Genistein effects on Ca2+ handling in human umbilical artery: inhibition of sarcoplasmic reticulum Ca2+ release and of voltage-operated Ca2+ channels.

Isoflavones are a group of natural phytoestrogens including the compound genistein. Health beneficial effects have been attributed to the consumption of this compound, but the fact that it has estrogen-like activity has raised doubts regarding its potential risk in infants, newborns, or in the fetus and placenta during pregnancy. This work is aimed at studying genistein effects on Ca2+ handling by smooth muscle cells of the human umbilical artery (HUA). Using fluorometric techniques, we found that in these cells genistein reduces the intracellular Ca2+ peak produced by serotonin. The same result could be demonstrated in absence of extracellular Ca2+, suggesting that the isoflavone reduces Ca2+ release from the sarcoplasmic reticulum. Force measurement experiments strengthen these results, since genistein reduced the peak force attained by intact HUA rings stimulated by serotonin in a Ca2+-free solution. Moreover, genistein induced the relaxation of HUA rings precontracted either with serotonin or a depolarizing high-extracellular K+ solution, hinting at a reduction of extracellular Ca2+ entry to the cell. This was confirmed by whole-cell patch-clamp experiments where it was shown that the isoflavone inhibits ionic currents through voltage-operated Ca2+ channels. In summary, we show that genistein inhibits two mechanisms that could increase intracellular Ca2+ in human umbilical smooth muscle cells, behaving in this way as a potential vasorelaxing substance of fetal vessels. Taking into account that genistein is able to cross the placental barrier, these data show that isoflavones may have important implications in the regulation of feto-maternal blood flow in pregnant women who consume soy-derived products as part of their meals.

Efectos de la genisteína en los niveles del Ca2+ citosólico en células musculares de arteria umbilical humana / Genistein effects on Ca2+ handling in human umbilical artery: inhibition of sarcoplasmic reticulum Ca2+ release and of voltage-operated Ca2+ channels

Isoflavones are a group of natural phytoestrogens including the compound genistein.Health beneficial effects have been attributed to the consumption of this compound,but the fact that it has estrogen-like activity has raised doubts regarding itspotential risk in infants, newborns, or in the fetus and placenta during pregnancy.This work is aimed at studying genistein effects on Ca2+ handling by smooth musclecells of the human umbilical artery (HUA). Using fluorometric techniques, we foundthat in these cells genistein reduces the intracellular Ca2+ peak produced by serotonin.The same result could be demonstrated in absence of extracellular Ca2+, suggestingthat the isoflavone reduces Ca2+ release from the sarcoplasmic reticulum.Force measurement experiments strengthen these results, since genistein reduced thepeak force attained by intact HUA rings stimulated by serotonin in a Ca2+-free solution.Moreover, genistein induced the relaxation of HUA rings precontracted eitherwith serotonin or a depolarizing high-extracellular K+ solution, hinting at a reductionof extracellular Ca2+ entry to the cell. This was confirmed by whole-cell patchclampexperiments where it was shown that the isoflavone inhibits ionic currentsthrough voltage-operated Ca2+ channels. In summary, we show that genisteininhibits two mechanisms that could increase intracellular Ca2+ in human umbilical smooth muscle cells, behaving in this way as a potential vasorelaxing substance offetal vessels. Taking into account that genistein is able to cross the placental barrier,these data show that isoflavones may have important implications in the regulationof feto-maternal blood flow in pregnant women who consume soy-derived productsas part of their meals(AU)

Las isoflavonas son un grupo de fitoestrógenosnaturales que incluyen la genisteína. Alconsumo de este compuesto se le han atribuidoefectos beneficiosos para la salud, pero su actividadsimilar a los estrógenos permite pensaren efectos indeseados en niños o en el feto o laplacenta durante el embarazo. En este trabajose estudian los efectos de la genisteína sobre elmanejo de Ca2+ por las células de músculo lisode la arteria umbilical humana (AUH).Mediante la utilización de técnicas fluorométricasse observó que la genisteína reduce elpico de Ca2+ intracelular producido por la serotonina en estas células incluso en ausenciade Ca2+ extracelular, lo que sugiere que la isoflavonareduce la liberación de Ca2+ a partir delretículo sarcoplásmico. Los experimentos demedida de fuerza refuerzan estos resultados, yaque la genisteína redujo la fuerza pico desarrolladapor serotonina en anillos intactos deAUH en una solución libre de Ca2+. Además,la genisteína indujo la relajación de anillos deAUH precontraídos con serotonina o con unasolución despolarizante de alto K+ extracelular,lo que apunta a una reducción de la entradade Ca2+ desde el exterior de la célula. Con latécnica de “patch-clamp” en configuración decélula entera, los resultados confirmaron que laisoflavona inhibe corrientes iónicas a través decanales de Ca2+ operados por el voltaje. Enresumen, mostramos que la genisteína inhibedos mecanismos que incrementan el Ca2+intracelular en células de músculo liso deAUH, comportándose de esta manera comoun potencial vasorrelajante de los vasos fetales.Dado que la genisteína atraviesa la barrera placentaria,estos datos muestran que las isoflavonaspodrían tener consecuencias en la regulacióndel flujo materno-fetal en mujeres embarazadasque incluyan productos derivados de lasoja como parte de sus dietas(AU)