Global ETD Search

1	The α<sub>1</sub>-Adrenoceptor Is Inactivated by Alterations in Membrane Phospholipids Shreeve, S. M., Valliere, Julia E. 12 May 1992 (has links) The influence of the membrane environment on the α1-adrenoceptor has been investigated by examining the effect of phospholipase digestion on the binding of [3H]prazosin to aortic and hepatic membranes. Membrane digestion by phospholipase A2 and phospholipase C was found to markedly reduce prazosin binding to the α1-adrenoceptor whereas phospholipase D had comparatively little effect. In addition, there were differences between membrane preparations since the aortic α1-adrenoceptor was less sensitive to phospholipase A2 and phospholipase C than the hepatic receptor. The results support a major role for hydrophobic groups and the negatively charged, hydrophilic phosphate moiety of phospholipids in the interaction between prazosin and the α1-adrenoceptor. aorta membrane lipids phospholipase C phospholipases phospholipids α -Adrenoceptor 1
2	Preemptive, but Not Reactive, Spinal Cord Stimulation Mitigates Transient Ischemia-Induced Myocardial Infarction via Cardiac Adrenergic Neurons Southerland, E. M., Milhorn, D. M., Foreman, R. D., Linderoth, B., DeJongste, M. J.L., Armour, J. A., Subramanian, V., Singh, M., Singh, K., Ardell, J. L. 01 January 2007 (has links) Our objective was to determine whether electrical neuromodulation using spinal cord stimulation (SCS) mitigates transient ischemia-induced ventricular infarction and, if so, whether adrenergic neurons are involved in such cardioprotection. The hearts of anesthetized rabbits, subjected to 30 min of left anterior descending coronary arterial occlusion (CAO) followed by 3 h of reperfusion (control), were compared with those with preemptive SCS (starting 15 min before and continuing throughout the 30-min CAO) or reactive SCS (started at 1 or 28 min of CAO). For SCS, the dorsal C8-T2 segments of the spinal cord were stimulated electrically (50 Hz, 0.2 ms, 90% of motor threshold). For preemptive SCS, separate groups of animals were pretreated 15 min before SCS onset with 1) vehicle, 2) prazosin (α1-adrenoceptor blockade), or 3) timolol (β-adrenoceptor blockade). Infarct size (IS), measured with tetrazolium, was expressed as a percentage of risk zone. In controls exposed to 30 min of CAO, IS was 36.4 ± 9.5% (SD). Preemptive SCS reduced IS to 21.8 ± 6.8% (P < 0.001). Preemptive SCS-mediated infarct reduction was eliminated by prazosin (36.6 ± 8.8%) and blunted by timolol (29.4 ± 7.5%). Reactive SCS did not reduce IS. SCS increased phosphorylation of cardiac PKC. SCS did not alter blood pressure or heart rate. We conclude that preemptive SCS reduces the size of infarcts induced by transient CAO; such cardioprotection involves cardiac adrenergic neurons. α -adrenoceptor 1 β-adrenoceptor neuromodulation ventricular infarction Biomedical Sciences
3	Identification of the α<sub>1C</sub>-Adrenoceptor in Rabbit Arteries and the Human Saphenous Vein Using the Polymerase Chain Reaction Diehl, Nicole L., Martin Shreeve, S. 16 August 1994 (has links) The expression of the α1C-adrenoceptor subtype in human and rabbit blood vessels has been analyzed using the reverse transcriptase/polymerase chain reaction technique (RT/PCR). The 20 bp primers employed were designed from the bovine α1C-adrenoceptor and flank a least conserved region - the putative third cytoplasmic loop. RT/PCR products generated from rabbit and human brain mRNA both had 93% homology to the bovine α1C-adrenoceptor and were used as species and subtype specific probes in Southern blot analysis of vascular RT/PCR products. Poly A+ RNA was purified from the human saphenous vein and rabbit aorta, renal, pulmonary and central ear arteries and amplified by RT/PCR. Size analysis by agarose gel electrophoresis, together with Southern hybridization of the resulting cDNA products confirm the expression of the α1C-adrenoceptor in these vessels. artery rabbit polymerase chain reaction saphenous vein human α -adrenoceptor 1
4	Interaction of Dihydroxy-2-Aminotetralin Derivatives at Sites Labelled With [<sup>3</sup>H]Clonidine, [<sup>3</sup>H]Prazosin and [<sup>3</sup>H]Spiperone in Rat Brain Membranes Chatterjee, Tapan K., Bhatnagar, Ranbir K., Cannon, Joseph G., Long, John P. 17 February 1984 (has links) The interactions of 5,6- and 6,7-dihydroxy derivatives of 2-aminotetralin with [3H]clonidine and [3H]clonidine and [3H]prazosin as well as with [3H]spiperone binding sites in rat cerebral cortex membrane preparations were investigated. The hydroxy derivatives of 2-aminotetralin tested showed significant interaction with [3H]clonidine as well as with [3H]spiperone binding sites while for [3H]prazosin binding site these agents appeared virtually inactive. For interaction with [3H]clonidine binding site 6,7-dihydroxy substitutions impart greater potency that 5,6-dihydroxy substitutions and N-alkyl substitutions either make no difference or reduce the affinity of these compounds. N-alkyl substitutions, however, markedly enhance the affinity of 5,6-dihydroxy derivatives for interactions with [3H]spiperone binding site. The results suggest that some hydroxy derivatives of aminotetralin have significant interaction with both central α2-adrenoceptor and D2-dopamine receptor systems. aminotetralin D -dopamine receptor 2 α -Adrenoceptor 1 α -Adrenoceptor 2

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