Candela Lagunas scite author profile

Ibuprofen is a widely used drug. It has been identified as an inhibitor of several transporters, but it is not clear if ibuprofen is a substrate of any transporter itself. In the present work, we have characterized a transporter of ibuprofen, which is upregulated by hyperosmotic culture conditions in Madin-Darby canine kidney I (MDCK I) renal cells. [(3)H]-Ibuprofen uptake rate was measured in MDCK I cell cultured under normal (300 mOsm) and hyperosmotic (500 mOsm) conditions. Hyperosmotic conditions were obtained by supplementing urea, NaCl, mannitol, or raffinose to culture medium. The effect of increased osmolarity was investigated for different incubation times. [(3)H]-Ibuprofen uptake in MDCK I cells was upregulated by hyperosmotic culture condition, and was saturable with a Km value of 0.37 ± 0.08 μM and a Vmax of 233.1 ± 17.2 pmol· cm(-2)· min(-1). Racemic [(3)H]-ibuprofen uptake could be inhibited by (R)-(-)- and (S)-(+)-ibuprofen with IC50 values of 19 μM (Log IC50 1.39 ± 0.34) and 0.47 μM (Log IC50 -0.36 ± 0.41), respectively. Furthermore, the [(3)H]-ibuprofen uptake rate was increased by decreased extracellular pH but not dependent on Na(+) or Cl(-) ions. The mRNA of Mct1, -2, -4, and -6 as well as Oat1 and -3 were not upregulated by hyperosmolarity. Our findings present strong evidence for the presence of a yet unknown ibuprofen transporter in MDCK I cells. The transporter was upregulated under hyperosmotic culture conditions, and the present study is therefore a starting point for identification of the molecular correlate and potential impact on ibuprofen disposition.

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In vivo and in vitro pharmacological characterization of SVT‐40776, a novel M₃ muscarinic receptor antagonist, for the treatment of overactive bladder

Salcedo¹,

Davalillo²,

Cabellos³

et al. 2009

British J Pharmacology

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Background and purpose: Highly selective M3 muscarinic receptor antagonists may represent a better treatment for overactive bladder syndrome, diminishing side effects. Cardiac side effects of non-selective antimuscarinics have been associated with activity at M2 receptors as these receptors are mainly responsible for muscarinic receptor-dependent bradycardia. We have investigated a novel antimuscarinic, SVT-40776, highly selective for M3 over M2 receptors (Ki = 0.19 nmol·L -1 for M3 receptor affinity). This study reports the functional activity of SVT-40776 in the bladder, relative to its activity in atria. Experimental approach: In vitro and ex vivo (oral dosing) inhibition of mouse detrusor and atrial contractile responses to carbachol were used to study the functional activity of SVT-40776. The in vivo efficacy of SVT-40776 was characterized by suppression of isovolumetric spontaneous bladder contractions in anaesthetized guinea pigs after intravenous administration. Key results: SVT-40776 was the most potent in inhibiting carbachol-induced bladder contractions of the anti-cholinergic agents tested, without affecting atrial contractions over the same range of concentrations. SVT-40776 exhibited the highest urinary versus cardiac selectivity (199-fold). In the guinea pig in vivo model, SVT-40776 inhibited 25% of spontaneous bladder contractions at a very low dose (6.97 mg·kg -1 i.v), without affecting arterial blood pressure. Conclusions and implications:SVT-40776 is a potent inhibitor of M3 receptor-related detrusor contractile activity. The absence of effects on isolated atria preparations represents an interesting characteristic and suggests that SVT-40776 may lack unwanted cardiac effects; a feature especially relevant in a compound intended to treat mainly elderly patients.

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642 POSTER Pharmacological profile of SVT004703, a new oral proapoptotic compound for the treatment of cancer

Davalillo¹,

Pellicer²,

Lagunas³

et al. 2006

European Journal of Cancer Supplements

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Candela Lagunas

Interaction of GABA-mimetics with the taurine transporter (TauT, Slc6a6) in hyperosmotic treated Caco-2, LLC-PK1 and rat renal SKPT cells

A Transporter of Ibuprofen is Upregulated in MDCK I Cells under Hyperosmotic Culture Conditions

In vivo and in vitro pharmacological characterization of SVT‐40776, a novel M₃ muscarinic receptor antagonist, for the treatment of overactive bladder

642 POSTER Pharmacological profile of SVT004703, a new oral proapoptotic compound for the treatment of cancer

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Candela Lagunas

Interaction of GABA-mimetics with the taurine transporter (TauT, Slc6a6) in hyperosmotic treated Caco-2, LLC-PK1 and rat renal SKPT cells

A Transporter of Ibuprofen is Upregulated in MDCK I Cells under Hyperosmotic Culture Conditions

In vivo and in vitro pharmacological characterization of SVT‐40776, a novel M3 muscarinic receptor antagonist, for the treatment of overactive bladder

642 POSTER Pharmacological profile of SVT004703, a new oral proapoptotic compound for the treatment of cancer

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Product

Resources

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In vivo and in vitro pharmacological characterization of SVT‐40776, a novel M₃ muscarinic receptor antagonist, for the treatment of overactive bladder