Downregulation of hsp22 gene expression in Drosophila melanogaster from sites located near chemical plants.

A common physiological response of organisms to environmental conditions is variation in gene expression, especially true for genes encoding for heat shock proteins. In insects, this process has been examined for induced heat or cold stress. The putative long-term imprinted/acquired heat shock protein response due to unfriendly environmental conditions has been far less studied. The Drosophila melanogaster hsp22 gene, which has been extensively reviewed as being sensitive to different changing life conditions, was examined by qRT-PCR, using carboxy-X-rhodamine. In the present study, we focused on the detection of hsp22 level of transcription in three D. melanogaster isolates, collected from sites located near different chemical plants in Romania and subjected to one-year adaptation to laboratory conditions. In all isolates, the hsp22 gene expression was determined using the housekeeping genes Gapdh1 and UbcD10 as internal controls. According to our experimental results, the D. melanogaster hsp22 gene was significantly downregulated compared to the same gene in w(1118)iso, used as a calibrator. We showed that hsp22 could play an important role in relation to stress resistance and adaptation. This study highlights the importance of in vivo studies to demonstrate genome plasticity to overcome different damages induced by any presumed source of stress.

Purification and characterization of a bacteriocin produced by Lactobacillus acidophilus IBB 801.

Lactobacillus acidophilus IBB 801 produces a small bacteriocin, designated acidophilin 801, with an estimated molecular mass of less than 6.5 kDa. It displays a narrow inhibitory spectrum (only related lactobacilli but including the Gram-negative pathogenic bacteria Escherichia coli Row and Salmonella panama 1467) with a bactericidal activity. The antimicrobial activity of cell-free culture supernatant fluid was insensitive to catalase but sensitive to proteolytic enzymes such as trypsin, proteinase K and pronase, heat-stable (30 min at 121 degrees C), and maintained in a wide pH range. The proteinaceous compound was isolated from cell-free culture supernatant fluid and purified. Crude bacteriocin was isolated as a floating pellicle after ammonium sulphate precipitation (40% saturation) and partially purified by extraction/precipitation with chloroform/methanol (2/1, v/v). Further purification to homogeneity was performed by reversed phase Fast Performance Liquid Chromatography. The amino acid composition was determined. Amino acid sequencing revealed that the N-terminal end was blocked.

Plasma proteins as biomarkers of the aging process.

This study was designed to characterize the rat serum proteins as biomarkers of the normal aging process. Crossed immunoelectrophoresis or electroimmunodiffusion quantitation of proteins was performed in rats aged 6, 12, 24, and 30 mo. Selection of healthy animals was based on confrontation of crossed immunoelectrophoresis patterns with those of experimentally inflamed young adults and with individual anatomopathological data. Convergence of inflammatory patterns and severe histological lesions was the exclusion criterion. Senescence-induced decrease was demonstrated for eight proteins [negative senescence reactants (SRs-)] and increase for six proteins [positive SRs (SRs+)]. Most SRs belonged to the class of proteins responsive to acute inflammation [acute phase reactants (APRs)]. One SR+, the thyroxine-binding globulin, a high-affinity thyroid hormone binder, emerged as a particularly reliable senescence biomarker, showing the highest aging-related variation (8-fold increase from 6 to 30 mo) and not belonging to the APR class. Chronic treatment with perindopril, an angiotensin I-converting enzyme inhibitor used in heart and renal disease therapy, significantly enhanced thyroxine-binding capacity, possibly by preventing age-related alterations of serum lipids. Serum protein patterns prove valuable both as indexes for selecting aging animals free from superimposed pathologies and as parameters of senescence-induced changes in protein biosynthesis.

Regulation of rat thyroxine-binding globulin and transthyretin: studies in thyroidectomized and hypophysectomized rats given tri-iodothyronine or/and growth hormone.

We have investigated the role of the thyroid compared with the hypophysis in the regulation of the two saturable thyroid hormone carriers of rat serum, thyroxine-binding globulin (TBG) and transthyretin (TTR). We examined, at serum and hepatic mRNA level, the responses of TBG and TTR to thyroidectomy (Tx), hypophysectomy (Hx) and replacement treatments with tri-iodothyronine (T3) or/and GH, both hormones which are depleted when the thyroid or hypophysis are removed. The studies were performed on male rats at the age of 8 weeks, when the developmentally regulated TBG becomes undetectable after its transient postnatal rise, while the nondevelopmentally regulated TTR presents its normal, age-independent level of expression. Tx-induced TBG re-expression was completely reversed by T3 replacement and unresponsive to GH replacement. TTR in the serum, on the other hand, was not affected by Tx or T3 replacement, moderately reduced by Tx in terms of the amount of mRNA, and markedly reduced by GH replacement. GH treatment, moreover, inhibited the expression of TTR in euthyroid controls. Hx, like Tx, induced TBG re-expression, an effect efficiently antagonized by T3 replacement. However, TBG synthesis was higher in Hx than in Tx rats and less effectively antagonized by T3 replacement. Most unexpectedly, GH induced a dramatic further increase in TBG synthesis, and the TBG synthesized in the GH-replaced Hx rats was entirely resistant to down-regulation by T3 replacement. TTR was markedly decreased at both serum and hepatic levels by Hx, unaffected by T3 and further decreased by GH replacement.(ABSTRACT TRUNCATED AT 250 WORDS)

Re-expression of thyroxine-binding globulin in post-weaning rats during protein or energy malnutrition.

Thyroxine-binding globulin, the highest affinity thyroid hormone binder of rat serum, was studied during 28 days of dietary protein restriction (6% protein vs 18% protein in isocaloric control diet) or energy restriction (60% intake of control diet). Studies were performed on male rats aged four weeks at the beginning of experiments: the animals had reached the ontogenic stage when the thyroxine-binding globulin had declined, after its high postnatal surge, to undetectable levels. Short-term administration (seven days) of one or the other restricted diet similarly induced resynthesis of the protein. Its serum concentrations reached 26-46% of those measured in eight-day pups (peak of the neonatal surge) and its liver mRNAs showed corresponding enhanced signals. Serum T4 binding activities were increased, although concomitantly transthyretin, second specific T4 carrier of the rat serum, decreased markedly (65-75% of controls) in response to the dietary restrictions. Longer-term diet administration (14 or 28 days) resulted in the further increase of the thyroxine-binding globulin in the protein-restricted rats, in contrast to its decline and eventual disappearance in the energy-restricted animals. Protein restriction was associated with increased total and free T3 serum concentrations, in contrast to energy restriction which little affected these parameters. These studies reveal rat thyroxine-binding globulin as a positive (increasing), highly sensitive reactant of malnutrition, able to discriminate between energy deficiency and composition dysequilibrium of diets. They suggest that up-regulation of its synthesis in the two dietary models involves differential mechanisms.

Structural and functional microheterogeneity of rat thyroxine-binding globulin during ontogenesis.

Thyroxine-binding globulin (TBG), the major carrier of thyroid hormones in human and murine sera, is in the rat a developmentally regulated protein, showing a large surge during post-natal growth followed by virtual disappearance in adults. Here we study as a function of age, from the 19-day embryo to 60 days after birth, the structural and binding characteristics of rat TBG microheterogeneity. Serum obtained throughout development, when pre-incubated with 125I-thyroxine (T4), was shown by isoelectric focusing (IEF; pH range 4-5) to contain six labelled isoforms of TBG, with isoelectric points between 4.25 and 4.55. These isoforms differ in their sialic acid content. The relative labelling densities of the isoforms show age-related changes: in neonates, the bulk of T4 is bound to the most alkaline (least sialylated) TBG isoforms; then, with advancing age, it shifts to the most acidic isoforms. To understand whether this progressive transfer of ligand reflects developmental changes in the relative abundance of isoforms, we submitted sera from rats of different ages to crossed immunoelectrofocusing analysis. We demonstrate that the relative proportions of the TBG isoforms remain fairly constant, independent of the level of total TBG. The most acidic forms always represented the majority (approximately 50%), with the most alkaline ones only representing 15% of total TBG. Experiments based on IEF of charcoal-treated sera, supplemented or not with lipidic serum extracts, further demonstrate that the paradoxical low labelling seen in the neonates for the most abundant highly sialylated isoforms is due to inhibition of their binding abilities by liposoluble components, which are particularly concentrated in the sera at the earlier post-natal ages. These studies represent the first analysis of concentration versus binding functions of rat TBG isoforms in the physiological conditions of normal ontogeny. Our results point to an important influence for the serum environment on the binding properties of TBG isoforms. The physiological significance of such interactions remains to be clarified.

The pituitary control of rat thyroxine binding globulin.

Thyroxine-binding globulin (TBG) is in the rat a developmentally regulated protein, actively synthesized in postnatal developing pups and in aging animals, but undetectable in adults. Experimental depletion of thyroid hormones (TH) in adults by thyroidectomy (Tx) or by hypophysectomy (Hx) results in marked reexpression of TBG synthesis. T3 replacement in both cases antagonizes this effect, though only moderately in Hx rats. These observations point to a regulatory pathway of TBG synthesis common to TX and Hx rats, characterized by an inverse relationship between TBG and TH levels. However, along with this thyroid-dependent TBG regulation, important differences between Tx and Hx rats are evidenced, pointing to specific pituitary factors of TBG control. The most striking difference concerns the effect of growth hormone (GH) replacement: the TBG of Tx rats is not affected, in contrast to that of Hx rats which is further increased by GH administration. The TBG response of the GH-treated Hx rats, which is strongly resistant to inhibition by T3, might involve deshomeostasis of GH-controlled functions not necessarily linked to the thyroid, e.g. the pancreatic functions regulating carbohydrate or lipid metabolism. In the light of these studies, it may be envisaged that the high surge of rat TBG during postnatal development involves a transient sensitivity of the TBG gene to stimulation by endogenous GH, and that this sensitivity lasts until functional maturity of the hypothalamic-pituitary-thyroid axis has been achieved.

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, but actively transcribed during post-natal development. We now find that the TBG gene is also increasingly re-expressed during senescence. Evidence is presented suggesting that physiologically decreased thyroid hormone levels, characteristic of neonates and of ageing rats, might constitute 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.

Immunological quantitation of rat and mouse thyroxine-binding globulins. Ontogenesis and sex-dependence of the circulating levels of the thyroxine-binding globulins.

We describe the preparation of monospecific antisera against a thyroxine-binding globulin partially purified from immature rat sera by affinity chromatography on thyroxine-Sepharose. The antisera are used for the rocket immunoelectrophoresis assay of rat thyroxine-binding globulin and also, owing to their partial cross-reactivity with mouse thyroxine-binding globulin, for the quantitation of this serum binding protein in the mouse. The thyroxine-binding globulin is measured in developing rats and in sexually mature male and female rats and mice. The results of the ontogenetic study confirm the postnatal surge of serum thyroxine-binding globulin levels, formerly demonstrated with binding techniques. They allow further to define the correlations, dependent on age, of the immunoquantitated thyroxine-binding globulin and transthyretin levels with the abilities of the sera to bind thyroxine. In sexually mature rats and mice we demonstrate an opposite sex-dependence of thyroxine-binding globulin levels, characterized by increased levels of the protein in the female rats versus increased levels of the protein in the male mice. This is the first report of immunological quantitation of rat and mouse thyroxine-binding globulins.

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.

The hepatic biosynthesis of rat thyroxine binding globulin (TBG): demonstration, ontogenesis, and up-regulation in experimental hypothyroidism.

Using a human thyroxine binding globulin (TBG) cDNA probe, we demonstrate that rat liver contains two TBG mRNA species of different length, consisting of about 1.8 Kb and 2.4 Kb respectively. Slot blot analysis of the hepatic mRNAs from rats of different age reveals a fair correlation between the developmental trend of the messengers and that of the TBG circulating levels. Finally Northern blot and slot studies demonstrate that the increase of serum TBG induced in adults by thyroidectomy actually reflects an enhanced hepatic biosynthesis of the protein.

Effect of adrenalectomy at different pregnancy stages on maternal and fetal serum corticosteroid binding globulin and corticosterone in the rat.

The response of pregnant rat corticosteroid binding globulin to maternal adrenalectomy was studied as a function of the stage of pregnancy. Non-pregnant or pregnant rats were deprived of their adrenal glands during 4 days. In non-pregnant animals, adrenalectomy led to undetectable corticosterone levels and to the doubling of corticosteroid binding globulin. In pregnant rats adrenalectomized at 12 days and studied at 16 days, the serum corticosterone was likewise undetectable and the corticosteroid binding globulin was doubled as compared with pregnant rats of the corresponding age. In contrast, adrenalectomy from day 14 to 18 or from day 16 to 20 did not deplete the maternal serum corticosterone and the corticosteroid binding globulin remained unchanged. Under these conditions neither fetal corticosteroid binding globulin nor fetal corticosterone were modified. However, when the pregnant rats adrenalectomized from day 16 to 20 also received an injection of 30 mg of metyrapone on days 19 and 20 in order to inhibit fetal adrenal secretion, the maternal response was again a depletion of serum corticosterone together with an increase in corticosteroid binding globulin. Under these conditions, the fetus also reacted by a fall of corticosterone and a rise of corticosteroid binding globulin. Our results suggest that the maternal response of corticosteroid binding globulin to adrenalectomy depends on the pregnancy stage inasmuch as it may be influenced by a supply of corticosterone from the fetus during late pregnancy. Moreover, they show that in this late period, fetal corticosteroid binding globulin is regulated independently.

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.

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.

The microheterogeneity of rat TBG.

Isoelectric focusing (IEF) of native sera from immature or adult rats and of purified or partially purified rat serum thyroid hormone-binding proteins, demonstrates that rat TBG is a microheterogeneous protein. Autoradiography and radioactivity scans of the IEF plates show that it consists of at least four main isoforms, with bands at pH 4.35, 4.45, 4.5 and 4.55. This pattern is remarkably similar to that reported for human TBG. This is the first demonstration of the polymorphism of this recently discovered major binding protein of the rat.

Inflammatory competence of fetal rat: acute-phase plasma protein response of the fetus treated by turpentine in utero.

Using crossed immunoelectrophoresis, immunoelectrodiffusion, autoradiography, and equilibrium binding techniques, we demonstrate that the rat fetus, directly challenged in utero at 18 days by a single subcutaneous turpentine injection, presents a complex acute-phase plasma inflammatory response. A number of fetal serum proteins, 48 h after the injection, increase in concentration by factors of about 2-5. These positive acute-phase reactants (APR) are alpha 1-acute-phase globulin (alpha 1-AP), alpha 2-macroglobulin (alpha 2-M), alpha 1-acid glycoprotein (alpha 1-AG), haptoglobin (Hp), and hemopexin (Hpx). A number of proteins decrease, behaving like negative APRs. These are albumin, alpha 1-fetoprotein (AFP), transferrin, GHR-P63, thyroxine-binding prealbumin (TBPA), and transcortin (CBG). The marked fall in concentration of two of the high-affinity hormone-binding proteins of the fetal rat, i.e., the estrophilic AFP and TBPA, induce significant decreases (by 25-40%) of the estrogen- and thyroxine-binding abilities of the fetal serum. While the plasma inflammatory response of the fetus is qualitatively similar to that of the adult, the fetal reactions are, as a rule, quantitatively weaker. The characteristics of the plasma inflammatory response of the fetus are discussed in relation to the highly dynamic state of its development.

[A thyroxine-binding globulin of major biological significance in the serum of mice: demonstration and ontogenesis]. / Une globuline liant la thyroxine de signification biologique majeure (thyroxine binding globulin, TBG) dans le sérum de souris: démonstration et ontogenèse.

We demonstrate in the mouse serum a hitherto unrecognized major thyroxine binding globulin (TBG), analogous to human TBG or to the recently discovered rat TBG. Our demonstration is based on equilibrium dialysis, electrophoresis, immunoelectrodiffusion and autoradiography techniques. Mouse TBG displays a remarkable ontogenic pattern, with 2-3 times higher activity in foetal than in maternal serum, and a further dramatic increase after birth. Between 1 and 5 days, the T4 binding to serum reaches peak levels 7-10 times more elevated than those measured in normal or pregnant adults. We also present for the first time the ontogenesis of the thyroxine binding prealbumin (TBPA), considered until now as the only specific T4 carrier of the murine species. We show that throughout development it is the TBG, not the TBPA, which crucially governs the level of the T4-serum interactions.

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.

alpha-Fetoprotein and transcortin behave as acute phase reactants in the maternal and fetal compartments of the inflammatory pregnant mouse.

Immunological and binding methods have been used to demonstrate that acute inflammation induced in the pregnant mouse by a single sc turpentine injection elicits plasma protein responses in the fetal as well as in the maternal compartment. The maternal response involves, along with the classical pattern of positive and negative acute phase reactants seen in the inflammatory nonpregnant animal, a highly specific approximately 2-fold increase of alpha-fetoprotein (AFP) concentrations. In addition, the high pregnancy-associated corticosteroid binding globulin (CBG) levels drop dramatically (2-3 times) in response to inflammation. The fetal response is characterized by small (10-25%) but statistically significant declines of AFP, CBG, and albumin concentrations, without any increase in levels of the positive classical acute phase reactants. The divergent responses of the estrophilic mouse AFP on the two sides of the placental barrier result in a 3- to 4-fold enrichment of the maternal serum vs. an approximately 20% impoverishment of the fetal serum in high affinity estrogen binding sites. The similar decrease in levels of CBG in mother and fetus leads to marked losses of high affinity corticosteroid sites for both. Neither the affinity constants for the estrogen-AFP interactions nor those for the corticosterone-CBG interactions are affected by inflammation. This is the first report of AFP as a positive marker of acute inflammation, of AFP as a pregnancy-specific inflammatory reactant in the mouse, and of a plasma protein response of the fetus in utero to an inflammatory stress undergone by the mother.