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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Intracellular Angiotensin II Inhibits Heterologous Receptor Stimulated Ca<sup>2+</sup> Entry

Filipeanu, Catalin M., Brailoiu, Eugen, Henning, Robert H., Deelman, Leo E., De Zeeuw, Dick, Nelemans, S. Adriaan 30 November 2001 (has links)
Recent studies show that angiotensin II (AngII) can act from within the cell, possibly via intracellular receptors pharmacologically different from typical plasma membrane AngII receptors. The role of this intracellular AngII (AngIIi) is unclear. Besides direct effects of AngIIi on cellular processes one could hypothesise a possible role of AngIIi in modulation of cellular responses induced after heterologous receptor stimulation. We therefore examined if AngIIi influences [Ca2+]i in A7r5 smooth muscle cells after serotonin (5HT) or UTP receptor stimulation. Application of AngIIi using liposomes, markedly inhibited 45Ca2+ influx after receptor stimulation with 5HT or UTP. This inhibition was reversible by intracellular administration of the AT1-antagonist losartan and not influenced by the AT2-antagonist PD123319. Similar results were obtained in single cell [Ca2+]i measurements, showing that AngIIi predominantly influences Ca2+ influx and not Ca2+ release via AT1-like receptors. It is concluded that AngIIi modulates signal transduction activated by heterologous receptor stimulation.
2

Intracellular Angiotensin II Elicits CA<sup>2+</sup> Increases in A7r5 Vascular Smooth Muscle Cells

Filipeanu, Catalin M., Brailoiu, Eugen, Kok, Jan Willem, Henning, Robert H., De Zeeuw, Dick, Nelemans, S. Adriaan 18 June 2001 (has links)
Recent studies show that angiotensin II can act within the cell, possibly via intracellular receptors pharmacologically different from typical plasma membrane angiotensin II receptors. The signal transduction of intracellular angiotensin II is unclear. Therefore, we investigated the effects of intracellular angiotensin II in cells devoid of physiological responses to extracellular angiotensin II (A7r5 vascular smooth muscle cells). Intracellular delivery of angiotensin II was obtained by using liposomes or cell permeabilisation. Intracellular angiotensin II stimulated Ca2+ influx, as measured by 45Ca2+ uptake and single-cell fluorimetry. This effect was insensitive to extracellular or intracellular addition of losartan (angiotensin AT1 receptor antagonist) or PD123319 ((s)-1-(4-[dimethylamino]-3-methylphenyl)methyl-5-(diphenylacetyl)-4,5,6,7- tetrahydro-1H-imidazo[4,5-c]pyridine-6-carboxylate) (angiotensin AT2 receptor antagonist). Intracellular angiotensin II stimulated inositol-1,4,5-trisphosphate (Ins(1,4,5,)P3) production and increased the size of the Ins(1,4,5,)P3 releasable 45Ca2+ pool in permeabilised cells, independent of losartan and PD123319. Small G-proteins did not participate in this process, as assessed by using GDPβS. Intracellular delivery of angiotensin I was unable to elicit any of the effects elicited by intracellular angiotensin II. We conclude from our intracellular angiotensin application experiments that angiotensin II modulates Ca2+ homeostasis even in the absence of extracellular actions. Pharmacological properties suggest the involvement of putative angiotensin non-AT1-/non-AT2 receptors.

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