Background: Pharmacological treatment options for adolescents with obesity are very limited. Glucagon-like-peptide-1 (GLP-1) receptor agonist could be a treatment option for adolescent obesity.Objective: To investigate the effect of exenatide extended release on body mass index (BMI)-SDS as primary outcome, and glucose metabolism, cardiometabolic risk
BackgroundOnset and development of the multifactorial disease age-related macular degeneration (AMD) are highly interrelated with mitochondrial functions such as energy production and free radical turnover. Mitochondrial dysfunction and overproduction of reactive oxygen species may contribute to destruction of the retinal pigment epithelium, retinal atrophy and choroidal neovascularization, leading to AMD. Consequently, polymorphisms of the mitochondrial genome (mtDNA) are postulated to be susceptibility factors for this disease. Previous studies from Australia and the United States detected associations of mitochondrial haplogroups with AMD. The aim of the present study was to test these associations in Middle European Caucasians.Methodology/Principal FindingsMitochondrial haplogroups (combinations of mtDNA polymorphisms) and mitochondrial CR polymorphisms were analyzed in 200 patients with wet AMD (choroidal neovascularization, CNV), in 66 patients with dry AMD, and in 385 controls from Austria by means of multiplex primer extension analysis and sequencing, respectively. In patients with CNV, haplogroup H was found to be significantly less frequent compared to controls, and haplogroup J showed a trend toward a higher frequency compared to controls. Five CR polymorphisms were found to differ significantly in the two study populations compared to controls, and all, except one (T152C), are linked to those haplogroups.Conclusions/SignificanceIt can be concluded that haplogroup J is a risk factor for AMD, whereas haplogroup H seems to be protective for AMD.
The regulatory peptide galanin is broadly distributed in the central- and peripheral nervous systems as well as in non-neuronal tissues, where it exerts its diverse physiological functions via three G-protein-coupled receptors (GAL 1-3 -R). Regulatory peptides are important mediators of the cross-communication between the nervous- and immune systems and have emerged as a focus of new therapeutics for a variety of inflammatory diseases. Studies on inflammatory animal models and immune cells revealed both pro- and anti-inflammatory functions of galanin. Here, we probed specific immune-related functions of the galanin system and found galanin and GAL 1 -R and GAL 2 -R mRNA to be expressed in a range of human immune cells. In particular, macrophages displayed differentiation- and polarization-dependent expression of galanin and its receptors. Exposure to exogenous galanin affected the cytokine/chemokine expression profile of macrophages differently, depending on their differentiation and polarization, and mainly modulated the expression of chemokines (CCL2, CCL3, CCL5 and CXCL8) and anti-inflammatory cytokines (TGF-β, IL-10 and IL-1Ra), especially in type-1 macrophages. Cytokine/chemokine expression levels in interferon-gamma- and lipopolysaccharide-polarized macrophages were upregulated whereas in unpolarized macrophages they were downregulated upon galanin treatment for 20 hours. This study illuminates the regulation of important cytokines/chemokines in macrophages by galanin, depending on specific cell activation.
The neuropeptide galanin (GAL) is widely distributed in the central and peripheral nervous systems. It is a modulator of various physiological and pathological processes, and it mediates its effects via three G protein-coupled receptors (GAL 1-3 receptors). A role for GAL as a modulator of mood and anxiety was suggested, because GAL and its receptors are highly expressed in limbic brain structures of rodents. In recent years, numerous studies of animal models have suggested an involvement of GAL and GAL 1 and GAL 2 receptors in anxiety-and depression-related behavior. However, to date, there is sparse literature implicating GAL 3 receptors in behavioral functions. Therefore, we studied the behavior of GAL 3 receptor-deficient (GAL 3 -KO) mice to elucidate whether GAL 3 receptors are involved in mediating behavior-associated actions of GAL. The GAL 3 -KO mouse line exhibited normal breeding and physical development. In addition to behavioral tests, phenotypic characterization included analysis of hematology, amino acid profiles, metabolism, and sudomotor function. In contrast to WT littermates, male GAL 3 -KO mice exhibited an anxietylike phenotype in the elevated plus maze, open field, and light/ dark box tests, and they were less socially affiliated than WT animals to a stranger mouse in a social interaction test. In conclusion, our data suggest involvement of GAL 3 receptors in GAL-mediated effects on mood, anxiety, and behavior, making it a possible target for alternative treatment strategies for mood disorders.T hirty years ago, Tatemoto et al. (1) isolated the neuropeptide galanin (GAL), a 29-aa (30-aa in humans) peptide, from porcine intestine. The peptide is highly conserved throughout evolution and found in many other species. GAL is widely distributed in the CNS and peripheral nervous system, and it has a variety of biological and physiological functions, ranging from energy homeostasis, reproduction, and feeding to cognition and learning (2). In the murine brain, GAL mRNA is extensively expressed in the hypothalamic and brainstem areas. The highest expression levels were observed in the preoptic, periventricular, and dorsomedial hypothalamic nuclei; bed nucleus of the stria terminalis (BNST); medial and lateral amygdala; locus coeruleus; and nucleus of the solitary tract (3). Furthermore, GAL coexists with the serotonin and norepinephrine systems in the rodent brain and acts as an inhibitory neuromodulator of norepinephrine, serotonin, dopamine, glutamate, and acetylcholine function (4). The expression pattern and neuromodulatory functions of GAL suggest a role for this neuropeptide in mood disorders like anxiety and depression. Accordingly, administration of GAL via the intracerebroventricular (i.c.v.) route or into the dopaminergic ventral tegmental area induced depression-like behavior in the rat forced swim test (FST) (5, 6). Several studies in GAL-overexpressing transgenic mice reported an increased depression-like behavior in the FST (7, 8) but found no differences in anxiety-related behavior und...
BackgroundEpidemiological case-control studies have revealed associations between mitochondrial haplogroups and the onset and/or progression of various multifactorial diseases. For instance, mitochondrial haplogroup T was previously shown to be associated with vascular diseases, including coronary artery disease and diabetic retinopathy. In contrast, haplogroup H, the most frequent haplogroup in Europe, is often found to be more prevalent in healthy control subjects than in patient study groups. However, justifications for the assumption that haplogroups are functionally distinct are rare. Therefore, we attempted to compare differences in mitochondrial function between haplogroup H and T cybrids.Methodology/Principal FindingsMitochondrial haplogroup H and T cybrids were generated by fusion of HEK293 cells devoid of mitochondrial DNA with isolated thrombocytes of individuals with the respective haplogroups. These cybrid cells were analyzed for oxidative phosphorylation (OXPHOS) enzyme activities, mitochondrial DNA (mtDNA) copy number, growth rate and susceptibility to reactive oxygen species (ROS). We observed that haplogroup T cybrids have higher survival rate when challenged with hydrogen peroxide, indicating a higher capability to cope with oxidative stress.Conclusions/SignificanceThe results of this study show that functional differences exist between HEK293 cybrid cells which differ in mitochondrial genomic background.
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