Kinetic and spectroscopic probes of motions and catalysis in the cytochrome P450 reductase family of enzymes

There is a mounting body of evidence to suggest that enzyme motions are linked to function, although the design of informative experiments aiming to evaluate how this motion facilitates reaction chemistry is challenging. For the family of diflavin reductase enzymes, typified by cytochrome P450 reductase, accumulating evidence suggests that electron transfer is somehow coupled to large-scale conformational change and that protein motions gate the electron transfer chemistry. These ideas have emerged from a variety of experimental approaches, including structural biology methods (i.e. X-ray crystallography, electron paramagnetic/NMR spectroscopies and solution X-ray scattering) and advanced spectroscopic techniques that have employed the use of variable pressure kinetic methodologies, together with solvent perturbation studies (i.e. ionic strength, deuteration and viscosity). Here, we offer a personal perspective on the importance of motions to electron transfer in the cytochrome P450 reductase family of enzymes, drawing on the detailed insight that can be obtained by combining these multiple structural and biophysical approaches.     

The H-2 dm1 mutation and Qa antigens

The effect of the H-2dm1 mutation on Qa-m2 expression was examined. The mutant strain B10.D2-H-2dm1 showed a fourfold increase in Qa-m2 expression when compared with the parental strain B10.D2. Qa-m2 molecules immunoprecipitated from B10.D2-H-2dm1, C57BL/10, and B10.D2 spleen cells were identical by two-dimensional (2-D) gel electrophoresis [isoelectric focusing (IEF) followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE]). It is likely therefore that the increased Qa-m2 expression is not due to gross structural alterations of the Qa-m2 molecule; in the present study, alternative explanations are discussed.     

Kupffer cell cytokines interleukin-1beta and interleukin-10 combine to inhibit phosphoenolpyruvate carboxykinase and gluconeogenesis in cultured hepatocytes

BACKGROUND AND AIMS: Recent evidence suggests that inflammatory cytokines may mediate reduced hepatic glucose production and reduced blood glucose concentrations in sepsis. Therefore the aim of this study is to provide direct evidence of a cytokine-mediated interaction between Kupffer cells and hepatocytes by characterising the effects of lipopolysaccharide-stimulated Kupffer cells on hepatocyte gluconeogenesis, and the activity of key regulatory enzymes of this pathway. METHODS AND RESULTS: Primary isolates of hepatocytes co-cultured with lipopolysaccharide-stimulated Kupffer cells in Transwell inserts showed a 48% inhibition of gluconeogenesis (P < 0.001). RNase protection assay and ELISA of Kupffer cells and the culture media following exposure to lipopolysaccharide showed increased levels of interleukin-1 alpha and beta, tumour necrosis factor alpha and IL-10. The addition of IL-1beta and IL-10 to hepatocyte cultures inhibited gluconeogenesis by 52% (P < 0.001), whereas each cytokine alone was ineffective. To determine whether altered production or activity of phosphoenolpyruvate carboxykinase or pyruvate kinase was responsible for the reduced glucose synthesis, their mRNA, protein levels and enzyme activities were measured. Primary hepatocytes co-cultured with lipopolysaccharide-stimulated Kupffer cells or cultured with a combination of IL-1beta and IL-10 displayed reduced levels of phosphoenolpyruvate carboxykinase mRNA, protein and enzyme activity. In contrast the mRNA, protein levels and enzyme activity of pyruvate kinase were not altered; suggesting that gluconeogenesis was suppressed by downregulation of phosphoenolpyruvate carboxykinase. CONCLUSIONS: Therefore, hypoglycaemia, which is often observed in sepsis, may be mediated by Kupffer cell-derived IL-1beta and IL-10. In addition this study suggests these cytokines inhibit phosphoenolpyruvate carboxykinase production and thereby hepatic gluconeogenesis.     

Oxidative stress causes a decline in lysosomal integrity during hypothermic incubation of rat hepatocytes

Oxidative stress during cold preservation has been identified as a significant cause of cell injury but the process by which injury occurs is poorly understood. We examined loss of lysosomal integrity as a possible cause of cell injury during extended cold storage of isolated rat hepatocytes. After 21 h of hypothermia, there was a marked decline in lysosomal integrity, which was correlated with an increase in lipid peroxidation. When lipid peroxidation was prevented with the antioxidant Trolox (a vitamin E analog) or the iron chelator desferrioxamine, lysosomal integrity was preserved. In contrast, increasing lysosomal iron with ferric chloride caused an increase in lipid peroxidation and decreased lysosomal integrity. Loss of lysosomal integrity during cold preservation in this experimental model was consistent with iron-initiated oxidative stress. The progressive loss of lysosomal integrity during hypothermic incubation has the potential to affect liver function after transplantation.     

1,25-Dihydroxyvitamin D3 modulates the effects of interleukin 2 independent of IL-2 receptor binding

Previous studies have shown that 1,25-dihydroxyvitamin D3 (calcitriol) is a macrophage-derived cytokine and a potent inhibitor of IL-2 and interferon-gamma (IFN-gamma) production and T lymphocyte proliferation. The growth inhibitory effect of calcitriol is only partially reversed by IL-2 addition, suggesting IL-2 independent effects. In this report we characterize the IL-2-independent effects of calcitriol on lymphocyte activation. Calcitriol inhibited cellular transition from early to late G1 (G1A-G1B transition) in both the absence and presence of IL-2. Exogenous IL-2 did not increase either IFN-gamma production or transferrin receptor (TfR) expression in the presence of calcitriol despite increases in cell entry into late G1 and proliferation. Calcitriol treatment reduced TfR expression by activated T lymphocytes independent of their location in the cell cycle, further suggesting its independence from IL-2-mediated events. Combinations of rIL-2 and rIL-4 did not reverse calcitriol-dependent inhibition of proliferation and TfR expression to any greater degree than rIL-2 alone. Northern blot analysis demonstrated the decrease in IFN-gamma and TfR mRNA accumulation with calcitriol treatment was unaffected by exogenous IL-2. In contrast, IL-2R mRNA and protein were increased by IL-2, with superinduction in the presence of calcitriol, demonstrating that the lack of effect on IFN-gamma and TfR was not due to IL-2 insensitivity. Moreover, equivalent numbers of high-affinity IL-2R were expressed by both control and calcitriol-treated T lymphoblasts. Thus, lectin-activated T lymphocyte responsiveness to IL-2, as measured by IL-2R expression and proliferation, can be partly to completely dissociated from IFN-gamma production and TfR expression in the presence of calcitriol. Finally, IL-2-induced proliferation of unstimulated mononuclear cells and purified T lymphocytes was inhibited by calcitriol. These data indicate that local production of calcitriol by activated macrophages is capable of regulating T lymphocyte activation not only through suppression of IL-2 production, but also through additional mechanism(s), that are mediated at a post-IL-2R level.     

Morphological correlates of follicular fluid stimulation of steroidogenesis in immature porcine granulosa cells

Factors in porcine ovarian follicular fluid are known to influence steroidogenesis in cultured ovarian granulosa cells. This study examined whether ultrastructural changes characteristic of normal maturation and/or atresia accompany the steroidogenic alterations. Two and 5 day incubations of immature porcine granulosa cells were performed in media supplemented with either serum or follicular fluids (FFL) from mature follicles. Under these conditions both oestrogen and progesterone secretion were stimulated in FFL supplemented cultures as compared to serum supplemented cultures. Cells in serum exhibited increased size, number and volume of lysosomes and resembled in vivo atretic cells. In comparison, the FFL treated cells had greatly increased steroid output, numerous microvilli and increased size, number and volume of electron dense lipid droplets after 2 days of culture although the differences declined by day 5 of culture. This suggests that mature FFL contains a factor(s) stimulating granulosa maturation while inhibiting ultrastructural correlates of follicular atresia.