| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| B Bloch, R J Milner, A Baird, U Gubler, C Reymond, P Bohlen, D le Guellec, F E Bloo. Detection of the messenger RNA coding for preproenkephalin A in bovine adrenal by in situ hybridization. Regulatory peptides. vol 8. issue 4. 1984-12-05. PMID:6548571. |
the messenger rna (mrna) coding for the adrenal precursor of enkephalins (preproenkephalin-a) has been detected in bovine adrenal medulla cells using in situ hybridization with 32p-labelled preproenkephalin a (ppa) complementary dna. |
1984-12-05 |
2023-08-12 |
cattle |
| W K Seltzer, E R McCab. Subcellular distribution and kinetic properties of soluble and particulate-associated bovine adrenal glycerol kinase. Molecular and cellular biochemistry. vol 64. issue 1. 1984-11-28. PMID:6092910. |
whole adrenal, adrenal cortex and adrenal medulla were examined for distribution of glycerol kinase between soluble and particulate fractions. |
1984-11-28 |
2023-08-12 |
cattle |
| K Racz, N T Buu, O Kuche. Regional distribution of free and sulfoconjugated catecholamines in the bovine adrenal cortex and medulla. Canadian journal of physiology and pharmacology. vol 62. issue 6. 1984-09-14. PMID:6589027. |
in the adrenal medulla, the relative proportion of the main adrenal catecholamines, free epinephrine and free norepinephrine, was found to be higher in the medullary sections derived from the subcortical areas where the ratio of epinephrine to norepinephrine was 8:1 than in the centre of the organ where norepinephrine levels reached those of epinephrine. |
1984-09-14 |
2023-08-12 |
cattle |
| S W Lamberts, E Bons, R Oosterom, H Bruining, W J de Greef, W H Hacken. A close correlation between the amount of met-enkephalin-immunoreactivity and epinephrine in adrenal pheochromocytoma tissue from patients with Sipple's syndrome. Life sciences. vol 35. issue 4. 1984-09-07. PMID:6146910. |
the relevance of the close parallel in the occurrence of met-enkephalin-ir and epinephrine in human adrenal pheochromocytoma tissue is unknown, but it underlines earlier observations in the normal bovine and rat adrenal medulla on a co-storage and co-release of these substances in normal circumstances. |
1984-09-07 |
2023-08-12 |
human |
| J B Young, R M Rosa, L Landsber. Dissociation of sympathetic nervous system and adrenal medullary responses. The American journal of physiology. vol 247. issue 1 Pt 1. 1984-08-20. PMID:6742188. |
increasing evidence, however, indicates that under certain conditions the adrenal medulla may release substantial amounts of ne as well as e. in several of these circumstances, estimates of sns activity based on the measurement of ne turnover in peripheral tissues of experimental animals indicate diminished sns function, a reduction that is independent of adrenal medullary secretion. |
1984-08-20 |
2023-08-12 |
Not clear |
| B G Livett, P Boks. Receptors and receptor modulation in cultured chromaffin cells. Canadian journal of physiology and pharmacology. vol 62. issue 4. 1984-08-15. PMID:6203633. |
use has been made of primary monolayer and suspension cultures of bovine adrenal chromaffin cells to investigate postsynaptic receptor interactions between acetylcholine and a number of neuropeptides endogenous to the adrenal medulla and splanchnic nerve. |
1984-08-15 |
2023-08-12 |
cattle |
| S Lemaire, R Day, M Dumont, L Chouinard, R Calver. Dynorphin and enkephalins in adrenal paraneurones. Opiates in the adrenal medulla. Canadian journal of physiology and pharmacology. vol 62. issue 4. 1984-08-15. PMID:6203634. |
immunoreactive dynorphin (ir-dyn), immunoreactive leucine-enkephalin (ir-leu-enk) and various other neuropeptides were measured in acid extracts of bovine adrenal medulla and isolated adrenal chromaffin cells. |
1984-08-15 |
2023-08-12 |
cattle |
| D Liston, P Böhlen, J Rossie. Purification from brain of synenkephalin, the N-terminal fragment of proenkephalin. Journal of neurochemistry. vol 43. issue 2. 1984-08-08. PMID:6547476. |
while the concentrations of these large processing intermediates in the adrenal medulla are quite high, similar proteins have not yet been shown to be present in brain, and there is some question as to whether the brain synthesizes an enkephalin precursor similar to adrenal proenkephalin. |
1984-08-08 |
2023-08-12 |
cattle |
| M Goedert, P W Mantyh, S P Hunt, P C Emso. Localization of specific neurotensin binding sites in the rat adrenal gland. Brain research. vol 299. issue 2. 1984-07-27. PMID:6329423. |
high levels of specific neurotensin binding sites were found in the inner layer of the adrenal cortex and lower amounts in the adrenal medulla with only background labeling in the outer cortical layers. |
1984-07-27 |
2023-08-12 |
rat |
| A Kikuta, T Murakam. Relationship between chromaffin cells and blood vessels in the rat adrenal medulla: a transmission electron microscopic study combined with blood vessel reconstructions. The American journal of anatomy. vol 170. issue 1. 1984-07-25. PMID:6731341. |
the findings suggest that these peripheral segments of the adrenal central vein were sites of cortical hormonal effects on the adrenal medulla. |
1984-07-25 |
2023-08-12 |
rat |
| R E Coupland, A Tomlinson, J Crowe, D N Brindle. Effects of hypophysectomy and metyrapone on the catecholamine content and volumes of adrenaline- and noradrenaline-storing cells in the rat adrenal medulla. The Journal of endocrinology. vol 101. issue 3. 1984-07-17. PMID:6726110. |
in normal sprague-dawley rats weighing 140 and 400 g the adrenal medulla accounted for some 5% of adrenal volume; this increased to 13% after hypophysectomy; a and na cells together accounted for 50-60% of the volume of adrenal medulla. |
1984-07-17 |
2023-08-12 |
rat |
| M Herrera-Marschitz, I Strömberg, D Olsson, U Ungerstedt, L Olso. Adrenal medullary implants in the dopamine-denervated rat striatum. II. Acute behavior as a function of graft amount and location and its modulation by neuroleptics. Brain research. vol 297. issue 1. 1984-07-09. PMID:6426699. |
adrenal medulla-induced rotations were dose-dependent: when rats were grafted with 2, 4 or 8 pieces (where 4 pieces equals one whole adrenal medulla) into 2 sites, 2 pieces induced about half the amount of rotation as 4 pieces, while 8 pieces caused a higher total number of rotations with the 100 min peak approximately doubled compared with rats that had received 4 pieces. |
1984-07-09 |
2023-08-12 |
rat |
| J Axelrod, T D Reisin. Stress hormones: their interaction and regulation. Science (New York, N.Y.). vol 224. issue 4648. 1984-05-15. PMID:6143403. |
prominent among these responses are the secretion of catecholamines from the adrenal medulla, corticosteroids from the adrenal cortex, and adrenocorticotropin from the anterior pituitary. |
1984-05-15 |
2023-08-12 |
Not clear |
| G E Sander, T D Giles, J C Ric. Methionine-enkephalin facilitates the cardiovascular response to epinephrine in the conscious dog. Peptides. vol 4. issue 6. 1984-05-11. PMID:6672796. |
methionine-enkephalin (me) is present in high concentrations in the adrenal medulla; it is co-stored with catecholamines in chromaffin vesicles, and released together with catecholamines during adrenal stimulation. |
1984-05-11 |
2023-08-12 |
dog |
| I M Varndell, J M Polak, J M Allen, G Terenghi, S R Bloo. Neuropeptide tyrosine (NPY) immunoreactivity in norepinephrine-containing cells and nerves of the mammalian adrenal gland. Endocrinology. vol 114. issue 4. 1984-05-08. PMID:6368205. |
the application of immunocytochemistry at both light and electron microscopic levels has revealed neuropeptide tyrosine (npy)-immunoreactive material to be localized to norepinephrine-containing endocrine cells in the adrenal medulla and also to varicose nerve fibers penetrating the adrenal cortex of several mammalian species, including horse, cat, rat, guinea pig and mouse. |
1984-05-08 |
2023-08-12 |
mouse |
| D T O'Connor, R P Frigo. Chromogranin A, the major catecholamine storage vesicle soluble protein. Multiple size forms, subcellular storage, and regional distribution in chromaffin and nervous tissue elucidated by radioimmunoassay. The Journal of biological chemistry. vol 259. issue 5. 1984-04-24. PMID:6421820. |
cga immunoreactivity represented 7 +/- 1% of total adrenal medulla cell protein and was localized to adrenal csv, representing 46 +/- 2% of csv soluble protein. |
1984-04-24 |
2023-08-12 |
cattle |
| S M de la Monte, G M Hutchins, G W Moor. Endocrine organ metastases from breast carcinoma. The American journal of pathology. vol 114. issue 1. 1984-02-22. PMID:6140849. |
metastases to primary endocrine organs, ie, the anterior pituitary, thyroid, parathyroid, or adrenal cortex, occurred in 57%, and metastases to secondary endocrine organs, ie, the pineal, posterior pituitary, thymus, adrenal medulla, or pancreas, occurred in 62% of patients. |
1984-02-22 |
2023-08-12 |
human |
| A R Wakade, T D Wakad. Contribution of nicotinic and muscarinic receptors in the secretion of catecholamines evoked by endogenous and exogenous acetylcholine. Neuroscience. vol 10. issue 3. 1984-01-27. PMID:6139771. |
the aim of the present study was (1) to evaluate the functional contribution of nicotinic and muscarinic receptors of the rat adrenal medullary cells in the secretion of catecholamines evoked by exogenous and endogenous acetylcholine, (2) to know whether the ratio of epinephrine to norepinephrine in the perfusate of the adrenal gland stimulated with various agents was comparable and close to that in the adrenal medulla, and (3) to study the effect of tetrodotoxin on the secretion of catecholamine evoked by nicotine and muscarine. |
1984-01-27 |
2023-08-12 |
rat |
| R V Lloyd, B S Wilso. Specific endocrine tissue marker defined by a monoclonal antibody. Science (New York, N.Y.). vol 222. issue 4624. 1983-12-17. PMID:6635661. |
the antibody reacted with human fetal adrenal medulla and human pancreatic endocrine cells and with adrenal medullary cells from monkeys and pigs. |
1983-12-17 |
2023-08-12 |
mouse |
| F Kölbel, V Schreibe. Biochemical regulators in cardiac hypertrophy. Basic research in cardiology. vol 78. issue 4. 1983-11-23. PMID:6226280. |
in experimentally induced cardiac hypertrophy adaptive alterations have been shown to occur not only in the adrenal medulla but also in the adrenal cortex. |
1983-11-23 |
2023-08-12 |
Not clear |