Defective utilization of haem in selenium-deficient rat liver

An entropic associative memory

Natural memories are associative, declarative and distributed, and memory retrieval is a constructive operation. In addition, cues of objects that are not contained in the memory are rejected directly. Symbolic computing memories resemble natural memories in their declarative character, and information can be stored and recovered explicitly; however, they are reproductive rather than constructive, and lack the associative and distributed properties. Sub-symbolic memories developed within the connectionist or artificial neural networks paradigm are associative and distributed, but lack the declarative property, the capability of rejecting objects that are not included in the memory, and memory retrieval is also reproductive. In this paper we present a memory model that sustains the five properties of natural memories. We use Relational-Indeterminate Computing to model associative memory registers that hold distributed representations of individual objects. This mode of computing has an intrinsic computing entropy which measures the indeterminacy of representations. This parameter determines the operational characteristics of the memory. Associative registers are embedded in an architecture that maps concrete images expressed in modality specific buffers into abstract representations and vice versa. The framework has been used to model a visual memory holding the representations of hand-written digits. The system has been tested with a set of memory recognition and retrieval experiments with complete and severely occluded images. The results show that there is a range of entropy values, not too low and not too high, in which associative memory registers have a satisfactory performance. The experiments were implemented in a simulation using a standard computer with a GPU, but a parallel architecture may be built where the memory operations would take a very reduced number of computing steps.

Basic principles and emerging concepts in the redox control of transcription factors

Convincing concepts of redox control of gene transcription have been worked out for prokaryotes and lower eukaryotes, whereas the knowledge on complex mammalian systems still resembles a patchwork of poorly connected findings. The article, therefore, reviews principles of redox regulation with special emphasis on chemical feasibility, kinetic requirements, specificity, and physiological context, taking well investigated mammalian transcription factor systems, nuclear transcription factor of bone marrow-derived lymphocytes (NF-κB), and kelch-like ECH-associated protein-1 (Keap1)/Nrf2, as paradigms. Major conclusions are that (i) direct signaling by free radicals is restricted to O(2)•- and •NO and can be excluded for fast reacting radicals such as •OH, •OR, or Cl•; (ii) oxidant signals are H(2)O(2), enzymatically generated lipid hydroperoxides, and peroxynitrite; (iii) free radical damage is sensed via generation of Michael acceptors; (iv) protein thiol oxidation/alkylation is the prominent mechanism to modulate function; (v) redox sensors must be thiol peroxidases by themselves or proteins with similarly reactive cysteine or selenocysteine (Sec) residues to kinetically compete with glutathione peroxidase (GPx)- and peroxiredoxin (Prx)-type peroxidases or glutathione-S-transferases, respectively, a postulate that still has to be verified for putative mammalian sensors. S-transferases and Prxs are considered for system complementation. The impact of NF-κB and Nrf2 on hormesis, management of inflammatory diseases, and cancer prevention is critically discussed.

Selective induction of liver parenchymal cell heme oxygenase-1 in selenium-deficient rats

Liver heme oxygenase (HO) activity is higher in selenium-deficient rats than in control animals under basal conditions and is further increased in them, but not in controls, by phenobarbital treatment. In the present study we characterized liver HO induction by selenium deficiency using molecular methods. Severe selenium deficiency in rats caused a doubling of liver HO activity without affecting spleen, kidney, brain, or testis HO activities. HO-1 protein and mRNA were increased to accompany the increased HO activity, but HO-2 protein and mRNA were not increased. Fractionation of the liver into hepatocyte and Kupffer cell/endothelial cell fractions revealed that the increased HO activity resides in the hepatocyte fraction. Immunohistochemical localization of HO-1 protein confirms the induction of HO-1 taking place solely in hepatocytes and throughout the liver lobule. Phenobarbital treatment sharply increased HO-1 mRNA and protein expression in selenium-deficient liver and HO activity in hepatocytes, but had no effect in control liver or in the Kupffer cell/endothelial cell fraction of selenium-deficient liver. Electrophoretic mobility shift assays showed increased AP-1 binding activity, suggesting an involvement of this redox-sensitive transcription factor in the induction by phenobarbital of HO-1 in selenium deficiency. We speculate that selenium deficiency affects hepatic antioxidant selenoproteins, resulting in an up-regulation of HO-1.

Selenium regulates gene expression for estrogen sulfotransferase and alpha 2U-globulin in rat liver

Dietary intake of the essential trace element selenium (Se) regulates expression of genes for selenoproteins and certain non-Se-containing proteins. However, these proteins do not account for all of Se's biological effects. The objective of this work was to identify additional genes whose expression is regulated by Se. Identification of these genes may reveal new functions for Se or define mechanisms for its biological effects. Weanling male Sprague-Dawley rats were fed a Torula yeast-based Se-deficient basal diet or the same diet supplemented with 0.5 mg Se/kg diet as sodium selenite for 13 weeks. Total RNA was used as template for RNA fingerprinting. Two differentially expressed cDNA fragments were identified and cloned. The first had 99% nucleotide identity with rat liver estrogen sulfotransferase (EST) isoform-6. The second had 99% nucleotide sequence identity with rat liver alpha 2u-globulin. The mRNA levels for both were markedly reduced in Se deficiency. Laser densitometry showed that EST mRNA in Se deficiency was 7.3% of that in Se-adequate rat liver. The level of alpha 2u-globulin mRNA in Se-deficient rat liver was only 12.6% of that in Se-adequate rat liver. These results indicate that dietary Se may play a role in steroid hormone metabolism in rat liver.

The maintenance of cytochrome P-450 in rat hepatocyte culture: some applications of liver cell cultures to the study of drug metabolism, toxicity and the induction of the P-450 system

Treatments affecting the loss of cytochrome P-450 in rat hepatocyte culture are reviewed and the way in which these have produced an understanding of the mechanisms involved are discussed extensively. A simple way to prevent the loss of P-450 in hepatocytes is to culture them with 0.5 mM metyrapone which appears to restore the cytochromes' synthesis and degradation to steady state values. Knowledge of this mechanism has led to the formulation of special culture medium and the application of both culture systems to the study of drug metabolism and toxicity are described. Finally the effect of these culture systems on the expression of the multiple forms of cytochrome P-450 are presented to illustrate the potential of cultured hepatocytes in induction studies.

Modulation of the induction of rat hepatic cytochromes P-450 by selenium deficiency

The induction by phenobarbital of liver microsomal cytochrome P-450 has been demonstrated to be impaired in rats fed a selenium-deficient diet. Cytochrome P-450 isozyme specific immunologic and molecular techniques were used in the present study to better define the role of selenium in the induction of cytochrome P-450 by phenobarbital. Phenobarbital treatment of the selenium-deficient rats resulted in an increase in the level of total cytochrome P-450 50% of that observed with control rats and in a 10-fold increase in microsomal heme oxygenase. Quantitative immunoblot analyses demonstrated that the levels of cytochromes P-450b + e and P-450p in the phenobarbital-treated selenium-deficient rats were approximately 50% of those found in the phenobarbital-treated control rats. Finally, RNA hybridization studies using cDNA probes to cytochromes P-450b + e or P-450p demonstrated that the accumulations of the RNAs encoding these cytochromes P-450 were unaffected by the selenium status of the rats. These studies suggest that the impaired phenobarbital induction of the cytochromes P-450 in the selenium-deficient rats is the result of an increase in the degradation of the cytochromes P-450 or a decrease in the translation of the mRNAs coding for them.

Alterations in the protein-synthesis, -degradation and/or -secretion rates in hepatic subcellular fractions of selenium-deficient mice

Single mouse livers were subfractionated by differential centrifugation and isopycnic centrifugation on sucrose or metrizamide gradients and separated into subcellular compartments. The fractionation procedure was highly reproducible and yielded essentially similar results in different preparations of livers from selenium-adequate (Se+) and selenium-deficient (Se-) mice that were fed on a Torula-yeast-based diet containing less than 10 parts per 10(9) of selenium for at least 16 weeks. Mice of both dietary groups were injected intraperitoneally with 370 kBq of L-[U-14C]leucine, and 48 h later 1.85 MBq of L-[4,5-3H]leucine was injected intraportally. After another 1 h, the livers were removed and subjected to subcellular fractionation. Incorporation of the 3H label into proteins of the subcellular fractions was taken as a measure of relative protein-synthesis rate. The ratio of the 3H to the 14C protein-bound label of the same fractions was used as an estimate of relative protein-degradation and/or -secretion rate. The results showed a statistically significant 180% increase in protein-synthesis rate in the endoplasmic reticulum and a 80% increase in relative protein-degradation and/or -secretion rate in the same compartment. A significant decrease in the 3H/14C ratio, by 40 and 30% respectively, was observed in the Golgi fraction and in liver homogenate. The observed changes suggest a highly regulated hepatic response to selenium deficiency.

Maintenance and induction of cytochrome P-450 in cultured rat hepatocytes

Maintenance of microsomal cytochrome P-450 content by cultured rat hepatocytes has proven an elusive goal. It is reported here that exogenous heme maintains cytochrome P-450 content of cultured rat hepatocytes at high levels during the first 72 h of incubation. The maintenance studies have been expanded to demonstrate the in vitro induction of cytochrome P-450 by phenobarbital treatment. The induction of P-450 in vitro by phenobarbital required the trace element, selenium, in the presence of exogenous heme. The present findings suggest that selenium, and other trace elements, may have an essential role in the formation of holocytochrome P-450 in vitro.