Short and long term regulation of catecholamine biosynthetic enzymes by angiotensin in cultured adrenal medullary cells. Molecular mechanisms and nature of second messenger systems.

@article{Stachowiak1990ShortAL,
  title={Short and long term regulation of catecholamine biosynthetic enzymes by angiotensin in cultured adrenal medullary cells. Molecular mechanisms and nature of second messenger systems.},
  author={Michal K. Stachowiak and H K Jiang and Alan M. Poisner and Raimo K. Tuominen and J. -S. Hong},
  journal={The Journal of biological chemistry},
  year={1990},
  volume={265 8},
  pages={
          4694-702
        }
}
Angiotensin II Type 2 Receptor Counter-Regulates Type 1 Receptor in Catecholamine Synthesis in Cultured Porcine Adrenal Medullary Chromaffin Cells
TLDR
It is concluded that AT1 and AT2 have counter-regulatory roles in the synthesis of catecholamine in adrenal medullary chromaffin cells.
Effects of cAMP, glucocorticoids, and calcium on dopamine β-hydroxylase gene expression in bovine chromaffin cells
  • O. HwangT. Joh
  • Biology, Chemistry
    Journal of Molecular Neuroscience
  • 2007
TLDR
The results demonstrate the existence of coordinate and differential regulations among the enzymes involved in catecholamine biosynthesis in bovine adrenomedullary cells.
Regulation of angiotensin II type 2 receptor gene expression in the adrenal medulla by acute and repeated immobilization stress.
TLDR
The effects of stress on adrenomedullary AT(1A) and AT(2) receptor expression may contribute to allostatic changes, such as regulation of catecholamine biosynthesis.
Expression of mRNA coding for four catecholamine-synthesizing enzymes in human adrenal pheochromocytomas.
TLDR
These findings indicate that catecholamine production in pheochromocytomas is primarily controlled by the level of gene expression, which is related to various clinical manifestations of the condition.
Angiotensin II AT(1) and AT(2) receptors contribute to maintain basal adrenomedullary norepinephrine synthesis and tyrosine hydroxylase transcription.
TLDR
The hypothesis of an AT(1)/AT(2) receptor cross-talk in the adrenomedullary ganglion cells is supported, and a role for both receptor types on the selective regulation of basal NE, but not epinephrine formation, and in theregulation of basal TH transcription is suggested.
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Acceleration of catecholamine biosynthesis in sympathetically innervated tissues by angiotensin‐II‐amide
TLDR
It is concluded that the effect of angiotensin is not due to increased release of noradrenaline (NA) or to inhibition of NA uptake into nerves, and it is possible that ang Elliotensin may influence the activity of tyrosine hydroxylase or its cofactors by an as yet unknown mechanism.
Stimulation of Formation of Inositol Phosphates in Primary Cultures of Bovine Adrenal Chromaffin Cells by Angiotensin II, Histamine, Bradykinin, and Carbachol
TLDR
It is shown that histamine, bradykinin, and angiotensin II stimulate release of catecholamines from adrenal medulla using bovine adrenal chromaffin cells in culture, and these agonists as well as carbachol stimulate production of inositol phosphates.
Effects of phorbol ester on catecholamine secretion and protein phosphorylation in adrenal medullary cell cultures.
TLDR
The experiments suggest that PMA increases protein kinase activity and secretion in chromaffin cells and raise the possibility thatprotein kinase C modulates catecholamine secretion in Chromaffin Cells.
A comparison of bradykinin, angiotensin II and muscarinic stimulation of cultured bovine adrenal chromaffin cells
TLDR
Bradykinin, angiotensin II and a mascarnic agonist, acetyl-B-methacholine (methACHoline) were all found to elict catecholamine release from cultured bovine adrenal chromaffin cells, with Bradykinin was the most potent and methacholine the weakest.
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