Ulrich E. Honegger scite author profile

Human GH has two disulfide bridges linking Cys-53 to Cys-165 and Cys-182 to Cys-189. Although absence of the first disulfide bridge has been shown to affect the bioactivity of GH in transgenic mice, little is known of the importance of this bridge in mediating the GH/GH-receptor (GHR) interaction in humans. However, we have identified a missense mutation (G705C) in the GH1 gene of a Serbian patient. This mutation was found in the homozygous state and leads to the absence of the disulfide bridge Cys-53 to Cys-165. To study the impact of this mutation in vitro, GHR binding and Janus kinase (Jak)2/signal transducer and activator of transcription (Stat)5 activation experiments were performed, in which it was observed that at physiological concentrations (3-50 ng/ml) both GHR binding and Jak2/Stat5 signaling pathway activation were significantly reduced in the mutant GH-C53S, compared with wild-type (wt)-GH. Higher concentrations (400 ng/ml) were required for this mutant to elicit responses similar to wt-GH. These results demonstrate that the absence of the disulfide bridge Cys-53 to Cys-165 affects the binding affinity of GH for the GHR and subsequently the potency of GH to activate the Jak2/Stat5 signaling pathway. In conclusion, we have demonstrated that GH-C53S is a bioinactive GH at the physiological range and that the disulfide bridge Cys-53 to Cys-163 is required for mediating the biological effects of GH.

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The Contribution of Lysosomal Trapping in the Uptake of Desipramine and Chloroquine by Different Tissues

Daniel

Bickel

Honegger

1995

Pharmacology & Toxicology

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Cationic amphiphilic drugs strongly accumulate in tissues of different organs. Uptake is controlled by two major mechanisms, non-specific binding to membrane phospholipids, and ion-trapping within acidic cellular compartments. The aim of this study was to assess the individual contributions of these two mechanisms on the uptake in vitro of desipramine and chloroquine into tissue slices of control and desipramine-treated rats. Drug uptake into intact slices was compared with uptake into slices with destroyed or non-functional acidic compartments. The sequence of desipramine uptake by tissue slices of eight different organs was: lungs > brain > heart > diaphragm > kidneys > skeletal muscles > adipose tissue > liver. The low desipramine concentration in liver may be due to metabolism of the parent drug by cytochrome P-450. Uptake of chloroquine differed widely between slices of different organs with the sequence: lungs > kidneys = brain = liver > diaphragm = heart = skeletal muscles > adipose tissue. Destruction or inactivation of the acidic compartments by homogenization and freeze-thawing or by ammonium chloride, sodium fluoride, or monensin, reduced drug uptake to similar extents. The reduction was organ-specific and may represent the size of the lysosomal compartment in the respective tissue cells. Uptake of chloroquine was more affected than that of desipramine, suggesting that ion-trapping is the main factor for chloroquine accumulation, while binding to membrane phospholipids, is the main factor for desipramine uptake. Single or multiple-dose treatments of rats with desipramine hardly had any effect on consecutive desipramine uptake into lung and liver slices, while the accumulation of chloroquine was enhanced in these slices. In conclusion, the extent of uptake of cationic amphiphilic drugs into tissue slices was tissue-specific, and the contribution of the two uptake mechanisms was strongly drug-dependent.

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St. John's Wort Extract Ze 117 (Hypericum perforatum) Inhibits Norepinephrine and Serotonin Uptake into Rat Brain Slices and Reduces β-Adrenoceptor Numbers on Cultured Rat Brain Cells

Kientsch

Bürgi²,

Ruedeberg³

et al. 2001

Pharmacopsychiatry

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Despite almost forty years of widespread use, the mode of action of antidepressant drugs is still largely unknown. There is agreement that these drugs interact with central neurotransmission. Common findings are acute inhibitory actions on reuptake mechanisms for norepinephrine (NE) and for serotonin (5-HT) at presynaptic axons and chronic adaptive effects on neurotransmitter receptors on postsynaptic membranes. In particular, beta-adrenoceptor downregulation has been observed after chronic treatment with most antidepressants in vivo and in cell culture systems. We studied the effectiveness of Ze 117 (St. John's wort) extract (Hypericum perforatum) on NE- and 5-HT-uptake into rat brain slices. Potency and efficacy of the Ze 117 extract were compared with those of tricyclic (TCA) and selective serotonin reuptake inhibitor (SSRI)-type antidepressants. A dose-dependent inhibition was seen on NE and 5-HT uptake into brain slices. The Ze 117 extract was more selective for the uptake of NE than for that of 5-HT. The maximal extent of uptake inhibition by Ze 117 extract was comparable to that of imipramine (IMI), desipramine (DMI) or fluvoxamine for 5-HT, but lower for NE transport, than that of the synthetic antidepressants. Chronic exposure (8 days) of confluent C6-cell cultures to Ze 117 extract resulted in a dose-dependent beta-adrenoceptor downregulation equal to that induced by DMI, a potent TCA. None of these effects could be achieved with either hypericin or hyperforin alone in a relevant dose range. Our results indicate that the St. John's wort extract Ze 117 contains active, but as yet unknown antidepressant principles with effects comparable to those of TCAs.

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Chronic exposure of human cells in culture to the tricyclic antidepressant desipramine reduces the number of beta-adrenoceptors

Honegger

Disler

Wiesmann

1986

Biochemical Pharmacology

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Antidepressant-induced Switch of β1-Adrenoceptor Trafficking as a Mechanism for Drug Action

Bürgi

Baltensperger

Honegger

2003

Journal of Biological Chemistry

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Reduction in surface ␤ 1 -adrenoceptor (␤1AR) density is thought to play a critical role in mediating the therapeutic long term effects of antidepressants. Since antidepressants are neither agonists nor antagonists for G protein-coupled receptors, receptor density must be regulated through processes independent of direct receptor activation. Endocytosis and recycling of the ␤1AR fused to green fluorescent protein at its carboxylterminus (␤1AR-GFP) were analyzed by confocal fluorescence microscopy of live cells and complementary ligand binding studies. In stably transfected C6 glioblastoma cells, ␤1AR-GFP displayed identical ligand-binding isotherms and adenylyl cyclase activation as native ␤1AR. Upon exposure to isoproterenol, a fraction of ␤1AR-GFP (10 -15%) internalized rapidly and colocalized with endocytosed transferrin receptors in an early endosomal compartment in the perinuclear region. Chronic treatment with the tricyclic antidepressant desipramine (DMI) did not affect internalization characteristics of ␤1AR-GFP when challenged with isoproterenol. However, internalized receptors were not able to recycle back to the cell surface in DMI-treated cells, whereas recycling of transferrin receptors was not affected. Endocytosed receptors were absent from structures that stained with fluorescently labeled dextran, and inhibition of lysosomal protease activity did not restore receptor recycling, indicating that ␤1AR-GFP did not immediately enter the lysosomal compartment. The data suggest a new mode of drug action causing a "switch" of receptor fate from a fast recycling pathway to a slowly exchanging perinuclear compartment. Antidepressant-induced reduction of receptor surface expression may thus be caused by modulation of receptor trafficking routes.Chronic treatment with most classes of antidepressants leads to a reduction in the number of central postsynaptic ␤-adrenoceptors (␤AR) 1 in vivo and of surface ␤AR density in cell cultures (1-4). This effect is reported to be specific for the ␤ 1 -adrenoceptor subtype (5, 6). ␤AR down-regulation is accompanied by decreased receptor-stimulated cAMP formation (7). The two major effects at the molecular level become apparent in vivo after 10 -20 days of drug administration and coincide with the onset of clinical antidepressant response in humans. Therefore ␤AR down-regulation and diminished cAMP response to catecholamines may relate to the therapeutic action of antidepressants.It has been proposed that the reduction in the number of functional ␤AR could be a regulatory response to the enhanced presence of norepinephrine in the synaptic cleft after acute inhibition of norepinephrine reuptake or of monoamine oxidase activity by antidepressants (1, 8). Some clinically effective antidepressants, however, neither influence norepinephrine reuptake nor inhibit monoamine oxidase activity but still cause a ␤AR down-regulation. Furthermore, this model fails to explain the observed time lag between the rapid drug-induced increase in intrasynaptic neurotransmitter concentrations ...

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