A. A. E. Hunt scite author profile

Ataxin 1 (Atxn1) is a protein of unknown function associated with spinocerebellar ataxia type 1 (SCA1), a neurodegenerative disease of late onset with variable degrees of cerebellar ataxia, ophthalmoplegia and neuropathy. SCA1 is caused by the toxic effects triggered by an expanded polyglutamine (polyQ) within Atxn1 resulting in neurodegeneration in the cerebellum, brain stem and spinocerebellar tracts. To gain insights into Atxn1 function, we have analysed the cerebellar gene expression profiles by microarray analysis in Atxn1-null mice, and identified alterations in expression of genes regulated by Sp1-dependent transcription, including the dopamine receptor D2 (Drd2), retinoic acid/thyroid hormone and Wnt-signalling. Interestingly, Drd2 expression levels are reduced in both Atxn1-null and transgenic mice expressing a pathogenic human Atxn1 with an expanded polyglutamine in cerebellar Purkinje cells. Our co-transfection experiments in human neuroblastoma SH-SY5Y cells and luciferase assays provide evidence for transcriptional regulation of Drd2 by Atxn1 and its AXH module. We show that Atxn1 occupies at the Drd2 promoter in vivo, and interacts and functions synergistically with the zinc-finger transcription factor Sp1 to co-regulate Drd2 expression. The interaction and transcriptional effects are mediated by the AXH domain within Atxn1 and are abrogated by the expanded polyQ within Atxn1. Therefore, this study identifies novel molecular targets that are regulated by Atxn1 which might contribute to the motor deficits in SCA1, and provides new insights into the mechanisms by which Atxn1 co-regulates transcription.

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The Time Course of Cardioprotection Induced by GR79236, a Selective Adenosine A1-Receptor Agonist, in Myocardial Ischaemia-Reperfusion Injury in the Pig

Louttit

Hunt

Maxwell

et al. 1999

Journal of Cardiovascular Pharmacology

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The cardioprotective effects of the selective adenosine A1-receptor agonist, GR79236 (N-[(1S, trans)-2-hydroxycyclopentyl]adenosine), were examined in a porcine model of myocardial ischaemia-reperfusion injury. When pigs were subjected to a 50-min coronary artery occlusion followed by 3-h reperfusion, GR79236 (10 nmol/kg, i.v.) significantly reduced infarct size whether given 10 min before the onset of ischaemia or reperfusion. This effect was independent of the bradycardia induced by GR79236, as it was also observed in animals in which heart rate was maintained by electrical pacing. However, GR79236 administered 10 min after reperfusion did not reduce infarct size. GR79236 had no effect on the incidence or outcome of ventricular dysrhythmias in this pig model of infarction. Similarly, ischaemic preconditioning (IPC, 2 x 10-min ischaemia and 10-min reperfusion) significantly reduced infarct size. The selective adenosine A1-receptor antagonist, 8-cyclopentyl-1,3-dipropylxanthine (DPCPX; 3.3 micromol/kg, i.v.), abolished the haemodynamic and cardioprotective effects of GR79236 and the cardioprotective effects of IPC in anaesthetised pigs. In conclusion, GR79236 exerted a marked cardioprotective effect in a porcine model of myocardial ischaemia-reperfusion injury, provided that it was administered before reperfusion. This suggests that GR79236 may have clinical utility in the treatment of various aspects of ischaemic heart disease.

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Cardiovascular effects of GR117289, a novel angiotensin AT₁ receptor antagonist

Hilditch

Hunt

Gardner

et al. 1994

British J Pharmacology

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1 The effect of GRI 17289, an angiotensin AT, receptor antagonist, on diastolic blood pressure (DBP) was determined in angiotensin-dependent and angiotensin-independent models of hypertension in rats. In addition, the antagonist profile of GRi 17289 at angiotensin AT1 receptors was determined in conscious renal hypertensive rats and conscious normotensive rats, dogs and marmosets. 2 Intra-arterial and oral administration of GRI17289 (0.3-3mgkg-', i.a.; 1-10mgkg-', p.o.) to 6-day left renal artery ligated hypertensive (RALH) rats (DBP> 140 mmHg) produced significant, dose-related reductions in DBP with little apparent effect on heart rate (< 15%). The antihypertensive effect of GRI 17289 developed progressively over several hours and with some doses persisted for 24-48 h after administration. 3 Administration of GRI17289 (1 mg kg-', i.a.) on 5 consecutive days to RALH rats reduced DBP on each day. The antihypertensive effect of GR1 17289 was not cumulative as DBP had almost returned to base-line values, 24 h after administration of each dose. 4 A dose of GRI 17289 (3 mg kg', i.a.), which produced a substantial reduction in DBP (about 70 mmHg) in RALH rats, was administered to rats in which blood pressure was elevated either by unilateral renal artery clipping, sustained infusion of angiotensin II (All), DOCA-salt administration or genetic inbreeding. GR1 17289 reduced DBP in rats in which the renin-angiotensin system was activated by renal artery clipping or All infusion but had little effect in normotensive rats, DOCA-salt rats and SHR. 5 Systemic administration of All to RALH rats and to normotensive rats, dogs and marmosets elicited reproducible pressor responses in all species. Systemic or oral administration of GR1 17289 (3 mg kg-') inhibited the pressor responses produced by All, resulting in parallel, rightward displacements of All dose-response curves. 6 Maximal displacements of All dose-response curves occurred 1 h and 1-7 h after systemic and oral administration, respectively. GR1 17289 produced a 32-246 fold displacement after systemic administration and a 4-12 fold displacement after oral administration. The effect in dogs was short lasting after systemic administration but the effect of GR I17289 lasted for up to 24 h in rats and marmosets and for up to 24 h after oral administration in all species. The antagonist activity appeared specific for angiotensin receptors as GRi17289 did not inhibit pressor responses to phenylephrine or vasopressin. 7 These experiments demonstrate that GRI 17289 reduces blood pressure in conscious hypertensive rats after both systemic and oral administration, and is an effective antagonist at angiotensin AT, receptors in conscious rats, dogs and marmosets.

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The pharmacological properties of the novel selective 5‐HT₃ receptor antagonist, alosetron, and its effects on normal and perturbed small intestinal transit in the fasted rat

Clayton¹,

Sargent²,

Butler³

et al. 1999

Neurogastroenterology Motil

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The purpose of this study was to investigate the pharmacological properties of the novel, selective 5-HT3 receptor antagonist, alosetron, and its effects on transit time in both the normal and perturbed small intestine of the rat. Alosetron concentration-dependently inhibited radioligand binding in membranes containing rat and human 5-HT3 receptors with estimated pKi values of 9.8 (n = 3) and 9.4 (n = 6), respectively. In selectivity studies alosetron had little or no significant affinity for any of the many other receptors and ion channels studied. Alosetron potently antagonized the depolarization produced by 5-HT in the rat vagus nerve (estimated pKB value of 9.8, n = 25). In anaesthetized rats, i. v. administration of alosetron inhibited 2-methyl-5-HT induced bradycardia (Bezold Jarisch index) at 1 and 3 microg kg-1, with an agonist dose ratio of approximately 3.0 at 1.0 microg kg-1, = 3-5). Alosetron administered via the duodenum also inhibited this reflex, with duration of action that was significantly longer than that seen with ondansetron (120-60 min, respectively, n = 6). Alosetron had no significant effect on normal small intestinal propulsion in the rat, but fully reversed the increase in intestinal propulsion (96%, n = 3) produced by egg albumin challenge. Alosetron is a highly selective 5-HT3 antagonist which normalizes perturbed small intestinal propulsion. Previous clinical data in IBS patients together with the transit data provide a good rationale for further studies with alosetron in IBS patients.

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Involvement of central α2-adrenoceptors in the mediation of clonidine-induced hypotension in the cat

Hamilton

Hunt

Poyser

1980

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A. A. E. Hunt

Down-regulation of the dopamine receptor D2 in mice lacking ataxin 1

The Time Course of Cardioprotection Induced by GR79236, a Selective Adenosine A1-Receptor Agonist, in Myocardial Ischaemia-Reperfusion Injury in the Pig

Cardiovascular effects of GR117289, a novel angiotensin AT₁ receptor antagonist

The pharmacological properties of the novel selective 5‐HT₃ receptor antagonist, alosetron, and its effects on normal and perturbed small intestinal transit in the fasted rat

Involvement of central α2-adrenoceptors in the mediation of clonidine-induced hypotension in the cat

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A. A. E. Hunt

Down-regulation of the dopamine receptor D2 in mice lacking ataxin 1

The Time Course of Cardioprotection Induced by GR79236, a Selective Adenosine A1-Receptor Agonist, in Myocardial Ischaemia-Reperfusion Injury in the Pig

Cardiovascular effects of GR117289, a novel angiotensin AT1 receptor antagonist

The pharmacological properties of the novel selective 5‐HT3 receptor antagonist, alosetron, and its effects on normal and perturbed small intestinal transit in the fasted rat

Involvement of central α2-adrenoceptors in the mediation of clonidine-induced hypotension in the cat

Contact Info

Product

Resources

About

Cardiovascular effects of GR117289, a novel angiotensin AT₁ receptor antagonist

The pharmacological properties of the novel selective 5‐HT₃ receptor antagonist, alosetron, and its effects on normal and perturbed small intestinal transit in the fasted rat