A non-transformed mouse liver cell line (AML12) was used to show that blocking swelling-activated membrane Cl- current inhibits hepatocyte proliferation. Two morphologically distinguishable cell populations exhibited distinctly different responses to hypotonic stress. Hypotonic stress (from 280 to 221 mosmol kg(-1)) to rounded, dividing cells activated an ATP-dependent, outwardly rectifying, whole-cell Cl- current, which took 10 min to reach maximum conductance. A similar anionic current was present spontaneously in 20 % of the dividing cells. Hypotonic stress to flattened, non-dividing cells activated no additional current. The Eisenman halide permeability sequence of swelling-activated anionic current in the dividing cells was SCN(-) > I(-) > Br(-) > Cl(-) > gluconate. Addition of either 4,4'-diisothiocyanatostilbene-2,2'-disulfonate (DIDS), 5-nitro-2-(3-phenylpropylamino) benzoic acid (NPPB), tamoxifen or mibefradil inhibited swelling-activated anionic current. Hyperosmolarity by added sucrose inhibited the spontaneous anionic current in dividing cells. Added Cl- channel blockers NPPB (IC50 = 40 microM), DIDS (IC50 = 31 microM), tamoxifen (IC50 = 1.3 microM) and mibefradil (IC50 = 7 microM) inhibited proliferative growth of AML12 as determined by cell counts over 4 days or by protein accumulation over 2 days. Only the inhibitory effects of NPPB and mibefradil reversed with the drug washout. Hyperosmolarity by added sucrose (50 and 100 mM) also inhibited cell proliferation. Of the hydrophobic inhibitors neither NPPB at 40 microM nor tamoxifen at 1.3 microM, added for 48 h, reduced cellular ATP; however, DIDS at 31 microM significantly reduced cellular ATP with an equivalent increase in cellular ADP. We conclude that those membrane Cl- currents that can be activated by hypotonic stress are involved in mechanisms controlling liver cell growth, and that NPPB, tamoxifen and mibefradil at their IC50 for growth do not suppress the metabolism of mouse hepatocytes.
This study explored the role of transient receptor potential melastatin 8 ion channels (TRPM8) in mechanisms of human glioblastoma (DBTRG) cell migration. Menthol stimulated influx of Ca(2+), membrane current, and migration of DBTRG cells. Effects on Ca(2+) and migration were enhanced by pre-treatment with hepatocyte growth factor/scatter factor (HGF/SF). Effects on Ca(2+) also were greater in migrating cells compared with non-migrating cells. 2-Aminoethoxydiphenyl borate (2-APB) inhibited all menthol stimulations. RT-PCR and immunoblot analysis showed that DBTRG cells expressed both mRNA and protein for TRPM8 ion channels. Two proteins were evident: one (130-140 kDa) in a plasma membrane-enriched fraction, and a variant (95-100 kDa) in microsome- and plasma membrane-enriched fractions. Thus, TRPM8 plays a role in mechanisms that increase [Ca(2+)](i) needed for DBTRG cell migration.
SUMMARYEmbryos of oviparous squamate reptiles typically obtain calcium from both yolk and eggshell but differ from other oviparous amniotes (turtles, birds and crocodilians) because they are heavily dependent on calcium-rich yolk. Eggs of viviparous squamates lack calcareous eggshells, and embryos receive calcium solely from yolk or from both yolk and placenta. The pattern of calcium mobilization by amniote embryos has been predicted to influence the evolution of viviparity if embryos are dependent on calcium from the eggshell and calcium placentotrophy evolves subsequent to viviparity. We studied the pattern of maternal provision and embryonic utilization of calcium of an oviparous and a viviparous population of the reproductively bimodal lizard Lacerta vivipara to test the hypotheses: (1) oviparous embryos are not dependent on eggshell calcium and (2) calcium content of viviparous hatchlings does not differ from oviparous hatchlings. Our findings do not support either of these hypotheses because oviparous females oviposited eggs with heavily calcified shells and calcium-poor yolk, and embryonic mobilization of shell calcium was greater than for other oviparous squamates. The calcium content of yolk from viviparous females did not differ from oviparous yolk, but viviparous eggs lacked calcareous eggshells. Uterine secretion by viviparous females compensated for the low calcium content of yolk, and placental calcium transfer was among the highest recorded for squamates. The pattern of calcium provision in these two populations suggests that dependence on uterine calcium, either stored temporarily in an eggshell or transferred directly across a placenta, did not constrain the evolution of reproductive mode in this lineage.
The eggshell of lizards is a complex structure composed of organic and inorganic molecules secreted by the oviduct, which protects the embryo by providing a barrier to the external environment and also allows the exchange of respiratory gases and water for life support. Calcium deposited on the surface of the eggshell provides an important nutrient source for the embryo. Variation in physical conditions encountered by eggs results in a tradeoff among these functions and influences eggshell structure. Evolution of prolonged uterine egg retention results in a significant change in the incubation environment, notably reduction in efficiency of gas exchange, and selection should favor a concomitant reduction in eggshell thickness. This model is supported by studies that demonstrate an inverse correlation between eggshell thickness and length of uterine egg retention. One mechanism leading to thinning of the eggshell is reduction in size of uterine shell glands. Saiphos equalis is an Australian scincid lizard with an unusual pattern of geographic variation in reproductive mode. All populations retain eggs in the uterus beyond the embryonic stage at oviposition typical for lizards, and some are viviparous. We compared structure and histochemistry of the uterus and eggshell of two populations of S. equalis, prolonged egg retention, and viviparous to test the hypotheses: 1) eggshell thickness is inversely correlated with length of egg retention and 2) eggshell thickness is positively correlated with size of shell glands. We found support for the first hypothesis but also found that eggshells of both populations are surprisingly thick compared with other lizards. Our histochemical data support prior conclusions that uterine shell glands are the source of protein fiber matrix of the eggshell, but we did not find a correlation between size of shell glands and eggshell thickness. Eggshell thickness is likely determined by density of uterine shell glands in this species.
The yolk splanchnopleure and chorioallantoic membrane of oviparous reptiles transport calcium from the yolk and eggshell to the developing embryo. Among oviparous amniotes, the mechanism of calcium mobilization to embryos has been studied only in domestic fowl, in which the mechanism of calcium transport of the yolk splanchnopleure differs from the chorioallantoic membrane. Transport of calcium is facilitated by calbindin-D(28K) in endodermal cells of the yolk splanchnopleure of chickens but the chorioallantoic membrane does not express calbindin-D(28K). We used immunoblotting to assay for calbindin-D(28K) expression in yolk splanchnopleure and chorioallantoic membrane of the corn snake, Elaphe guttata, to test the hypothesis that the mechanism of calcium transport by extraembryonic membranes of snakes is similar to birds. High calbindin-D(28K) expression was detected in samples of yolk splanchnopleure and chorioallantoic membrane during late embryonic stages. We conclude that calbindin-D(28K) is expressed in these extraembryonic membranes to facilitate transport of calcium and that the mechanism of calcium transport of the chorioallantoic membrane of the corn snake differs from that of the chicken. Further, we conclude that calbindin-D(28K) expression is developmentally regulated and increases during later embryonic stages in the corn snake.
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