Stewart L. Chritton scite author profile

Stewart L. Chritton

4Publications

9Citation Statements Received

67Citation Statements Given

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Affiliations

Brigham and Women's Hospital, Harvard University, Mayo Clinic

Publications

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Biological responsiveness to the phorbol esters and specific binding of [3H]phorbol 12,13-dibutyrate in the nematodeCaenorhabditis elegans, a manipulable genetic system

Lew

Chritton

Blumberg

1982

Teratog. Carcinog. Mutagen.

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Because of its suitability for genetic studies, the nematode Caenorhabditis elegans was examined for its responsiveness to the phorbol esters. Phorbol 12-myristate 13-acetate had three effects. It inhibited the increase in animal size during growth; it decreased the yield of progeny; and it caused uncoordinated movement of the adult. The effects on nematode size, progeny yield, and movement were quantitated. Concentrations of phorbol 12-myristate 13-acetate yielding half-maximal responses were 440, 460, and 170 nM, respectively. As was expected from the biological responsiveness of the nematodes, specific, saturable binding of phorbol ester to nematode extracts was found. [3H]phorbol 12,13-dibutyrate bound with a dissociation constant of 26.8 +/- 3.9 nM. At saturation, 5.7 +/- 1.4 pmole/mg protein was bound.

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Adrenomedullary Secretion of DOPA, Catecholamines, Catechol Metabolites, and Neuropeptides

Chritton

Chinnow²,

Grabau³

et al. 1997

Journal of Neurochemistry

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Catecholamines and their metabolites have been proposed as markers of sympathetic nervous system stimulation. However, the adrenal medulla is a rich source of catecholamines and catecholamine metabolites and may play a significant role in plasma levels of these compounds. In addition to adrenal catecholamine metabolite efflux, the role of the catecholamine precursor 3,4‐dihydroxyphenylalanine (DOPA) has not been fully evaluated. The simultaneous effluxes of catecholamines, metabolites, DOPA, and neuropeptides were measured in perfusates from isolated dog adrenals. The relative abundance of compounds detected consistently during unstimulated conditions was epinephrine ≫ norepinephrine > 3,4‐dihydroxyphenylglycol > metanephrine > normetanephrine > dopamine > 3,4‐dihydroxyphenylacetic acid > 3‐methoxy‐4‐hydroxyphenylglycol ≥ DOPA ≫ [Met]enkephalin ≫ neuropeptide Y. Effluxes of analytes were not affected by cocaine and the ratios of catecholamines to metabolites increased dramatically with carbachol stimulation, consistent with negligible reuptake into adrenal cells. Thus, most of the 3,4‐dihydroxyphenylglycol is expected to be derived from epinephrine and norepinephrine subsequent to translocation from chromaffin vesicles into the cytosol. The efflux of DOPA increased dramatically during stimulation with 30 µM carbachol in a calcium‐dependent manner. Efflux of DOPA during the initial stabilization period of the perfusion preparation declined exponentially, in parallel with the effluxes of the catecholamines and neuropeptides but not with metabolites. Evoked release of DOPA was Ca2+‐dependent. These data suggest that DOPA can be stored and released exocytotically from chromaffin granules.

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Nicotinic- and muscarinic-evoked release of canine adrenal catecholamines and peptides

Chritton

Dousa

Yaksh

et al. 1991

American Journal of Physiology-Regulatory, Integrative and Comp

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The tissue content and overflow of norepinephrine (NE), epinephrine (Epi), dopamine (DA), Met-enkephalin (Met-Enk), and neuropeptide Y (NPY) from isolated, retrogradely perfused dog adrenal glands were studied. Under resting conditions, approximately 25% of the overflow of autocoids from the glands was Ca2+ dependent; the cholinergic antagonists hexamethonium and atropine had no effects on basal efflux. Stimulation with the nicotinic agonist 1,1-dimethyl-4-phenylpiperazinium iodide (DMPP; 3 or 50 microM) or with the muscarinic agonist pilocarpine (50 microM or 1 mM) evoked releases of autocoids. These releases were blocked or dramatically reduced by appropriate antagonists or by the removal of Ca2+ from the perfusate. Expressed as percentages of tissue stores, the rank order of overflow of autocoids was E approximately DA much greater than NE during resting conditions, DA much greater than E approximately NE during stimulation with 50 microM DMPP, and DA greater than Epi greater than NE during stimulation with 1 mM pilocarpine. These data are consistent with different mechanisms of release for the catecholamines, perhaps from different cell populations. The data support corelease of peptides and catecholamines, although clear pairing of autocoids could not be confirmed.

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The Adrenal Gland as a Source of Dihydroxyphenylalanine and Catecholamine Metabolites

Tyce

Chritton²,

Barnes

et al. 1997

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