Agonist-induced desensitization of the D-2 dopamine receptor in the intermediate lobe of the rat pituitary gland

The mechanism of agonist-induced desensitization of the D-2 dopamine receptor in the intermediate lobe (IL) of the rat pituitary gland was investigated. Exposure of neurointermediate lobe to 60 microM (-)apomorphine (APO) for 60 min altered the binding of [125I]-N-(p-aminophenethyl)spiperone (NAPS), a D-2 receptor-specific ligand. The capacity of the tissue to bind the ligand (Bmax) was not significantly altered by the exposure to (-)APO but the affinity for [125I]NAPS was decreased 3.6-fold in (-)APO-exposed tissue. The molar potency of YM-09151-2, a D-2 receptor-specific antagonist, showed a minimal difference between in control and (-)-APO-exposed tissue. However, the molar potency of (-)APO towards the D-2 receptor was diminished. The loss of [125I]NAPS binding in (-)APO-exposed tissue was reversed by the addition of guanyl nucleotide. These data suggest that exposure to agonist causes a persistent occupancy of the high affinity state of the receptor. Exposure to (-)APO had no effect on either basal or forskolin-activated adenylate cyclase activity of the intermediate lobe. However, the inhibitory effect of (-)APO upon adenylate cyclase activity of IL homogenates was diminished when the tissue was exposed to (-)APO before homogenization. Furthermore, the ability of GTP but not 5'-guanylyl imidodiphosphate [Gpp(NH)p] to inhibit enzyme activity diminished in the (-)APO-exposed tissue. These data suggest that an agonist-induced desensitization of D-2 receptor in rat IL is thought to occur by uncoupling the receptor from the inhibitory guanyl nucleotide binding protein (Gi) or potentiating the hydrolysis of GTP by Gi.     

Affinity chromatography of the D1 dopamine receptor from rat corpus striatum

The D1 dopamine receptor from rat corpus striatum has been purified 200-250-fold by using a newly developed biospecific affinity chromatography matrix based on a derivative of the D1 selective antagonist SCH 23390. This compound, (RS)-5-(4-aminophenyl)-8-chloro-2,3,4,5-tetrahydro-3-methyl-1H-3-benz azepin-7-o l (SCH 39111), possesses high affinity for the D1 receptor and, when immobilized on Sepharose 6B through an extended spacer arm, was able to adsorb digitonin-solubilized D1 receptors. The interaction between the solubilized receptor and the affinity matrix was biospecific. Adsorption of receptor activity could be blocked in a stereoselective fashion [SCH 23390 greater than SCH 23388; (+)-butaclamol greater than (-)-butaclamol]. The elution of [3H]SCH 23390 activity from the gel demonstrated similar stereoselectivity for antagonist ligands. Agonists eluted receptor activity with a rank order of potency consistent with that of a D1 receptor [apomorphine greater than dopamine greater than (-)-epinephrine much greater than LY 171555 greater than serotonin]. SCH 39111-Sepharose absorbed 75-85% of the soluble receptor activity, and after the gel was washed extensively, 35-55% of the absorbed receptor activity could be eluted with 100 microM (+)-butaclamol with specific activities ranging from 250 to 450 pmol/mg of protein. The affinity-purified receptor retains the ligand binding characteristics of a D1 dopamine receptor. This affinity chromatography procedure should prove valuable in the isolation and molecular characterization of the D1 dopamine receptor.     

Affinity chromatography of the anterior pituitary D2-dopamine receptor

The D2-dopamine receptor from bovine anterior pituitary has been solubilized with digitonin and purified approximately 1000-fold by affinity chromatography on a new affinity support. This support consists of a (carboxymethylene)oximino derivative of the D2-selective antagonist spiperone (CMOS) covalently attached to Sepharose 4B through a long side chain. The interaction of the solubilized receptor activity with the affinity gel was biospecific. Dopaminergic drugs blocked adsorption of solubilized receptor activity to the CMOS-Sepharose with the appropriate D2-dopaminergic potency and stereoselectivity. For agonists, (-)-N-n-propylnorapomorphine greater than 2-amino-6,7-dihydroxytetrahydronaphthalene approximately equal to apomorphine greater than dopamine, whereas for antagonists (+)-butaclamol much greater than (-)-butaclamol. The same D2-dopaminergic specificity was observed for elution of receptor activity from the gel. To observe eluted receptor binding activity, reconstitution of the eluted material into phospholipid vesicles was necessary. Typically, 70-80% of the solubilized receptor was adsorbed by CMOS-Sepharose, and 40-50% of the adsorbed activity could be recovered after reconstitution of the eluted material. The overall recovery of D2-receptor activity from bovine anterior pituitary membranes was 12-15% with specific binding activity of approximately 150 pmol/mg. The reconstituted affinity-purified receptor bound ligands with the expected D2-dopaminergic specificity, stereoselectivity, and rank order of potency.     

The mouse 5HT5 receptor reveals a remarkable heterogeneity within the 5HT1D receptor family.

Serotonin (5-HT) is a neuromodulator that mediates a wide range of physiological functions by activating multiple receptors. Using a strategy based on amino acid sequence homology between 5-HT receptors that interact with G proteins, we have isolated a cDNA encoding a new serotonin receptor from a mouse brain library. Amino acid sequence comparisons revealed that this receptor was a distant relative of all previously identified 5-HT receptors; we therefore named it 5HT5. When expressed in Cos-7 cells and NIH-3T3 cells, the 5HT5 receptor displayed a high affinity for the serotonergic radioligand [125I]LSD. Surprisingly, its pharmacological profile resembled that of the 5HT1D receptor, which is a 5-HT receptor subtype which has been shown to inhibit adenylate cyclase and which is predominantly expressed in basal ganglia. However, unlike 5HT1D receptors, the 5HT5 receptor did not inhibit adenylate cyclase and its mRNA was not found in basal ganglia. On the contrary, in situ hybridization experiments revealed that the 5HT5 mRNA was expressed predominantly in cerebral cortex, hippocampus, habenula, olfactory bulb and granular layer of the cerebellum. Our results therefore demonstrate that the 5HT1D receptors constitute a heterogeneous family of receptors with distinct intracellular signalling properties and expression patterns.     

A family of Drosophila serotonin receptors with distinct intracellular signalling properties and expression patterns.

Biogenic amines such as serotonin elicit or modulate a wide range of behaviours by interacting with multiple receptor subtypes. We have isolated cDNA clones encoding three distinct Drosophila serotonin receptors which belong to the G protein-coupled receptor family. When expressed in mammalian cells, these receptors activate different intracellular effector systems. The 5HT-dro1 receptor stimulates adenylate cyclase while the 5HT-dro2A and the 5HT-dro2B receptors inhibit adenylate cyclase and activate phospholipase C. Expression of all three receptors starts in late embryos and is restricted to distinct populations of cells in the central nervous system. The 5HT-dro2A receptor is predominantly expressed in midline motor neurons (VUM neurons) that innervate larval muscles thus suggesting a role for this receptor in motor control.     

Genetic evidence in support of a shared Eurasian-North African dairying origin

The process by which pastoralism and agriculture spread from the Fertile Crescent over the past 10,000 years has been the subject of intense investigation by geneticists, linguists and archaeologists. However, no consensus has been reached as to whether this Neolithic transition is best characterized by a demic diffusion (with a significant genetic input from migrating farmers) or a cultural diffusion (without substantial migration of farmers). Milk consumption and thus lactose tolerance are assumed to have spread with pastoralism and we propose that by looking at the relevant mutations in and around the lactase gene in human populations, we can gain insight into the origin(s) and spread of dairying. We genotyped the putatively causal allele for lactose tolerance (–13910T) and constructed haplotypes from several polymorphisms in and around the lactase gene (LCT) in three North African Berber populations and compared our results with previously published data. We found that the frequency of the –13910T allele predicts the frequency of lactose tolerance in several Eurasian and North African Berber populations but not in most sub-Saharan African populations. Our analyses suggest that contemporary Berber populations possess the genetic signature of a past migration of pastoralists from the Middle East and that they share a dairying origin with Europeans and Asians, but not with sub-Saharan Africans.     

Charting the Irreversible Degradation Modes of Low Bandgap Pb-Sn Perovskite Compositions for De-Risking Practical Industrial Development

The commercialization of a solar technology necessitates the fulfillment of specific requirements both regarding efficiency and stability to enter and gain space in the photovoltaic market. These aims are heavily dependent on the selection of suitable materials, which is critical for suppressing any reliability risks arising from inherent instabilities. Focusing on the absorber material, herein the most suitable low bandgap lead-tin composition candidate for all-perovskite tandem applications is investigated by studying their degradation mechanisms with both widely available and advanced characterization techniques. Three irreversible degradation processes are identified in narrow bandgap Pb-Sn perovskite absorbers: 1) Tin (Sn) oxidation upon air exposure, 2) methylammonium (MA) loss upon heat exposure, and 3) formamidinium (FA) and cesium (Cs) segregation leading to impurity phase formation. From an industrial perspective, it is proposed to refocus attention on FASn_0.5Pb_0.5I₃ which minimizes all three effects while maintaining a suitable bandgap for a bottom cell and good performance. Moreover, a practical and highly sensitive characterization method is proposed to monitor the oxidation, which can be deployed both in laboratory and industrial environments and provide useful information for the technological development process, including, the effectiveness of encapsulation methods, and the acceptable time windows for air exposure.     

Characterization of the non-sulphated highly anionic kurloff cell glycoconjugates by lectin- and immunoblotting: Evidence for the presence of α(2,8)-linked polysialic acid-bearing molecules

Summary— Urea or guanidine hydrochloride-soluble extracts from highly purified Kurloff cells (KC) radiolabelled in vitro were subjected to DEAE-cellulose chromatography. Among the three anionic peaks obtained, a major and non-sulphated peak (designated as peak IV) strongly affected by glucosamine-labelling and eluted at about 0.3 M NaCl was analyzed. Gel filtration on Sepharose CL4B and 10% SDS-PAGE indicated its heterogeneous size. Peak IV consisted mainly of N-glycans as shown by its susceptibility to tunicamycin. Further insight into its chemical nature was obtained by examining its binding capacity to different lectins and by immunodot analysis. It strongly interacted with concanavalin A (Con A) after dot-blot or Western blotting. A large amount of these glycoproteins is not of the high-mannose type since Galanthus nivalis agglutinin reacted weakly with peak IV. Moreover, bindings to Phaseolus vulgaris and to wheat germ agglutinins suggest the presence of bisecting N-acetylglucosamine residues. Bindings to Sambucus nigra and to Ricinus communis agglutinins, dramatically lessened and increased respectively after desialylation, suggest the presence of Neu5Acα2,6Gal/GalNAc sequences. The absence of outer sialic acid residues linked α2,3 to galactose was demonstrated following Maackia amurensis agglutinin negativity. The use of poly(α2,8-sialyl) endo-N-acylneuraminidase combined with immunodot procedure with a monoclonal antibody that specifically recognizes α2,8-linked polysialic chains revealed that peak IV contains oligosac-charidic epitopes common to polysialyated neural cell adhesion molecules.