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Psychoneuroendocrinology, ISSN 0306-4530, 2015, Volume 63, pp. 351 - 361
Journal Article
Biological Psychiatry, ISSN 0006-3223, 1993, Volume 34, Issue 10, pp. 676 - 686
An association between dysphoric premenstrual syndromes (PMS) and a lifetime history of major depressive disorders has previously been documented. Other... 
Premenstrual syndromes (PMS) | depression | gonadal hormones | α2 receptors | menstrual cycle | imidazoline | receptors
Journal Article
Pharmacology, Biochemistry and Behavior, ISSN 0091-3057, 1992, Volume 43, Issue 3, pp. 733 - 738
Male Wistar rats were housed in cages linked to running wheels and fed on a schedule designed to reduce their body weight by 20-30%. During this period of... 
α2-receptors | Anorexia | Starvation | Exercise | α2-adrenoceptors | Food intake | Subtypes | Clonidine | Stress | receptors | adrenoceptors
Journal Article
Brain Research Bulletin, ISSN 0361-9230, 1989, Volume 23, Issue 6, pp. 425 - 432
It has been suggested that the stimulation of the secretion of PRL by the α adrenergic receptor antagonists (yohimbine, piperoxane) results from blockade of an... 
α2 Receptors | Rauwolscine | Yohimbine | Idazoxan | Prolactin | Wy 26392 | Receptors
Journal Article
European Journal of Clinical Investigation, ISSN 0014-2972, 12/1988, Volume 18, Issue 6, pp. 587 - 594
. Investigations were carried out to analyse the interactions of α2‐antagonists (yohimbine, idazoxan, SK & F‐86,466) with human fat cell α2‐adrenoceptors. All... 
insulin release | lipid mobilization | α2‐receptors | idazoxan | propranolol | yohimbine | β‐blocking agents | free fatty acids | lipolysis | physical exercise | Human adipocytes | α2‐antagonists | antagonists | receptors
Journal Article
British Journal of Pharmacology, ISSN 0007-1188, 10/1992, Volume 107, Issue 2, pp. 352 - 355
1 In segments of the rat vena cava preincubated with [3H]‐noradrenaline and superfused with physiological salt solution (containing desipramine and... 
Rat vena cava | prostaglandin E2 | postganglionic sympathetic neurones | noradrenaline release | misoprostol | presynaptic EP3‐receptors | sulprostone | receptor interactions | presynaptic α2‐receptors | indomethacin | receptors | Presynaptic α | Noradrenaline release | Sulprostone | Presynaptic EP | Indomethacin | Prostaglandin E | Misoprostol | Postganglionic sympathetic neurones | Receptor interactions | RAT VENA CAVA | NORADRENALINE RELEASE | NEUROTRANSMISSION | TERMINALS | BIOCHEMISTRY & MOLECULAR BIOLOGY | INDOMETHACIN | IRIS-CILIARY BODY | PRESYNAPTIC ALPHA-2-RECEPTORS | RECEPTOR INTERACTIONS | PROSTAGLANDIN E2 | PROSTAGLANDINS | PRESYNAPTIC EP3-RECEPTORS | PHARMACOLOGY & PHARMACY | POSTGANGLIONIC SYMPATHETIC NEURONS | MISOPROSTOL | SULPROSTONE | 5-HT1B RECEPTORS | Dinoprostone - pharmacology | Receptors, Prostaglandin E | Electric Stimulation | Xanthones | Prostaglandins - pharmacology | Alprostadil - pharmacology | Receptors, Prostaglandin - physiology | Misoprostol - pharmacology | Rats | Vena Cava, Inferior - metabolism | Vena Cava, Inferior - innervation | Indomethacin - pharmacology | Yohimbine - pharmacology | Vena Cava, Inferior - drug effects | Animals | Norepinephrine - metabolism | Dinoprostone - analogs & derivatives | Prostaglandin Antagonists - pharmacology | Prostaglandin D2 - pharmacology | Dinoprost - pharmacology | Xanthenes - pharmacology
Journal Article