大鼠心肌肌浆网的纯化及其性质研究

 用超声波破碎心肌细胞,差速离心法纯化大鼠心肌肌浆网(CSR)。SDS-聚丙烯酰胺凝胶电泳测得Ca~(2+)-ATPase分子量为98kD;电镜观察膜制备为完整的CSR微囊;标志酶哇巴因敏感型Na~(+),K~(+)-ATPase和叠氮化钠敏感型Mg~(2+)-ATPase活性表明膜制备中肌膜含量很低,但仍有线粒体污染。 用~(45)Ca~(2+)示踪微孔滤膜法研究Ca~(2+)跨膜转运,CSRCa~(2+)蓄集最大值为57nmol/mg蛋白。CSR Ca~(2+)-ATPase在4℃—21℃和21℃—49℃两区间反应活化能不同,前者大于后者。酶的最适pH为7.4。以ATP为底物,该酶有两个表观Km值:Km_1为3.7μmol/LKm_2为713μmol/L。     

Modulation of Cardiac Sarcoplasmic Reticulum Calcium Release by Aenosine: A protein Kinase C- Dependent Pathway

We have already reported that A₃ adenosine receptor stimulation reduces [³H]-ryanodine binding and sarcoplasmic reticulum Ca²⁺ release in rat heart. In the present work we have investigated the transduction pathway responsible for this effect. Isolated rat hearts were perfused for 20 min in the presence of the following substances: 100 nM N⁶-(iodobenzyl)-adenosine-5′-N-methyluronamide (IB-MECA), an A₃ adenosine agonist; 10 μM U-73122, a phospholipase C inhibitor; 2 μM chelerythrine, a protein kinase C inhibitor. At the end of perfusion, the hearts were homogenized and [³H]-ryanodine binding was assayed. IB-MECA produced a significant decrease in ryanodine binding, which was abolished in the presence of chelerythrine but not in the presence of U-73122. RT-PCR experiments showed that ryanodine receptor gene expression was not affected by IB-MECA. In Western blot experiments, ryanodine receptor phosphorylation on serine 2809 was not modified after perfusion with IB-MECA. We conclude that modulation of SR Ca²⁺ release channel by IB-MECA is dependent on protein kinase C activation. However, in this model protein kinase C activation is not due to phospholipase C activation. In addition, changes in ryanodine receptor gene expression or direct phosphorylation of the ryanodine receptor on serine 2809 residue do not appear to occur.     

Proton Countertransport and Coupled Gating in the Sarcoplasmic Reticulum Calcium Pump

The calcium pump of the sarcoplasmic reticulum (SERCA) is an ATP-driven active transporter of Ca²⁺ ions that functions via an “alternating-access” cycle mechanism. In each cycle, SERCA transports two Ca²⁺ ions toward the lumen of the sarcoplasmic reticulum and two to three protons to the cytoplasm. How the latter conformational transition is coupled to cytoplasmic release of protons remains poorly understood. The present computational study shows how the mechanism of proton countertransport is coupled to the alternating access gating process in SERCA. Molecular dynamics simulation trajectories are generated starting from a series of configurations taken along the E2 to E1 transition pathway determined by the string method with swarms-of-trajectories. Simulations of different protonation configurations at the binding sites reveal how deprotonation events affect the opening of the cytoplasmic gate. The results show that there is a strong coupling between the chronological order of deprotonation, the entry of water molecules into the TM region, and the opening of the cytoplasmic gate. Deprotonation of E309 and E771 is sequential with E309 being the first to lose the proton. The deprotonation promotes the opening of the cytoplasmic gate but leads to a productive gating transition only if it occurs after the transmembrane domain has reached an intermediate conformation. Deprotonation of E309 and E771 is unproductive when it occurs too early because it causes the re-opening of the luminal gate.     

亲和层析纯化肌质网Ca2+－ATP酶

建立了一种亲和层析纯化肌质网Ca²⁺-ATP酶的方法．用非离子型去污剂C₁₂E₈ 溶解肌质网,再通过反应红－120琼脂糖亲和层析柱使肌质网Ca²⁺-ATP酶纯度从粗品中的65％提高到99％,并具有较高ATP水解活性．经SDS－聚丙烯酰胺凝胶电泳检测,为电泳纯．     

Structural determinants of the intrinsic fluorescence emission in notexin and phospholipase A2 enzymes

Fluorescence measurements of the homologous proteins, notexin and PLA₂ enzymes fromNaja naja atra, Naja nigricollis, and Hemachatus haemachatus venoms, showed that the wavelength of maximum emission and the quantum yield of their intrinsic fluorescence emission spectra were different. To verify the factors which affected their fluorescence characteristics, the dynamics of tryptophan residues in those homologous proteins were studied by quenching with acrylamide, iodide, and cesium. The degrees of exposure of tryptophanyl groups in notexin and PLA₂ enzymes assessed by acrylamide quenching were found to be the major factor that determined their fluorescence characteristics. However, the positively charged groups surrounding tryptophan residues of PLA₂ enzymes fromN. naja atra andN. nigricollis venoms might affect the quantum yield of their fluorophores. Tryptophan residues of notexin were in an environment with less fluctuation, which did not allow free diffusion of ionic quencher. This might render its typtophan residues to fluoresce at a shorter wavelength. These results suggested that the structural determinants affecting the intrinsic fluorescence emission of homologous proteins can be easily assessed by quenching studies.     

GM3掺入肌质网膜及其对Ca2+-ATP酶的正向调节

用微量提取和高效薄板层析方法研究了外源性神经节苷脂GM3掺入兔肌质网膜的动力学过程.将掺入量分别相对于掺入浓度、时间和温度作图,显示掺入曲线均呈抛物线形式.当掺入体系中GM3浓度为8 μmol／L、掺入时间为90 min、掺入温度为35℃时,其掺入量达到最大值,约为掺入体系中GM3量的50%.上述结果表明外源性GM3对肌质网膜的作用不仅仅是一种简单的水相反应,而是一个依赖于掺入浓度、时间和温度,并具有一定的饱和度的掺入到肌质网膜脂双层中的动力学过程.进一步的实验表明外源性GM3的掺入能明显增加肌质网Ca^2＋-ATP酶的活力.这为从分子水平上研究糖脂对细胞内膜系统的结构与功能的调节作用提供了重要的基础.     

Role of the Sarcoplasmic Reticulum Ca2+-ATPase on Heat Production and Thermogenesis

The sarcoplasmic reticulum of skeletal muscle retains a membrane bound Ca²⁺-ATPase which is able to interconvert different forms of energy. A part of the chemical energy released during ATP hydrolysis is converted into heat and in the bibliography it is assumed that the amount of heat produced during the hydrolysis of an ATP molecule is always the same, as if the energy released during ATP cleavage were divided in two non-interchangeable parts: one would be converted into heat, and the other used for Ca²⁺ transport. Data obtained in our laboratory during the past three years indicate that the amount of heat released during the hydrolysis of ATP may vary between 7 and 32 kcal/mol depending on whether or not a transmembrane Ca²⁺ gradient is formed across the sarcoplasmic reticulum membrane. Drugs such as heparin and dimethyl sulfoxide are able to modify the fraction of the chemical energy released during ATP hydrolysis which is used for Ca²⁺ transport and the fraction which is dissipated in the surrounding medium as heat.     

Identification of novel phospholipase A2 group IX members in metazoans

Sequence homologues of the bacterium Streptomyces violaceoruber and sea anemone Nematostella vectensis PLA₂ pfam09056 members were identified in several bacteria, fungi and metazoans illustrating the evolution of this PLA₂ sub-family. Comparison of their molecular structures revealed that bacteria and fungi members are part of the GXIV of PLA₂s while metazoan representatives are similar with GIX PLA₂ of the marine snail Conus magus. Members of GXIV and GIX PLA₂s show modest overall sequence similarity (21–35%) but considerable motif conservation within the putative Ca²⁺-binding, catalytic sites and cysteine residue positions which are essential for enzyme function. GXIV PLA₂s of bacteria and fungi typically contain four cysteine residues composing two intramolecular disulphide bonds. GIX PLA₂ homologues were identified in cnidarians and molluscs and in a single tunicate but appear to be absent from other metazoan genomes. The mature GIX PLA₂ deduced peptides contain up to ten cysteine residues capable of forming five putative disulphide bonds. Three disulphide bonds were identified in GIX PLA₂s, two of which correspond to those localized in GXIV PLA₂s. Phylogenetic analysis demonstrates that metazoan GIX PLA₂s cluster separate from the bacterial and fungal GXIV PLA₂s and both pfam09056 members form a group separate from the prokaryote and eukaryote GXIIA PLA₂ pfam06951. Duplicate PLA₂ pfam09056 genes were identified in the genomes of sea anemone N. vectensis and oyster Crassostrea gigas suggest that members of this family evolved via species-specific duplication events. These observations indicate that the newly identified metazoan pfam09056 members may be classified as GIX PLA₂s and support the idea of the common evolutionary origin of GXIV and GIX PLA₂ pfam09056 members, which emerged early in bacteria and were maintained in the genomes of fungi and selected extant metazoan taxa.     

Uncoupling of Occlusion From ATP Hydrolysis Activity in Sarcoplasmic Reticulum (Ca2++Mg2+)-ATPase

The uncoupling of Ca²⁺ transport from ATP hydrolysis in the sarcoplasmic reticulum (Ca²⁺ + Mg²⁺)-ATPase by trypsin digestion was re-investigated by comparing ATPase activity with the ability of the enzyme to occlude Eu³⁺ (a transport parameter) after various tryptic digests. With this method, re-examination of uncoupling by tryptic digest of the ATPase revealed that TD2 cleavage (Arg-198) had no effect on either occlusion or ATPase activity. Digestion past TD2 in the presence of 5 mM Co²⁺ and at 25°C resulted in the loss of about 70% of the ATPase activity, but no loss of occlusion. Digestion past TD2 in the presence of 5 mM Ca²⁺, 3 mM ATP, and at 25°C resulted in a partially uncoupled enzyme complex which retained about 50% of the ATPase activity, but completely lost the ability to occlude Eu³⁺. Digest past TD2 in the presence of 5 mM Ca²⁺ and 3 mM AMP-PNP. (a non-hydrolyzable ATP analog) at 25°C resulted in no loss of occlusion, thus revealing the absolute requirement of ATP during the digest to eliminate occlusion. From these findings we conclude that uncoupling of Ca²⁺ transport from ATPase activity is possible by tryptic digestion of the (Ca²⁺ + Mg²⁺)-ATPase. Interestingly, only after phosphorylation of the enzyme do the susceptible bond(s) which lead to the loss of occlusion become exposed to trypsin.     

Degumming of vegetable oils by a novel phospholipase B from Pseudomonas fluorescens BIT-18

Pseudomonas fluorescens BIT-18 was isolated from soil near a vegetable oil factory and shown to produce a B-type phospholipase. The enzyme was partially purified by ammonium sulfate precipitation. Gas chromatography demonstrated that the enzyme preparation hydrolyzed both the 1- and 2-ester bonds of phosphatidylcholine. When degumming of soybean, rapeseed, and peanut oil was performed with this enzyme preparation, oils with phosphorous contents lower than 5 mg/kg were obtained after 5 h of enzyme treatment at 40 °C. The enzyme preparation did not show lipase activity, thus free fatty acids were only generated from the phospholipids. Therefore, this novel phospholipase B is potentially useful for the refining of high-quality oils with attractive yields.     

Antibacterial properties of recombinant human non-pancreatic secretory phospholipase A2

Human non-pancreatic secretory phospholipase A₂ (hnpsPLA₂) is a group IIA phospholipase A₂ which plays an important role in the innate immune response. This enzyme was found to exhibit bactericidal activity toward Gram-positive bacteria, but not Gram-negative ones. Though native hnpsPLA₂ is active over a broad pH range, it is only highly active at alkaline conditions with the optimum activity pH of about 8.5. In order to make it highly active at neutral pH, we have obtained two hnpsPLA₂ mutants, Glu89Lys and Arg100Glu that work better at neutral pH in a previous study. In the present study, we tested the bactericidal effects of the native hnpsPLA₂ and the two mutants. Both native hnpsPLA₂ and the two mutants exhibit bactericidal activity toward Gram-positive bacteria. Furthermore, they can also kill Escherichia coli, a Gram-negative bacterium. The two mutants showed better bactericidal activity for E. coli at neutral pH than the native enzyme, which is consistent with the enzyme activities. As hnpsPLA₂ is highly stable and biocompatible, it may provide a promising therapy for bacteria infection treatment or other bactericidal applications.     

Clomipramine and Related Structures as Inhibitors of the Skeletal Sarcoplasmic Reticulum Ca2+ Pump

The Ca²⁺-pumping activity of skeletal sarcoplasmic reticulum vesicles is half-maximallyinhibited by 120 M clomipramine, 250 M desipramine, and 500 M imipramine or trimipramine.The inhibition is attributed to the dihydrodibenzazepine moiety, since3-(dimethylamino)propionitrile, reproducing the aliphatic amine chain, has no inhibitory action. The inhibitionis shown as a marked decrease of Ca²⁺ binding at equilibrium in theabsence of ATP and asa reduction of phosphorylation of the Ca²⁺-free conformation byinorganic phosphate. Therefore,the drug effect is consistent with preferential interaction of tricyclic antidepressants withthe Ca²⁺-free conformation of the nonphosphorylated enzyme. An additional decrease in theapparent rate constant of enzyme dephosphorylation, i.e., in the release of phosphate fromATP during enzyme cycling was also noticed.     

Inhibition of crotoxin binding to synaptosomes by a receptor-like protein from Crotalus durissus terrificus (the South American rattlesnake)

Crotoxin (Ctx) is a potent neurotoxin of the venom of Crotalus durissus terrificus (the South American rattlesnake). Ctx is a heterodimer composed of CB, a toxic PLA₂ subunit, and CA, a non-toxic and non-enzymatic subunit, that potentiates the neurotoxicity of CB in vivo. The deleterious action of Ctx upon C. d. terrificus snakes themselves is known to be prevented by a PLA₂ inhibitor (CNF) present in their blood serum. CNF acts by replacing CA in Ctx, thus forming a new stable complex CNF-CB. This complex no longer interacts with the target receptor (TR) to deliver CB to cause its lethal effect. Furthermore, CNF-CB seems to be reminiscent of the interaction Ctx-TR at the pre-synaptic site. In the present work, the binding competition between rat brain synaptosomes (TR) and CNF for Ctx was investigated. Radiolabeled Ctx, made of CA and one isoform of CB (CA-¹²⁵ICB₂), was used as ligand. The competition by unlabeled Ctx was taken as a reference. The potency of CNF as a competitor was evaluated under different incubation conditions with varying time scale addition of reagents (CA-¹²⁵ICB₂, synaptosomes and CA-CB₂ or CNF). CNF was able to inhibit the binding of the toxin to synaptosomes as well as to partially displace the toxin already bound to its membrane target. The mechanisms of competition involved were discussed and a previous schematic model of interactions between Ctx, TR and CNF was updated.     

Inhibition of secretory phospholipase A2 enzyme by bilirubin: A new role as endogenous anti-inflammatory molecule

Bilirubin is a powerful antioxidant that suppresses the inflammatory process. However its interaction with proinflammatory PLA₂ enzyme is not known. Inhibition of several secretory phospholipase A₂ (sPLA₂) enzyme activities by bilirubin was studied using ¹⁴C-oleate labeled Escherichia coli as substrate. Bilirubin inhibits purified sPLA₂ enzyme from Vipera russellii and Naja naja venom and partially purified sPLA₂ enzymes from human ascitic fluid, pleural fluid and normal serum in a dose dependent manner. IC₅₀ values calculated for these enzymes ranges from 1.75 to 10.5 μM. Inflammatory human sPLA₂ enzymes are more sensitive to inhibition by bilirubin than snake venom sPLA₂s. Inhibition of sPLA₂ activity by bilirubin is independent of calcium concentration. Increasing substrate concentration (upto 180 nmol) did not relieve the inhibition of sPLA₂ by bilirubin and it is irreversible. Bilirubin quenched the relative fluorescence intensity of sPLA₂ in a dose dependent manner in the same concentration range at which in vitro sPLA₂ inhibition was observed. In the presence of bilirubin, apparent shift in the far UV-CD spectra of sPLA₂ was observed, indicating a direct interaction with the enzyme. Inhibition of sPLA₂ induced mouse paw edema by bilirubin confirms its sPLA₂ inhibitory activity in vivo also. These findings indicate that inhibition of sPLA₂ by bilirubin is mediated by direct interaction with the enzyme and bilirubin may act as an endogenous regulator of sPLA₂ enzyme activity.     

Effect of Sarcoplasmic Reticulum (SR) Calcium Content on SR Calcium Release Elicited by Small Voltage-Clamp Depolarizations in Frog Cut Skeletal Muscle Fibers Equilibrated with 20 mM EGTA

Cut muscle fibers from Rana temporaria (sarcomere length, 3.5–3.9 μm; 14–16°C) were mounted in a double Vaseline-gap chamber and equilibrated with an external solution that contained tetraethyl ammonium– gluconate and an internal solution that contained Cs as the principal cation, 20 mM EGTA, and 0 Ca. Fibers were stimulated with a voltage-clamp pulse protocol that consisted of pulses to −70, −65, −60, −45, and −20 mV, each separated by 400-ms periods at −90 mV. The change in total Ca that entered into the myoplasm (Δ[Ca_T]) and the Ca content of the SR ([Ca_SR]) were estimated with the EGTA/phenol red method (Pape, P.C., D.-S. Jong, and W.K. Chandler. 1995. J. Gen. Physiol. 106:259–336). Fibers were stimulated with the pulse protocol, usually every 5 min, so that the resting value of [Ca_SR] decreased from its initial value of 1,700–2,300 μM to values near or below 100 μM after 18–30 stimulations. Three main findings for the voltage pulses to −70, −65, and −60 mV are: (a) the depletion-corrected rate of Ca release (release permeability) showed little change when [Ca_SR] decreased from its highest level (>1,700 μM) to ∼1,000 μM; (b) as [Ca_SR] decreased below 1,000 μM, the release permeability increased to a maximum level when [Ca_SR] was near 300 μM that was on average about sevenfold larger than the values observed for [Ca_SR] > 1,000 μM; and (c) as [Ca_SR] decreased from ∼300 μM to <100 μM, the release permeability decreased, reaching half its maximum value when [Ca_SR] was ∼110 μM on average. It was concluded that finding b was likely due to a decrease in Ca inactivation, while finding c was likely due to a decrease in Ca-induced Ca release.     

Phospholipase A2 from Trypanosoma brucei gambiense and Trypanosoma brucei brucei: Inhibition by Organotins

Activity and kinetics of phospholipase A₂ (PLA₂) from Trypanosoma brucei gambiense (Wellcome strain) and Trypanosoma brucei brucei (GUTat 3.1) were examined using two different fluorescent substrates. The activity in the supernatants of sonicated parasites was Ca²⁺-independent, strongly stimulated by Triton X-100 with optimum activity at 37°C and pH 6.5–8.5. To encourage a possible interaction between the parasite enzyme and organotin compounds, fatty acid derivatives of dibutyltin dichloride were synthesized and evaluated as potential inhibitors of PLA₂. The enzyme from the two-trypanosome species differ with respect to kinetic parameters and are noncompetitively inhibited by the organotin compounds. The Michaelis constant (K_M) for PLA₂ from T. b. brucei is 63.87 and 30.90 μM while for T. b. gambiense it is 119.64 and 32.90 μM for the substrates l,2-bis-(1-pyrenebutanoyl-sn-glycero-3-phosphocholine (PBGPC) and 2-(12-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino)dode-canoyl-1-hexadecanoyl-sn-glycero-3-phosphocholine (NBDC₁₂-HPC), respectively.     

Interfacial activation of porcine pancreatic phospholipase A(2) studied with 7-nitrobenz-2-oxa-1,3-diazol-4-yl-labeled lipids

The interfacial activation of porcine pancreatic phospholipase A(2) (PLA(2)) during the hydrolysis of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine liposomes at different temperatures has been monitored by fluorescence changes of the 7-nitrobenz-2-oxa-1,3-diazol-4-yl (NBD) lipid derivatives 1-palmitoyl-2-[6-[(7-nitro-2-1,3-benzoxadiazol-4-yl)amino]dodecanoyl]-sn-glycero-3-phosphocholine (C(12)-NBD-PC) and 12-[(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino)]dodecanoic acid (C(12)-NBD-FA) inserted in the substrate vesicles. These long-chain monitors, in contrast to the previously used C(6)-NBD-PC, detect latency times of PLA(2) action, similar to those measured by the classic titrimetric, pH-stat method. Interestingly, hydrolysis of the host vesicles results in a decrease in fluorescence not only of C(12)-NBD-PC, a substrate analog, but also of product derivative C(12)-NBD-FA. Ultrafiltration experiments show that C(12)-NBD-FA does not migrate to the aqueous phase upon hydrolysis of the host liposomes. Besides, in a simulated hydrolysis experiment in which increasing proportions of palmitic acid and 1-palmitoyl-sn-glycero-3-phosphocholine were cosonicated with 1,2-dipalmitoyl-sn-glycero-3-phosphocholine, C(12)-NBD-PC fluorescence was insensitive to products, whereas C(12)-NBD-FA did show a decreased emission intensity as in the actual hydrolysis experiments. The phenomenon is triggered above a critical concentration of products (10 mol%) suggesting that cosegregation of NBD-FA (either added as such or generated by hydrolysis of C(12)-NBD-PC) and products may be related to the decrease in fluorescence. Phase separation should create microdomains of increased C(12)-NBD-FA surface density and cause concentration quenching. In addition, and taking into account that the NBD group may be located near the interfacial region, it is possible that in segregating with products, the fluorescent moiety of C(12)-NBD-FA becomes exposed to microenvironments of higher surface polarity, which further decreases its quantum yield.     

Nonantibiotic Properties of Tetracyclines: Structural Basis for Inhibition of Secretory Phospholipase A2

Secretory phospholipase A₂ is involved in inflammatory processes and was previously shown to be inhibited by lipophilic tetracyclines such as minocycline (minoTc) and doxycycline. Lipophilic tetracyclines might be a new lead compound for the design of specific inhibitors of secretory phospholipase A₂, which play a crucial role in inflammatory processes. Our X-ray crystal structure analysis at 1.65 Å resolution of the minoTc complex of phospholipase A₂ (PLA₂) of the Indian cobra (Naja naja naja) is the first example of nonantibiotic tetracycline interactions with a protein. MinoTc interferes with the conformation of the active-site Ca²⁺-binding loop, preventing Ca²⁺ binding, and shields the active site from substrate entrance, resulting in inhibition of the enzyme. MinoTc binding to PLA₂ is dominated by hydrophobic interactions quite different from antibiotic recognition of tetracyclines by proteins or the ribosome. The affinity of minoTc for PLA₂ was determined by surface plasmon resonance, resulting in a dissociation constant K_d = 1.8 × 10^− 4 M.     

Mechanisms Underlying Leakage of Calcium from the Endoplasmic Reticulum of Acinar Cells of the Submandibular Salivary Gland

In the resting state, the Ca²⁺ concentration in agonist-sensitive intracellular stores reflects the balance between active uptake of Ca²⁺, which is mediated by Ca²⁺-ATPase (SERCA), and passive leakage of Ca²⁺. The mechanisms underlying such a leakage in cells of the submaxillary salivary gland were not studied. In our experiments, we examined possible pathways of passive leakage of Ca²⁺ from the endoplasmic reticulum (ER) of acinar cells obtained from the rat submaxillary salivary gland; direct measurements of the concentration of Ca²⁺ in the ER ([Ca²⁺]_ER) using a low-affinity calcium-sensitive dye, mag-fura 2/AM, were performed. The cellular membrane was permeabilized with the help of β-escin (40 μg/ml); the Ca²⁺ concentration in the cytoplasm ([Ca²⁺] _i ) was clamped at its level typical of the resting state (∼100 nM) using an EGTA/Ca²⁺ buffer. Incubation of permeabilized acinar cells in a calcium-free intracellular milieu, as well as application of thapsigargin, resulted in complete inhibition of the uptake of Ca²⁺ with the involvement of SERCA. This effect was observed 1 min after the beginning of superfusion of the cells with the corresponding solutions and was accompanied by the leakage of Ca²⁺ from the ER; this is confirmed by a gradual drop in the [Ca₂₊]_ER. Such a leakage of Ca²⁺ remained unchanged in the presence of thapsigargin, heparin, and ruthenium red; therefore, it is not mediated by SERCA, inositol 1,4,5-trisphosphate-sensitive receptors (InsP₃R), or ryanodine receptors (RyRs). At the same time, an antibiotic, puromycin (0.1 to 1.0 mM), which disconnects polypeptides from the ER-ribosome translocon complex, caused intensification of passive leakage of Ca²⁺ from the ER. This effect did not depend on the functioning of SERCA, InsP₃R, or RyR. Therefore, passive leakage of Ca²⁺ from the ER in acinar cells of the submaxillary salivary gland is realized through pores of the translocon complex of the ER membrane. Neirofiziologiya/Neurophysiology, Vol. 37, No. 4, pp. 339–346, July–August, 2005.     

Regulation of prostaglandin E2 production by the superoxide radical and nitric oxide in mouse peritoneal macrophages

The purpose of this study was to elucidate the role of NO and O^-₂ on enzymatic components of cyclooxygenase (COX) pathway in peritoneal macrophages. Activation of murine peritoneal macrophages by lipopolysaccharides (LPS) resulted in time-dependent production of nitric oxide (NO) and prostaglandin E₂ (PGE₂). This stimulation was also accompanied by the production of other reactive oxygen species such as superoxide (O^-₂), and by increased expression of COX-2. Our results provide evidence that O^-₂ may be involved in the pathways that result in arachidonate release and PGE₂ formation by COX-2 in murine peritoneal macrophages stimulated by LPS. However, we were not able to demonstrate that NO participates in the regulation of PG production under our experimental conditions.