María Jesús Cancelo Hidalgo scite author profile

Purified adrenomedullary plasma membranes contain two high-affinity binding sites for 125I-omega-conotoxin, with KD values of 7.4 and 364 pM and Bmax values of 237 and 1,222 fmol/mg of protein, respectively. Dissociation kinetics showed a biphasic component and a high stability of the toxin-receptor complex, with a t1/2 of 81.6 h for the slow dissociation component. Unlabeled omega-conotoxin inhibited the binding of the radioiodinated toxin, adjusting to a two-site model with Ki1 of 6.8 and Ki2 of 653 pM. Specific binding was not affected by Ca2+ channel blockers or activators, cholinoceptor antagonists, adrenoceptor blockers, Na+ channel activators, dopaminoceptor blockers, or Na+/H+ antiport blockers, but divalent cations (Ca2+, Sr2+, and Ba2+) inhibited the toxin binding in a concentration-dependent manner. The binding of the dihydropyridine [3H]nitrendipine defined a single specific binding site with a KD of 490 pM and a Bmax of 129 fmol/mg of protein. At 0.25 microM, omega-conotoxin was not able to block depolarization-evoked Ca2+ uptake into cultured bovine adrenal chromaffin cells depolarized with 59 mM K+ for 30 s, whereas under the same conditions, 1 microM nitrendipine inhibited uptake by approximately 60%. When cells were hyperpolarized with 1.2 mM K+ for 5 min and then Ca2+ uptake was subsequently measured during additions of 59 mM K+. Omega-conotoxin partially inhibited Ca2+ uptake in a concentration-dependent manner. These results suggest that two different types of Ca2+ channels might be present in chromaffin cells. However, the molecular identity of omega-conotoxin binding sites remains to be determined.

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Secretory and radioligand binding studies on muscarinic receptors in bovine and feline chromaffin cells.

Ballesta

Borges

Garcı́a

et al. 1989

The Journal of Physiology

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SUMMARY1. Muscarinic agonists enhanced catecholamine release from perfused cat adrenal glands with the following relative order of potencies: methacholine > oxotremorine > McN-A-343 > pilocarpine > bethanechol > muscarine. Because a continuous online electrochemical detection system was used to monitor catecholamine release, this sequence could be obtained at concentrations much lower (1-10 /IbM) and during much shorter stimulation times (3-30 s) than in previous reports.2. All muscarinic agonists used secreted adrenaline preferentially over noradrenaline. Methacholine evoked a sustained, non-desensitizing response in the cat adrenal, which declined to basal levels of secretion immediately after Ca2+ removal; upon Ca2+ restoration secretion was restored to the previous plateau.3. In addition to evoking a direct secretory response, low concentrations of methacholine, pilocarpine, bethanechol or muscarine clearly potentiated cat adrenal secretory responses evoked by pulses of nicotine (2 4ttM 7. Because the ionophore A23187 enhanced K+-evoked secretion in both, bovine and cat adrenals, it seems that a similar cytosolic Ca2+ rise induced by muscarinic stimulation might constitute the underlying mechanism both to cause a secretory response per se as well as the potentiation of catecholamine release evoked by nicotinic or high K+ stimulation. However, it is unclear why the bovine behaves differently from the feline chromaffin cell as far as the muscarine-evoked effects are concerned. These differences might be explained by the fact that the cat adrenal chromaffin cell contains a single homogeneous population of muscarinic receptors of the M2 subtype, which seem to facilitate external Ca2+ entry through an associated ionophore. However, in the bovine adrenomedullary plasma membranes, two populations of muscarinic sites with different kinetic characteristics to those found in the cat might explain the different behaviour of muscarinic agonists.

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A phase I study of MK-0646, a humanized monoclonal antibody against the insulin-like growth factor receptor type 1 (IGF1R) in advanced solid tumor patients in a q2 wk schedule

Hidalgo¹,

Gómez²,

Lewis³

et al. 2008

JCO

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A Two‐Dimensional Electrophoresis Study of Phosphorylation and Dephosphorylation of Chromaffin Cell Proteins in Response to a Secretory Stimulus

Gutiérrez

Ballesta

Hidalgo

et al. 1988

Journal of Neurochemistry

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Phosphorylated proteins of bovine chromaffin cells, radioactively labeled with [32P]orthophosphate, have been analyzed by two-dimensional polyacrylamide gel electrophoresis and autoradiography. Complex two-dimensional electrophoretograms were studied with the aid of computer-assisted image analysis (CAIA). A database map of 32P-labeled proteins was constructed; approximately 500 polypeptides have been detected, numbered, and characterized according to the intensity of labeling, molecular weight, and isoelectric point. The database was constructed from cells kept in resting conditions or stimulated with 59 mM K+ in 2.5 mM Ca2+ or in 0 Ca2+ solution. These manipulations caused statistically significant changes in the degree of phosphorylation of 20 proteins; they were classified as Ca2+-dependent substrates for the phosphorylation or dephosphorylation processes. These changes were also shown in cells stimulated in the presence of the Ca2+ channel activator Bay K 8644. New proteins that show as much as a fivefold increase in their phosphorylation state during cell stimulation have been located with this methodology, as well as many others that had not previously been detected with conventional methods. These experiments provide the first CAIA database of chromaffin cell phosphoproteins; the map constructed with these data will allow the location of specific phosphoproteins and serve as a reference for future ongoing studies. The database will continue to grow to identify more proteins and to facilitate the comparison of complex patterns obtained in different laboratories for normal and transformed pheochromocytoma PC12 cells.

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Isoflavones: effects on bone health

Castelo-Branco

Hidalgo

2010

Climacteric

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