Cytochemical Ca2+ Distribution in Activated Discoglossus pictus Eggs: A Gradient in the Predetermined Site of Fertilization

The K-pyroantimonate/OsO₄ (PA) cytochemical method coupled with EGTA and X-ray microanalytical controls has been used to localize Ca²⁺ at egg activation in Discoglossus pictus eggs. The results show that: 1) the PA method is able to selectively localize Ca²⁺ pools mobilized by activating stimuli; 2) the smooth endoplasmic reticulum (SER) elements located in the animal dimple region, i.e. in the predetermined site of fertilization, are the first egg components labeled by precipitates; 3) a decreasing gradient of precipitates is present from the center beyond the boundaries of the dimple region; 4) precipitates are lacking in the remainder of the egg even at late times after activation.
The possibilities are discussed that a) SER is the major Ca²⁺-releasing store at activation in Discoglossus , and b) the observed gradient of pyroantimonate-detected Ca²⁺ reflects an ionic Ca²⁺ gradient.     

Lipopolysaccharide induction of outward potassium current expression in human monocyte-derived macrophages: Lack of correlation with secretion

Summary Although an outwardly rectifying K⁺ conductance (I _K, A) is prominently expressed in human alveolar macrophages, the expression of this conductance in human monocyte-derived macrophages (HMDMs) is rare. We have analyzed the induction of the expression of I _K, A in voltage-clamped, in vitro differentiated HMDMs by a number of stimuli which produce either priming or activation of macrophages. Cultures were stimulated with lipopolysaccharide (LPS, 2 g/ml), interleukin 2 (IL-2, 100 U/ml), or combinations of LPS and either recombinant interferon-gamma (-IFN, 10 U/ml), phorbol myristate acetate (PMA, 0.01 or 1 g/ ml) and platelet activating factor (PAF, 20 ng/ml) for periods of up to 24 hr. Treatment of the cells with either LPS or IL-2 greatly enhanced the frequency of current expression. Treatment with either PMA or -IFN alone did not induce current expression; treatment of the cells with a combination of LPS and either PMA, -IFN, or PAF did not enhance current expression over that observed with LPS alone. The expression of the outwardly rectifying K⁺ current was observed in 36% (n=321) of the cells for cultures treated with LPS and 33% (n=55) of the cells for cultures treated with IL-2. The inactivating outward K⁺ current was absent in cells which were not treated with either LPS or IL-2. The kinetics of current activation and inactivation appeared identical to that previously described for the transient-inactivating outward current of the human alveolar macrophage. Cycloheximide (1 g/ml), an inhibitor of protein synthesis, completely suppressed LPS-induced current expression. No correlation was found between peak current amplitude and cell size in LPS-activated cells expressing the outwardly rectifying K⁺ current, indicating that current density was not held constant from cell to cell. The coupling of ion channel expression and secretion in individual HMDMs was studied using the reverse hemolytic plaque assay. Although an enhancement of K ⁺ current expression was observed following either LPS or IL-2 treatment, a quantitatively similar and uniform increase in the percentage of either IL-1 or lysozyme-secreting cells was not observed. The frequency of current expression in cells identified as secreting tumor necrosis factor- (TNF-), interleukin 1 (IL-1), or lysozyme was the same or decreased over that observed for nonsecreting cells. Thus, LPS treatment increases the number of K⁺ channels on HMDM membranes; however, K⁺ channel expression alone was not sufficient to give rise to enhanced secretion in LPS-activated macrophages. Enhanced K⁺ channel expression appears to be a part of the primary activation signal. K⁺-channel activation would hyperpolarize the membrane potential, potentially providing the driving force for calcium entry through voltage-independent pathways activated by the subsequent binding of soluble substances to membrane surface receptors, the secondary signal linked to secretion.This work was supported by NIH grant RO 1 GM36823.     

The augmentative effect of a protein-bound polysaccharide (PSK) on tumoricidal activity of the soluble factor produced by a streptococcal preparation (OK-432)-activated macrophages

The enhancement of antitumor activities of the tumoricidal soluble factor (SF) from a streptococcal preparation (OK-432)-activated macrophages by the pretreatment with a protein-bound polysaccharide (PSK) was investigated in tumor-bearing mice.Two-step stimulations with OK-432 atin vivo priming andin vitro eliciting were required for the production of the tumoricidal SF by macrophages, and the tumoricidal activity of the SF apparently correlated with the uptake of OK-432 by macrophages at priming phase.Tumoricidal activity of the SF from OK-432-activated macrophages in proteose-peptone (P-P)-pretreated mice significantly decreased with the development of the tumor, whereas in PSK-pretreated mice did not. Pretreatment of tumor-bearing mice with PSK saved a decrease in the macrophages carrying Ia^k or asialo GM1 antigens and an increase in wheat germ agglutinin (WGA) receptors. Furthermore, the uptake of OK-432 by macrophages at priming phase was enhanced. The tumoricidal activity of the SF from OK-432-activated macrophages was augmented.Thus, PSK may restore the depressed functions of macrophages, and the combination therapy with PSK and OK-432 may be effective to enhance the production of tumoricidal SF in tumor-bearing mice.     

Epinephrine potentiates activation of human platelets by low density lipoproteins

Low density lipoproteins activate phosphoinositide turnover, increase free cytoplasmic calcium concentration and stimulate phosphorylation of 20- and 47-kDa proteins in blood platelets. All these effects are substantially potentiated by epinephrine.     

Activation of a latent RNAase from yeast by nucleoside triphosphates

A latent RNAase activity stimulated by nucleoside triphosphates has been isolated from a yeast chromatin extract, by filtration on Sepharose 6B and hydroxyapatite chromatography. The RNAase was separated from a thermolabile proteic inhibitor on phosphocellulose. When separated from the inhibitor, the RNAase hydrolyses RNA to 5′-mononucleotides. Its activity is retained in the presence of EDTA, and 50% inhibited by 1 mM ATP or CTP. The RNAase is inhibited by the thermolabile component only in the presence of divalent cations. The activity is recovered upon addition of 0.01 mM ATP to the mixture. The K_m for ATP is 10 μM. ATP can be replaced by other ribo- or deoxyribonucleoside triphosphates with varying efficiency but not by ADP, AMP or cAMP. These results suggest multiple interactions between the RNAase, a regulatory component, divalent cations and nucleoside triphosphates.     

Specific protection of nucleotides in the lac operator from DMS methylation and DNase I nicking by crude bacterial cell extracts

Crude bacterial cell extracts prepared from an Escherichia coli lacIq strain were shown to protect specific nucleotides in the lac operator from methylation by dimethyl sulfate (DMS) or digestion by DNase I, whereas no protection was observed using extracts prepared from a nearly isogenic lacI- strain. These experiments show that it is not necessary to use purified regulatory proteins in experiments designed to localize sequences on DNA which interact with proteins. Therefore, crude cell extracts should be useful in DNA "footprinting" experiments to define regions of DNA which bind to unknown regulatory proteins.     

Mg2+ restores membrane potential in rat liver mitochondria deenergized by Ca2+ and phosphate movements

Cellular ornithine biosynthesis could be expected to play a significant role in putrescine formation and hence in growth. Two enzymes are involved in ornithine biosynthesis: arginase and transamidinase. These enzyme activities were studied in two human melanoma cell lines differing in their K_m of diamine oxidase for putrescine and in their tumorigenicity in nude mice. Arginase activity accounts for the majority of ornithine formed in the highly tumorigenic cell line, while the majority of ornithine is derived from transamidinase action in the poorly tumorigenic cell line, with concomitant formation of methyl guanidine, a potent inhibitor of diamine oxidase.     

Protein synthesis during the transition from the resting to the growing state in suspension cultures of Paul's Scarlet rose cells

Cells derived from Paul's Scarlet rose ( Rosa sp. ) were grown in the chemically defined medium of Nesius. When a stationary phase culture was diluted with fresh medium, growth was initiated after a pronounced lag period. DNA replication, as revealed by thymidine labeling and autoradiography, did not begin until 36 h, and mitotic figures were not observed until 48 h after dilution. A 10–15 fold increase in the rate of protein synthesis occurred during the lag period. This was brought about by a 3.5 fold increase in the amount of ribosomal RNA per cell, plus a doubling of both the percentage of ribosomes that are present as polyribosomes and the average number of ribosomes per polyribosome. The spectrum of polypeptides synthesized by these cells during the lag and early log periods of growth was examined. Polyribosomes were extracted from the cells at intervals preceding and accompanying the initiation of proliferative growth. The polyribosomes were translated in a wheat germ cell-free protein synthesizing system and the ³⁵S-methionine-labeled translation products were separated on polyacrylamide slab gels and by 2-dimensional gel electrophoresis. Comparatively few differences were observed between stationary phase, lag phase and log phase cells in terms of the spectrum of polypeptides synthesized in vitro. However, these various phases of the growth cycle could be characterized by a relatively high rate of synthesis of a few specific polypeptides. That is, while most proteins are synthesized throughout the growth cycle and even in non-growing cells at approximately the same relative rates, there are a few variable proteins whose synthesis marks a particular phase of the growth cycle.     

Tyrosine Hydroxylase Regulation: Apparent Kinetic Alterations Following Incubation of Brain Slices in a Sodium-free Medium

In an attempt to determine if alterations in intraneuronal Ca2+ may regulate tyrosine hydroxylase activity, brain slices were subjected to experimental manipulations known to increase the intraneuronal concentration of free Ca2+ ions. Incubation of either striatal or olfactory tubercle slices in a Na+-free medium for 15 min at 37 degrees resulted in a marked increase in the activity of tyrosine hydroxylase present in the 20,000 g supernatant fraction of homogenates prepared from the slices. Tyrosine hydroxylase isolated from slices previously incubated in a Na+-free, choline-enriched medium or in a Na+-free, sucrose-enriched medium exhibited maximal activities when assayed at pH 6.0 and 7.0, respectively. However, the percentage stimulation of enzyme activity induced by incubation of the slices in a Na+-free medium was maximal when the enzyme assays were performed at pH 7.0. The observed increase in enzyme activity seems to be mediated by a decrease in the apparent Km of the enzyme for pteridine cofactor, regardless of whether the kinetic enzyme analyses were conducted at pH 6.0 or 7.0, and by an increase in the Ki of the enzyme for end-product inhibitor dopamine. The apparent kinetic changes in the enzyme do not seem to result from alterations in the endogenous dopamine content of the slices, and they are independent of any increase in dopamine release that might have occurred as a response to the augmented intraneuronal Ca2+ concentration. Furthermore, the activation of tyrosine hydroxylase produced by incubating slices in a Na+-free medium is observed even in slices depleted of dopamine by pretreatment of rats with reserpine 90 min before preparation of brain slices. The activation of tyrosine hydroxylase observed under these experimental conditions does not seem to be mediated by cAMP or by a cAMP-dependent phosphorylation process. It is suggested that the changes in tyrosine hydroxylase reported are mediated primarily by a rise in the free Ca2+ concentration within the nerve tissue. These observations are consistent with the hypothesis that the kinetic activation of tyrosine hydroxylase produced after depolarization of central dopaminergic neurons may occur through a Ca2+-dependent even other than transmitter release.