The distribution of calmodulin and Ca^2＋—activated calmodulin in cell cycle of mouse erythroleukemia cells

Cell proliferation is accompanied with changing levels of intracellular calmodulin (CaM) and its activation.Prior data from synchronized cell population could not actually stand for various CaM levels in different phases of cell cycle.Here,based upon quantitative measurement of fluorescence in individual cells,a method was developed to investigate intracellular total CaM and Ca^2 -activated CaM contents. Intensity of CaM immunoflurescence gave total CaM level,and Ca^2 -activated CaM was measured by fluorescence intensity of CaM antagonist trifluoperazine (TFP).In mouse erythroleukemia (MEL) cells,total CaM level increased from G1 through S to G2M,reaching a maximum of 2-fold increase,then reduced to half amount after cell division.Meanwhile,Ca^2 -activated CaM also in creased through the cell cycle(G1,S,G2M).Increasing observed in G1 meant that the entry of cells from G1 into S phase may require CaM accumulation,and,equally or even more important,Ca^2 -dependent activation of CaM.Ca^2 -activated CaM decreased after cell division.The results suggested that CaM gene expression and C^2 -modulated CaM activation act synergistically to accomplish the cell cycle progression.     

Ca^2＋-Calmodulin is Involved in Betacyanin Accumulation Induced by Dark in C3 Halophyte Suaeda salsa

The C3 halophyte Suaeda salsa was used to investigate the roles of Ca^2＋, Ca^2＋ channels, and calmodulin （CAM） in betacyanin metabolism. Seeds of S. salsa were cultured in both the dark and light for 3 days. The fresh weight and betacyanin content were much higher in S. salsa seedlings formed in the dark than in seedlings formed in the light. The addition of Ca^2＋ to the half-strength MS nutrient solution promoted betacyanin accumulation in the dark, whereas Ca^2＋ depletion by EGTA suppressed the dark-induced betacyanin accumulation in shoots of S. salsa. The Ca^2＋ channel blocker LaCl3 also inhibited dark-induced betacyanin accumulation. The highest activity of CaM and the maximum betacyanin content decreased by 51% and 45%, respectively, in shoots of S. salsa seedlings treated with the potent CaM antagonist chlorpromazine in the dark. Furthermore, the other CaM antagonist N-（6-aminohexyl）-5-chloro-l-naphthalenesulfonamide （W-7） also inhibited the activity of CaM and dark-dependent betacyanin accumulation, whereas its less active structural analog N-（6-aminohexyl）- 1-naphthalenesulfonamide （W-5） had little effect on the responses to dark of S. salsa seedlings. These results suggest that Ca^2＋, Ca^2＋-regulated ion channels, and CaM play an important role in dark-induced betacyanin accumulation in the shoots of the C3 halophyte S. salsa.     

An electron microscopic—cytochemical localization of plasma membrane Ca^2＋—ATPase activity in poplar apical bud cells during the induction of dormancy by short—day photoperiods

Plasma membrane(PM) Ca^2 -ATPase activity in poplar apical bud meristematic cells during short-day(SD)-induced dormancy development was examined by a cerium precipitation EM-cytochemical method.Ca^2 -ATPase activity,indicated by the status of cerium phosphate precipitated grains,was localized mainly on the interior face(cytoplasmic side) of the PM when plants were grown under long days and reached a deep dormancy.A few reaction products were also observed on the nuclear envelope.When plant buds were developing dormancy after 28 to 42 d of SD exposure,almost no reaction products were present on the interior face of the PM.In contrast,a large number of cerium phosphate precipitated grains were distributed on the exterior face of the PM.After 70 d of SD exposure,when buds had developed a deep dormancy,the reaction products of Ca^2 -ATPase activity again appeared on the interior face of the PM.The results seemed suggesting that two kinds of Ca^2 -ATP ases may be present on the PM during the SD-induced dormancy in poplar.One is the Ca^2 -pumping ATPase,which is located on the interior face of the PM,for maintaining and restoring the Ca^2 homeostasis.The other might be and ecto-Ca^2 -ATPase,which is located on the exterior face of the PM,for the exocytosis of cell wall materials as suggested by the fact of the cell wall thickening during the dormancy development in poplar.     

Defective maintenance of intracellular Ca^2＋ homeostasis is linked to increasedmuscle fatigability in the MG29 null mice

Mitsugumin 29 (MG29) is a transmembrane protein that is normally found in the triad junction of skeletal muscle. Our previous studies have shown that targeted deletion of rag29 from the skeletal muscle resulted in abnormality of the triad junction structure, and also increased susceptibility to muscle fatigue. To elucidate the basis of these effects, we investigated the properties of Ca^2 uptake and -release in toxin-skinned Extensor Digitorium Longus (EDL) muscle fibers from control and rag29 knockout mice. Compared with the control muscle, submaximal Ca^2 uptake into the sarcoplasmic reticulum (SR) was slower and the storage of Ca^2 inside the SR was less in the mutant muscle, due to increased leakage process of Ca^2 movement across the SR. The leakage pathway is associated with the increased sensitivity of Ca^2 /caffeine -induced Ca^2 release to myoplasmic Ca^2 . Therefore, the increased fatigability of mutant EDL muscles can result from a combination of a slowing of Ca^2 uptake, modification of Ca^2 -induced Ca^2 release (CICR), and a reduction in total SR Ca^2 content.     

The fertilization—induced Ca^2＋ oscillation in mouse oocytes is cytoplasmic maturation dependent

Mature eggs (at metaphase II stage) produce a series of Ca^2 oscillation at fertilization.To define whether the fertilization-induced Ca^2 oscillation is restrict to the metaphase II eggs and cell cycle dependent,mouse oocytes at prophase I (arrested at germinal vesicle stage),metaphase I,metaphase II,as well as the pronuclear embryos at interphase of the first mitotic division derived from fertilization of parthenogenetic activation were inseminated after removal of zona pellucida,The results show that the fertilization-induced Ca^2 oscillation is not specific to metaphase II eggs.This is supported by the fact that immature oocytes generated the Ca^2 oscillations at fertilization regardless of their nuclear progression from prophase I to metaphase I (in vitro matured) stage.More interestingly,it was first found that pronuclear embryos at interphase derived from parthenogenetic activation showed Ca^2 oscillations in response to fertilization while the zygotes at interphase did not after reinsemination or intracytoplasmic injection of sperm extracts which induce Ca^2 oscillations in MII eggs.This suggests that the ability of oocytes to generate Ca^2 oscillation in response to sperm penetration is not regulated in a cell cycle dependent manner but dependent on the cytoplasmic maturation.     

Using a GFP-gene fusion technique to study the cell cycle-dependent distribution of calmodulin in living cells

In this study, a green fluorescent protein (GFP)-calmodulin (CaM) fusion gene method was used to examine the distribution of calmodulin during various stages of cell cycle. First, it was found that the distribution of CaM in living cells changes with the cell cycle. CaM was found mainly in the cytoplasm during G1 phase. It began to move into the nucleus when the cell entered S phase. At G2 phase, CaM became more concentrated in the nucleus than in cytoplasm. Second, the accumulation of CaM in the nucleus during G2 phase appeared to be related to the onset of mitosis, since inhibiting the activation of CaM at this stage resulted in blocking the nuclear membrane breakdown and chromatin condensation. Finally, after the cell entered mitosis, a high concentration of CaM was found at the polar regions of the mitotic spindle. At this time, inhibiting the activity of CaM would cause a disruption of the spindle structure. The relationship between the stage-specific distribution of CaM and its function in regulat     

Visualization of Golgia apparatus as an intracellular calcium store by laser scanning confocal microscope

Using laser scanning confocal microscopy,we have found that the in cells loaded with fluo-3/AM,highest intracellular Ca^2 in the perinuclear region is associated with the Golgi apparatus.The spatiotemporal subcellular distribution of Ca^2 in living human fibroblasts exposing to calcium-free medium in response to agonists has been investigated.PDGF,which releases Ca^2 from intracellular stores by inositol(1,4,5)-trisphosphate pathway ,produced a biphasic transient rise in intracellular calcium.The initial rise was resulted from a direct release of calcium from the golgi apparatus.Calcium could be also released from and reaccumulated into the Golgi apparatus by the stimulation of thapsigargin,an inhibitor of the Ca^2 transport ATPase of intracellular calcium store,Permeablizing the plasma membrane by 10μM digitonin resulted in the calcium release from the Golgi apparatus and depletion of the internal calcium store.These results suggest that the Golgi apparatus plays a role in Ca^2 regulation in signal transduction.     

Photosynthetic characteristics of Dunaliella salina (Chlorophyceae,Dunaliellales) in relation to β-carotene content

Photosynthetic characteristics of Dunaliella salina with high (red form) and low β-carotene (green form) concentrations were studied. D. salina growing in brine saltworks exhibited a high level of β-carotene (15 pg cell⁻¹). The rate of oxygen evolution as a function of irradiance was higher in the red than in the green form (on chlorophyll basis). Photosynthetic inhibition of the green form was observed above 500 μmol m⁻² s⁻¹. The red form appeared more resistant to high irradiance and no inhibition in O₂ evolution was observed up 2000 μmol m⁻² s⁻¹. However, when these results are expressed on a cell number basis the rate of oxygen evolution was significantly higher in the green form. Carbonic anhydrase (CA) activity (total, soluble, membrane bound) was found in red and green forms. CA was higher in the red form on a chlorophyll basis, but lower if expressed on a protein basis. The light dependent rate of oxygen evolution and photoinhibition depends on the concentration of β-carotene in D. salina cells.     

Phototropism of Thalli and Rhizoids Developed from the Thallus Segments of Bryopsis hypnoides Lamouroux

Newly regenerated thalli were used to study the phototropism of Bryopsis hypnoides Lamouroux under different qualities of light. Positive phototropism in the thalli and negative phototropiam In the rhizoida of B. hypnoides were investigated and analyzed in terms of bending. Both thaiii and rhlzoids developed from thallus segments exhibited typical tip growth, and their photoreceptive sites for phototroplam were also restricted to the apical hemisphere. The bending curvature of rhizoids and thalli were determined with unilateral lights at various wavelengths and different fluence rates after a fixed duration of Illumination. The trends of bending from the rhizoid and thallus were coincident, which showed that the action spectrum had a large range, from ultraviolet radiation （366.5 nm） to green light （524 nm）. Based on the bending curvatures, blue light had the highest efficiency, while the efficiency of longer wavelengths （〉500 nm） was significantly lower. External Ca^2＋ had no effect on the bending curvature of thalli and rhlzolda. Blue light （440 nm） induced thallus branching from rhizoids, while red light （650 nm） had no such effect. Fast-occurring chloroplast accumulation In the outermost cytoplasmic layer of the blue light （440 nm）-Irradiated region In the rhizoid was observed, from which protrusions （new thalli） arose after 4 h of the onset of illumination, and this action was thought to be driven by the dynamics of actin microfilamenta.     

介质Ca~(2 )和La~(3 )对酿酒酵母生长的影响

采用正交实验研究了外加Ｃａ~(２＋)和Ｌａ~(３＋)对酿酒酵母生长的影响。结果表明：外加Ｃａ~(２＋)和Ｌａ~(３＋)对酿酒酵母的生长均有显著的影响,都呈现出低浓度时正效应和高浓度时负效应,当Ｃａ~(２＋)浓度为１ｍｍｏｌ／Ｌ及Ｌａ~(３＋)浓度为１５μｍｏｌ／Ｌ时酿酒酵母生长最好。     

Ganglioside GM3 modulates conformation of reconstituted Ca~(2 ) -ATPase

Using steady-state fluorescence and nanosecond time-resolved fluorescence techniques, the Ca 2 -ATPase conformational changes induced by ganglioside GM3 were studied with different quenchers. The results showed that GM3 could significantly increase the lifetime of intrinsic fluorescence of Ca2 -ATPase reconstituted into proteoliposomes, and could also weaken the intrinsic fluorescence quenching by KI or hypocrellin B, HB. Further-more, by using quenching kinetic analysis of the time-resolved fluorescence, in the presence of GM3, the quenching constant (Ksv) and quenching efficiency were significantly lowered. The obtained results suggest that the oligosaccha-ride chain and the ceramide moieties of the GM3 molecule could interact with its counterparts of the Ca2 -ATPase re-spectively, thus change the conformation of the hydrophobic domain of the enzyme, making the tryptophan residues in different regions shift towards the hydrophilic-hydrophobic interface, and hence shorten the distance between the hy     

24-表油菜素内酯对盐藻细胞分裂的促进作用及与Ca2+和钙调素的关系

外加２４表油菜素内酯（２４ｅｐｉＢＬ） 无论在光下或暗中均可促进盐藻细胞分裂数的增加,激动素只在光下具有这种作用。外界Ｃａ２＋ 浓度升高时,２４ｅｐｉＢＬ 促进细胞分裂的效果更为明显,而ＥＧＴＡ 可以抑制２４ｅｐｉＢＬ引起的促进作用。Ｖｅｒａｐａｍｉｌ、Ｗ７ 、环己酰亚胺均可抑制盐藻细胞分裂。Ｃａ２ ＋ 载体Ａ２３１８７ 在低浓度（０ ．２５ μｍｏｌ／Ｌ） 时具有促进分裂的作用。可以认为２４ｅｐｉＢＬ对低等单细胞藻类具有生理作用,并且,其促进盐藻细胞分裂的机制与激动素是不同的,它不仅与Ｃａ２ ＋ 有关,而且与钙调素也有较密切的关系。     

大鼠海马神经元Na~ Ca~(2 )交换电流在低氧时的变化

目的：探讨在低氧性脑损伤发生过程中,Ｎａ＋Ｃａ２＋ 交换体在细胞内钙超载中的作用。方法：采用全细胞膜片钳方法,在急性分离海马神经元上观察低氧对Ｎａ＋Ｃａ２＋ 交换电流的电流电压（ＩＶ） 曲线的影响。结果：在整个膜电位水平,Ｎａ＋Ｃａ２＋ 交换电流幅值均不同程度的增加,在正膜电位水平呈现一显著的外向电流。１０ ｍＶ 时,电流幅值从（９２ ．８３ ±２０．８）ｐＡ上升到（１３０ ．６７ ±２６．８８）ｐＡ（ Ｐ＜０ ．０５） ,而在５０ ｍ Ｖ,其电流幅值从（－ ７４ ．６７ ±１１ ．８４）ｐＡ上升到（－ ５８ ．５±１０ ．７１）ｐＡ（Ｐ＜ ０ ．０５）。结论：低氧时Ｎａ＋Ｃａ２＋ 交换电流呈外向性,这种改变有利于低氧后通过Ｎａ＋Ｃａ２＋ 交换的外向转运方式排出细胞内钠,并交换钙进入细胞     

苹果果肉质膜微囊主动运输Ca2+的Ca2+-ATP酶特性

应用４５Ｃａ２ ＋ 示踪法研究了苹果果肉质膜微囊依赖于Ｃａ２＋ 的ＡＴＰ 酶（Ｃａ２＋ＡＴＰ酶）活性与Ｃａ２＋ 运输之间的关系及激素对该酶活性的影响。结果表明：Ｃａ２ ＋ＡＴＰ 酶存在于质膜上并受载体Ａ２３１８７ 刺激而活性增加,该酶活性与依赖于ＡＴＰ 的Ｃａ２ ＋ 运输依抑制剂ＥＢ、游离Ｃａ２＋ 和ＡＴＰ浓度的变化并呈极为相似的饱和动力学特征;而其ＥＢ 半抑制浓度,Ｃａ２＋ 和ＡＴＰ 半饱和浓度分别为０ ．１ ,０ ．１ 和５０ μｍｏｌ／Ｌ,从而证实了正是Ｃａ２＋ＡＴＰ酶推动苹果果肉质膜微囊的Ｃａ２＋ 的主动运输。生长素与萘乙酸均可促进苹果果肉质膜微囊Ｃａ２＋ＡＴＰ酶活性和Ｃａ２＋ 吸收,而赤霉素则无此作用。     

大麦根细胞质膜Ca~(2+)-ATP酶和Ca~(2+)转运系统的特性

用大麦质膜微囊研究细胞质膜 Ca~(2+)转运过程,发现质膜 Ca~(2+)—ATP酶在反应系统中不存在Mg~(2+)时可正常表现活性。跨膜Ca~(2+)转运按其对Mg~(2+)的需求可分为两个过程,一个是不需Mg~(2+)的、具高Ca~(2+)亲和力和较低的转运能力;另一个则是需Mg~(2+)的、具低Ca~(2+)亲和力和较高的转运能力。前者的动力学特征与Ca~(2+)—ATP酶相近,而后者则相差很大。据此推测,大麦根细胞质膜上除Ca~(2+)—ATP酶外,还存在另一个不同的Ca~(2+)转运系统。由两者分别承担的Ca~(2+)转运过程在细胞钙信使系统中可能起着不同的作用。     

跨膜Ca~(2+)梯度对肌质网Ca~3+-ATP酶调节的特异性

我们曾报道跨膜Ca~(2+)梯度可通过膜脂影响肌质网Ca~(2+)-ATP 酶的构象和活性。本文就跨膜Ca~(2+)梯度对肌质网Ca~(2+)-ATP 酶的调节是否具有特异性作进一步研究。结果表明这种特异性表现在两方面:一是跨膜Ca~(2+)梯度对肌质网Ca~(2+)-ATP 酶功能的调节不能归结于跨膜Ca~(2+)浓度梯度所导致的膜电位的作用,离子载体FCCP 可消除跨膜电位但并不影响肌质网Ca~(2+)-ATP 酶的活力;二是其它二价金属离子如Sr~(2+)的跨膜梯度对肌质网Ca~(2+)-ATP 酶活力基本无影响。荧光偏振系列探剂n-AS 测定的结果表明跨膜Ca~(2+)与Sr~(2+)梯度对嵌有Ca~(2+)-ATP 酶的脂酶体的中部流动性的影响有较大差异。而Ca~(2+)-ATP 酶的Ca~(2+)结合位点正处于脂双层中部,这进一步提示膜脂参与了跨膜Ca~(2+)梯度对Ca~(2+)-ATP 酶的调节作用。     

光周期对光敏胞质不育小麦花药发育过程中Ca^2＋—ATPase分布的影响

应用铅沉淀法研究了不同光照条件下泖负质不育小麦Ｔｒｉｔｉｃｕｍ ａｅｓｔｉｖｕｍ Ｌ．）可育花药和不育药药发育过程中Ｃａ＾２＋－ＡＴＰａｓｅ的分布。短日可育条件下,单核早期至成熟花粉,Ｃａ＾２＋－ＡＴＰａｓｅ在花粉表面,外壁内先增加后 和,在花粉内壁及质膜上逐渐增加,在南内分布较少,成熟花粉的营养细胞核仁内有大量Ｃａ＾２＋－ＡＴＰａｓｅ会面２。精细胞核仁内亦有Ｃａ＾２＋－ＡＴＰａｓｅ分布。乌氏体上     

Ca2+/CaM介导生长素对小麦胚芽鞘细胞NAD激酶的刺激作用

外源ＩＡＡ 处理可以显著增加小麦胚芽鞘细胞ＮＡＤ 激酶的催化活性,钙离子可以增强ＩＡＡ 的作用效果,而钙离子通道抑制剂ＬａＣｌ３ 则起强烈的抑制作用,但在存在钙离子的条件下,这种抑制作用可以被钙离子载体Ａ２３１８７ 消除;钙调蛋白能够在离体条件下激活经过ＤＥＡＥ 纤维素柱纯化的小麦胚芽鞘ＮＡＤ激酶,经过ＩＡＡ 处理的胚芽鞘细胞中能够刺激ＮＡＤ 激酶活性的钙调蛋白含量明显增加,ＩＡＡ 的这一作用受ＬａＣｌ３ 的抑制。上述结果表明Ｃａ２＋ ／ＣａＭ 复合物介导了生长素对小麦胚芽鞘细胞ＮＡＤ 激酶活性的促进作用。