Hydrochlorothiazide use and risk of non-melanoma skin cancer in Spain: A case/non-case study.

OBJECTIVE: In 2018, the Pharmacological Risk Assessment Committee alerted to a potential relationship between accumulated hydrochlorothiazide dosage and the risk of non-melanoma skin cancer. To study this relationship we used data from the Spanish Pharmacovigilance System for Medicinal Products of Human Use. MATERIALS AND METHODS: Following a case search for every thiazide potentially associated with (SMQ/MedDRA) "Malignant Skin Neoplasms and not Otherwise Specified Skin Neoplasms", a series of disproportionality analyses were conducted by estimating the reporting odds ratio (95% confidence interval). Registered adverse drug reactions and disproportionality through the reported odds ratio were the main outcome measures. RESULTS: For basal cell carcinoma, reporting odds ratio was 4.8 (2.2 - 10.7); squamous cell carcinoma 3.2 (0.9 - 10.5); malignant melanoma, 0.8 (0.2 - 3.5). We found both disproportionality and association between hydrochlorothiazide and basal cell carcinoma, but none of these were found regarding malignant skin melanoma. In the case of squamous cell carcinoma, the lower confidence interval limit was below 1, thus the disproportionality value was not statistically significant. The accumulated hydrochlorothiazide dose was 36,714 mg for basal cell carcinoma; 98,288 mg for squamous cell carcinoma; and 38,444 mg for malignant melanoma. CONCLUSION: The results in Spain, where sun exposure is significant, are consistent with the data in the Pharmacological Risk Assessment Committee's alert, which were obtained in Denmark for both basal cell carcinoma and malignant melanoma. However, the results for squamous cell carcinoma did not reach statistical significance, although the reporting odds ratio value suggested a potential relationship between hydrochlorothiazide and squamous cell carcinoma.

Activation of protein kinase A stimulates the progesterone-induced calcium influx in human sperm exposed to the phosphodiesterase inhibitor papaverine.

Progesterone induces a fast transient calcium influx in human sperm though the activation of nongenomic receptors. During sperm capacitation, a complex process required for sperm to be able to fertilize the egg, the calcium influx induced by progesterone is enhanced. Sperm capacitation is mediated by an increase in cAMP content and subsequent protein kinase A (PKA) activation. In this work, we examined the effect of increasing intracellular cAMP on the calcium influx induced by progesterone in noncapacitated human sperm. To do this, sperm were exposed to the phosphodiesterase inhibitor papaverine for 5 minutes, a treatment that increased both the cAMP content and the PKA activity several-fold. The calcium influx induced by progesterone was increased by papaverine to levels close to those found in capacitated sperm. This effect was partially inhibited by H89 (48%) and by genistein (41%), and the sum of both inhibitors reduced the stimulating effect of papaverine by 89%. The inhibitory effect of genistein on the progesterone-induced calcium influx could be related to its capability to inhibit the papaverine-stimulated increase in cAMP content and PKA activity. The results presented here suggest that the calcium influx induced by progesterone is up-regulated by the PKA activity.

Apoptosis and cell cycle disturbances induced by coumarin and 7-hydroxycoumarin on human lung carcinoma cell lines.

Coumarin and 7-hydroxycoumarin have anti-tumour actions in vitro and in vivo. There are no previous reports on the cytostatic and apoptotic actions of coumarin and 7-hydroxycoumarin in non-small cell lung carcinoma (NSCLC) cell lines. Here we report on: (1) the inhibition of cell proliferation, (2) the phase in which cell cycle arrest occurs, and (3) the induction of apoptosis. Inhibition of cell proliferation was determined by 3H-thymidine incorporation. The effects on cell cycle phases were determined at 100 microg/ml of coumarin or 7-hydroxycoumarin using propidium iodide and flow cytometry. Higher concentrations were used to study apoptosis, detected by: (1) morphological cell changes, (2) subG1 peak detection and (3) Annexin-V assay. Peripheral blood mononuclear cells (PBMC) stimulated with phytohemagglutinin were used as controls. The actions of these compounds depended on drug concentrations and on histological cell type. Coumarin and 7-hydroxycoumarin inhibited cell growth by inducing cell cycle arrest in the G1 phase in all the lung carcinoma cell lines. Apoptosis required large concentrations of the coumarin compounds and was observed in adenocarcinomas. Apoptosis was not associated with intra-nucleosomal DNA fragmentation. Apoptosis was not observed in squamous lung carcinoma cell lines, but an increase in G1 cell cycle arrest was detected. In PBMC, only large concentrations of the coumarin compounds elicited a cystostatic action. Coumarins in combination with other anti-neoplastic drugs might increase the effectiveness of NSCLC treatments.

Efecto en el ciclo celular de líneas de adenocarcinoma pulmonar por cumarina y 7-hidroxicumarina / Effects of cumarine and 7-hydroxicumarine on the cell cycle of pulmonary adenocarcinoma cell lines

Introducción: Las cumarinas son compuestos ampliamente distribuidos en la naturaleza. En el humano el principal metabolito de la cumarina es la 7-hidroxicumarina. Estos compuestos presentan actividad antitumoral in vitro e in vivo. Previamente reportamos que la cumarina y la 7-hidroxicumarina ejercen actividad citostática en líneas de adenocarcinoma; sin embargo, se desconocen los aspectos relacionados a la fase del ciclo celular en la que estos compuestos pueden actuar.Objetivo: Determinar el efecto de la cumarina y la 7-hidroxicumarina en la transición del ciclo celular en líneas de adenocarcinoma pulmonar.Material y métodos: Tres líneas de adenocarcinoma pulmonar (SK-LU-1, 1.3.15 y 3A5A) y células mononucleares de individuos sanos estimuladas con fitohemaglutinina, se incubaron por 24h y 40h respectivamente, con 100 µg/mL de cumarina o 7-hidroxicumarina. Las perturbaciones en el ciclo celular se evaluaron por medio de la determinación de contenido de DNA por citometría de flujo.Resultados: Posterior al tratamiento, las líneas celulares presentaron acumulación significativa de células en la fase G0/G1, disminuyendo proporcionalmente la población de células en la fase S. En cambio, las células mononucleares no presentaron cambios significativos después del tratamiento.Conclusiones: Estos resultados demuestran que los compuestos cumarínicos causan un arresto de las células tumorales en la fase G0/G1. El conocimiento de las perturbaciones en el ciclo celular, inducidas por estos productos, puede facilitar la elaboración de esquemas de tratamiento mediante combinaciones con otros fármacos que arresten en distinta(s) fase(s) del ciclo. Además, esta metodología permite evaluar la susceptibilidad de las células tumorales a los agentes quimioterapéuticos.