Antidiuretic and thermogenic effects of intracerebroventricular prostaglandin H2 in ethanol-anaesthetized rats

Summary When PGH₂ was administered intracerebroventricularly at doses of 5 and 15 nmoles in ethanol-anaesthetized rats, alcohol diuresis was inhibited and rectal temperature, blood pressure and heart rate were all significantly increased.     

Binding of aflatoxins B1 and G1 to human serum proteins

Zusammenfassung In vitro Experimente mit¹⁴C-markiertem, gereinigtem Aflatoxin zur Untersuchung der Bindung von Aflatoxin B₁ und G₁ an verschiedene Serumproteine ergaben, dass Aflatoxin B₁ hauptsächlich mit-Globulin, G₁ dagegen vorwiegend mit Albumin bindet.

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This work was supported by part by a grant from the China Medical Board of New York, Inc., and was performed during one of us (S.S.L.) received a class C. research award from the National Science Council, Republic of China.     

Novel role of cPLA2α in membrane and actin dynamics

Actin-directed processes such as membrane ruffling and cell migration are regulated by specific signal transduction pathways that become activated by growth factor receptors. The same signaling pathways that lead to modifications in actin dynamics also activate cPLA₂α. Moreover, arachidonic acid, the product of cPLA₂α activity, is involved in regulation of actin dynamics. Therefore, it was investigated whether cPLA₂α plays a role in actin dynamics, more specifically during growth factor-induced membrane ruffling and cell migration. Upon stimulation of ruffling and cell migration by growth factors, endogenous cPLA₂α and its active phosphorylated form were shown to relocate at protrusions of the cell membrane involved in actin and membrane dynamics. Inhibition of cPLA₂α activity with specific inhibitors blocked growth factor-induced membrane and actin dynamics, suggesting an important role for cPLA₂α in these processes.     

The selective BH4-domain biology of Bcl-2-family members: IP3Rs and beyond

Anti-apoptotic Bcl-2-family members not only neutralize pro-apoptotic proteins but also directly regulate intracellular Ca²⁺ signaling from the endoplasmic reticulum (ER), critically controlling cellular health, survival, and death initiation. Furthermore, distinct Bcl-2-family members may selectively regulate inositol 1,4,5-trisphosphate receptor (IP₃R): Bcl-2 likely acts as an endogenous inhibitor of the IP₃R, preventing pro-apoptotic Ca²⁺ transients, while Bcl-X_L likely acts as an endogenous IP₃R-sensitizing protein promoting pro-survival Ca²⁺ oscillations. Furthermore, distinct functional domains in Bcl-2 and Bcl-X_L may underlie the divergence in IP₃R regulation. The Bcl-2 homology (BH) 4 domain, which targets the central modulatory domain of the IP₃R, is likely to be Bcl-2’s determining factor. In contrast, the hydrophobic cleft targets the C-terminal Ca²⁺-channel tail and might be more crucial for Bcl-X_L’s function. Furthermore, one amino acid critically different in the sequence of Bcl-2’s and Bcl-X_L’s BH4 domains underpins their selective effect on Ca²⁺ signaling and distinct biological properties of Bcl-2 versus Bcl-X_L. This difference is evolutionary conserved across five classes of vertebrates and may represent a fundamental divergence in their biological function. Moreover, these insights open novel avenues to selectively suppress malignant Bcl-2 function in cancer cells by targeting its BH4 domain, while maintaining essential Bcl-X_L functions in normal cells. Thus, IP₃R-derived molecules that mimic the BH4 domain’s binding site on the IP₃R may function synergistically with BH3-mimetic molecules selectivity suppressing Bcl-2’s proto-oncogenic activity. Finally, a more general role for the BH4 domain on IP₃Rs, rather than solely anti-apoptotic, may not be excluded as part of a complex network of molecular interactions.     

Endogenous gibberellins and amylase activity in tall and dwarf strains of rice (Oryza sativa)

Summary 2 tall and 7 dwarf strains of rice were sprayed with 0 or 40 g ml^–1 GA₃, 4 dwarf strains responded to exogenous GA₃, and showed a markedly lower endogenous gibberellin content than the tall strains, while 2 dwarf strains did not respond to GA₃ application and had considerably higher endogenous gibberellin levels than the tall ones. Amylase activity in germinating seeds showed a significant negative correlation with the endogenous gibberellin content.     

Influence of environmental conditions on the amount of N2O released from activated sludge in a domestic waste water treatment plant

Waste water purification is characterized by intensive mineralization and nitrification processes. Because of the high O₂ demand, temporarily anaerobic conditions may be produced, and denitrification by nitrifying organisms as well as heterotropic denitrification may contribute to N₂O release. In situ measurements (1993–1994) suggest that N₂O is released from activated sludge in a domestic waste water treatment plant at an average rate of 1040 g m^–2h^–1 with a range between zero and 6198 g m^–2h^–1. The production of N₂O seems to be related to the concentration of NO ₂ ^– and NO ₃ ^– as well as to the pH. In the waste water about 75–200 g N₂O l^–1 is dissolved. This N₂O is released after discharge into the receiving waters. The N₂O is produced essentially by nitrification rather than by heterotropic denitrification. On a long-term scale the increasing use of mechanical-biological waste water purification plants world-wide may add increasingly to the anthropogenic production of N₂O, although the present amount of N₂O produced is negligible compared to its global terrestrial production.     

Serum and bile modifications in the guinea-pig following chronic treatment with PGE1 and PGE2

Summary PGE₁ increases cholesterolemia without lipemia modifications. In bile there are not modifications in cholesterol levels and total lipids appear diminished. PGE₂ raise the lipemia and have no effect in cholesterolemia, moreover bile cholesterol and total lipids exhibit no changes. Both PGE₁ and PGE₂ decreased the bile volume.Acknowledgment. The authors wish to express their thanks to the Upjohn Laboratory for kindly furnishing the prostaglandins employed, with the relevant bibliography, and to Mr.F. A. Mori for the English translation.     

Alterations in the fraction of oxygen in inspired gas affect rates of renal prostaglandin E2 synthesis in anesthetized dogs

Summary Reductions of oxygen in inspired gas from 20% to 15%, in anesthetized dogs, reduced arterial PO₂ and increased the renal efflux of PGE₂ but not PGF_2a . Renal blood flow, blood pressure, plasma renin activity as well as arterial pH and PCO₂ were unaffected. PGs may mediate the renal hemodynamic or excretory consequences of alterations in PO₂. In addition, minor variations in PO₂ might account, in part, for the variable renal venous PGE₂ concentrations reported under basal conditions.Authentic prostaglandins were supplied by Dr John E. Pike of the Upjohn Company. This work was supported by grants from the Veterans Administration, the Southern Medical Association and U.S. Public Health Service. Dr. Brash is an American Heart Association, Missouri Affiliate Fellow.     

Structural features underlying the selectivity of the kinase inhibitors NBC and dNBC: role of a nitro group that discriminates between CK2 and DYRK1A

8-hydroxy-4-methyl-9-nitrobenzo(g)chromen-2-one (NBC) has been found to be a fairly potent ATP site-directed inhibitor of protein kinase CK2 (Ki = 0.22 μM). Here, we show that NBC also inhibits PIM kinases, especially PIM1 and PIM3, the latter as potently as CK2. Upon removal of the nitro group, to give 8-hydroxy-4-methyl-benzo(g)chromen-2-one (here referred to as “denitro NBC”, dNBC), the inhibitory power toward CK2 is almost entirely lost (IC₅₀ > 30 μM) whereas that toward PIM1 and PIM3 is maintained; in addition, dNBC is a potent inhibitor of a number of other kinases that are weakly inhibited or unaffected by NBC, with special reference to DYRK1A whose IC₅₀ values with NBC and dNBC are 15 and 0.60 μM, respectively. Therefore, the observation that NBC, unlike dNBC, is a potent inducer of apoptosis is consistent with the notion that this effect is mediated by inhibition of endogenous CK2. The structural features underlying NBC selectivity have been revealed by inspecting its 3D structure in complex with the catalytic subunit of Z. mays CK2. The crucial role of the nitro group is exerted both through a direct electrostatic interaction with the side chain of Lys68 and, indirectly, by enhancing the acidic dissociation constant of the adjacent hydroxyl group which interacts with a conserved water molecule in the deepest part of the cavity. By contrast, the very same nitro group is deleterious for the binding to the active site of DYRK1A, as disclosed by molecular docking. This provides the rationale for preferential inhibition of DYRK1A by dNBC.     

Einfluss einiger lipophiler Lösungsmittel in gasförmigem Zustand auf die CO2-fixierung durch Luzerne

Summary Vapourized organic solvents such as: diethyl ether, methylene chloride, carbon disulfide, benzene, and n-octane have an inhibiting effect on CO₂ fixation in alfalfa leaves (Medicago sativa). One exception is CS₂ which stimulates overall fixation up to 10 vol%. Beyond 10 vol% it inhibits overall CO₂ fixation like the other solvents, but stimulates the formation ofl-alanine as the major remaining fixation product. Proportionality exists between water insolubility of the organic solvents and their inhibiting effect on CO₂ fixation.     

Asphyxie-Schutz durch Schweres Wasser (D2O)

Summary In rats a 25% D₂O content of total body water was found to prolong survival time and the period of revivability in asphyxia by a better maintenance of cardiovascular function and gasp activity.

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Herrn Prof. Dr. W. Isselhard zum 50. Geburtstag gewidmet.     

Natriuretic peptide hormones promote radial water movements from the xylem of Tradescantia shoots

Immunological evidence suggests that plants, like vertebrates, contain natriuretic peptides (NPs) and that rat atrial NP (rANP) binds specifically to plant membranes and promotes concentration and conformation-dependent stomatal opening. Stomatal opening and specific increases in cGMP levels were also observed in response to immunoreactive plant NP (irPNP). Here we report that both 1 μM rANP and irPNP (100 ng total protein/100 μL) significantly increase radial water movements out of the xylem of shoots of Tradescantia multiflora. Enhanced radial water movements are also observed in response to the cell permeant cGMP analogue 8-Br-cGMP (100 nM). The water channel inhibitor mercuric chloride (HgCl₂) significantly inhibits radial water movements at concentrations of 50 μM, while the presence of 10 μM 2-hydroxyethylmercaptoethanol (ME) prevents the inhibitory effect of the mercurial. The guanylate cyclase inhibitor LY 83583 at a concentration of 20 μM and sodium azide (NaN₃) at concentrations of ≥ 1 μM both also reduce radial water movements. We therefore conclude that the regulation of radial water movement out of the xylem involves modulation of cGMP levels, water channels and respiration-dependent processes. In addition, we propose that NPs have a critical role to play in radial water movements out of the xylem and speculate that as in vertebrates, NP effects might, at least in part, be mediated via the regulation of guanylate cyclases and water channels. Received 15 June 1998; received after revision 7 August 1998; accepted 26 August 1998     

Blocking of melatonin synthesis and MT1 receptor impairs the activation of Jurkat T cells

Melatonin has been proposed as regulating the immune system by affecting cytokine production in immunocompetent cells, enhancing the production of several T helper (Th)1 cytokines. To further investigate the melatonin’s role in IL-2/IL-2R system, we established an inducible T-REx expression system in Jurkat cells in which the protein levels of HIOMT enzyme or MT₁ receptor were significantly down-regulated upon tetracycline incubation. We found that T-REx Jurkat cells with lower levels of HIOMT activity, and consequently lower content of endogenous melatonin, showed IL-2 production decrease after activation with lectin. Likewise, tetracycline-inducible stable cell line expressing MT₁ antisense produced decreased amounts of IL-2 (mRNA and protein levels) after stimulation. Moreover, in T-Rex-MT₁ cells incubated with tetracycline, a sub-optimal PHA dose failed to induce the early activation marker CD25 on the cell surface. The results shown here support the relevance of endogenous melatonin and its signaling in T cell activation.     

Autophagic activity in cortical neurons under acute oxidative stress directly contributes to cell death

Primary neurons undergo insult-dependent programmed cell death. We examined autophagy as a process contributing to cell death in cortical neurons after treatment with either hydrogen peroxide (H₂O₂) or staurosporine. Although caspase-9 activation and cleavage of procaspase-3 were significant following staurosporine treatment, neither was observed following H₂O₂ treatment, indicating a non-apoptotic death. Autophagic activity increased rapidly with H₂O₂, but slowly with staurosporine, as quantified by processing of endogenous LC3. Autophagic induction by both stressors increased the abundance of fluorescent puncta formed by GFP-LC3, which could be blocked by 3-methyladenine. Significantly, such inhibition of autophagy blocked cell death induced by H₂O₂ but not staurosporine. Suppression of Atg7 inhibited cell death by H₂O₂, but not staurosporine, whereas suppression of Beclin 1 prevented cell death by both treatments, suggesting it has a complex role regulating both apoptosis and autophagy. We conclude that autophagic mechanisms are activated in an insult-dependent manner and that H₂O₂ induces autophagic cell death.     

Nature of the FeO2 bonding in myoglobin: An overview from physical to clinical biochemistry

Summary The iron(II)-dioxygen bond in myoglobin and hemoglobin is a subject of wide interest. Studieas range from examinations of physical-chemical properties dependent on electronic structure, to investigations of stability as a function of oxygen supply. Stability properties are of particular importance in vivo, since the oxygenated form is known to be oxidized easily to the ferric form, which cannot be oxygenated and is therefore physiologically inactive.Kinetic and thermodynamic studies of the stability of native oxymyoglobin have revealed a new feature in FeO₂ bonding. In vivo. the iron center is always subject to a nucleophilic attack of the water molecule or hydroxyl ion, which can enter the heme pocket from the surrounding solvent, and thereby irreversibly displace the bound dioxygen from MbO₂ in the form of O ₂ ^– so that the iron is converted to the ferric form. A free energy diagram for the potential reactions of FeO₂ visualizes myoglobin as a molecular structure that can provide in solution the delicate balance of kinetic and thermodynamic factors necessary to stabilize reversible oxygenation, as opposed to irreversible autoxidation to metmyoglobin.     

Specificity in the hydrolysis of N-acyl-L-phenylalanine 4-nitroanilides by chymotrypsin

Summary The affinity of N-acyl-L-phenylalanine 4-nitroanilides for chymotrypsin is enhanced as the hydrophobicity of non-amino acid residues in the P₂-position of the substrates increases, whereas k_cat remains nearly constant. On the other hand, if alanine or leucine is in the P₂-position k_cat increases with decreasing K_M.     

Protease-activated-receptor-2 affects protease-activated-receptor-1-driven breast cancer

Mammalian protease-activated-receptor-1 and -2 (PAR₁ and PAR₂) are activated by proteases found in the flexible microenvironment of a tumor and play a central role in breast cancer. We propose in the present study that PAR₁ and PAR₂ act together as a functional unit during malignant and physiological invasion processes. This notion is supported by assessing pro-tumor functions in the presence of short hairpin; shRNA knocked-down hPar2 or by the use of a truncated PAR₂ devoid of the entire cytoplasmic tail. Silencing of hPar2 by shRNA-attenuated thrombin induced PAR₁ signaling as recapitulated by inhibiting the assembly of Etk/Bmx or Akt onto PAR₁-C-tail, by thrombin-instigated colony formation and invasion. Strikingly, shRNA-hPar2 also inhibited the TFLLRN selective PAR₁ pro-tumor functions. In addition, while evaluating the physiological invasion process of placenta extravillous trophoblast (EVT) organ culture, we observed inhibition of both thrombin or the selective PAR₁ ligand; TFLLRNPNDK induced EVT invasion by shRNA-hPar2 but not by scrambled shRNA-hPar2. In parallel, when a truncated PAR₂ was utilized in a xenograft mouse model, it inhibited PAR₁–PAR₂-driven tumor growth in vivo. Similarly, it also attenuated the interaction of Etk/Bmx with the PAR₁-C-tail in vitro and decreased markedly selective PAR₁-induced Matrigel invasion. Confocal images demonstrated co-localization of PAR₁ and PAR₂ in HEK293T cells over-expressing YFP-hPar2 and HA-hPar1. Co-immuno-precipitation analyses revealed PAR₁-PAR₂ complex formation but no PAR₁-CXCR4 complex was formed. Taken together, our observations show that PAR₁ and PAR₂ act as a functional unit in tumor development and placenta-uterus interactions. This conclusion may have significant consequences on future breast cancer therapeutic modalities and improved late pregnancy outcome.     

P2X4 and P2X6 receptors associate with VE-cadherin in human endothelial cells

We investigated the expression of P2X₄ and P2X₆ receptors on human umbilical vein endothelial cells (HUVECs) and found that both P2X receptor subtypes on plasma membranes are largely restricted to areas of cell-cell contact. Co-labelling experiments at the confocal and electron microscopy levels revealed that P2X₄ and P2X₆ receptors are strongly co-localised with the cell adhesion molecule VE-cadherin. The P2X₄ and P2X₆ receptors on plasma membranes at cellular junctions are rapidly (within 5 min) internalised specifically after decreasing extracellular [Ca²⁺]. Disruption of microfilaments, microtubules and integrin-mediated adhesion or stimulation of P2 receptors with ATP did not alter P2X₄ and P2X₆ receptor expression on HUVEC plasma membranes. Membraneous P2X₄ and P2X₆ receptors resisted extraction with Triton-X 100, whereas cytoplasmic P2X receptors were Triton-X 100 soluble. P2X₄ receptors, but not P2X₆ receptors, could be co-immunoprecipitated with VE-cadherin and vice versa. We conclude that P2X₄ and P2X₆ receptors are associated with VE-cadherin at HUVEC adherens junctions. Received 15 March 2002; revised 15 March 2002; accepted 19 March 2002     

Chronic hydrogen peroxide intake and peroxide metabolizing enzyme activities in some tissues of mice and rats

Summary Chronic daily intake of 0.5% H₂O₂ in drinking water decreased Se-dependent glutathione peroxidase (Se-GSHPx) activity in rat skeletal muscle, kidney and liver. Non-Se GSHPx activity decreased in kidney. Deprivation of drinking water decreased Se-GSHPx activity in kidney and non-Se GSHPx activity in kidney and liver. H₂O₂ intake decreased activity of catalase in rat skeletal muscle. H₂O₂ intake or water deprivation caused no changes in these enzyme activities in mice.     

Tyrosine phosphatase activity in mitochondria: presence of Shp-2 phosphatase in mitochondria

Tyrosine phosphorylation by unidentified enzymes has been observed in mitochondria, with recent evidence indicating that non-receptorial tyrosine kinases belonging to the Src family, which represent key players in several transduction pathways, are constitutively present in mitochondria. The extent of protein phosphorylation reflects a coordination balance between the activities of specific kinases and phophatases. The present study demonstrates that purified rat brain mitochondria possess endogenous tyrosine phosphatase activity. Mitochondrial phosphatases were found to be capable of dephosphorylating different exogenous substrates, including paranitrophenylphosphate, ³²P-poly(Glu-Tyr)_4:1 and ³²P-angiotensin. These activities are strongly inhibited by peroxovanadate, a well-known inhibitor of tyrosine phosphatases, but not by inhibitors of alkali or Ser/Thr phosphatases, and mainly take place in the intermembrane space and outer mitochondrial membrane. Using a combination of approaches, we identified the tyrosine phosphatase Shp-2 in mitochondria. Shp-2 plays a crucial role in a number of intracellular signalling cascades and is probably involved in several human diseases. It thus represents the first tyrosine phosphatase shown to be present in mitochondria.Received 17 May 2004; received after revision 20 July 2004; accepted 26 July 2004