Your search keyword '"Amparo, Alfonso"' showing total 7 results

1. Calcium-pH crosstalks in rat mast cells: modulation by transduction signals show non-essential role for calcium in alkaline-induced exocytosis

Author

Luis M. Botana, Amparo Alfonso, and Mercedes R. Vieytes

Subjects

chemistry.chemical_element, Alkalies, Calcium, Histamine Release, Biochemistry, Ammonium Chloride, Cell Degranulation, Exocytosis, Rats, Sprague-Dawley, Wortmannin, chemistry.chemical_compound, BAPTA, Animals, Mast Cells, Protein kinase C, Pharmacology, Degranulation, Hydrogen-Ion Concentration, Rats, Chelerythrine, chemistry, Cell activation, Histamine, Signal Transduction

Abstract

Alkalinization of cytosolic pH with ammonium chloride (NH4Cl) was reported to be a stimulus for mast cell degranulation. This paper studied the modulatory role of drugs that target protein kinase C (PKC), adenosine 3',5'-cyclic monophosphate (cAMP), tyrosine kinase (TyrK) and phosphatidylinositol 3-kinase (PI3K) on this effect. We used Go6976 (100 nM) and low concentrations of GF109203X (Gf) (50 nM) to inhibit calcium-dependent PKC isozymes. For calcium-independent isozymes, we used 500 nM Gf, and 10 microM rottlerin to specifically inhibit PKC delta, and chelerythrine as non-specific PKC inhibitor. Genistein (10 microM) and lavendustin A (1 microM) were used as unspecific TyrK inhibitors, and 10 nM wortmannin as a PI3K inhibitor. Chelerythrine and 50 nM Gf inhibit histamine release in the presence of external calcium. The inhibition caused by wortmannin was strictly internal calcium-dependent. cAMP-active drugs did not modify the response to NH4Cl. The effect of NH4Cl on histamine release was triggered by a transient elevation on cytosolic pH, which was simultaneous to an elevation on cytosolic calcium and followed by a probable Ca2+-H+ exchange after addition of external calcium. EGTA inhibit the response to suboptimal concentrations of NH4Cl, and BAPTA increased the effect of NH4Cl. There is a clear relationship between NH4Cl-mediated calcium release and histamine release, since those drugs that inhibit this release also inhibit NH4Cl-mediated histamine release; nevertheless, NH4Cl-mediated histamine release was possible in the absence of any calcium release, as shown with BAPTA. This data, in combination with the results with PKC inhibitors, suggest that calcium is not only unnecessary to trigger cell activation, but also that it may be a negative modulator of NH4Cl-mediated exocytosis.

Published

2005

2. Dimethylsphingosine increases cytosolic calcium and intracellular pH in human T lymphocytes

Author

Luis M. Botana, Amparo Alfonso, L. A. de la Rosa, and Mercedes R. Vieytes

Subjects

Pharmacology, Thapsigargin, Fura-2, Voltage-dependent calcium channel, T-Lymphocytes, Intracellular pH, fungi, chemistry.chemical_element, Hydrogen-Ion Concentration, In Vitro Techniques, Calcium, Biochemistry, Calcium in biology, chemistry.chemical_compound, Cytosol, chemistry, Sphingosine, Biophysics, Humans, Intracellular

Abstract

N,N-Dimethyl-D-erythro-sphingosine (DMS) is the N-methyl derivative of sphingosine; both are activators of sphingosine-dependent protein kinases. The aim of this work was to study the effect of DMS on cytosolic calcium and intracellular pH (pHi) in human T lymphocytes. The variations of calcium and pH were determined by fluorescence digital imaging using Fura-2-AM and BCECF-AM, respectively. DMS increased both pHi and Ca(2+)-cytoslic in human T lymphocytes. These effects were dose-dependent. This drug induced a fast increase in pHi and a release of calcium from different intracellular calcium pools than thapsigargin. DMS also induced a Ca(2+)-influx different from the store-operated calcium channels, since drug effect was not modified by 30 microM SKF 96365. The influx of calcium induced by DMS was completely blocked by preincubation in the presence of nickel, or lanthanum, while the increase in pHi was no affected. However, the presence of cadmium reduced but does not block Ca(2+)-influx. The inhibition of G-protein by 100 ng/mL pertussis toxin, and the inhibition of tyrosine kinases by genistein significantly reduced the cytosolic calcium increase induced by DMS by an inhibition of both, release of calcium from intracellular pools and influx from extracellular medium. The inhibition of pools emptiness by these drugs was related with the inhibition that they induce in the DMS cytosolic alcalinization. In summary, DMS increases pHi and as consequence releases calcium from intracellular pools, and it increases calcium-influx through a channel different from store-operated channel (SOC). Both cytosolic calcium and pHi increase are modulated by G-proteins and tyrosine kinases.

Published

2003

3. Yessotoxin, a novel phycotoxin, activates phosphodiesterase activity

Author

Takeshi Yasumoto, Laura A. de la Rosa, Amparo Alfonso, Mercedes R. Vieytes, and Luis M. Botana

Subjects

Pharmacology, medicine.medical_specialty, Forskolin, Phosphodiesterase, Etazolate, Biochemistry, Adenylyl cyclase, chemistry.chemical_compound, Endocrinology, chemistry, Mechanism of action, Internal medicine, medicine, medicine.symptom, Protein kinase A, Yessotoxin, Rolipram, medicine.drug

Abstract

Yessotoxin (YTX) is a novel phycotoxin with an unknown mechanism of action that has been reported as cardiotoxic, when injected, but non-toxic if ingested orally. In this paper, we studied the effect of YTX on adenosine 3',5'-cyclic monophosphate (cAMP) pathway, since this pathway can be a cellular target to this toxin as happens in other diarrhetic toxins. We determined cAMP levels by enzymeimmunoassay and by using the cAMP dye recombinant fluorescein- and rhodamine-labeled protein kinase A, which increases their fluorescence when cAMP levels are increased. In the presence of YTX, and after a transient small increase, cAMP levels were decreased. This effect was Ca(2+) dependent since in a Ca(2+)-free medium YTX increased cAMP levels, but this event was reverted after addition of external calcium. YTX also reverted the increase of cAMP induced by the adenylyl cyclase activator forskolin. These variations in fluorescence units were confirmed when cAMP levels were measured by enzymeimmunoassay, YTX decreases cAMP from 52.81+/-3.66 to 44.53+/-4.5 fmol. Phosphodiesterase (PDE) IV inhibitors, rolipram or etazolate, did not modify the effect of YTX, however, when PDE IV was first inhibited no effect of YTX was observed. On the other hand, the PDE III inhibitor milrinone counteracted the effect of YTX, and a similar effect was observed with the unspecific PDE I inhibitor chlorpromazine. These results point to an effect of YTX on PDE activity. In the presence of YTX, the fluorescent PDE substrate Mant-cAMP, increased its rate of hydrolysis, the same as the PDE from bovine brain increased the hydrolysis of cAMP substrate. In addition, YTX increased interleukin-2 production, which indirectly confirms a decrease in cAMP. Although results show a very complex pattern of responses, due to the interactions and crosstalks between many systems, results suggest that YTX is a PDE activator in the presence of external Ca(2+).

Published

2003

4. Effect of signal transduction pathways on the action of thapsigargin on rat mast cells

Author

Luis M. Botana, Mercedes R. Vieytes, Amparo Alfonso, M.A. Botana, and M. C. Louzao

Subjects

Pharmacology, medicine.medical_specialty, Thapsigargin, chemistry.chemical_element, Calcium, Mast cell, Biochemistry, Calcium in biology, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, chemistry, Internal medicine, Sodium fluoride, cardiovascular system, medicine, Phorbol, Biophysics, Histamine, Calcium signaling

Abstract

Thapsigargin elicits histamine release on rat mast cells, and this effect is increased if cells are pretreated with thapsigargin before the addition of external calcium. Okadaic acid does not modify the response of mast cells to thapsigargin, while sodium fluoride or the phorbol esther 12- O -tetra-decanoylphorbol-13-acetate (TPA) increases several fold the sensitivity of cells to thapsigargin. On the other hand, pertussis and cholera toxins inhibit the response to thapsigargin. Thapsigargin increases the activity of the Na + −H + exchanger, this effect being blocked by fluoride and not modified by TPA. The metals cadmium and lanthanum completely block the effect of TPA or thapsigargin on the Na + -H + exchanger. The influx of 45 Ca in rat mast cells is not modified by thapsigargin, but if cells are treated with thapsigargin before the addition of calcium, the influx is markedly increased in the first 2 min before returning to normal. Our results indicate that exocytosis is modulated by crosstalks between intracellular calcium, cytosolic pH and external calcium.

Published

1994

5. Azaspiracid-4 inhibits Ca2+ entry by stored operated channels in human T lymphocytes

Author

Mercedes R. Vieytes, Luis M. Botana, Yolanda Román, Katsuya Ofuji, Takeshi Yasumoto, Masayuki Satake, and Amparo Alfonso

Subjects

Thapsigargin, T-Lymphocytes, chemistry.chemical_element, Calcium, Pharmacology, Biochemistry, chemistry.chemical_compound, medicine, Azaspiracid, Humans, Spiro Compounds, Calcium Signaling, Maitotoxin, Dose-Response Relationship, Drug, Calcium channel, Calcium Channel Blockers, Adenosine, Cytosol, Mechanism of action, chemistry, Marine Toxins, Calcium Channels, medicine.symptom, medicine.drug

Abstract

Azaspiracids (AZs) are a new group of phycotoxins discovered in the Ireland coast that includes the isolated analogues: AZ-1, AZ-2, AZ-3, AZ-4 and AZ-5 and the recently described AZ-6–11. Azaspiracid toxic episodes show gastrointestinal illness, but neurotoxic symptoms are also observed in mouse bioassay. Despite their great importance in human health, so far its mechanism of action is largely unknown. In this report, we present the first data about the effect of AZ-4 on cytosolic calcium concentration [Ca2+]i in freshly human lymphocytes. Cytoslic Ca2+ variations were determined by fluorescence digital imaging microscopy using Fura2 acetoxymethyl ester (Fura2-AM). AZ-4 did not modify cytosolic Ca2+ in resting cells. However, the toxin dose-dependent inhibited the increase in cytosolic Ca2+ levels induced by thapsigargin (Tg). AZ-4 decreased Ca2+-influx induced by Tg but did not affect the Ca2+-release from internal stores induced by this drug. The effects of AZ-4 on Ca2+-influx induced by Tg were reversible and not regulated by adenosine 3′,5′-cyclic monophosphate (cAMP) pathway. When AZ-4 was added before, after or together with nickel, an unspecific blocker of Ca2+ channels, the effects were indistinguishable and additive. AZ-4 also inhibited maitotoxin (MTX)-stimulated Ca2+-influx by 5–10%. Thus, AZ-4 appeared to be a novel inhibitor of plasma membrane Ca2+ channels, affecting at least to store operated channels, showing an effect clearly different from other azaspiracid analogues.

Published

2005

6. Yessotoxin, a novel phycotoxin, activates phosphodiesterase activity. Effect of yessotoxin on cAMP levels in human lymphocytes

Author

Amparo, Alfonso, Laura, de la Rosa, Mercedes R, Vieytes, Takeshi, Yasumoto, and Luis M, Botana

Subjects

Enzyme Activation, Ethers, Cyclic, Phosphoric Diester Hydrolases, Oxocins, Cyclic AMP, Humans, Interleukin-2, Mollusk Venoms, Lymphocytes, In Vitro Techniques

Abstract

Yessotoxin (YTX) is a novel phycotoxin with an unknown mechanism of action that has been reported as cardiotoxic, when injected, but non-toxic if ingested orally. In this paper, we studied the effect of YTX on adenosine 3',5'-cyclic monophosphate (cAMP) pathway, since this pathway can be a cellular target to this toxin as happens in other diarrhetic toxins. We determined cAMP levels by enzymeimmunoassay and by using the cAMP dye recombinant fluorescein- and rhodamine-labeled protein kinase A, which increases their fluorescence when cAMP levels are increased. In the presence of YTX, and after a transient small increase, cAMP levels were decreased. This effect was Ca(2+) dependent since in a Ca(2+)-free medium YTX increased cAMP levels, but this event was reverted after addition of external calcium. YTX also reverted the increase of cAMP induced by the adenylyl cyclase activator forskolin. These variations in fluorescence units were confirmed when cAMP levels were measured by enzymeimmunoassay, YTX decreases cAMP from 52.81+/-3.66 to 44.53+/-4.5 fmol. Phosphodiesterase (PDE) IV inhibitors, rolipram or etazolate, did not modify the effect of YTX, however, when PDE IV was first inhibited no effect of YTX was observed. On the other hand, the PDE III inhibitor milrinone counteracted the effect of YTX, and a similar effect was observed with the unspecific PDE I inhibitor chlorpromazine. These results point to an effect of YTX on PDE activity. In the presence of YTX, the fluorescent PDE substrate Mant-cAMP, increased its rate of hydrolysis, the same as the PDE from bovine brain increased the hydrolysis of cAMP substrate. In addition, YTX increased interleukin-2 production, which indirectly confirms a decrease in cAMP. Although results show a very complex pattern of responses, due to the interactions and crosstalks between many systems, results suggest that YTX is a PDE activator in the presence of external Ca(2+).

Published

2002

7. Modulation of cytosolic calcium levels of human lymphocytes by yessotoxin, a novel marine phycotoxin

Author

Mercedes R. Vieytes, Amparo Alfonso, Luis M. Botana, Natalia Vilariño, and Laura A. de la Rosa

Subjects

Thapsigargin, Mollusk Venoms, In Vitro Techniques, Biochemistry, chemistry.chemical_compound, Cytosol, Ethers, Cyclic, medicine, Homeostasis, Humans, Lymphocytes, Enzyme Inhibitors, Pharmacology, Maitotoxin, Phycotoxin, Voltage-dependent calcium channel, Chemistry, Oxocins, Biological Transport, Okadaic acid, Mechanism of action, Second messenger system, Calcium, medicine.symptom, Yessotoxin, Signal Transduction

Abstract

Yessotoxin (YTX) is a polyether toxin of marine origin that has been classified among the diarrheic shellfish poisoning (DSP) toxins group due to its lipophilic nature. However, unlike other DSP toxins, YTX does not produce diarrhea and its mechanisms of action are unknown. We studied the effect of YTX on the cytosolic calcium levels of freshly isolated human lymphocytes by means of fluorescence imaging microscopy. We showed that YTX produced a calcium influx through nifedipine and SKF 96365 (1-[β-[3-(4-methoxyphenyl)propoxyl]-4-methoxyphenyl]-1 H -imidazole hydrochloride)-sensitive channels. This Ca 2+ entry was not affected by the DSP toxin okadaic acid, which inhibits protein phosphatases. In addition, YTX also produced an inhibition of capacitative calcium entry activated by thapsigargin or by preincubation in a Ca 2+ -free medium. This capacitative calcium entry was not sensitive to nifedipine. Furthermore, the inhibitory effect of YTX was dependent on the time of addition of the toxin. We suggest that YTX may interact with calcium channels in a way similar to that described for other polyether marine compounds such as brevetoxins and maitotoxin, although an involvement of other second messengers is also likely.

Published

2001