Evidence that adrenaline activates key oxidative enzymes in rat liver by increasing intramitochondrial [Ca]

The effects of intramitochondrial Ca²⁺ on the activities of the Ca²⁺-sensitive intramitochondrial enzymes, (i) pyruvate dehydrogenase (PDH) phosphate phosphatase, and (ii) oxoglutarate dehydrogenase (OGDH), were investigated in intact rat liver mitochondria by measuring (i) the amount of active PDH (PDHa) and (ii) the rate of decarboxylation of -[1-¹⁴C]oxoglutarate (at non-saturating [oxoglutarate]), at different concentrations of extramitochondrial Ca²⁺. In the presence of Na²⁺ and Mg²⁺, both PDH and OGDH could be activated by increases in extramitochondrial [Ca²⁺] within the expected physiological range (0.05–5 μM). When liver mitochondria were prepared from rats treated with adrenaline, and then incubated in Na-free media containing EGTA, both PDH and OGDH activities were found to be enhanced. Evidence is presented that the activation of these enzymes by adrenaline is brought about by a mechanism involving increases in intramitochondrial [Ca²⁺].     

Extraction selectivities of lower rim substituted calix[4]arene hosts induced by variations in the upper rim substituents

The compound 25,26,27,28-tetra-(2-dimethyldithiocarbamoylethoxy)calix[4]arene has been prepared from 25,26,27,28-tetra-(2-bromoethoxy)calix[4]arene by reaction with sodium dimethyldithiocarbamate. As an extractant for heavy metal ions 25,26,27,28-tetra-(2-dimethyldithiocarbamoylethoxy)calix[4]arene is effective for Hg²⁺, Ag⁺, Pd²⁺ and Au³⁺, but much less effective than 5,11,17,23-tetra-tert-butyl-25,26,27,28-tetra-(2-N,N-dimethyldithiocarbamoylethoxy)calix[4]arene for both Hg₂²⁺ and MeHg⁺. Calixarene alcohols also show selectivity as hosts. The alcohol derivative 25,26,27,28-tetra-(2-hydroxyethoxy)calix[4]arene undergoes slow occlusion of iodine into the lower rim, whereas with the alcohol 5,11,17,23-tetra-tert-butyl-25,26,27,28-tetra-(2-hydroxyethoxy)calix[4]arene no interaction is observed.     

Sequestration of essential proteins causes prion associated toxicity in yeast

Prions are infectious, aggregated proteins that cause diseases in mammals but are not normally toxic in fungi. Excess Sup35p, an essential yeast protein that can exist as the [ PSI ⁺] prion, inhibits growth of [ PSI ⁺] but not [ psi ^-] cells. This toxicity is rescued by expressing the Sup35Cp domain of Sup35p, which is sufficient for cell viability but not prion propagation. We now show that rescue requires Sup35Cp levels to be proportional to Sup35p overexpression. Overexpression of Sup35p appeared to cause pre-existing [ PSI ⁺] aggregates to coalesce into larger aggregates, but these were not toxic per se because they formed even when Sup35Cp rescued growth. Overexpression of Sup45p, but not other tested essential Sup35p binding partners, caused rescue. Sup45–GFPp formed puncta that colocalized with large [ PSI ⁺] Sup35-RFPp aggregates in cells overexpressing Sup35p, and the frequency of the Sup45–GFPp puncta was reduced by rescuing levels of Sup35Cp. In contrast, [ PSI ⁺] toxicity caused by a high excess of the Sup35p prion domain (Sup35NMp) was rescued by a single copy of Sup35Cp, was not rescued by Sup45p overexpression and was not associated with the appearance of Sup45–GFPp puncta. This suggests [ PSI ⁺] toxicity caused by excess Sup35p verses Sup35NMp is, respectively, through sequestration/inactivation of Sup45p verses Sup35p.     

The sodium cycle. II. Na-coupled oxidative phosphorylation in Vibrio alginolyticus cells

The role of Na⁺ in Vibrio alginolyticus oxidative phosphorylation has been studied. It has been found that the addition of a respiratory substrate, lactate, to bacterial cells exhausted in endogenous pools of substrates and ATP has a strong stimulating effect on oxygen consumption and ATP synthesis. Phosphorylation is found to be sensitive to anaerobiosis as well as to HQNO, an agent inhibiting the Na⁺-motive respiratory chain of V. alginolyticus. Na⁺ loaded cells incubated in a K⁺ or Li⁺ medium fail to synthesize ATP in response to lactate addition. The addition of Na⁺ at a concentration comparable to that inside the cell is shown to abolish the inhibiting effect of the high intracellular Na⁺ level. Neither lactate oxidation nor Δω generation coupled with this oxidation is increased by external Na⁺ in the Na⁺-loaded cells. It is concluded that oxidative ATP synthesis in V. alginolyticus cells is inhibited by the artificially imposed reverse ΔPNa, i.e., [Na⁺]_in > [Na⁺]_out. Oxidative phosphorylation is resistant to a protonophorous uncoupler (0.1 mM CCCP) in the K⁺-loaded cells incubated in a high Na⁺ medium, i.e., when ΔpNa of the proper direction ([Na⁺]_in < [Na⁺]_out) is present. The addition of monensin in the presence of CCCP completely arrests the ATP synthesis. Monensin without CCCP is ineffective. Oxidative phosphorylation in the same cells incubated in a high K⁺ medium (ΔpNa is low) is decreased by CCCP even without monensin. Artificial formation of ΔpNa by adding 0.25 M NaCl to the K⁺-loaded cells (Na⁺ pulse) results in a temporary increase in the ATP level which spontaneously decreases again within a few minutes. Na⁺ pulse-induced ATP synthesis is completely abolished by monensin and is resistant to CCCP, valinomycin and HQNO. 0.05 M NaCl increases the ATP level only slightly. Thus, V. alginolyticus cells at alkaline pH represent the first example of an oxidative phosphorylation system which uses Na⁺ instead of H⁺ as the coupling ion.     

Electrospray mass spectrometry of trans-[Ru(NO)Cl(dpaH)2] (dpaH=2,2′-dipyridylamine) and ‘caged NO’, [RuCl3(NO)(H2O)2]: loss of HCl and NO from positive ions versus NO and Cl from negative ions

The positive ion electrospray mass spectrometry (ESI-MS) of trans-[Ru(NO)Cl)(dpaH)₂]Cl₂ (dpaH=2,2′-dipyridylamine), obtained from the carrier solvent of H₂O–CH₃OH (50:50), revealed 1+ ions of the formulas [Ru^II(NO⁺)Cl(dpaH)(dpa)]⁺ (m/z=508), [Ru^IIICl(dpaH)(dpa⁻)]⁺ (m/z=478), [Ru^II(NO⁺)(dpa)₂]⁺ (m/z=472), [Ru^III(dpa)₂]⁺ (m/z=442), originating from proton dissociation from the parent [Ru^II(NO⁺)Cl(dpaH)₂]²⁺ ion with subsequent loss of NO (17.4% of dissociative events) or loss of HCl (82.6% of dissociative events). Further loss of NO from the m/z=472 fragment yields the m/z=442 fragment. Thus, ionization of the NH moiety of dpaH is a significant factor in controlling the net ionic charge in the gas phase, and allowing preferential dissociation of HCl in the fragmentation processes. With NaCl added, an ion pair, {Na[Ru^II(NO)Cl(dpa)₂]}⁺ (m/z=530; 532), is detectable. All these positive mass peaks that contain Ru carry a signature ‘handprint’ of adjacent m/z peaks due to the isotopic distribution of ¹⁰⁴Ru, ¹⁰²Ru, ¹⁰¹Ru, ⁹⁹Ru, ⁹⁸Ru and ⁹⁶Ru mass centered around ¹⁰¹Ru for each fragment, and have been matched to the theoretical isotopic distribution for each set of peaks centered on the main isotope peak. When the starting complex is allowed to undergo aquation for two weeks in H₂O, loss of the axial Cl⁻ is shown by the approximately 77% attenuation of the [Ru^II(NO⁺)Cl(dpaH)(dpa)]⁺ ion, being replaced by the [Ru^II(NO⁺)(H₂O)(dpa)₂]⁺ (m/z=490) as the most abundant high-mass species. Loss of H₂O is observed to form [Ru^II(NO⁺)(dpa)₂]⁺ (m/z=472). No positive ion mass spectral peaks were observed for RuCl₃(NO)(H₂O)₂, ‘caged NO’. Negative ions were observed by proton dissociation forming [Ru^II(NO)Cl₃(H₂O)(OH)]⁻ in the ionization chamber, detecting the parent 1− ion at m/z=274, followed by the loss of NO as the main dissociative pathway that produces [Ru^IIICl₃(H₂O)(OH)]⁻ (m/z=244). This species undergoes reductive elimination of a chlorine atom, forming [Ru^IICl₂(H₂O)(OH)]⁻ (m/z=208). The ease of the NO dissociation is increased for the negative ions, which should be more able to stabilize a Ru^III product upon NO loss.     

Neuropeptide Y receptor agonists: Multiple effects on spontaneous activity in the paraventricular hypothalamus

In vitro rat hypothalamic slices were used to examine the ability of neuropeptide Y (NPY), and the putative Y₁ and Y₂ receptor agonists [Pro³⁴]NPY, and [C²]NPY, to modify spontaneous single-neuron discharge in the paraventricular nucleus (PVN). NPY and [Pro³⁴]NPY, at high concentrations (1500 nM), decreased discharge rates. At intermediate concentrations (150 nM) these peptides produced multiple effects, including increases, decreases, and biphasic changes. At lower concentrations (0.15–15 nM), they typically increased discharge rates. In contrast, [C²]NPY, at all concentrations (1.5–1500 nM), predominantly increased discharge rates. Thus, these NPY sybtype agonists have multiple effects on discharge rate, which may be due to action on multiple NPY receptor subtypes.     

Hsp70 response in pigs is affected by their Halothane genotypes after heat stress

 Heat shock protein ([Hsp70]) and ionized calcium ([Ca²⁺]) concentrations were examined in pigs’ blood at different times after heat stress (HS). Pigs were from different halothane genotypes (HAL) (NN, n=7; Nn, n=5; nn, n=6). [Hsp70] increased significantly from 1–2 h after HS and [Ca²⁺] decreased significantly from HS-end in NN and Nn. No significant differences in [Hsp70] and [Ca²⁺] were detected among NN and Nn. [Hsp70] and [Ca²⁺] in nn did not vary significantly from baseline values. [Hsp70] was significantly higher in NN and Nn than in nn. Briefly, HAL affected [Hsp70] after HS in pigs probably via a disordered [Ca²⁺] regulation.     

Effect of lignans isolated from Hernandia nymphaeifolia on estrogenic compounds-induced calcium mobilization in human neutrophils

The effect of five lignans isolated from Hernandia nymphaeifolia on estrogenic compounds (17β-estradiol, tamoxifen and clomiphene)-induced Ca²⁺ mobilization in human neutrophils was investigated. The five lignans were epi-yangambin, epi-magnolin, epi-aschantin, deoxypodophyllotoxin and yatein. In Ca²⁺–containing medium, the lignans (50–100 μM) inhibited 10 μM 17β-estradiol- and 5 μM tamoxifen-induced increases in intracellular free Ca²⁺ levels ([Ca²⁺]_i) without changing 25 μM clomiphene-induced [Ca²⁺]_i increase. 17β-estradiol and tamoxifen increased [Ca²⁺]_i by causing Ca²⁺ influx and Ca²⁺ release because their responses were partly reduced by removing extracellular Ca²⁺. In contrast, clomiphene solely induced Ca²⁺ release. The effect of the lignans on these two Ca²⁺ movement pathways underlying 17β-estradiol- and tamoxifen-induced [Ca²⁺]_i increases was explored. All the lignans (50–100 μM) inhibited 10 μM 17β-estradiol-and 5 μM tamoxifen-induced Ca²⁺ release, and 17β-estradiol-induced Ca²⁺ influx. However, only 100 μM epi-aschantin was able to reduce tamoxifen-induced Ca²⁺ influx while the other lignans had no effect. Collectively, this study shows that the lignans altered estrogenic compounds-induced Ca²⁺ signaling in human neutrophils in a multiple manner.     

Physiological blocking of the mechanisms of cold death: theoretical and experimental considerations

The cold inhibited functions of skin thermoreceptors, of the thermoregulation centre, and the respiration centre during deep hypothermia can be restored without rewarming the body. The methods used were developed to test the hypothesis that during deep hypothermia calcium ion concentration [Ca²⁺]_i in the cytoplasm increases. This causes a perturbation of cell metabolism, the impairment of cell membrane function that cause the inhibition of cell functioning, resulting in cell death. Such an increase in [Ca²⁺]_i most likely would result from an energy deficit in a deeply cooled cell, which would compromise the processes that maintain the [Ca²⁺]_i at about 10⁻⁷ M. These processes require large amounts of energy since they occur against a large concentration gradient. With the use of EDTA the extracellular concentration of Ca²⁺ has been lowered by 15–27%, so reducing the concentration gradient for Ca²⁺ between the cell and the medium and in consequence facilitated the process the extrusion of cell Ca²⁺.

During a period of cooling, sufficient to impair normal functioning, the experimental lowering of blood Ca²⁺ allowed the restoration of normal function without the need to rewarm. In such cases the animals survived after cooling the body to temperatures at which they would normally have succumbed. The data presented support the stated hypothesis that the impairment of cellular function in mammals by low temperatures is the result of an uncorrected rise in [Ca²⁺]_i.     

Syntheses and characterization of mono- and di-N-hydroxyethylated tetraaza macrocycles containing eight C-methyl groups and their nickel(II) and copper(II) complexes

New partially N-hydroxyethylated 14-membered tetraaza macrocycles 1,8-bis(2-hydroxyethyl)-3,5,7,7,10,12,14,14-octamethyl-1,4,8,11-tetraazacyclotetradecane (L²) and 1-(2-hydroxyethyl))-3,5,7,7,10,12,14,14-octamethyl-1,4,8,11-tetraazacyclotetradecane (L³) have been synthesized selectively by the one-step reaction of 2,5,5,7,9,12,12,14-octamethyl-1,4,8,11-tetraazacyclotetradecane (L¹) with 2-hydroxyethyl bromide. The complexes [NiL³]²⁺, [CuL²]²⁺, and [CuL³]²⁺ have been prepared and characterized. The complex [CuL²](ClO₄)₂ has a square-pyramidal coordination geometry with one apical oxygen atom; only one of the two hydroxyethyl groups is coordinated to the metal ion. Electronic absorption spectra of [CuL³](ClO₄)₂ containing one hydroxyethyl pendant arm indicate that the geometry is similar to that of [CuL²](ClO₄)₂. Unexpectedly, the nickel(II) complex [NiL³](ClO₄)₂ has a severely distorted trigonal bipyramidal coordination geometry with the oxygen atom of the pendant arm at the equatorial position. The Ni---O bond distance of the nickel(II) complex is shorter, or not longer, than the Ni---N bond distances. The ligand in [CuL²]²⁺ is in the RRSS (trans-III) configuration, as usual, whereas that in [NiL³]²⁺ has the RRRR (trans-V) conformation. The coordination geometry and properties of [NiL³]²⁺ are quite different from those reported for other related nickel(II) complexes containing one functional pendant arm.     

The actin cytoskeletal network plays a role in yeast prion transmission and contributes to prion stability

Chaperone networks are required for the shearing and generation of transmissible propagons from pre-existing prion aggregates. However, other cellular networks needed for maintaining yeast prions are largely uncharacterized. Here, we establish a novel role for actin networks in prion maintenance. The [PIN⁺] prion, also known as [RNQ⁺], exists as stable variants dependent upon the chaperone machinery for the transmission of propagons to daughter cells during cell division and cytoplasmic transfer. Loss of the Hsp104 molecular chaperone leads to the growth of prion particles until they are too large to be transmitted. Here, we isolated a unique [PIN⁺] variant, which is unstable in actin mutants. This prion loss is observed over many generations, and coincides with the detection of both high molecular weight species of Rnq1 and large visible aggregates that are asymmetrically retained during cell division. Our data suggest that the irregular actin networks found in these mutants may influence propagon number by slowly permitting aggregate growth over time, resulting in the generation of nontransmissible large aggregates. Thus, we show the potential contribution of cytoskeletal networks in the transmission of prion propagons, which parallels models that have been proposed for cell-to-cell transmission of small amyloids in neurodegenerative protein aggregation diseases.     

Alcohol oxidase (AOX1) from Pichia pastoris is a novel inhibitor of prion propagation and a potential ATPase

Previous results suggest that methylotrophic yeasts may contain factors that modulate prion stability. Alcohol oxidase (AOX), a key enzyme in methanol metabolism, is an abundant protein that is specific to methylotrophic yeasts. We examined the effect of Pichia pastoris AOX1 on prion phenotypes in Saccharomyces cerevisiae . The S. cerevisiae prion states [ PSI ⁺] and [ URE3 ] arise from aggregation of the proteins Sup35p and Ure2p respectively, and correlate with the ability of Sup35p and Ure2p to form amyloid-like fibrils in vitro . We found that expression of P. pastoris AOX1 in S. cerevisiae had no effect on propagation of the [ PSI ⁺] prion, but inhibited propagation of [ URE3 ]. Addition of AOX1 early in the time-course of fibril formation inhibits Ure2p fibril formation in vitro . AOX1 has not previously been identified as an ATPase. However, we discovered that in addition to its flavin adenine dinucleotide-dependent AOX activity, AOX1 possesses ATPase activity. This study identifies AOX1 as a novel prion inhibitory factor and a potential ATPase.     

Effect of Domestication on the Spread of the [PIN+] Prion in Saccharomyces cerevisiae

Prions (infectious proteins) cause fatal neurodegenerative diseases in mammals. In the yeast Saccharomyces cerevisiae, many toxic and lethal variants of the [PSI+] and [URE3] prions have been identified in laboratory strains, although some commonly studied variants do not seem to impair cell growth. Phylogenetic analysis has revealed four major clades of S. cerevisiae that share histories of two prion proteins and largely correspond to different ecological niches of yeast. The [PIN+] prion was most prevalent in commercialized niches, infrequent among wine/vineyard strains, and not observed in ancestral isolates. As previously reported, the [PSI+] and [URE3] prions are not found in any of these strains. Patterns of heterozygosity revealed genetic mosaicism and indicated extensive outcrossing among divergent strains in commercialized environments. In contrast, ancestral isolates were all homozygous and wine/vineyard strains were closely related to each other and largely homozygous. Cellular growth patterns were highly variable within and among clades, although ancestral isolates were the most efficient sporulators and domesticated strains showed greater tendencies for flocculation. [PIN+]-infected strains had a significantly higher likelihood of polyploidy, showed a higher propensity for flocculation compared to uninfected strains, and had higher sporulation efficiencies compared to domesticated, uninfected strains. Extensive phenotypic variability among strains from different environments suggests that S. cerevisiae is a niche generalist and that most wild strains are able to switch from asexual to sexual and from unicellular to multicellular growth in response to environmental conditions. Our data suggest that outbreeding and multicellular growth patterns adapted for domesticated environments are ecological risk factors for the [PIN+] prion in wild yeast.     

Ca(2+) as second messenger in PTTH-stimulated prothoracic glands of the silkworm,Bombyx mori

Measurements of Ca²⁺ influx and [Ca²⁺]_i changes in Fura-2/AM-loaded prothoracic glands (PGs) of the silkworm, Bombyx mori, were used to identify Ca²⁺ as the actual second messenger of the prothoracicotropic hormone (PTTH) of this insect. Dose-dependent increases of [Ca²⁺]_i in PG cells were recorded in the presence of recombinant PTTH (rPTTH) within 5 minutes. The rPTTH-mediated increases of [Ca²⁺]_i levels were dependent on extracellular Ca²⁺. They were not blocked by the dihydropyridine derivative, nitrendipine, an antagonist of high-voltage-activated (HVA) Ca²⁺ channels, and by bepridil, an antagonist of low-voltage-activated (LVA) Ca²⁺ channels. The trivalent cation La³⁺, a non-specific blocker of plasma membrane Ca²⁺ channels, eliminated the rPTTH-stimulated increase of [Ca²⁺]_i levels in PG cells and so did amiloride, an inhibitor of T-type Ca²⁺ channels. Incubation of PG cells with thapsigargin resulted in an increase of [Ca²⁺]_i levels, which was also dependent on extracellular Ca²⁺ and was quenched by amiloride, suggesting the existence of store-operated plasma membrane Ca²⁺ channels, which can also be inhibited by amiloride. Thapsigargin and rPTTH did not operate independently in stimulating increases of [Ca²⁺]_i levels and one agent’s mediated increase of [Ca²⁺]_i was eliminated in the presence of the other. TMB-8, an inhibitor of intracellular Ca²⁺ release from inositol 1,4,5 trisphosphate (IP₃)-sensitive Ca²⁺ stores, blocked the rPTTH-stimulated increases of [Ca²⁺]_i levels, suggesting an involvement of IP₃ in the initiation of the rPTTH signaling cascade, whereas ryanodine did not influence the rPTTH-stimulated increases of [Ca²⁺]_i levels. The combined results indicate the presence of a cross-talk mechanism between the [Ca²⁺]_i levels, filling state of IP₃-sensitive intracellular Ca²⁺ stores and the PTTH-receptor’s-mediated Ca²⁺ influx.     

The reaction of cytochrome c with [Fe(EDTA)(H2O)]

The interaction of horse ferricytochrome c with the reagents [Fe(EDTA)(H₂O)]⁻ and [Cr(CN)₆]³⁻ were studied at pH 7 and 25°C by ¹H-NMR spectroscopy. Two binding regions near to the heme crevice of cytochrome c were identified. Both regions bound both reagents but they exhibited different selectivities.

The relevance of this finding to the electron-transfer function of cytochrome c is discussed.     

Synthesis and characterization of polypyridineruthenium(II) complexes containing a linear ambidentate ligand, NCO or NCS, and reaction of isocyanato complexes under acidic conditions

Isocyanato and isothiocyanatopolypyridineruthenium complexes, [Ru(NCX)Y(bpy)(py)₂]ⁿ⁺ (bpy=2,2′-bipyridine, PY=pyridine; X=O, Y=NO₂ for n=0, and Y=py for n=1; X=S, Y=NO₂ for n=0, Y=NO for n=2, and Y=py for n=1), were synthesized by the reaction of polypyridineruthenium complexes with potassium cyanate or sodium thiocyanate salt. Isocyanatoruthenium(II) complexes, [Ru(NCO)(NO₂)(bpy)(py)₂] and [Ru(NCO)(bpy)(py)₃]⁺, react under acidic conditions to form the corresponding ammineruthenium complexes, [Ru(NO)(NH₃)(bpy)(py)₂]³⁺. The molecular structures of [Ru(NCO)(bpy)(py)₃]ClO₄, [Ru(NCS)(NO)(bpy)(py)₂](PF₆)₂ and [Ru(NO)(NH₃)(bpy)(py)₂](PF₆)₃ were determined by X-ray crystallography.     

Effect of clomiphene on Ca movement in human prostate cancer cells

The effect of clomiphene, an ovulation-inducing agent, on cytosolic free Ca²⁺ levels ([Ca²⁺]_i) in populations of PC3 human prostate cancer cells was explored by using fura-2 as a Ca²⁺ indicator. Clomiphene at concentrations between 10-50 μM increased [Ca²⁺]_i in a concentration-dependent manner. The [Ca²⁺]_i signal was biphasic with an initial rise and a slow decay. Ca²⁺ removal inhibited the Ca²⁺ signal by 41%. Adding 3 mM Ca²⁺ increased [Ca²⁺]_i in cells pretreated with clomiphene in Ca²⁺-free medium, confirming that clomiphene induced Ca²⁺ entry. In Ca²⁺-free medium, pretreatment with 50 μM brefeldin A (to permeabilize the Golgi complex), 1 μM thapsigargin (to inhibit the endoplasmic reticulum Ca²⁺ pump), and 2 μM carbonylcyanide m-chlorophenylhydrazone (to uncouple mitochondria) inhibited 25% of 50 μM clomiphene-induced store Ca²⁺ release. Conversely, pretreatment with 50 μM clomiphene in Ca²⁺-free medium abolished the [Ca²⁺]_i increase induced by brefeldin A, thapsigargin or carbonylcyanide m-chlorophenylhydrazone. The 50 μM clomiphene-induced Ca²⁺release was unaltered by inhibiting phospholipase C with 2 μM 1-(6-((17β-3-methoxyestra-1,3,5(10)-trien-17-yl)amino)hexyl)-1H-pyrrole-2,5-dione (U73122). Trypan blue exclusion assay suggested that incubation with clomiphene (50 μM) for 2-15 min induced time-dependent decrease in cell viability by 10-50%. Collectively, the results suggest that clomiphene induced [Ca²⁺]_i increases in PC3 cells by releasing store Ca²⁺ from multiple stores in an phospholipase C-independent manner, and by activating Ca²⁺ influx; and clomiphene was of mild cytotoxicity.     

苦参的染色体核型

苦参(Sophora flavescens Ait)是豆科槐属(Sophora L.)的多年生草本植物,我国南北各省区均产,苏联、朝鲜和日本亦有分布。在细胞学方面,Kawakami^[3]、Hexob^[8]和Kodama^[4]都报道过苦参的染色体数目为2n=18,但Nagl^[8]却报道2n=28。本文作者在对苦参作染色体基数的基础上,进行了核型的描述和分析。     

Effects of Basal [Ca]i on Calcium Handling in Ca-Overloaded Rat Cultured Heart Muscle Cells

To elucidate the relationship between intracellular free Ca²⁺ concentration ([Ca²⁺]_i) and Ca²⁺-signalling by the sarcoplasmic reticulum (SR) in Ca²⁺-overloaded heart muscle cells, the direct effects of “basal” [Ca²⁺]_i on calcium waves were investigated by altering the membrane potential. When basal inter-calcium wave (BCW) [Ca²⁺]_i was maintained at a high level, (i) calcium waves showed more gradual and more rapidly suppressed increase in [Ca²⁺]-profile (P < 0.005), and (ii) calcium waves occurred at a significantly higher frequency and velocity (259% and 137%), than when low BCW [Ca²⁺]_i was maintained. Similar investigations on inhibition of the Na⁺-Ca²⁺ exchanger, however, showed that membrane potential did not elicit direct effects on calcium waves. These results showed that the elevation of BCW [Ca²⁺]_i per se directly influences Ca²⁺-signalling in heart muscle cells through non-equilibrated release-restoration Ca²⁺-handling by the SR.     

Reduction of ferricytochrome c by hydrogen atoms: Evidence for intramolecular transfer of reducing equivalent

Direct evidence obtained by means of the technique of pulse radiolysis-kinetic spectrometry, with measurements in the time range 10⁻⁶ to 1 s, is presented that, consequent upon reaction of a single H-atom with a single molecule of ferricytochrome c, a reducing equivalent is transmitted via the protein structure to the ferriheme moiety. Such transmission accounts for at least 70% of the total reduction of the ferri to the ferro state of cytochrome c. The remainder of the total reduction takes place without stages resolvable on the time scale of these experiments. Reduction brought about by H atoms appears to follow a different course than reduction by hydrated electrons. In the latter case, intramolecular transmission of reducing equivalents could not be demonstrated (Lichtin, N. N., Shafferman, A. and Stein, G. (1973) Biochim. Biophys. Acta 314, 117–135).

Not every H-atom reacts with ferricytochrome c at a site which results in conversion of the Fe(III) state to the Fe(II) state. Approximately half of reacting H-atoms do not produce reduction.

The following second order rate constants have been determined in solutions of low ionic strength at 20±2 °C: k[H+ferricytochrome c] = (1.0±0.2) · 10¹⁰ M⁻¹ · s⁻¹ at pH 3.0 and 6.7; k[H+ferrocytochrome c] = (1.3±0.2) · 10¹⁰ M⁻¹ · s⁻¹ at pH 3.0; k[e⁻_aq + ferrocytochrome c] = (1.9±0.4) · 10¹⁰ M⁻¹ · s⁻¹ at pH 6.7.