Superoxide dismutases and glutaredoxins have a distinct role in the response of Candida albicans to oxidative stress generated by the chemical compounds menadione and diamide

To cope with oxidative stress, Candida albicans possesses several enzymes involved in a number of biological processes, including superoxide dismutases (Sods) and glutaredoxins (Grxs). The resistance of C. albicans to reactive oxygen species is thought to act as a virulence factor. Genes such as SOD1 and GRX2, which encode for a Sod and Grx, respectively, in C. albicans are widely recognised to be important for pathogenesis. We generated a double mutant, Δgrx2/sod1, for both genes. This strain is very defective in hyphae formation and is susceptible to killing by neutrophils. When exposed to two compounds that generate reactive oxygen species, the double null mutant was susceptible to menadione and resistant to diamide. The reintegration of the SOD1 gene in the null mutant led to recovery in resistance to menadione, whereas reintegration of the GRX2 gene made the null mutant sensitive to diamide. Despite having two different roles in the responses to oxidative stress generated by chemical compounds, GRX2 and SOD1 are important for C. albicans pathogenesis because the double mutant Δgrx2/sod1 was very susceptible to neutrophil killing and was defective in hyphae formation in addition to having a lower virulence in an animal model of systemic infection.

Plant growth inhibitory activity of N, N´-di-(4-R-phenyl)-alkanediamides / Actividad inhibitoria de crecimiento de plantas de N, N’-di-(4-R-phenyl)-alcanodiamidas

Diamides are a class of metabolites that occurring in some Meliaceae plants, in Aglaia spp for example, with an ample body of biological activities, being insecticidal and herbicidal two of the most important. In our program of search for botanical pesticides, a series of N,N´-di-(4-R-phenyl)-alkanediamides was evaluated for its herbicidal activity. Many of the analogues tested exhibited moderate to good herbicidal activity both pre-emergence and post-emergence and have been found to inhibit energetic metabolism of pre-emergence weeds. The structure-activity relationships were probed by substitution on the benzene ring. Among the variations investigated, it was found that maximal herbicidal activity was obtained by substitution of –F, -CN and -Br at the aromatic portion and by n=2 of the aliphatic long chain. This last number of carbons (n=2) substitution was the key for the inhibitory activity.

Diamidas son una clase de metabolitos que estan presentes en plantas perteneciente a la familia de la Meliaceas, en Aglaia por ejemplo, poseen un amplio cuerpo de actividades biologicas, siendo la insecticida y la herbicida dos de las mas importantes. En nuestro programa para la busqueda de pesticidas botanicos, una serie de N,N’-di-(4-R-phenyl)-alkanodiamidas se evaluo para su actividad herbicida. Muchos de los analogos exhibieron desde buenas a moderadas actividades, tanto como pre-emergentes como post-emergentes y ademas se encontro que inhiben el metabolismo pre-emergente energetico de malezas. La relacion estructura-actividad fue probada por sustitución sobre al anillo aromatico. Entre las variaciones investigadas, se encontro que la maxima actividad herbicida se obtuvo por sustitución de F, CN y Br en la porcion aromatica y por n=2 del largo de la cadena alifatica. Este ultimo numero de carbonos de sustitución (n=2) fue clave para la actividad inhibitoria.

Expression of macrophage inflammatory protein 1 alpha in the endothelial cells exposed to diamide / 华中科技大学学报（医学）（英德文版）

In order to study whether the endothelial cells (ECs) with lipid peroxidation induced by diamide can express and secrete macrophage inflammatory protein 1 alpha (MIP-1 alpha), the expression of MIP-1 alpha protein in the cells was detected by cell enzyme-linked immunosorbent assay (ELISA) and that of MIP-1 alpha mRNA was determined by cell in situ hybridization and nuclease S1 protection assay after the ECs were exposed to different concentrations of diamide for 4 h. The chemotactic activity of MIP-1 alpha was tested by micropore filter method using modified Boyden chambers. Cell ELISA showed that the expression of MIP-1 alpha protein in endothelial cells exposed to 1 mumol/L, 5 mumol/L and 10 mumol/L diamide was 1.9-fold, 2.3-fold and 1.7-fold respectively as much as that in the control cells, which was statistically significant by analysis of variance. In situ hybridization revealed that the mRNA expression of ECs treated with 1 mumol/L, 5 mumol/L and 10 mumol/L diamide was 1.3-fold, 3.0-fold and 1.7-fold as much as that in the control group, which had statistical significance (F = 188.93, P < 0.01). The mRNA expression in 5 mumol/L dimide treated ECs, measured by nuclease S1 protection assay, was 3.4-fold as much as that in the control group (t = 8.70, P < 0.05). Chemotactic response(99.50 +/- 4.31 microns) to the culture medium conditioned by 5 mumol/L diamide treated ECs, which was stronger than that(66.47 +/- 3.25 microns) conditioned by the ECs (F = 404.31, P < 0.05), was significantly decreased (F = 192.25, P < 0.05) after adding MIP-1 alpha antibody. It suggests that diamide, a lipid peroxidation inducer, could stimulate ECs to produce high level of MIP-1 alpha, and might play an important role in atherogenesis by promoting the migration of peripheral blood monocytes into arterial intima.

Dual effect of oxidative stress on NF-kappaB activation in HeLa cells

Reactive oxygen species (ROS) has been implicated as an inducer of NF-kappaB activity in numbers of cell types where exposure of cells to ROS such as H2O2 leads to NF-kappaB activation. In contrast, exposure to oxidative stress in certain cell types induced reduction of tumor necrosis factor (TNF)-induced NF-kappaB activation. And various thiol-modifying agents including gold compounds and cyclopentenone prostaglandins inhibit NF-kappaB activation by blocking IkappaB kinase (IKK). To understand such conflicting effect of oxidative stress on NF-kappaB activation, HeLa cells were incubated with H2O2 or diamide and TNF-induced expression of NF-kappaB reporter gene was measured. NF-kappaB activation was significantly blocked by these oxidizing agents, and the inhibition was accompanied with reduced nuclear NF-kappaB and inappropriate cytosolic IkappaB degradation. H2O2 and diamide also inhibited IKK activation in HeLa and RAW 264.7 cells stimulated with TNF and lipopolysaccharide, respectively, and directly blocked IKK activity in vitro. In cells treated with H2O2 alone, nuclear NF-kappaB was induced after 2 h without detectible degradation of cytosolic IkBa or activation of IKK. Our results suggest that ROS has a dual effect on NF-kappaB activation in the same HeLa cells: it inhibits acute IKK-mediated NF-kappaB activation induced by inflammatory signals, while longer-term exposure to ROS induces NF-kappaB activity through an IKK-independent pathway.

Effect of chloride and diamide on angiotensin converting enzyme from sheep testis and epididymis.

Effect of chloride and diamide on testicular and epididymal angiotensin converting enzyme (ACE) activity was investigated using Hip-His-Leu as substrate in sheep. The chloride ions functioned as ACE activators, however, there was no linear correlation between the two. The optimum chloride concentrations were 500 mM for epididymal ACE and 900-1100 mM for testicular ACE. Further, optimum chloride concentration increased ACE activity of testis and epididymis 25.40- folds and 12.84- folds respectively of the activities at physiological chloride concentration. The differences found in the effect of chloride on testicular and epididymal ACE activity suggest dissimilar three dimensional structure of ACE in these tissues. Increased testicular and epididymal ACE activity on diamide pretreatment indicates that tissue oxidation may affect ACE activity.

Membrane skeletal protein structure and interactions in human erythrocytes after their treatment with diamide and calcium.

To analyse the role of native structures of membrane proteins in their structural modifications induced by the elevated intracellular free Ca2+ levels, we have studied the Ca(2+)-mediated effects on membrane skeletal proteins in human erythrocytes that were loaded with Ca2+ using the ionophore A23187 after their pretreatment with the sulphydryl oxidizing agent, diamide. The diamide treatment not only induced polymerization of the major membrane skeletal protein, spectrin, in the erythrocytes, but it also promoted intersubunit crosslinking within the tetramers and dimers of this protein. Loading of these diamide-treated cells with Ca2+ failed to induce significant structural modifications of spectrin as well as polypeptide 4.1, another major membrane skeletal protein, as compared to the erythrocytes that were loaded with Ca2+ without the diamide pretreatment. These results have been interpreted to suggest that the Ca(2+)-induced membrane skeletal protein changes in erythrocytes depend on both the shape and relative orientation of these proteins within the membrane skeleton.