Effect of resveratrol and lipoic acid on sirtuin-regulated expression of metabolic genes in bovine liver and muscle slice cultures.

Sirtuins (Sirt) are NAD-dependent deacetylases that are activated by the antioxidants resveratrol (RSV) and lipoic acid (LA). The objective of this study was to determine in bovine liver and muscle slice cultures the effect of RSV and LA treatment on the expresssion of Sirt1, Sirt3, peroxisome proliferator-activated receptor γ coactivator 1α (PPARGC1A), and the forkhead box O transcription factors FoxO1 and FoxO3 as well as other factors involved in glucose and lipid metabolism and related to Sirt activity. Tissue slices from crossbred bulls were treated during 60 min with 40 or 80 µ RSV and 30, 100, 300, or 1,000 µ LA under restricted conditions (Krebs-Ringer buffer without nutrients) and fed conditions (2.5 m propionate in combination with 1 n glucagon) for liver slices or with 0.01 µ epinephrine for muscle slices. Quantitative real-time PCR was used to analyze the expression of the mRNA for the genes studied and western blot analysis for the expression of the protein for Sirt1. Our results show that the expression of the mRNA for Sirt1 was enhanced by RSV in liver under restriction ( ≤ 0.0112) and by LA in muscle, more under restriction ( ≤ 0.0121) than after epinephrine administration ( < 0.0001). Sirt3 is affected in a dose-dependent manner by both compounds in both tissues and under both metabolic conditions ( ≤ 0.0452). The expression of the protein for Sirt1 was increased by LA in both tissues under restricted conditions ( = 0.0026 and = 0.0201, respectively) but in liver also in fed conditions ( = 0.0016). Genes involved in the antioxidant response were upregulated in both tissues. These results indicate that bovine Sirt respond differently to RSV and LA stimulation than monogastric Sirt do and that gluconeogenesis in ruminants is not related to Sirt to the same degree as in monogastric species. However, these results provide information about the possible role of Sirt in ruminant metabolism.

Potential role of sirtuins in livestock production.

Sirtuins are NAD(+)-dependent histone and protein deacetylases, which have been studied during the last decade with a focus on their role in lifespan extension and age-related diseases under normal and calorie-restricted or pathological conditions. However, sirtuins also have the ability to regulate energy homeostasis as they can sense the metabolic state of the cell through the NAD(+)/NADH ratio; hence, changes in the diet can modify the expression of these enzymes. Dietary manipulations are a common practice currently being used in livestock production with favorable results, probably due in part to the enhanced activity of sirtuins. Nevertheless, sirtuin expression in livestock species has not been a research target. For these reasons, the goal of this review is to awaken interest in these enzymes for future detailed characterization in livestock species by presenting a general introduction to what sirtuins are, how they work and what is known about their role in livestock.

Ghrelin stimulates myogenic differentiation in a mouse muscle satellite cell line and in primary cultures of bovine myoblasts.

Ghrelin is an acylated hormone that influences food intake, energy metabolism and reproduction, among others. Ghrelin may also stimulate proliferating myoblast cell differentiation and multinucleated myotube fusion. The aim of this work was to assess the effect of human ghrelin (hGHRL) and human ghrelin fragment 1-18 (hGHRL1-18) on myoblast differentiation by means of mRNA expression and protein level. Two types of cells were tested, the cell line i28 obtained from mouse skeletal muscle and primary cultures of bovine myoblasts. Both ghrelin and its N-terminal fragment hGHRL1-18 were used at concentrations of 0, 0.01, 0.1, 1, 10 and 100 nm. Treatments were applied to pre-confluent cultures and were maintained for 4 days. We determined that between 0.1 and 100 nm, hGHRL and hGRHL1-18 had similar effects on myogenic differentiation of i28 cells (p < 0.01). On the other hand, only the higher concentrations (10 and 100 nm) of hGHRL stimulated bovine myoblast differentiation. These results could be attributed to the presence, in both i28 cells and in bovine myoblasts, of the mRNA for GHS-R1a and CD36 receptors. The use of ghrelin in livestock production is still questionable because of the limited effects shown in this study, and additional research is needed in this field.

Bovine sirtuins: initial characterization and expression of sirtuins 1 and 3 in liver, muscle, and adipose tissue.

Sirtuins, the mammalian homologs of the silent information regulator 2 gene of Saccharomyces cerevisiae, are members of the NAD(+)-dependent family of histone deacetylases. In vertebrates, 7 sirtuins have been described, with different cellular localizations and target proteins. Glucose and lipid metabolism are among the processes regulated by these enzymes. In ruminants, gluconeogenesis is the main biochemical pathway by which glucose is obtained. Because sirtuins in bovines have not been studied, the aim of this work was to obtain sequences coding for the 7 sirtuins and determine the expression patterns of sirtuin1 (Sirt1) and sirtuin3 (Sirt3) in the liver, muscle, and adipose tissue of calves and bulls. Using PCR amplification, we obtained sirtuin gene sequences and reported them to the National Center for Biotechnology Information GenBank. Characteristic sequence motifs corresponding to the sirtuin catalytic core domain were found, including the active and zinc-binding sites. Relative expression patterns of Sirt1 and Sirt3 in liver, muscle, and adipose tissue were quantified by real-time PCR, normalizing to the geometric mean of the housekeeping genes cyclophilin A and ß-actin. Expression of Sirt1 was less in liver and muscle, whereas it was greater in adipose tissue of adult animals, with statistical differences (P=0.0071) only in the latter. In the case of Sirt3, expression was greater in all 3 adult tissues, but statistical differences were found only in liver (P=0.0141) and muscle (P=0.0017). The greatest expression was observed in liver for Sirt1 and in muscle for Sirt3, whereas the least expression was in muscle for Sirt1 and in adipose tissue for Sirt3. In other species, sirtuin expression (both Sirt1 and Sirt3) in liver is reported to be the greatest among these 3 tissues, a pattern different from what we measured. These differences in expression can be associated with metabolic differences between nonruminant and ruminant species. However, further research on the relationship between bovine sirtuins and ruminant metabolism is required for a better understanding of these fields.

Induction of peroxisomal proliferator-activated receptor gamma and peroxisomal proliferator-activated receptor gamma coactivator 1 by unsaturated fatty acids, retinoic acid, and carotenoids in preadipocytes obtained from bovine white adipose tissue1,2.

The importance of dietary fat components, such as fatty acids, in the expression of multiple genes is clear. In the case of beef cattle, fat in the form of fatty acids (saturated or unsaturated), vitamin A (mainly retinoic acid), or carotenoids (beta-carotene and lutein) is obtained from dietary feed or pasture. The aim of this work was to study the effect of fatty acids (phytanic and pristanic acids), vitamin A (all-trans and 9-cis retinoic acid), and carotenoids (beta-carotene and lutein) on the expression of PPARgamma and its coactivator PGC-1alpha during differentiation of bovine white adipose tissue. Samples were collected at slaughter from subcutaneous adipose tissue and processed in a solution containing type II collagenase for 2 h at 37 degrees C. Cells were resuspended in basal medium, Dulbecco's modified Eagle's medium containing 5% fetal bovine serum, plated on 24-well culture plates at a density of 1 x 10(4) cells/cm(2), and incubated at 37 degrees C in a 5% CO(2) atmosphere. Preadipocyte differentiation after reaching confluence was induced by various treatments: rosiglitazone (20 microM); unsaturated fatty acids: phytanic acid (25, 50, 100 microM) and pristanic acid (25, 50, 100 microM); retinoids: 9-cis retinoic acid (0.5, 0.75, 1 microM) and all-trans retinoic acid (0.5, 0.75, 1 microM); and carotenoids: beta-carotene (10, 20, 30 microM) and lutein (10, 20, 30 microM). Expression of PPARgamma and PGC-1alpha was measured in differentiated cells. Phytanic acid, all-trans retinoic acid, and 9-cis retinoic acid were the best activators of PPARgamma expression, and the combination of 9-cis and all-trans retinoic acid was the best activator of PGC-1alpha expression (P < 0.05). Therefore, these are powerful agents for the promotion of bovine adipogenesis and constitute promising compounds to be used in bovine fattening.

Functional expression of recombinant type 1 ryanodine receptor in insect cells.

We have investigated the biochemical properties of the rabbit ryanodine receptor type 1 (RyR1) from skeletal muscle functionally expressed in insect sf 21 cells infected with recombinant baculovirus. Equilibrium [3H]ryanodine binding assays applied to total membrane fractions from sf 21 cells expressing recombinant RyR1 showed a non-hyperbolic saturation curve (Hill coefficient = 2.1). The [3H]ryanodine binding was enhanced by 1 mM AMP-PCP and 10 mM caffeine, whereas 10 mM Mg(2+) and 5 microM ruthenium red reduced the specific binding. The dependence of [3H]ryanodine binding on ionic strength showed positive cooperativity (Hill coefficient = 2.2) with a plateau at 1 M KCl. The recombinant RyR1 showed a bell-shaped [3H]ryanodine binding curve when free [Ca(2+)] was increased, with an optimal concentration around 100 microM.Confocal microscopy studies using the Ca(2+) ATPase selective inhibitor, thapsigargin coupled to fluorescein and ryanodine coupled to Texas red demonstrated that the recombinant RyR1 and the Ca(2+) ATPase co-localize to the same intracellular membrane. No significant RyR1 fluorescence was observed at the plasma membrane.Fluo-4-loaded sf 21 cells expressing recombinant RyR1 responded to activating-low ryanodine concentrations (100 nM) or caffeine (10 mM) with a sharp rise in intracellular Ca2 followed by a sustained phase, in contrast, sf 21 cells expressing the human bradykinin type 2 receptor did not respond to ryanodine or caffeine.These results demonstrate the expression of recombinant RyR1 in sf 21 cells with functional properties similar to what has been previously reported for native RyR1 in mammalian tissues, however, some differences were observed in [3H]ryanodine binding assays compared to native rabbit RyR1. Hence, the baculovirus expression system provides a generous source of protein to accomplish structure-function studies and an excellent model to assess functional properties of wild type and mutant RyR1.

Subunit II of cytochrome c oxidase in Chlamydomonad algae is a heterodimer encoded by two independent nuclear genes.

The mitochondrial genomes of Chlamydomonad algae lack the cox2 gene that encodes the essential subunit COX II of cytochrome c oxidase. COX II is normally a single polypeptide encoded by a single mitochondrial gene. In this work we cloned two nuclear genes encoding COX II from both Chlamydomonas reinhardtii and Polytomella sp. The cox2a gene encodes a protein, COX IIA, corresponding to the N-terminal portion of subunit II of cytochrome c oxidase, and the cox2b gene encodes COX IIB, corresponding to the C-terminal region. The cox2a and cox2b genes are located in the nucleus and are independently transcribed into mRNAs that are translated into separate polypeptides. These two proteins assemble with other cytochrome c oxidase subunits in the inner mitochondrial membrane to form the mature multi-subunit complex. We propose that during the evolution of the Chlorophyte algae, the cox2 gene was divided into two mitochondrial genes that were subsequently transferred to the nucleus. This event was evolutionarily distinct from the transfer of an intact cox2 gene to the nucleus in some members the Leguminosae plant family.

Two unusual amino acid substitutions in cytochrome b of the colorless alga Polytomella spp.: correlation with the atypical spectral properties of the bH heme.

The dithionite-reduced spectra of the purified bc1 complexes from the colorless alga Polytomella spp. and the closely related green alga Chlamydomonas reinhardtii were compared. The spectrum of the bc1 complex from C. reinhardtii showed a profile similar to those of the bc1 complexes from other species. In contrast, the bc1 complex from Polytomella spp. exhibits a double-peak spectrum in the alpha-band region, where the absorption bands of cytochrome c1 and cytochrome b are completely resolved. To further understand the molecular basis of these spectroscopic differences, the mitochondrial gene encoding cytochrome b of Polytomella spp. was cloned, sequenced, and compared with that of C. reinhardtii. The Polytomella spp. cytochrome b gene is 1113 bp long and does not contain introns. The deduced protein sequence exhibits 56% identity and 68% similarity with the cytochrome b of C. reinhardtii, and in a phylogenetic analysis it clearly affiliated with the b-type cytochromes of C. reinhardtii and C. smithii. A comparison of the primary sequences of the Polytomella spp. cytochrome b with other b-type cytochromes, and its analysis based on the structure featuring eight transmembrane stretches, allowed the identification of a tyrosine in position 114, which substitutes for a tryptophan present in all mitochondrial b-type cytochromes sequenced to date. In addition, the primary sequence of the cytochrome b from Polytomella spp. has a serine at position 36, instead of a nonpolar residue (alanine or leucine) found in all other species. In the proposed model for cytochrome b, both residues Tyr114 and Ser36 are in close proximity to the high-potential bH heme. The above data suggest that the polar residues Y114 and S36, each one by itself or in combination, may interact with heme bH of Polytomella spp. and, thus, may be responsible for the unique spectroscopic characteristics of cytochrome b.

The deduced primary structure of subunit I from cytochrome c oxidase suggests that the genus Polytomella shares a common mitochondrial origin with Chlamydomonas.

We cloned and sequenced the mitochondrial gene encoding subunit I of cytochrome c oxidase (coxI) of Polytomella spp., a colorless alga related to Chlamydomonas. The purpose was to explore whether homology between the two species also exists at the level of a mitochondrial enzyme. The gene is 1512 bp long and contains no introns. The translated protein sequence exhibits 73.8% identity with its Chlamydomonas reinhardtii counterpart. The data obtained support the hypothesis that the separation of the colorless alga from the Chlamydomonas lineage was a late event in evolution, that occurred after the endosymbiotic process that gave rise to mitochondria.

Mutations in the vasopressin V2 receptor gene in families with nephrogenic diabetes insipidus and functional expression of the Q-2 mutant.

Nephrogenic diabetes insipidus (NDI) is characterized by a resistance of the kidney towards arginine vasopressin (AVP). Following molecular cloning of the vasopressin V2 receptor, we identified different mutations in the V2 receptor gene in families with X-linked NDI, which segregated with the disease. The Hopewell mutation (W71X) causes the disease in the largest North American NDI pedigree, with most of its members residing on Nova Scotia. Different mutations were found in three families from the Quebec area (Q-2: R137H, Q-3: R113W, Q-5: 804delG) and in the large Cannon kindred residing in Utah (L312X). In an Iranian family (O-1), another mutation was detected (A132D). Three of the six mutations (Hopewell, Cannon, Q-5) are predicted to cause the expression of a truncated V2 receptor and are therefore unlikely to function. The functional consequences of missense mutations (Q-2, Q-3, O-1) are less obvious. We therefore introduced the Q-2 mutation into wild-type cDNA. When expressed in COS.M6 or Ltk cells, the Q-2 mutant bound AVP with normal affinity. However, cells expressing the Q-2 mutant failed to respond to AVP with an increase in adenylyl cyclase activity. Thus the Q-2 mutant is unable to interact with or to activate the stimulatory G-protein Gs. The present data indicate that X-linked NDI is frequently attributable to a mutation in the V2 receptor gene. In addition, the data prove biochemically that the Q-2 mutation is the cause of NDI in the Q-2 family.

A highly active ubiquinol-cytochrome c reductase (bc1 complex) from the colorless alga Polytomella spp., a close relative of Chlamydomonas. Characterization of the heme binding site of cytochrome c1.

The alga Polytomella spp. offers extraordinary advantages in the preparation of mitochondria since it lacks chloroplasts and a cell wall. In this work the mitochondrial bc1 complex from Polytomella spp. was solubilized and purified by ion exchange chromatography. The complex was found to be composed of 10 polypeptides and exhibited high rates of ubiquinol-cytochrome c oxidoreductase activity (> 300 s-1) sensitive to antimycin and myxothiazol. The molecular mass of the bc1 complex from Polytomella spp. was assayed by gel filtration and estimated to be of 256,300 Da. Therefore, this complex exhibits the unique property of behaving as a monomer. Amino-terminal sequencing of cytochrome c1 identified 7 residues, from which a deoxyoligonucleotide was designed. A second deoxyoligonucleotide was constructed based on a highly conserved region of the c1 type cytochromes. With these probes, a fragment of the cytochrome c1 gene was amplified by polymerase chain reaction and sequenced. The deduced sequence of the apoprotein exhibited a consensus binding site CXXCH. The data suggest that the cytochrome c1 from Polytomella spp. differs from other protoctists like Crithidia and Euglena, i.e. it exhibits a heme binding domain structurally related to the bovine, yeast, and Neurospora c1 type cytochromes.

Subunit structures of purified beef mitochondrial cytochrome bc1 complex from liver and heart.

The existence of tissue-specific isozymes of cytochrome c oxidase has been widely documented. We have now studied if there are differences between subunits of mitochondrial bc1 complexes isolated from liver and heart. For this purpose, we have developed a method for the purification of an active ubiquinol-cytochrome c oxidoreductase from adult bovine liver that includes solubilization of submitochondrial particles with deoxycholate, ammonium acetate fractionation, resolubilization with dodecyl maltoside, and ion exchange chromatography. The electrophoretic pattern of the liver preparation showed the presence of 11 subunits, with apparent molecular weights identical to the ones reported for the heart complex. Western blot analysis and isoelectric focusing followed by two-dimensional gels of bc1 complexes from liver and heart were compared, and no qualitative differences were observed. In addition, the high-molecular-weight subunits of the purified complexes from both tissues, subunits I, II, V, and VI, were isolated by PAGE in the presence of Coomasie Blue and subjected to limited proteolysis and to chemical digestion with cyanogen bromide and BNPS-skatol, and the peptide patterns were compared. Finally, two of the small-molecular-weight subunits from the liver complex were isolated (subunits VII and X), partially analyzed by amino terminal sequencing, and found to be identical with the reported sequence of their heart counterparts. The data suggest that, in contrast to the case of cytochrome c oxidase, bc1 complexes from liver and heart do not exhibit tissue-specific differences.

Nephrogenic diabetes insipidus. A V2 vasopressin receptor unable to stimulate adenylyl cyclase.

The coding region of the human vasopressin type 2 receptor gene bears mutations in the individuals affected with congenital nephrogenic diabetes insipidus, a disease characterized by the inability of the kidney to concentrate urine in response to vasopressin. Although it is assumed that the mutations result in loss of receptor function, proof of this hypothesis is lacking. We introduced one of these naturally occurring point mutations leading to a single amino acid change (Arg137-->His) into wild type cDNA. The mutant protein was expressed, and the functional properties of the receptor were examined. The mutant receptor exhibited an unaltered binding affinity for vasopressin compared to the wild type but failed to stimulate the Gs/adenylyl cyclase system. These data provide biochemical proof that the mutant receptor is the cause of the disease.

Molecular identification of the gene responsible for congenital nephrogenic diabetes insipidus.

Antidiuretic hormone (arginine vasopressin) binds to and activates V2 receptors in renal collecting tubule cells. Subsequent stimulation of the Gs/adenylyl cyclase system promotes insertion of water pores into the luminal membrane and thereby reabsorption of fluid. In congenital nephrogenic diabetes insipidus (CNDI), an X-linked recessive disorder, the kidney fails to respond to arginine vasopressin. Here we report that an affected male of a family with CNDI has a deletion in the open reading frame of the V2 receptor gene, causing a frame shift and premature termination of translation in the third intracellular loop of the receptor protein. A normal receptor gene was found in the patient's brother. Both the normal and the mutant allele were detected in his mother. A different mutation, causing a codon change in the third transmembrane domain of the V2 receptor, was found in the open reading frame of an affected male but not in the unaffected brother belonging to another family suffering from CNDI.

Desensitization of the human V2 vasopressin receptor. Homologous effects in the absence of heterologous desensitization.

Three main pathways have been implicated in desensitization of receptors that stimulate adenylylcyclase (AC): cAMP-mediated phosphorylation; cAMP-independent phosphorylation, and receptor internalization. Cell lines derived from the murine Ltk- cell were found useful in exploring the contribution of cAMP-dependent phosphorylation in V2 vasopressin receptor desensitization. The HTB-2 cell expresses the human V2 vasopressin receptor, introduced by transfection of human genomic DNA, and the prostaglandin E1 (PGE1) receptor, endogenous to the Ltk- cell. The A7 cell expresses the hamster beta 2-adrenoceptor, which undergoes the above-mentioned desensitization processes. Treatment of HTB-2 cells with arginine-vasopressin (AVP) had no effect on AC responsiveness to PGE1, but promoted desensitization of the AVP response. This was seen as a 5-6-fold right shift in the dose-response curves for AVP action (cAMP accumulation in intact cells and AC stimulation in homogenates and isolated membranes) and in a decrease in the maximum effect of AVP on these parameters. AVP treatment caused a decrease in cell surface receptors to approximately 75% of control without changes in KD, as determined by Scatchard analysis. When cAMP was increased by treatment with 10 microM PGE1 and isobutylmethylxanthine, desensitization of the PGE1 receptor was observed but not of the AVP receptor. In A7 cells the same treatment caused, as expected, a 3-fold right shift in the dose-response curve for AC stimulation by isoproterenol, indicating that L cells can mediate heterologous desensitization. These data demonstrate that the V2 vasopressin and the PGE1 receptors undergo homologous desensitization in the absence of cAMP-mediated phosphorylation and that this component is not required for vasopressin receptor internalization.

Molecular cloning of the receptor for human antidiuretic hormone.

Antidiuresis, the recovery of water from the lumen of the renal collecting tubule, is regulated by the hypothalamic release of antidiuretic hormone (ADH), which binds to specific receptors on renal collecting tubule cells, stimulates adenylyl cyclase and promotes the cyclic AMP-mediated incorporation of water pores into the luminal surface of these cells. We report here the isolation of the human ADH receptor gene using a genomic expression cloning approach. The gene was used to clone the complementary DNA from a human renal library. The deduced amino-acid sequence of the receptor yields a hydropathy profile characteristic of receptors with seven putative transmembrane regions. This and the comparison with other cloned receptors indicates that the ADH receptor is a member of the superfamily of G-protein-coupled receptors.

Isolation and characterization of a Saccharomyces cerevisiae mutant with impaired glutamate synthase activity.

A mutant of Saccharomyces cerevisiae that lacks glutamate synthase (GOGAT) activity has been isolated. This mutant was obtained after chemical mutagenesis of a NADP-glutamate dehydrogenase-less mutant strain. The gdh gus mutant is a glutamate auxotroph. The genetic analysis of the gus mutant showed that the GOGAT-less phenotype is due to the presence of two loosely linked mutations. Evidence is presented which suggests the possibility that S. cerevisiae has two GOGAT activities, designated GOGAT A and GOGAT B. These activities can be distinguished by their pH optima and by their regulation by glutamate. Furthermore, one of the mutations responsible for the GOGAT-less phenotype affected GOGAT A activity, while the other mutation affected GOGAT B activity.