Molecular cloning and primary structure of rat thyroxine-binding globulin

Rat thyroxine-binding globulin (TBG) cDNAs were isolated from a rat liver cDNA library by using a human TBG cDNA as a probe. From two overlapping cDNA inserts, an aligned cDNA sequence of 1714 nucleotides was obtained. There was 70% homology with human TBG cDNA over the span of 1526 nucleotides. In order to confirm that the cloned cDNA encodes rat TBG and to localize the NH2-terminal amino acid of the mature molecule, the protein was purified by affinity chromatography and subjected to direct protein microsequencing. The NH2-terminal amino acid sequence was identical with that deduced from the nucleotide sequence. The rat TBG cDNA sequenced consisted of a truncated leader sequence (35 nucleotides), the complete sequence encoding the mature protein (1194 nucleotides) and the 3'-untranslated region (485 nucleotides), containing two polyadenylation signals. It was deduced that rat TBG consists of 398 amino acids (Mr = 44,607), three NH2-terminal residues more than human TBG, with which it shares 76% homology in primary structure. Of the six potential N-glycosylation sites, four are located in conserved positions compared to human TBG. Northern blot analysis of rat liver revealed an approximately 1.8-kilobase TBG mRNA. Its amount increased markedly following thyroidectomy and decreased with thyroxine treatment in a dose-dependent manner.     

Polymorphism of human thyroxine binding serum globulin (TBG); existence of a new form of serum protein without detectable triiodothyronine binding power

Two kinds of TBG polymorphism are described in human, one found in deglycosylated TBG from individual blood donors, the other is a genetically determined polymorphism. TBG from plasma samples from a patient with toxic goiter, not autoimmune, (p)TBG, from the patient's mother (m)TBG and from individual donors (n)TBG, were labeled with [125I]T4 or [125I]T3 and submitted to isoelectric focusing (IEF), followed by autoradiography. Three faint [125I]T4 radiolabeled bands were detectable in (p)TBG while four strong [125I]T4 radiolabeled bands were detectable in (m)TBG and (n)TBG), respectively. IEF of the [125I]T3 incubated serum samples resulted in no detectable isoelectric radiolabeled band for (p)TBG while a normal pattern was found in (m)TBG and in (n)TBG, respectively. These data suggest a new intraindividual not linked to sexual chromosome X polymorphism characterized by a loss in hormone binding.     

Effect of estrogen on the synthesis and secretion of thyroxine-binding globulin by a human hepatoma cell line, Hep G2

Hyperestrogenemia in humans increases both the concentration of serum T4-binding globulin (TBG) by 2- to 3-fold and the proportion having anodal mobility on isoelectric focusing (IEF). As TBG is synthesized in the liver, we studied the effect of estrogen on TBG synthesis, secretion, and degradation by cultured human hepatocarcinoma cells (Hep G2). beta-Estradiol in concentrations in the range found in pregnancy (10(-7) M) had no effect on the accumulation of immunoreactive TBG in medium over 4 days. The absence of fetal calf serum or phenol red did not alter these findings. The amount of [35S]TBG accumulated 6 h after addition of [35S]methionine was not influenced by exposure to estrogen or to serum obtained from pregnant women. However, 10(-5) M beta-estradiol suppressed TBG more severely than albumin synthesis (34% vs. 9%). The lack of an estrogen effect on TBG synthesis and secretion was supported by experiments showing no effect of estrogen on the disappearance of TBG added to the medium or the accumulation of cytoplasmic TBG mRNA. The same cultures responded to estrogen by a 10-fold increase in nuclear estrogen receptor binding sites and a 2-fold increase in apolipoprotein CII. As TBG in serum, the rate of heat denaturation was not altered in TBG synthesized by Hep G2 cells in the presence of estrogen. In contrast to the effect on TBG in serum, in Hep G2 cells estrogen did not produce an anodal shift on IEF, or increased its proportion not bound to Concanavalin A, nor reduced its clearance rate when injected into rats. However, even untreated Hep G2 cells synthesized TBG with a larger number of anodal IEF bands and proportion of Concanavalin A excluded material than TBG in pregnancy serum. Results support our hypothesis, based on analysis of TBG in pregnancy, that estrogen-induced serum TBG elevation may not be mediated through an increase in synthesis. The failure to observe estrogen induced changes in oligosaccharide structure does not exclude estrogen responsivity of Hep G2 cells. Such effect could be masked by the marked constitutive increase in number of oligosaccharide chain antennae typical in this and other neoplastic tissues.     

Thyroxine-binding globulin and thyroxine-binding prealbumin in hypothyroid and hyperthyroid developing rats

We present evidence based on equilibrium and non-equilibrium binding studies, as well as on immunological techniques, that of the two rat specific thyroid-hormone-binding proteins, i.e., thyroxine-binding globulin (TBG) and thyroxine-binding prealbumin (TBPA), TBG but not TBPA is regulated by the thyroid hormones (TH). Hypothyroidism, induced from the day of birth by daily treatment with propylthiouracil (PTU-rats), leads to dramatic and sustained increases of the TH-binding abilities of the sera measured at equilibrium, whereas hyperthyroidism, induced by treatment with thyroxine (T4-rats), leads to the decrease of these abilities. Polyacrylamide gel electrophoresis and isoelectrofocalisation of radioiodinated T4-labelled sera, together with immunoassay of TBPA, demonstrate that both effects are due to TBG, the levels of which rise in PTU-rats and decline in T4-rats, while TBPA levels do not respond to either depletion or excess of the thyroid hormones. TBG rather than TBPA appears as the key thyroid-hormone-binding protein of the rat, inasmuch as it alone expresses a regulatory function of the thyroid hormones at protein synthesis level.     

Analysis of rat serum apolipoproteins by isoelectric focusing. I. Studies on the middle molecular weight subunits.

Analytical isoelectric focusing (IEF) has been applied to the study of the apolipoprotein components of rat serum high density and very low density lipoproteins. The apolipoproteins were separated on 7.5% polyacrylamide gels containing 6.8% urea, with a pH gradient of 4-6. The middle molecular weight range apolipoproteins were identified on IEF gels by the use of apolipoproteins purified by electrophoresis on gels containing sodium dodecyl sulfate (SDS). The A-1 protein focused as 4 to 5 bands from pH 5.46 to 5.82; the A-IV protein and the arginine-rich protein each focused as 4 to 6 bands from pH 5.31 to 5.46. The low molecular weight proteins focused from pH. 4.43 to 4.83 and are the subject of a separate communication. Comparisons of the IEF method with SDS gel electrophoresis, polyacrylamide gel electrophoresis in urea, and Sephadex chromatography are also reported. Additional studies were also carried out that tend to rule out carbamylation or incomplete unfolding of the proteins in the presence of urea as the causes of the observed heterogeneity.     

Purification and characterization of rat hepatic microsomal low molecular weight fatty acid ethyl ester synthase and its relationship to carboxylesterases.

We reported purification of a high molecular weight (HMW) (ca. 180 kD) and a low molecular weight (LMW) (ca. 60 kD) protein fractions from digitonized rat liver microsomes using ammonium sulfate precipitation followed by ion exchange and gel filtration column chromatography. Both fractions expressed fatty acid ethyl ester (FAEE) synthase as well as p-nitrophenyl acetate (PNPA)-hydrolyzing (esterase) activities. The HMW fraction was found to be a trimer with subunit molecular weight ca. 60 kD and structurally and functionally similar to rat hepatic microsomal carboxylesterase (CE, pI 6.1) and adipose tissue FAEE synthase. In this article, we report further purification and characterization of the LMW (minor) fraction expressing FAEE synthase activity and its structural and functional relationship to hepatic microsomal CEs. Using isoelectric focusing (IEF) followed by gel filtration-high-performance liquid chromatography (GF-HPLC), five proteins were purified, which expressed FAEE synthase as well as PNPA-hydrolyzing activity. The isoelectric point values of 6.5, 5.8, 5.6, 5.3, and 5.0 were found for the purified LMW proteins by IEF and each showed a peak corresponding to ca. 60 kD molecular weight by GF-HPLC, which expressed FAEE synthase as well as PNPA-hydrolyzing activity. Sodium dodecyl sulfate-polyacrylamide gel elecrophoresis (SDS-PAGE) analysis of the GF-HPLC purified LMW proteins revealed that these proteins are monomers (ca. 60 kD). All the purified LMW proteins cross-reacted with antibodies to rat adipose tissue FAEE synthase. Coelution of PNPA-hydrolyzing and FAEE synthase activity at each step of purification and cross-reactivity with rat adipose tissue FAEE synthase antibodies suggest that the purified proteins are related to various hepatic microsomal CEs. This conclusion is further supported by the homology of N-terminal amino acid sequence of the purified LMW proteins to various hepatic microsomal CEs and protease precursors. Therefore, LMW FAEE synthase activity most probably is expressed by various isozymes of hepatic microsomal CEs, which are also involved in the biotransformation of xenobiotic alcohols and amines.     

Comparison of the action of the sera of pregnant women and of trophoblastic beta 1-glycoprotein in a number of immunological tests

The effects of blood sera of pregnant women in the I, II and III trimesters (SPWI, SPWII, SPWIII) were compared with those of purified preparations of trophoblastic beta 1-glycoproteid (TBG) on phytohemagglutinin (PHA) induced proliferative response of lymphocytes of the intact donors and on the production of a factor inhibiting the migration of leucocytes (FIM-L). SPWI and purified TBG preparations in doses corresponding to its level in SPWI were shown to produce similar effects. With the increase of TBG concentration, however, the inhibiting effect of its preparations on the proliferation of lymphocytes increased much more intensively than that of SPWII and SPWIII containing the same dose of this protein. The stimulating effect of TBG on the production of FIM-L increased with the dose as well while SPWII and SPWIII did not exert any effect on the migration of leucocytes. A suggestion is put forward that SPWII and SPWIII contain factors modifying the effect of TBG.     

Characterization of human thyroxine-binding globulin. Evidence for a single polypeptide chain.

Thyroxine-binding globulin (TBG) was purified from fresh human plasma by affinity, anion exchange, and gel filtration chromatography. The protein gave a single band in overloaded analytical disc gel electrophoresis. The molecular weight was 54,000 and E1%/1 cm at 280 nm, corrected for thyroxine (T4) absorbance, was 6.17. Six preparations of TBG contained from 0.09 to 0.64 mol of T4/mol; the TBG used in this study contained 0.19 mol of T4 and was able to bind an additional 0.85 mol. The carbohydrate composition was determined and accounted for 23% of the molecular weight. Four lines of chemical and physical evidence failed to demonstrate subunits. These included quantitative COOH-terminal amino acid analysis, peptide mapping and amino acid composition, treatment with sodium dodecyl sulfate, and denaturation of the reduced, alkylated protein with guanidine. From these data, we conclude that TBG is a single polypeptide chain.     

Demonstration and ontogenesis in the rat of a serum protein analogous to human thyroxine binding globulin

It has been reported evidence based on equilibrium binding, electrophoretic, immunoelectrophoretic studies, that the rat possesses a major high affinity thyroid hormone binding protein, with an electrophoretic mobility and binding properties similar to those of the human thyroxine binding globulin (TBG). It is shown that in the sera of postnatal developing animals, between 3 and 21 days, the thyroxine (T4) and the triiodothyronine (T3) binding activities increase up to 10 times over adult or foetal levels, due to a high transient post-natal surge of the rat TBG. In the adult serum, the TBG persists in decreased amounts: it then yields the predominant role as T4 carrier to the thyroid binding prealbumin (TBPA), but retains the major role as binder of T3, i.e. of the biologically active thyroid hormone.     

Affinity chromatography of thyroxine-binding proteins from human serum

The affinity matrix prepared by the attachment of L-thyroxine (T4) to epichlorohydrine-activated Sepharose 4B biospecifically absorbs the T4-binding globulin (TBG), 25K and 80/27K proteins, immunoglobulin G (IgG) and albumin (HSA) from human normal and retroplacental sera. The absorbed protein patterns were shown to depend on the immobilized T4 concentration, pH, temperature and incubation time. The potent eluents desorbing 85-100% of the protein are 1 mM NaOH, 3 M NH4SCN, 10(-5) M T4 or 3 mM 8-anilinonaphthalene-1-sulfonic acid (ANS) for TBG; NaOH, NH4SCN, 3 mM MgCl2 or 12mM sodium cholate for 25K protein and HSA; NaOH, NH4SCN or MgCl2 for the 80/27K and 25K proteins and IgG. Moreover, T4 desorbs small amounts (6-8%) of the 80/27K and 25K proteins, while sodium cholate elutes about 6% of TBG. The eluted from T4-Sepharose 4B and further purified TBG, 25K and 80/27K proteins display different [125I]T4-binding activities within the pH range from 2 to 9 and differ by their resistance to thermal inactivation at 50-80 degrees C. Double radial immunodiffusion analysis with the use of antisera to TBG, 25K, 80/27K, HSA and IgG demonstrated that the proteins share no common antigenic determinants. It was concluded that the novel 25K and 80/27K proteins represent endogenous components of the human blood thyroid hormone-binding protein system rather than fragments or aggregates of the known T4-binding proteins.     

Effect of structural changes in thyroxine-binding globulin on its biological activity and immunochemical properties

Using spectroscopic, electrophoretic and microcalorimetric techniques, the changes in the spatial structure of human thyroxine-binding globulin (TBG) induced by exposure of protein solutions to high temperatures (45-90 degrees C) and low pH (2.5-6.0) were studied. Simultaneously the biological activity and immunoreactivity of TBG samples were measured. The structural changes were manifested at 52 degrees C or at pH 4.0 and were then aggravated with a rise in temperature or a decrease of pH. The circular dichroism spectra showed that the molecular ellipticity had a maximum decrease (by 10%) at 218-222 nm. In fluorescence spectra excitable at 280 nm the band half-width increased by 4-6 nm; their intensity decreased by 30-40%, whereas the position of the maxima did not change significantly. After addition of an equimolar amount of thyroxine to inactivated TBG the protein fluorescence was quenched by 25-40%. The electrophoregrams of treated preparations contained additional protein bands possessing no biological activity, whose mobility was less than that of native TBG. Microcalorimetric assays of native TBG revealed a thermoabsorption peak with a maximum at 62.5 degrees C and a half-width of 7.1 degrees C. The thermodynamic parameters of melting of TBG spatial structure were consistent with a model of a two-domain structure of the molecule. The biological activity and immunoreactivity of TBG showed a coordinated decrease with a rise in the degree of protein denaturation, However, the formation of TBG complex with antibodies did not screen the thyroxine-binding center of TBG and did not alter its affinity. Possible mechanisms of structural transition of TBG and its effect on the biological properties of TBG are discussed.     

The isolation, characterization and amino terminal sequence of the vitamin D-binding protein (group specific component) from mouse plasma

1. In order to establish a homologous system in which to study the interaction of mouse vitamin D-binding protein (MVDBP) with mouse T-cell lymphocytes, we purified MVDBP from mouse plasma. 2. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) showed that purified MVDBP had an apparent relative molecular weight of 49,000. 3. Previous work in our laboratory has shown that purified rat vitamin D-binding protein (RVDBP) has an apparent relative molecular weight of 52,000. 4. The amino terminal amino acid sequence of MVDBP is shown below and compared with that of RVDBP. MVDBP: LeuGluArgGlyArgAspTyrGluLysAspLysValCysAsnGluLeuAlaMetLeuGlyLysGlu RVDBP: LeuGluArgGlyArgAspTyrGluLysAspLysValCysGlnGluLeuSerThrLeuGlyLysAsp AspPhe AspPhe While 21 out of 24 residues (87.5%) of the amino terminus of MVDBP are the same as those in RVDBP, residues 14, 17, 18 and 22 (underlined) are different. 5. The sedimentation coefficient of the protein, determined by sucrose density gradient ultracentrifugation, is 3.8 for MVDBP and 4.1 for the rat VDBP. 6. The MVDBP purified in this study exhibits only one isoform on isoelectric focusing; the isoelectric point was 4.87 as determined on pH 4.0-6.5 isoelectric focusing gels (IEF). 7. The binding of vitamin D3, 25-hydroxyvitamin D3 and three other analogs was investigated with a charcoal dextran assay.(ABSTRACT TRUNCATED AT 250 WORDS)     

Soluble and Particulate Forms of Rat Catechol-O-Methyltransferase Distinguished by Gel Electrophoresis and Immune Fixation

Catechol-O-methyltransferase (COMT) was visualized in homogenates and subcellular fractions of rat tissues, including liver and brain, by gel electrophoresis, electrophoretic transfer of proteins to nitrocellulose (Western blotting), and immune fixation with antiserum to highly purified soluble rat liver COMT. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) of all tissue homogenates examined revealed three major immune-specific proteins with apparent molecular weights 23,000, 26,000, and 66,000 (23K, 26K and 66K). Centrifugation of homogenates at 100,000 X g for 60 min resulted in the enrichment of the 26K species protein in the pellet whereas the 23K and 66K proteins were the predominant forms in the supernatant. The 66K protein appeared in variable amounts depending on the tissue being examined and the length of transfer of protein and is assumed to be an "aggregate" of the smaller form(s). The 26K protein was essentially the only immunoreactive species seen in a purified preparation of rat liver outer mitochondrial membrane. Isoelectric focusing (IEF) under denaturing conditions and two-dimensional gel electrophoresis of brain and liver fractions showed that the 23K protein was resolved into three bands of pI 5.1, 5.2, and 5.3, whereas the 26K protein had a pI of 6.2. Analysis of COMT activity in slices from nondenaturing IEF gels indicated that the pI 5.1-5.3 species are biologically active; the pI 6.2 species could not be detected under these conditions. COMT activity was demonstrated, however, in outer mitochondrial membranes from rat liver, which contain predominantly the 26K, pI 6.2 immunoreactive species. The major form of COMT in all rat tissues examined is "soluble" with an apparent Mr of 23K and a pI of 5.2. The nature of the modifications giving rise to pI 5.1 and 5.3 forms of this enzyme are not clear, nor is the relationship between the 23K and 26K forms. Further studies are needed to elucidate the relationship of immunoreactive forms of COMT to each other, their intracellular location, and their functional significance.     

Characterization of a major development-regulated serum thyroxine-binding globulin in the euthyroid mouse.

We confirm our finding of a major development-regulated thyroxine-binding globulin (TBG) in the serum of the euthyroid mouse and investigate a number of its binding, structural and regulatory properties. Between 16 days foetal and 60 days postnatal life, the thyroxine (T4)- and tri-iodothyronine (T3)-binding activities of the sera show a striking ontogenic pattern: the binding is 2-3 times higher in foetuses than in mothers, then further increases after birth, reaching between 3 and 5 days maximum values which are 7-8 times higher than the adult ones. This pattern is not correlated with the ontogenesis of the acknowledged specific (transthyretin, TTR) and non-specific (albumin, alpha 1-foetoprotein) thyroid-hormone carriers of the mouse sera. PAGE studies demonstrate that the protein responsible for the elevated binding of the perinatal period is an alpha 1-globulin, with a migration similar to that of human and rat TBGs. Scatchard analysis is consistent with the notions that the T4-binding sites of TBG have high association constants, about two orders of magnitude above the T4 sites of TTR (10(9) M-1 as against 10(7) M-1) and low capacities (37 and 4 nmol/g of serum proteins in pups and adults respectively). Isoelectric focusing (i.e.f.) demonstrates that mouse TBG is a microheterogeneous protein separable, as a function of the pH gradient, in up to 10-12 isoforms, Marked shifts of the relative abundance of isoforms in the course of development are evidenced. The modulation of the TBG binding activity by non-esterified fatty acids (NEFA) and the control of its synthesis by the thyroid status are also reported. Mono- and poly-unsaturated NEFAs are strong inhibitors of the TBG, although they affect TTR less readily. On the other hand, the biosynthesis and/or secretion of TBG, but not of TTR, is under thyroid-hormone control, experimental hypothyroidism inducing a marked increase of the serum TBG. The TBG of mouse behaves as a highly significant parameter of development, pointing to a likely important function of the protein in the process of maturation. Our finding of major TBGs in both euthyroid rats and mice suggests that TBG is more widely spread than was thought until now, but difficult to detect in certain species outside definite maturation stages.     

Isolation of dipeptidyl peptidase IV (DP 4) isoforms from porcine kidney by preparative isoelectric focusing to improve crystallization

Abstract In the present studies we resolved the post-translational microheterogeneity of purified porcine dipeptidyl peptidase IV (DP 4) from kidney cortex. Applying SDS-homogeneous DP 4 onto an analytical agarose isoelectric focusing (IEF) gel, pH 4-6, activity staining resulted in at least 17 isoforms between pH 4.8-6.0. These could be separated into fractions with only two to six isoforms by means of preparative liquid-phase IEF, using a Rotofor cell. Starting off with three parallel Rotofor runs under the same conditions at pH 5-6, the fractions were pooled according to the specific activity of DP 4, pH and analytical IEF profile, and further refractionated without any additional ampholytes. Since excessive dilution of ampholytes and proteins was kept to the minimum, a second refractionation step could be introduced, resulting in pH gradients between 0.022 and 0.028 pH increments per fraction. By performing two consecutive refractionation steps, the high resolution necessary for the separation of DP 4 isoforms could be achieved. This represents an alternative method if isolation of isoforms with similar pI's results in precipitation and denaturation in presence of a narrow pH range. Furthermore, it demonstrates that preparative IEF is a powerful tool to resolve post-translational microheterogeneity of a purified protein required for crystallization processing.     

Binding activities of thyroxine binding globulin versus thyroxine binding prealbumin in rat sera: differential modulation by thyroid hormone ligands, oleic acid and pharmacological drugs

We use gel equilibration and electrophoretic techniques to compare the binding properties of thyroxine binding globulin and thyroxine binding prealbumin in rat sera. The evidence indicates that TBG bears the serum lowest capacity highest affinity sites for thyroxine (T4) and triiodothyronine (T3) (Ka1 greater than or equal to 10(9) M-1) as well as weaker saturable T3 sites (Ka2 approximately 10(8) M-1). TBPA bears for T4 only Ka2 approximately 10(8) M-1 sites and for T3 only Ka approximately 10(6) M-1 sites. Consistent with these parameters are the specific responses of TBG and TBPA binding activities to varying serum concentrations of T4, T3, oleic acid, the drugs diphenylhydantoin or salicylate. The primary attack of these compounds is aimed at TBG. Small T4, oleate or DPH doses chase the TBG-bound T4 to TBPA, high doses of T4 or oleate but not of DPH inhibiting the T4 binding to both proteins. In the T3-serum interactions, all tested compounds displace the TBG-bound hormone without chasing it to TBPA. The high reactivity of TBG sites designates the protein as crucially involved in modulating the free vs bound serum levels of T4 and T3 against physiological or pathological variations of binding competitors.     

A thyroxine binding globulin (TBG)-like protein in the sera of developing and adult rats

We report evidence based on equilibrium binding, electrophoretic, autoradiographic studies, that the rat possesses a major high affinity thyroid hormone binding protein, with an electrophoretic mobility and binding properties similar to those of the human thyroxine binding globulin (TBG). We show that in the sera of postnatal developing animals, the thyroxine and the triiodothyronine binding activities increase up to 10 times over adult or foetal levels, due to a high transient post-natal surge of the rat TBG. In the adult serum, the TBG persists in decreased amounts: it then yields the predominant role as thyroxine carrier to the thyroid binding prealbumin, but retains the major role as binder of triiodothyronine i.e. of the biologically active thyroid hormone.     

Detection of 10 variants of biliverdin reductase in rat liver by two-dimensional gel electrophoresis

We have identified and characterized multiple forms of biliverdin reductase (BVR) in control rat liver cytosol. Two-dimensional electrophoresis of the purified BVR resolved a minimum of 10 discrete protein zones. All 10 proteins were BVR as judged by immunological cross-reactivity toward rabbit anti-rat BVR. Based on the isoelectric focusing pattern of separation, the BVR variants could be organized into five net-charge groups designated as BVR-IEF1 to BVR-IEF5 and three molecular mass groups designated as BVR-MW1-BVR-MW3, respectively. The pI values of the net-charge groups were: BVR-IEF1, 6.23; IEF2, 5.91; IEF3, 5.76; IEF4, 5.61; IEF5, 5.48. The Mr values of the molecular mass groups were: BVR-MW1, 30,400; MW2, 30,700; MW3, 31,400. Single dimension slab gel isoelectric focusing offered greater resolution of the net charge variants, and BVR-IEF3 was further resolved into two variants, IEF3a and IEF3b, with pIs of 5.77 and 5.75, respectively. The six net-charge variants also resolved on a preparative chromatofocusing column and were designated as BVR-CF1-BVR-CF6. The pH values of the peak fractions were: BVR-CF1, 6.91; CF2, 6.33; CF3, 6.03; CF4, 5.82; CF5, 5.45; CF6, 5.27. Correspondence between the isoelectric focusing net-charge variants and the chromatofocusing net-charge variants was established. The Mr and net-charge variants did not represent partially degraded forms of biliverdin reductase produced during purification since the pattern of resolution of variants on slab gel isoelectric focusing or two-dimensional electrophoresis did not change by purifying the proteins in the presence of protease inhibitors and 5 mM EDTA. BVR-CF2 and BVR-CF4 were purified and examined for pH-dependent cofactor requirements for activity. Both net-charge variants and two pH optima that were cofactor-dependent; maximum activity with NADPH, however, was at pH 8.5 and with NADH at pH 6.7. With both variants, however, a higher catalytic rate was observed with NADH than with NADPH at their respective pH optima. Furthermore, BVR-CF2 exhibited a higher catalytic rate than did BVR-CF4 with either cofactor throughout the pH range of 5-9.     

A senescence up-regulated protein: the rat thyroxine-binding globulin (TBG)

Thyroxine-binding globulin (TBG), the major carrier of thyroid hormones in human serum, was thought to be absent in most species, including rodents. We demonstrated recently that in fact the rat possesses a TBG gene, virtually non-expressed in young adults, bu actively transcribed during post-natal development. We now find that the TBG gene is als increasingly re-expressed during senescence. Evidence is presented suggesting that physiologically decreased thyroid hormone levels, characteristic of neonates and of ageing rats, might consitute a common factor inducing up-regulation of TBG in both developmental and ageing processes. Rat TBG is to our knowledge the first biochemical ‘positive’ (i.e increasing) marker of non-pathological senescence, expressed at both biosynthetic and bloodstream levels.     

Molecular cloning and expression of a transformation-sensitive human protein containing the TPR motif and sharing identity to the stress-inducible yeast protein STI1.

A transformation-sensitive human protein (IEF SSP 3521) that is 2-fold up-regulated in SV40-transformed MRC-5 fibroblasts has been purified by two-dimensional gel electrophoresis, microsequenced, and cDNA cloned using oligodeoxyribonucleotides. The 2.1-kilobase cDNA encodes a 543-amino acid protein with a calculated molecular mass of 62.6 kDa and a calculated pI of 6.77. Expression of the cDNA in AMA cells using the vaccinia virus expression system followed by two-dimensional gel electrophoresis showed that the protein comigrated with IEF SSP 3521. The protein contains the tetratricopeptide repeat found in families of fungal proteins required for mitosis and RNA synthesis. In particular, the protein has 42% amino acid sequence identity to STI1, a stress-inducible mediator of the heat shock response in Saccharomyces cerevisiae. Northern blot analysis indicated that the 3521 mRNA is up-regulated in several transformed cells. Immunofluorescence studies using a polyclonal antibody raised against the purified protein revealed that the antigen is present mainly in the nucleus of SV40 transformed MRC-5 fibroblasts, while it localizes to the Golgi apparatus and small vesicles in their normal counterparts. The possible physiological role of IEF SSP 3521 is discussed in the light of the structural relationship with STI1.