Output of liver fatty acid-binding protein (L-FABP) in bile.

Liver fatty acid-binding protein (L-FABP) is a small cytoplasmic molecule highly expressed in the liver. Since L-FABP exhibits affinities for several biliary components, its presence in bile was explored by Western blotting and competitive ELISA in various mammalian species. A L-FABP-like immunoreactivity was consistently found in both hepatic and gallbladder bile. A close molecular identity between this 14 kDa biliary protein and the purified L-FABP was assessed by immunological analyses and high performance capillary electrophoresis. Pharmacological induction of hepatic L-FABP biosynthesis led to a similar increase in biliary L-FABP levels showing a close relationships between the cytosolic and biliary contents of this protein. Finally, a correlation between the presence of L-FABP in bile and both bile flow and bile acid release was found. These data suggest an output of L-FABP in bile in normal conditions which might be coupled with the physiological release of biliary components.

Calcitriol down-modulates the 3,5,3' triiodothyronine (T3) receptors and affects, in a biphasic manner, the T3-dependent adipose differentiation of Ob 17 preadipocytes.

In previous reports, we showed that T3 is required for terminal differentiation of the murine Ob 17 preadipocytes, and that it partially down-modulates the abundance of its own nuclear receptor sites (T3R). We also reported that a profound depletion of the T3R was produced by all-trans-retinoic acid at concentrations that inhibit adipose differentiation. Here, we report that calcitriol (VD), which activates a nuclear receptor (VDR) closely related to the T3R and retinoid receptors, also markedly affects nuclear T3 binding and T3-induced differentiation of Ob 17 cells. Within a nearly physiological concentration range (0.1-2.5 nM), calcitriol profoundly down-modulated T3R abundance without altering the affinity for T3. The T3R depletion was a fast event, sustained under VD and reversed within 48 h of VD withdrawal. The order of efficient concentration ranges of VD and analogs suggests an involvement of the VDR. The T3R-depleting effect of VD was observed at every stage of adipose differentiation and was additive to the depleting effect of T3. Within the 0.1-2.5 nM VD concentration range, the c-erbA alpha and -alpha 1 messenger RNA levels (only c-erbA alpha gene products were detected in these cells) were poorly decreased; VD also did not alter a protein band specifically detected with specific anti-c-erbA alpha 1 antibodies in Western blots of nuclear extracts. VD accelerated the T3R disappearance rate; the results suggest that this would probably involve sequestration, rather than degradation, events. Interestingly, calcitriol added to the culture medium of Ob 17 preadipocytes markedly influenced the adipose differentiation, exerting a clear-cut stimulation at levels of 0.25 nM or less and profound inhibition at concentrations above 0.25 nM. Both effects were observed provided that VD was added within an early critical period of the differentiation process, as we previously reported for T3. The stimulations caused by low concentrations of VD and 1.5 nM T3 were additive. Increasing the VD concentration produced a progressive attenuation, then a suppression, of the stimulating effect of T3. Comparative analyses of VD-related changes in adipose differentiation and T3R abundance suggest that a correlation may exist between optimal differentiation and a partial depletion of the T3R, whereas a profound depletion of the T3R occurred at inhibitory concentrations of VD. The present results sustain the concept that T3R play a role in the differentiation of Ob 17 preadipocytes. Moreover, the results suggest that there may be a T3 receptor site concentration optimal for efficient differentiation. A regulation of this concentration involves ligands of other closely related receptors and, thus, probably the interplays that exist between these receptors.

Transient expression of c-erbAbeta1 messenger ribonucleic acid and beta1 thyroid hormone receptor early in adipogenesis of Ob 17 cells.

In the murine Ob 17 preadipocyte cell line, the thyroid hormone T3 is an adipogenic factor necessary at an early stage for differentiation into adipocyte. We demonstrate here that this T3 dependence may involve a transient expression (at both the messenger RNA and the protein levels) of c-ErbA beta-type receptors (T3R), although a large body of T3R remained the product of the c-erbAalpha gene, as previously described. c-ErbAbeta1 (and not beta2) expression emerged significantly at growth arrest, peaked 2 days later, and almost disappeared in maturing adipocytes. This expression is related to the presence of T3, as total deprivation of culture medium from T3 prevented it, and the addition of 1.5 nM T3 to preconfluent cultures was able to restore it. When cells were cultured in the presence of T3 and thus were able to differentiate, the c-erbAbeta peak was accompanied by sequential rapid increases in CAAT/enhancer-binding protein-delta(C/EBPdelta), peroxisome proliferator-activated-gamma receptor (PPARgamma), and C/EBPalpha gene expressions. On the contrary, under thyroid hormone-deprived culture conditions that result in nondifferentiation of the preadipocytes, c-erbAbeta1, PPARgamma, and the large C/EBPalpha expressions were blunted, and a moderate early increase in c-erbAalpha1 transcripts was sustained for a longer period. Addition of T3 to T3-deprived preconfluent cells restored PPARgamma and C/EBPalpha expressions. Taken together, the results highlight the important role of T3 in the adipogenesis of Ob 17 cells through the involvement of both beta1 and alpha1 T3R subtypes.

Production of rat Spot14 protein in Escherichia coli.

Hormonal, nutritional and developmental factors modulate, in rat lipogenic tissues, the transcription of the mRNA coding for a protein of unknown function, called Spot14 (S14). The corresponding protein has never been purified from tissues. In this paper, we describe the production of S14 in Escherichia coli. In the absence of available antibodies (Ab) directed against S14 protein, our strategy was to produce this protein by constructing two different recombinant expression vectors. The first recombinant plasmid produced a S14::protein A fusion which was easily purified and then rabbit Ab could be raised against it. The second expression vector directly produced S14. This expression was demonstrated by specific binding of polyclonal Ab directed against the fusion protein. These Ab also recognized a rat-liver protein sharing characteristics of S14.

Nuclear factors specifically favor thyroid hormone binding to c-ErbA alpha 1 protein (thyroid hormone receptor alpha) over-expressed in E. coli.

A recombinant rat thyroid hormone receptor alpha (TR alpha or c-ErbA alpha 1) was produced in E. coli as a non-mutated, nonfusioned protein and obtained as an efficient DNA and T3 binding protein that could be easily handled in a buffer-soluble state (rec-TR alpha). It was found that nuclear extracts (NE) added to rec-TR alpha markedly amplified not only DNA binding, which has been well documented, but also T3 binding (increased binding site concentration), which has not yet been reported. This T3 binding amplifying effect on rec-TR alpha occurs at low NE protein concentrations that produce no or minimal endogenous TR with respect to rec-TR, while similar concentrations of other proteins (e.g. ovalbumin or cytosol) only moderately enhanced T3 binding. The T3 binding amplifying nuclear factors, which are partly heat-labile, appeared as necessary auxiliaries in the analyses of partially purified rec-TR alpha. A protective effect of NE against a loss of affinity for T3 under the action of antibodies directed to certain sequences in the TR alpha D domain suggests that nuclear factors help rec-TR alpha to acquire and/or stabilize a conformation that allows the high affinity T3 binding. The nature of this nuclear amplifying factor is still unknown: RXR alpha which, produced in vitro, could amplify binding of the rec-TR alpha to a DNA thyroid response element, was unable to display such a rescue of high affinity binding sites.

Opposite regulation of bilirubin and 4-nitrophenol UDP-glucuronosyltransferase mRNA levels by 3,3',5 triiodo-L-thyronine in rat liver.

The effects of 3,3',5 triiodo-L-thyronine (L-T3) on the constitutive levels of hepatic mRNA encoding two UDP-glucuronosyltransferase (UGT) isoforms implicated in the glucuronidation of planar phenolic substrates (UGT1*06) and bilirubin (UGT1*0) were investigated in rat liver. The amount of UGT mRNA was quantitated by reverse transcription and amplification methods (RT-PCR). Treatment with L-T3 significantly increased UGT1*06 and decreased UGT1*0 mRNA levels by 41% and 54%, respectively. The opposite situation was observed in thyroidectomised animals. A good relationship observed between UGT activity toward 4-nitrophenol and bilirubin and mRNA levels emphasizes the key role played by the thyroid hormone L-T3 on UGT expression.

Cloning and initial characterization of human and mouse Spot 14 genes.

The intricate regulation of Spot 14 expression in rat lipogenic tissues has provided a useful tool in studying nutritional and hormonal factors involved in transcription. To gain insight into its function and its possible involvement in human lipid disorders, we cloned human and mouse Spot 14 genes that shared with the rat gene a strong homology concerning the deduced amino acid sequence (81 and 94%, respectively) as well as the promoter region. The mouse promoter was characterized by transfection studies, while quantitative RT-PCR and in situ hybridization experiments showed that Spot 14 is expressed in human liver and, at a high level, in multiple symmetric lipomatosis nodules.

Chemical composition of porcine thyroid cell plasma membranes.

Plasma membranes were isolated from thyroid cells obtained by trypsinization of porcine glands and maintained in culture conditions in the presence or absence of thyrotropin or dibutyryl cyclic AMP. The protein, phospholipid, cholesterol and sialic acid content of the 3 types of cell plasma membranes were very similar. High cholesterol and sialic acid content characterized these membranes. The amino acid and carbohydrate composition was similar to that shown for other eukaryotic plasma membranes. Sodium dodecylsulfate-polyacrylamide gel electrophoresis disclosed the presence of more than 20 protein bands, of which six corresponded to glycoproteins.

Antibodies against restricted sequences in human c-ErbA hinge domain recognize differentially natural mammalian alpha- or beta-type triiodothyronine receptors and interfere differently with hormone binding.

In our first report, rabbit antibodies directed to recombinant polypeptides of human alpha-type c-ErbA sequences recognized natural triiodothyronine (T3) receptors (TR) in adipocytes (mouse Ob 17 cell line) but not in liver (mouse, rat). Moreover, some of them, directed to the sequence 150-228, markedly interfered with hormone binding to adipocyte T3 receptors. We now raised antibodies against shorter synthetic peptides within this alpha-type 150-228 c-ErbA sequence, which encompasses part of the hinge (D) domain and N-terminus of the E domain (alpha-150-166 and alpha 172-191) and against a beta-type c-ErbA sequence (beta 204-220 aligned on alpha 150-166, and differing by eight amino acids). Our present antibodies, which bear the expected c-ErbA alpha- or beta-type specificity, immunoprecipitated the TR in nuclear extracts, with a different pattern between tissues: exclusive precipitation by anti-c-ErbA alpha antibodies in Ob 17 adipocytes; large but non-exclusive precipitation by anti-cErbA beta antibodies in rat or mouse liver, which also expresses some alpha-type TR. This pattern of discriminative immunoprecipitation, also obtained in parallel analysis using our previously described antibodies to other c-ErbA alpha or beta sequences (anti-alpha 144-162, anti-alpha 1 403-410 and anti-beta 62-82), roughly verifies results of c-erbA mRNA expression in these tissues. Slight differences appeared in the extent of alpha-type TR recognition by antibodies directed to alpha 172-191, whether TR were liganded or not to T3 before antibody addition. This evokes a different conformation of this region after hormone binding. Most interestingly, these anti-alpha 172-191 antibodies lowered the Ka for T3 and extensively dissociated the adipocyte T3-TR complexes; they interfered poorly with the binding of T3 in liver nuclear extracts. This strongly supports the concept that internal sequences in c-ErbA alpha, more precisely in a restricted C-terminal part of the D domain, are necessary for efficient T3 binding, which also need the C-terminal part of domain E.

Increase in mRNAs encoding neonatal II and III sodium channel alpha-isoforms during kainate-induced seizures in adult rat hippocampus.

Subtypes I, II and III of sodium channel alpha-subunit mRNAs were analyzed in adult rat brain areas after kainate-induced seizures. Tissue samples were microdissected from occipital neocortex, CA1 and CA3 hippocampus areas and dentate gyrus. Three reverse transcriptase-polymerase chain reaction (RT-PCR) protocols were undertaken to amplify these mRNAs. Amplification products were then distinguished after digestion by restriction enzymes, electrophoresis separation and densitometric analysis of gel profiles. PCR 1 evidenced the relative percentage of mRNAs I, II and III as well as neonatal II and III subtype isoforms, which resulted from an alternative splicing. PCR 2 and 3 were performed to focus on the neonatal vs. adult ratio in II and III subtypes, respectively. Seizures were shown to induce an increase in both neonatal subtypes, which suggested an alteration at the splicing level. These changes exhibited a peculiar brain regional distribution, the maximal effect being observed in dentate gyrus and hippocampus CA1 area. In situ hybridization experiments, using a digoxigenin-labeled oligonucleotide probe-specific for neonatal II and III mRNAs, confirmed this increase in neonatal mRNA subtypes. These changes were transient, reaching a maximum 6 h after drug injection, then disappearing between 12 and 48 h. They were prevented by a pre-treatment of animals by MK-801, a non-competitive antagonist of NMDA receptors. This work, thus, suggested that KA-induced seizures can be accompanied by transient alteration in the splicing pattern of sodium channel alpha-subunit mRNAs which resulted in an increase in expression of their neonatal isoforms within localized areas of adult rat brain.

Possible involvement of the dopamine D3 receptor locus in subtypes of bipolar affective disorder.

The dopamine D3 receptor gene is of potential interest in the physiopathology of affective disorder because of its expression pattern in brain structures controlling various aspects of behaviour, cognition and emotions. Moreover, it encodes for a receptor protein that is a target for psychotropic drugs, which turn out to be efficient in the treatment of this disorder. Two polymorphisms have been described at this locus (the Bal I and the Msp I Restriction Fragment Length Polymorphisms) that are useful in genetic studies. We therefore researched these polymorphisms in 60 patients suffering from bipolar affective disorder who were compared with 60 healthy volunteers. No statistical difference was observed between the whole patient sample versus the controls. However, one subgroup [homozygous for the (2-2) Bal I polymorphism] exhibits a characteristic clinical pattern consisting of: manic monopolar form of bipolar disorder, low age of onset and initiation by an acute delusional episode. A gender distribution difference for the Bal I polymorphism (chi 2 = 6.61, degrees of freedom = 1, P = 0.01) was then noted, the bipolar females being preferentially heterozygous, and the males homozygous. These results could involve the dopamine D3 receptor locus as a minor effect gene in the manic depression condition.

mRNA coding for voltage-gated sodium channel beta2 subunit in rat central nervous system: cellular distribution and changes following kainate-induced seizures.

The cellular distribution of sodium channel beta2 subunit mRNA was examined in the central nervous system from adult Wistar rats using a non-radioactive in situ hybridization method with digoxigenin-labeled cRNA probes. The expression of the subunit was strong in cerebral and cerebellar cortex, in medulla oblongata and in the spinal cord whereas heterogeneous in hippocampus. The distribution was evaluated in hippocampus and cerebral cortex from 1 to 72 h after kainate injection and compared to control rats using densitometric analysis. In these areas, a transient increase was seen 1 h after the drug administration, followed, in the hippocampus, by a significant decrease. These variations differ from those we previously reported for alpha subunits and might play a role in cellular excitability changes occurring in the course of seizures.

Thyrotropin binding to and adenylate cyclase activity of porcine thyroid plasma membranes.

Plasma membranes have been purified from porcine thyroid gland homogenate by discontinuous sucrose gradient centrifugation. The preparations contained specific binding sites for thyrotropin but not for luteinizing hormone or the beta subunits of thyrotropin and luteinizing hormone. Optimum conditions of 125I-labeled thyrotropin binding were pH 6.0-6.5 and 37 degrees C. Thyrotropin binding was reduced by divalent (Ca2+, Mg2+) and monovalent cations (Na+, K+, Li+), 50% inhibition being obtained at 10 mM and 50 mM respectively. Displacement curves of 125I-labeled bovine or porcine thyrotropin by the unlabeled hormone from three species was in the order of increasing concentrations (bovine greater than porcine greater than human) which is the order of decreasing biological activity of these hormone preparations in the assay in vivo in the mouse. The validity of the results was established by controlling that porcine membranes bound the native and the 125I-labeled hormones with equal affinity. A single type of high-affinity (Kd = 0.28 nM) binding sites was detected for bovine and porcine thyrotropins. In contrast, porcine plasma membranes bound human thyrotropin with a lower affinity (Kd = 70 nM). A good correlation was found at equilibrium and in the conditions of the cyclase assay, between receptor occupancy and adenylate cyclase activation for the three hormones.

SPAC: identification of polypeptides using their amino-acid composition.

We describe here new software able to retrieve from protein or nucleic acid databases, the sequence corresponding to a protein or peptide whose only amino acid composition and molecular weight are known. This algorithm is particularly devoted to the retrieval of partial sequences, a task that other available software performs poorly. Its accuracy for the attribution of a protein fragment to a sequence could represent an easy and economical first tool upstream the use of more sophisticated and expensive methods in proteomic research. SPAC (Sequence Protein Alignment with Composition) is a shareware available software on web site http://www.univ-tln.fr/ approximately grillas/SPAC/. This web site also presents help and a detailed description of the algorithm and interface.

Calcitriol is a positive effector of adipose differentiation in the OB 17 cell line: relationship with the adipogenic action of triiodothyronine.

In a previous report, we showed that physiological concentrations of calcitriol (1 alpha,25-(OH)2 vitamin D3 or VD), markedly stimulated the terminal adipose differentiation of Ob 17 preadipocytes cultured under standard conditions with fetal calf serum (FCS), and increased the differentiating effect of triiodothyronine (T3) reported as a necessary adipogenic factor in these cells. Here, we demonstrate, for the first time, that VD is an intrinsic strong adipogenic factor for the Ob 17 preadipocytes cultured in thyroid hormone-deprived medium (adipogenic concentrations: 0.025-0.25 nM in the presence of stripped FCS, 1-10 pM under serum-free conditions). VD action was potentiated by the coaddition of either T3, or arachidonic acid, two agents which also bear proper adipogenic properties. The efficient concentration ranges of other vitamin D3 metabolites suggest a mediation through the VD nuclear receptor (VDR). An expression of the VDR gene is here demonstrated in the Ob 17 cells, and evidence is given that VDR mRNA level increased during the differentiation process and that this increase is moderately amplified under long term treatment with adipogenic concentrations of VD. Our results strongly suggest that adipose differentiation is under the control of different closely related nuclear receptors acting at an early preadipocyte step and probably in an interchangeable manner depending on the availability of their respective ligands. The existence of an interplay between these receptors in exerting their adipogenic action is suggested.

Quantitative multistandard RT-PCR assay using interspecies polymorphism.

The use of RT-PCR to quantify mRNA is often compromised by the variability of reverse-transcription and amplification reactions as well as by the difficulty of assessing the amount and/or the integrity of input RNA. Use of a competitor RNA or the coamplification of an endogenous standard are widespread methods of monitoring these steps. Taking advantage of both sequence conservation between homologous genes in related animal species and interspecific polymorphism, a protocol that may be regarded as a compromise between these two methods is described here. Total RNA samples, extracted from even minute amounts of tissue belonging to a first animal species, were supplemented with a constant amount of total RNA prepared from a second animal species, which thus acts as a multistandard source. The mixture was reverse-transcribed using hexa-random primers. Separate PCRs were then undertaken so that, for each mRNA of interest, products from both origins could be distinguished. Since the ratio between amplified mRNAs is constant in the standard preparation, an accurate normalization in the assay samples of most variations inherent to PCR is obtained. This protocol allows quantification of several mRNAs species, whose amounts may be very different, in a single cDNA preparation.

Changes in the mRNAs encoding subtypes I, II and III sodium channel alpha subunits following kainate-induced seizures in rat brain.

Several lines of evidence underscore a possible role of voltage-gated Na+ channels (NaCH) in epilepsy. We compared the regional distribution of mRNAs coding for Na+ channel alpha subunit I, II and III in brains from control and kainate-treated rats using non-radioactive in situ hybridization with subtype-specific digoxigenin-labelled cRNA probes. Labelling intensity was evaluated by a densitometric analysis of digitized images. Heterogeneous distribution of the three Na+ channel mRNAs was demonstrated in brain from adult control rats, which confirmed previous studies. Subtype II mRNAs were shown to be abundant in cerebellum and hippocampus. Subtype I mRNAs were also detected in these areas. Subtype III mRNAs were absent in cerebellar cortex, but significantly expressed in neurons of the medulla oblongata and hippocampus. The three subtypes were differentially distributed in neocortical layers. Subtype II mRNAs were present in all of the layers, but mRNAs for subtypes I and III were concentrated in pyramidal cells of neocortex layers IV-V. During kainate-induced seizures, we observed an increase in Na+ channel II and III mRNA levels in hippocampus. In dentate gyrus, subtype III mRNAs increased 3 h after KA administration to a maximum at 6 h. At this latter time, a lower increase in NaCh III mRNAs was also recorded in areas CA1 and CA3. NaCh III overexpression in dentate gyrus persisted for at least 24 h. In the same area, NaCh II mRNAs were also increased with a peak 3 h after KA injection and a return to control levels by 24 h. No changes in NaCh I mRNAs were seen. The KA-induced up-regulation in NaCh mRNAs probably resulted in an increase in hippocampal neuronal excitability.

LITTLE KEVIN: a program for the estimation of protein homology by analysing the amino acid compositions and sequences.

We present here a computational method based on the analysis of amino acid composition for performing comparisons between proteins. This user-friendly and reliable test is aimed at rapidly identifying, from data-base subsets, sequences--if necessary, partial sequences--which share similar amino acid compositions to the input composition (deduced from experimental results). Apparent molecular weight (as determined by SDS-PAGE) and artefactual modifications due to the experimental determination of the amino acid composition are taken into account to perform the comparison. This program thus constitutes a useful tool in searching for the probable identification of either non-sequenced proteins or peptides from hydrolysed proteins.

Preliminary evidence for a role of apolipoprotein E alleles in identifying haemodialysis patients at high vascular risk.

Conventional risk factors have very low predictive power in identifying haemodialysis patients at high risk of vascular accidents. A role for apolipoprotein E isotypes was looked for in a small, but rigorously defined, cohort of longterm haemodialysis patients. In individuals with high vascular risk, as identified by higher common carotid intima/media thickness, we found an excess of apolipoprotein E4 alleles. This preliminary result requires confirmation in large patient cohorts.