Accumulation of Pb and Zn in Gametophytes and Sporophytes of the Moss Funaria hygrometrica(Funariales)

Accumulation of lead and zinc was studied in the moss Funariahygrometrica Hedw. collected from mine tailings. Heavy metalaccumulation in gametophytes and sporophytes was quantifiedby graphite furnace atomic absorption spectrometry (GFAAS) andinductively coupled plasma-atomic emission spectrometry (ICP-AES).Pb and Zn accumulation in the placental zone was analysed byx-ray scanning electron microscopy (SEM) and transmission electronmicroscopy (TEM) microanalysis. Spectrometry showed that whilemoss gametophytes accumulated considerable concentrations ofheavy metals, sporophytes accumulated only small concentrationsof metals. X-ray SEM and TEM showed that the two metals accumulatedin placental transfer cells on both the gametophytic and sporophyticsides. To investigate the uptake pattern for both metals undercontrolled conditions, F. hygrometrica plants collected froma non-polluted site were treated in the laboratory with separatesolutions of Pb and Zn at two concentrations (10^-2and 10^-4 M)for 24 or 168 h. Metal accumulation was analysed separatelyin gametophytes and sporophytes using GFAAS and ICP–AES.Each generation had a different accumulation quotient for bothmetals, and gametophytes accumulated significantly more metalthan sporophytes. Concentrations of Zn in sporophytes were alwayshigher than concentrations of Pb. The findings are discussedin relation to the role performed by the gametophyte and theplacenta in the accumulation and sequestration of Pb and Zn.Copyright 2001 Annals of Botany Company Atomic spectroscopy, Funaria hygrometrica, gametophyte, Pb and Zn accumulation, sporophyte, x-ray TEM and SEM microanalysis     

Effect of anoxia on the kinetic properties of pyruvate kinase and phosphofructokinase,and on glycogen phosphorylase activity in marine worms and earth worms

Summary The kinetic properties of PK and PFK were studied in aerobic versus 12-hours anoxic marine worms Hedistae(=Nereis) diversicolor and Diopatra neapolitana and earth worms Allolobophora calliginosa and Eisenia foetida. The total glycogen phosphorylase (a+b) activity and the percentage of active a form were also measured in the marine and earth worms under the same conditions. Anoxia exposure did not result in any significant changes of kinetic parameters of PK and total activities of glycogen phosphorylase from marine worms, but it altered the kinetic characteristics of PFK from H. diversicolor. Chromatographical studies showed that PK from both aerobic and anoxic marine worms is eluted from DEAE-cellulose as a single peak at 50 mM KCl. In contrast to marine worms, however, anoxia caused a marked change in kinetic properties of PK from both earth worms, resulting in a reduction of enzyme affinity for its substrate PEP. In addition, the enzyme existed in both earth worms in two distinct variants eluted from DEAE-cellulose column as peak I and peak II at 50 mM and 150 mM KCl, respectively. The ratio of enzyme units (peak I/peak II) was reduced significantly after 12 h of anoxia, indicating that these two peaks are interconvertible. Anoxia also caused a reduction of total glycogen phosphorylase activity in E. foetida and lowered the percentage of active a form of the enzyme by approximately 50% in both earth worms. Kinetic properties of PFK from both earth worms were not significantly affected by anoxia. However, their low Ka values for F-2,6-P₂ imply that this effector may play an important role in PFK control in earth worms under anoxia.Abbreviations F6P fructose-6-phosphate - FBP fructose-1,6-bisphosphate - F-2,6-P fructose-2,6-bisphosphate - PEP phosphoenoylpruvate - PFK 6-phosphofructo-1-kinase (E.C.2.7.1.11) - PK pyruvate kinase (E.C.2.7.1.40) - Pi inorganic phosphate - PMSF phenyl methylsulfonyl fluoride     

Striatal Met-Enkephalin and Substance P Levels Are Decreased in Mice Infected with the LP-BM5 Murine Leukemia Virus

Abstract: Mice infected with the LP-BM5 murine leukemia virus mixture develop severe immunosuppression and an encephalopathy characterized by spatial learning deficits. Twelve weeks after infection of C57BL/6J mice with LP-BM5, significant (50–60%) reductions in Met-enkephalin and substance P levels were observed in the striatum, whereas somatostatin levels were unchanged. In addition, a 39% decrease in hypothalamic substance P concentrations was observed, with no alteration in Met-enkephalin levels. The apparent selectivity of the decrease in neuropeptide concentrations indicates that a functional alteration of the primary striatal efferent neurons occurs in this infection, which may contribute to the impairment of spatial learning observed in these mice. Moreover, this decrease in striatal neuropeptide levels is similar to the neuropathological changes in basal ganglia observed in HIV-infected individuals and is consistent with previous studies suggesting that the LP-BM5-infected mouse may serve as a useful model of AIDS dementia.     

Chromatographic Evidence for the Presence of Multiple Tachykinins in the Bovine Adrenal Medulla

Among the mammalian tachykinins, substance P (SP) has been shown to be the most potent at modulating the response due to nicotinic acetylcholine receptor stimulation of bovine adrenal chromaffin cells. SP-like immunoreactivity has been detected in nerve terminals innervating the adrenal medulla; however, little is known of the presence of other tachykinins in this tissue. In this study, reverse-phase HPLC was used to fractionate peptides in bovine adrenal medullary extracts, and the fractions were analyzed by radioimmunoassay using antisera to SP or neurokinin A (NKA). The results show that both NKA- and SP-like immunoreactivities are present in the adrenal medulla. The presence of neurokinin B is also indicated. The presence of multiple tachykinins in this tissue raises questions as to their functions in the adrenal medulla.     

Differential exposure of components of cytochromeb−c 1 region in beef heart mitochondria and electron transport particles

The reduction of cyctochromesc +c ₁ by durohydroquinone and ferrocyanide in electron transport particles (ETP) and intact cytochromec-depleted beef heart mitochondria has been studied. At least 94% of the ETP are in an inverted orientation. Durohydroquinone reduces 80% ofc +c ₁ in ETP but less than 20% in mitochondria; sonication of mitochondria allows reduction of cytochromesc +c ₁ (80%). Addition of ferrocyanide (effective redox potential +245 mV) to electron transport particles results in 30% reduction of cytochromesc +c ₁. Addition of ferrocyanide to intact cytochromec-depleted mitochondria does not reduce cytochromec ₁; treatment withN,N,N,N-tetramethylphenylenediamine, Triton X-100, or sonic oscillation results in 30% reduction of cytochromesc +c ₁. TheK _m value of ferrocyanide oxidase for K-ferrocyanide is pH-dependent in ETP only, increasing with increasing pH. The extent of reduction of cytochromec ₁ is also pH-dependent in ETP only, the extent of reduction increasing with decreasing pH. On the basis of these data cytochromec ₁ is exposed to the matrix face and cytochromec is exposed to the cytoplasmic face. No redox center other than cytochromec in the segment between the antimycin site and cytochromec is exposed on the C-side.Abbreviations Used: MES, 2(N-morpholino)-ethanesulfonic acid; EDTA, ethylenediaminetetraacetic acid; TMPD,N,N,N,N-tetramethylphenylenediamine; ETP, electron transport particles; NAD-NADH, nicotinamide adenine dinucleotide; PMS, phenazine methosulfate.     

NF‐κB/NKILA signaling modulates the anti‐cancerous effects of EZH2 inhibition

A wealth of evidence supports the broad therapeutic potential of NF‐κB and EZH2 inhibitors as adjuvants for breast cancer treatment. We contribute to this knowledge by elucidating, for the first time, unique regulatory crosstalk between EZH2, NF‐κB and the NF‐κB interacting long non‐coding RNA (NKILA). We define a novel signaling loop encompassing canonical and non‐canonical actions of EZH2 on the regulation of NF‐κB/NKILA homeostasis, with relevance to breast cancer treatment. We applied a respective silencing approach in non‐transformed breast epithelial cells, triple negative MDA‐MB‐231 cells and hormone responsive MCF‐7 cells, and measured changes in EZH2/NF‐κB/NKILA levels to confirm their interdependence. We demonstrate cell line‐specific fluctuations in these factors that functionally contribute to epithelial‐to‐mesenchymal transition (EMT) remodelling and cell fate response. EZH2 inhibition attenuates MDA‐MB‐231 cell motility and CDK4‐mediated MCF‐7 cell cycle regulation, while inducing global H3K27 methylation and an EMT phenotype in non‐transformed cells. Notably, these events are mediated by a cell‐context dependent gain or loss of NKILA and NF‐κB. Depletion of NF‐κB in non‐transformed cells enhances their sensitivity to growth factor signaling and suggests a role for the host microenvironment milieu in regulating EZH2/NF‐κB/NKILA homeostasis. Taken together, this knowledge critically informs the delivery and assessment of EZH2 inhibitors in breast cancer.     

AMMONIUM ION-INDUCED CHANGES IN FORM AND HYDROXYPROLINE CONTENT OF WALL PROTEIN IN THE LIVERWORT,GYMNOCOLEA INFLATA

Ammonium ion induces phenovariation in Gymnocolea inflata (Huds.) Dum. (Lophoziaceae) similar in nature to that induced in representatives of four other families of leafy liverworts by antagonists of hydroxyproline-protein metabolism. That is, in the presence of ammonium ion, ventral leaves developed and the lateral leaf morphology and the branching pattern of the plants changed. These changes, which reflect altered patterns of morphogenesis, were correlated with statistically significant (P ≥ 0.01) differences in peptidyl-hydroxyproline between normal and NH₄⁺-induced phenovariant plants. The results support the hypothesis that cell wall-associated hydroxyproline-protein plays a morphoregulatory role and that any of a number of factors, genetic, epigenetic or environmental, that could alter the synthesis/distribution of this moiety could cause changes in form.     

Sequential Application of Ligand and Structure Based Modeling Approaches to Index Chemicals for Their hH4R Antagonism

The human histamine H₄ receptor (hH₄R), a member of the G-protein coupled receptors (GPCR) family, is an increasingly attractive drug target. It plays a key role in many cell pathways and many hH₄R ligands are studied for the treatment of several inflammatory, allergic and autoimmune disorders, as well as for analgesic activity. Due to the challenging difficulties in the experimental elucidation of hH₄R structure, virtual screening campaigns are normally run on homology based models. However, a wealth of information about the chemical properties of GPCR ligands has also accumulated over the last few years and an appropriate combination of these ligand-based knowledge with structure-based molecular modeling studies emerges as a promising strategy for computer-assisted drug design. Here, two chemoinformatics techniques, the Intelligent Learning Engine (ILE) and Iterative Stochastic Elimination (ISE) approach, were used to index chemicals for their hH₄R bioactivity. An application of the prediction model on external test set composed of more than 160 hH₄R antagonists picked from the chEMBL database gave enrichment factor of 16.4. A virtual high throughput screening on ZINC database was carried out, picking ∼4000 chemicals highly indexed as H₄R antagonists'' candidates. Next, a series of 3D models of hH₄R were generated by molecular modeling and molecular dynamics simulations performed in fully atomistic lipid membranes. The efficacy of the hH₄R 3D models in discrimination between actives and non-actives were checked and the 3D model with the best performance was chosen for further docking studies performed on the focused library. The output of these docking studies was a consensus library of 11 highly active scored drug candidates. Our findings suggest that a sequential combination of ligand-based chemoinformatics approaches with structure-based ones has the potential to improve the success rate in discovering new biologically active GPCR drugs and increase the enrichment factors in a synergistic manner.     

Seasonal variations of cellular stress response of the gilthead sea bream (Sparus aurata)

The present study aimed to investigate the seasonal cellular stress response in vital organs, like the heart, the liver, the whole blood and the skeletal (red and white) muscles of the Mediterranean fish Sparus aurata during a 1-year acclimatization period in the field, in two examined depths (0–2 m and 10–12 m). Processes studied included heat shock protein expression and protein kinase activation. Molecular responses were addressed through the expression of Hsp70 and Hsp90, the phosphorylation of stress-activated protein kinases and particularly p38 mitogen-activated protein kinase (p38 MAPK), the extracellular signal-regulated kinases (ERK-1/2) and c-Jun N-terminal kinases (JNK1/2/3). The induction of Hsp70 and Hsp90 and the phosphorylation of p38 MAPK, JNKs and ERKs in the examined five tissues of the gilthead sea bream indicated a cellular stress response under the prism of a seasonal pattern which was characterized by distinct tissue specificity. Specifically, Hsp induction and MAPK activation occurred before peak summer water temperatures, with no further increases in their levels despite increases in water temperatures. Moreover, although water temperature did not vary significantly with depth of immersion, significant effects of depth on cellular stress response were observed, probably caused by different light regime. The expression and the activation of these certain proteins can be used as tools to define the extreme thermal limits of the gilthead sea bream.