoreactivity with no appreciable change in galanin immunoreactivity. Retrograde labeling experiments demonstrated that galanin-immunoreactive sensory neurons in the trigeminal ganglion do not innervate the submandibular or sublingual gland. These results indicate that the galanin-like innervation of rat salivary glands is derived from parasympathetic nerves to the glands. Since rat sublingual glands contain largely mucous acini while rat submandibular gland acini are seromucous, electrophysiological responses to galanin and the muscarinic agonist, bethanechol, were compared. Agonist-induced voltage shifts varied between the two glands. The galanin-induced response at the level of the resting membrane potential in submandibular acinar cells was a hyperpolarization, while that in sublingual acinar cells was a depolarization. There was also a greater voltage dependence to the galanin-induced submandibular response than to the sublingual response. Differences were also noted in the acinar cell response to cholinergic stimulation between these glands. These results demonstrate the existence of a galanin-like innervation to salivary glands that may be functionally relevant. Moreover, the results challenge the idea that agonist-induced membrane responses are similar among acinar cells of different glands.     

Positive allosteric modulators to peptide GPCRs: a promising class of drugs

The task of finding selective and stable peptide receptor agonists with low molecular weight, desirable pharmacokinetic properties and penetrable to the blood-brain barrier has proven too difficult for many highly coveted drug targets, including receptors for endothelin, vasoactive intestinal peptide and galanin. These receptors and ligand-gated ion channels activated by structurally simple agonists such as glutamate, glycine and GABA present such a narrow chemical space that the design of subtype-selective molecules capable of distinguishing a dozen of glutamate and GABA receptor subtypes and possessing desirable pharmacokinetic properties has also been problematic. In contrast, the pharmaceutical industry demonstrates a remarkable success in developing 1,4-benzodiazepines, positive allosteric modulators (PMAs) of the GABA_A receptor. They were synthesized over 50 years ago and discovered to have anxiolytic potential through an in vivo assay. As exemplified by Librium, Valium and Dormicum, these allosteric ligands of the receptor became the world''s first blockbuster drugs. Through molecular manipulation over the past 2 decades, including mutations and knockouts of the endogenous ligands or their receptors, and by in-depth physiological and pharmacological studies, more peptide and glutamate receptors have become well-validated drug targets for which an agonist is sought. In such cases, the pursuit for PAMs has also intensified, and a working paradigm to identify drug candidates that are designed as PAMs has emerged. This review, which focuses on the general principles of finding PAMs of peptide receptors in the 21st century, describes the workflow and some of its resulting compounds such as PAMs of galanin receptor 2 that act as potent anticonvulsant agents.     

慢性轻度不可预见性应激对大鼠海马内甘丙肽表达的影响

目的:观察慢性轻度不可预见性应激(chronic unpredictable mild stress,CUMS)对大鼠海马甘丙肽(ga-lanin,Gal)蛋白及mRNA表达的影响,探讨Gal在大鼠实验性抑郁症发病过程中的作用机制。方法:将20只健康雄性SD大鼠,随机分为正常组和模型组,每组10只。孤养结合CUMS 21 d建造抑郁症模型,应用旷场试验和糖水偏好试验检测大鼠行为学变化,使用免疫荧光组织化学方法和逆转录多聚酶链反应(RT-PCR)法测定Gal及Gal mRNA的表达。结果:造模后模型组大鼠运动总路程、中央路程、周边路程及糖水摄入量均较正常组偏低(P<0.05);模型组与正常组相比,海马内Gal及Gal mRNA的表达同样降低(P<0.05)。结论:慢性轻度不可预见性应激可使大鼠海马内Gal及Gal mRNA的表达量下降,推测Gal在抑郁发病过程中可能起到神经保护作用。     

Galanin gene transfer curtails generalized seizures in kindled rats without altering hippocampal synaptic plasticity

Gene therapy–based overexpression of endogenous seizure-suppressing molecules represents a promising treatment strategy for epilepsy. Viral vector–based overexpression of the neuropeptide galanin has been shown to effectively suppress generalized seizures in various animal models of epilepsy. However, it has not been explored whether such treatment can also prevent the epileptogenesis. Using a recombinant adeno-associated viral (rAAV) vector, we induced hippocampal galanin overexpression under the neuron specific enolase promoter in rats. Here we report that in animals with galanin overexpression, the duration of electrographic afterdischarges was shortened and initiation of convulsions was delayed at generalized seizure stages. However, the hippocampal kindling development was unchanged. Short-term plasticity of mossy fiber–cornu ammonis (CA) 3 synapses was unaltered, as assessed by paired-pulse and frequency facilitation of field excitatory postsynaptic potentials (fEPSPs) in hippocampal slices, suggesting that despite high transgene galanin expression, overall release probability of glutamate in these synapses was unaffected. These data indicate that hippocampal rAAV-based galanin overexpression is capable of mediating anticonvulsant effects by lowering the seizure susceptibility once generalized seizures are induced, but does not seem to affect kindling development or presynaptic short-term plasticity in mossy fibers.     

中枢神经系统甘丙肽调节摄食行为及相关机制研究进展(英文)

甘丙肽广泛分布于各个脑区,具有广泛的生理活性,能够调节能量消耗、促进摄食、增加体重。研究表明,甘丙肽主要通过甘丙肽受体1、5-HT1A受体以及α-2肾上腺素能受体调节摄食行为。本文主要对中枢神经系统甘丙肽的调节摄食行为及其相关机制进行综述,为甘丙肽功能的进一步研究提供依据。     

Foetal Hypothalamic and Pituitary Expression of Gonadotrophin‐Releasing Hormone and Galanin Systems is Disturbed by Exposure to Sewage Sludge Chemicals via Maternal Ingestion

Animals and humans are chronically exposed to endocrine disrupting chemicals (EDCs) that are ubiquitous in the environment. There are strong circumstantial links between environmental EDC exposure and both declining human/wildlife reproductive health and the increasing incidence of reproductive system abnormalities. The verification of such links, however, is difficult and requires animal models exposed to ‘real life’, environmentally relevant concentrations/mixtures of environmental contaminants (ECs), particularly in utero, when sensitivity to EC exposure is high. The present study aimed to determine whether the foetal sheep reproductive neuroendocrine axis, particularly gondotrophin‐releasing hormone (GnRH) and galaninergic systems, were affected by maternal exposure to a complex mixture of chemicals, applied to pasture, in the form of sewage sludge. Sewage sludge contains high concentrations of a spectrum of EDCs and other pollutants, relative to environmental concentrations, but is frequently recycled to land as a fertiliser. We found that foetuses exposed to the EDC mixture in utero through their mothers had lower GnRH mRNA expression in the hypothalamus and lower GnRH receptor (GnRHR) and galanin receptor (GALR) mRNA expression in the hypothalamus and pituitary gland. Strikingly, this, treatment had no significant effect on maternal GnRH or GnRHR mRNA expression, although GALR mRNA expression within the maternal hypothalamus and pituitary gland was reduced. The present study clearly demonstrates that the developing foetal neuroendocrine axis is sensitive to real‐world mixtures of environmental chemicals. Given the important role of GnRH and GnRHR in the regulation of reproductive function, its known role programming role in utero, and the role of galanin in the regulation of many physiological/neuroendocrine systems, in utero changes in the activity of these systems are likely to have long‐term consequences in adulthood and represent a novel pathway through which EC mixtures could perturb normal reproductive function.     

Increased galanin synapses onto activated gonadotropin-releasing hormone neuronal cell bodies in normal female mice and in functional preoptic area grafts in hypogonadal mice

Galanin synaptic input onto gonadotropin-releasing hormone (GnRH) neuronal cell bodies was analysed in female mice using the presynaptic vesicle-specific protein, synaptophysin (Syn) as a marker. In the first experiment, forebrain sections from normal ovariectomized ovarian steroid-primed mice exhibiting a surge of luteinizing hormone were processed for immunohistochemical labelling for GnRH, synaptophysin, galanin and Fos. Two representative sections from each brain, one passing through the anterior septum (anterior section) and the other through the organum vasculosum lamina terminalis-preoptic area (posterior section), were analysed under the confocal microscope. None of the GnRH cells analysed in the anterior sections were Fos immunoreactive (IR) or received input from galanin-IR fibres. In contrast, the majority of GnRH cells in the posterior sections analysed were Fos-positive. The number of galanin synapses onto the Fos-positive GnRH cells was significantly higher than that in the Fos-negative cells in this area of the brain, even though the number of Syn-IR appositions was comparable to each other. Transplantation of preoptic area (POA) into the third cerebral ventricle of hypogonadal (HPG) mice corrects deficits in the reproductive system. In the second experiment, synaptic input to GnRH cells was compared between HPG/POA mice with (functional graft) or without (nonfunctional graft) gonadal development. The mean numbers of Syn-IR appositions and galanin synapses per GnRH cell and the proportion of GnRH cells with galanin input were significantly higher in the functional than in the nonfunctional grafts. The results suggest that galanin can act directly on the GnRH cell bodies and may have an important regulatory role on the GnRH system.     

Effect of peripheral nerve lesion and lumbar sympathectomy on peptide regulation in dorsal root ganglia in the NGF-overexpressing mouse

Galanin is a peptide normally expressed at low levels both in sensory and in sympathetic neurons. It is strongly upregulated after peripheral nerve lesions, and it has been proposed that nerve growth factor (NGF) plays a role in this regulation. In the present study the effect of both sciatic nerve transection and lumbar sympathectomy on galanin in lumbar dorsal root ganglia (DRGs) was examined in mice overexpressing NGF (NGFOE) in the skin under the keratin promoter. The superior cervical ganglia (SCG) were also studied. In the DRG pericellular baskets containing tyrosine hydroxylase- (TH) and galanin-like immunoreactivity (LI) were found, mostly in the same fibers. Galanin-positive baskets were also found in the trigeminal ganglia. However, only single neuropeptide Y (NPY)-positive baskets were observed within the DRGs. No marked difference in number of galanin-positive neurons was seen between wild-type and NGFOE mice. After sciatic nerve transection galanin was upregulated in DRG neurons to about the same extent in NGFOE mice as in wild-type mice. Galanin-, but not TH-LIs decreased in the pericellular baskets. After lumbar sympathectomy both galanin- and TH-immunoreactive baskets disappeared, suggesting a sympathetic origin. In the SCG the very low galanin mRNA levels were strongly increased after lesion of the carotid nerves, both in wild-type and in NGFOE mice. However, whereas NPY mRNA levels decreased in the SCG after axotomy in the wild-type mice, there was a distinct increase in the NGFOE mice. Our results show that high NGF levels in skin induce formation of pericellular baskets in DRGs expressing galanin- and TH-LI and that galanin in these baskets is strongly influenced by peripheral axotomy. However, overexpression of NGF did not markedly influence galanin expression in DRG neurons, neither normally nor after nerve lesions. Finally, expression of NPY in sympathetic ganglia is differently regulated in NGFOE compared to wild-type mice.