Immunoreactive and bioactive isoforms of human thyrotropin.

Isoforms of intrapituitary human TSH were separated by gel isoelectrofocusing, and their immunoreactivity analyzed by subsequent immunoblotting using polyclonal and monoclonal antibodies. Under these conditions, TSH polymorphism could be resolved as seven major isoforms (pI 8.6, 8.3, 8.0, 7.5, 7.0, 6.5, and 6.0) by both silver staining of the gels and binding to anti-TSH polyclonal antibodies. The distribution pattern of these forms appeared totally distinct from that of individual TSH alpha (pI 8.8, 8.4, 8.2, 7.6, 7.4, 6.8, 6.6, 5.8, and 5.4) and TSH beta (pI 8.7, 8.1, 7.2, 6.8, 6.2, and 5.8) subunits. While most anti-TSH polyclonal antibodies recognized neutral and alkaline isoforms of TSH (pI 8.6, 8.3, 8.0, 7.5, 7.0, 6.5, and 6.0) through beta determinants, they displayed a variable potency to bind acidic forms of the hormone (pI 5.8, 5.5, 4.8, and 4.5), in contrast to anti-TSH alpha antisera, which enlighted the broadest spectrum of isoforms. Monoclonal antibodies of various specificities largely reproduced this distribution, indicating that at least five distinct epitopes are coexpressed in the neutral and alkaline forms of TSH, but only two are expressed in the acidic ones. All of the forms were found to induce cAMP production and stimulate growth of FRTL-5 rat thyroid cells, although neutral forms proved to be definitely less potent than the others. We therefore, conclude that TSH isoforms differ in the expression of both their immunoreactive and bioactive domains and that the bioactive/immunoreactive ratio is not an accurate index for the biopotency of the hormone.

On the relationship between completion of N-acetyllactosamine oligosaccharide units and iodine content of thyroglobulin: a reinvestigation.

Lack of completion of N-acetyllactosamine-type glycosylation on thyroglobulin (Tg) has been implicitly considered as an etiological factor of some thyroid disorders, i.e. goiter and hypothyroidism. However, there is some evidence that Tg with incompletely processed N-acetyllactosamine glycans occurs in the normal gland. Recent findings demonstrated that exposed N-acetylglucosamine (GlcNAc) residues present on internalized glycoprotein in the thyrocyte may act as a retention signal that prevents lysosomal homing and triggers recycling of GlcNAc-bearing molecules through galactosyltransferase- and thyroperoxidase-containing compartments of the Golgi apparatus. This finding raises the possibilities 1) that exposed GlcNAc residues are not randomly distributed, but are mainly present on immature Tg; and 2) that this process promotes elongation of complex glycans, thereby eliminating the retention signal. To further validate this hypothesis, we reinvestigated the relationship between the iodine content and the glycan completion of porcine Tg of luminal origin. Tg subpopulations were separated according to their iodine content on rubidium chloride centrifugation gradients, and their interactions with various plant and animal lectins were analyzed in solid phase assays. Iodine content used as an index of age ranged from 0.6-1.2%. There was no significant correlation between iodine content and either neutral sugar or oligosaccharide content, as judged by chemical methods or interaction with [125I]Solanum tuberosum and [125I]Pisum sativum agglutinins. In contrast, the number of GlcNAc-accessible residues (as judged by interaction with [125I]Bandeiraea simplificolia II) decreased as iodine content increased. These changes were concomitant with an increase in galactose (measured by interaction with [125I]R-icinus communis and [125I]galactosidase (Gal)/GalNAc rat hepatic lectin) and sialic acid content. Related experiments using a Tg subpopulation depleted in GlcNAc-exposed residues by passage through a B. simplificolia II affinity column showed that the capacity of this subpopulation to bind to membranes was lowered compared to that of the total Tg. These results support the following conclusions: 1) in normal glands, all or part of the Tg molecules are secreted in an incompletely glycosylated form; and 2) iodine organification is correlated with glycan completion. Therefore, asialoagalactothyroglobulin appears to be a physiological precursor for an efficient recycling mediated by the GlcNAc receptor to the iodination site. New insights in thyroid disorders are discussed.

Carbohydrate and protein determinants are involved in thyroglobulin recognition by FRTL 5 cells.

To avoid premature lysosomal degradation, thyrocytes have a system able to recycle internalized immature thyroglobulin molecules (Tg) to the follicular lumen via the Golgi apparatus. It has been shown that this quality control system depends on recognition of exposed N-acetylglucosamine (GlcNAc) determinants (Miquelis et al., J Cell Biol, 1993, 123, 1695) present on immature Tg (Bastiani et al., 1995, Endocrinology, 1995, 136, 4204). However, the same in vitro kinetics studies also showed that GlcNAc residues alone induce only weak recycling. The latter finding led us to investigate the possibility that protein determinants might also be involved in binding. For this purpose, we studied binding of Tg to FRTL 5 cells, a widely available TSH-dependent cell line and found that binding to plasma membranes occurred at acidic pH in the presence of calcium, i.e. under conditions previously reported for binding of GlcNAc-BSA to porcine thyroid cell membranes. As expected, binding was GlcNAc- and oligosaccharide-dependent because Bandeiraea Simplificiola II affinity column analysis indicated that GlcNAc-bearing Tg were preferentially bound and N-glycanase treatment of Tg inhibited interaction. Ovomucoid, GlcNAc-BSA, and porcine Tg oligosaccharides did not inhibit binding, indicating that carbohydrates were not the sole determinants for binding. The fact that pronase digestion of Tg totally abolished binding implied that peptide determinants were involved in the interaction. This involvement is supported by the observation that porcine, rat, bovine, and human Tg bound FRTL 5 cell membranes and that monoclonal antibodies raised against human Tg interfered with the binding of both human and porcine Tg. Based on these findings we conclude that, besides the involvement of GlcNAc-bearing oligosaccharides, Tg receptors form a stable bond with peptide determinants.

Variable carbohydrate structures of circulating thyrotropin as studied by lectin affinity chromatography in different clinical conditions.

Carbohydrate structures of intrapituitary and circulating TSH were studied by Concanavalin-A (Con A) and ricin lectin chromatography under different clinical conditions. Con A permits the separation of molecules differing in the extent of their carbohydrate branching, whereas ricin gives an estimation of the degree of their sialylation. Intrapituitary TSH was more retained on Con A and less sialylated than circulating hormone, suggesting that carbohydrate chains of intrapituitary molecules are less mature than those present in the circulation. A greater proportion of TSH firmly bound to Con A, compared to control values, was found in sera from fetuses and patients with uremia, TSH-secreting adenomas, and central hypothyroidism. In primary hypothyroid patients, TSH binding to Con A was similar to that found in controls, but a greater percentage of sialylated forms was seen. In central hypothyroidism patients, TSH released in response to TRH was less sialylated. Interestingly, no sialylated TSH was found in normal fetuses. In conclusion, the present data show that both TSH carbohydrate branching and sialylation may vary in different clinical conditions. As some of the above clinical conditions are known to be accompanied by variations in the bioactivity of circulating TSH, the finding of changes in TSH carbohydrate structures further supports the view that glycosylation modulates the expression of TSH biological activity.

Concanavalin A affinity chromatography of human serum gonadotropins: evidence for changes of carbohydrate structure in different clinical conditions.

We have studied the carbohydrate of circulating human gonadotropins (FSH and LH) in different clinical conditions using Concanavalin A (Con A) affinity chromatography. This technique permits separation of molecules differing in the extent of carbohydrate branching. The proportion of molecules that does not bind to Con A was greater in circulating FSH than in LH, reflecting a higher content of multiantennary and/or bisected biantennary complex carbohydrate structures in serum FSH. No significant difference in gonadotropin binding pattern to Con A was found between normal controls and patients with chronic uremia or gonadotropin-secreting pituitary adenomas. On the contrary, sera from postmenopausal women and fetuses contained a greater proportion of FSH and LH that bound to Con A, indicating a shift from multiantennary and/or bisecting structures to hybrid and/or high mannose forms, i.e. to the secretion of less mature forms. International Reference Preparations, derived from pituitary extracts, were more retained on Con A than circulating hormones, suggesting that carbohydrate chains of the intrapituitary hormone stock are less mature than those present in the circulation. Less mature forms were also found in FSH, but not in LH, from normal controls after GnRH injection. Finally, a higher proportion of unbound forms, i.e. complex carbohydrate chains, was found in healthy subjects presenting with an immunologically anomalous variant of LH. In conclusion, the current data show that the hormonal status of the individual may differently affect carbohydrate branching of gonadotropins. Alteration in glycosylation is likely to be involved in masking at least one epitope specific for intact LH dimer, thus indicating that it may modulate the tertiary structure of glycoprotein hormones.

Effect of various glycosidase treatments on the resistance of the HIV-1 envelope to degradation.

Using a CD4-binding assay to assess the conformation of the human immunodeficiency virus envelope glycoprotein (CHO+ Env), we studied the effect of treatment with various glycosidases on the stability of Env in denaturing environments and in biological media: cleavage from Env of either high-mannose-type glycans (HMT- Env) by endoglycosidase H or sialic acid residues (Sial- Env) by sialidase did not alter Env stability whereas its complete deglycosylation (CHO- Env) by N-glycanase had a large effect. The influence of glycan removal on Env sensitivity to proteases was also studied. Thrombin cleavage within V3 was affected by N-glycanase treatment; both HMT- Env and CHO- Env displayed an increased sensitivity to other endoproteases. Thus, partial deglycosylation increases Env sensitivity to proteases but only its total deglycosylation alters its stability.

Glycosylation and stability of mature HIV envelope glycoprotein conformation under various conditions.

The role of the glycans of the mature human immunodeficiency virus (HIV) envelope (gp160) in its stability in various conditions was studied. gp160 conformation was monitored through its subsequent ability to bind [125I]CD4. Treatment of glycosylated (CHO+) gp160 with (i) sodium dodecyl sulfate (SDS) concentrations above 0.01% impaired subsequent CD4 binding while 0.3% SDS abolished it; (ii) beta-mercaptoethanol (MSH) concentrations above 0.01% impaired CD4 binding while 0.03% MSH abolished it; (iii) 2 M guanidine-HCl had no effect; (iv) temperatures between 50 degrees C and 80 degrees C altered CD4 binding while, above 80 degrees C, the binding was abolished; (v) CD4 binding was decreased by 50% by 2 freeze-thaw cycles but was not further affected by subsequent (up to 15) cycles; (vi) gp160 incubation in serum or cell lysate had no effect on CD4 binding. Glycanase treated (CHO-) gp160 binding activity was only 3-fold lower than that of CHO+ gp160. Only 2 M guanidine-HCl and heating at 70 degrees C differentially affected the binding of CHO+ and CHO- gp160, the effects being larger for CHO- gp160. CHO- gp160 binding was impaired after incubation in either serum or cell lysate. Thus, glycans stabilize gp160 conformation in some environments. However, CHO- gp160 appears to be resistant to denaturation as compared to other glycoproteins reported in the literature.

Aah VI, a novel, N-glycosylated anti-insect toxin from Androctonus australis hector scorpion venom: isolation, characterisation, and glycan structure determination.

Aah VI was isolated from the venom of the North African scorpion, Androctonus australis hector. It is the first glycosylated neurotoxin from scorpion venom to be described. It was not toxic to mice, when injected intracerebroventricularly at a dose of 1.2 microg per animal. However, it had typical activity in Blatella germanica cockroaches resulting in gradual paralysis and very low toxicity (LD50 = 8.5 microg/g of animal). It consists of 66 amino acid residues and is heterogeneously N-glycosylated at a single site, on asparagine 9, of the Asn-Gly-Thr sequence. The potential N-glycosylation site was deduced from automatic Edman degradation and amino acid analysis, and glycan heterogeneity was evidenced by ESMS. Determination of the N-glycan structures (dHex, Hex and HexNAc) was assessed by nanoESMS/MS with picomolar amounts of sample. Current knowledge of N-glycan structure and composition suggests that the glycan structures are derived from a common core.

Dual activity of human pituitary thyrotrophin isoforms on thyroid cell growth.

Alkaline (pI 8.6-7.5) and neutral (pI 7.0-6.0) isoforms of human TSH have been isolated from a highly purified intrapituitary preparation by isoelectric focusing and compared for their respective actions on thyroid cell proliferation. Both TSH isoforms displayed the same ability to bind to porcine thyroid membranes as the original hormone preparation, indicating a similar recognition at the receptor sites. Alkaline forms showed a higher potency in inducing either cyclic AMP (cAMP) production or [3H]thymidine incorporation in FRTL-5 cells (half-maximal effective doses (ED50 values) = 0.25 and 0.29 nM respectively) compared with their neutral counterparts (ED50 values = 0.66 and 0.70 nM respectively). Increasing the concentration of alkaline forms in the presence of a half-maximal concentration of neutral TSH resulted in a profound inhibition of cell growth without a significant change in cAMP. Conversely, increasing the amount of neutral forms in the presence of a half-maximal dose of alkaline TSH resulted in an additive response for cAMP production but not in cell proliferation. To assess whether glycosylation might be responsible for the variation in hormone action, both alkaline and neutral TSH isoforms were tested for recognition of their carbohydrate chains by concanavalin A (Con A) and ricin. No major difference was found in binding to Con A, indicating that the contribution of carbohydrates to changes in hormone pI was not related to core branching. Very few galactose residues were accessible in either hormone fraction since little binding to ricin was observed. Isoelectric focusing of TSH forms before and after neuraminidase treatment revealed that neutral forms had a higher sialic acid content than alkaline TSH. In conclusion, the current findings show that TSH isoforms differentially affect cAMP production and cell growth. TSH fractions with a high sialic acid content and a low mitogenic activity behave as antagonists to the more active forms for cell proliferation. It is suggested that physiological control of TSH action at the thyroid gland may reside in the respective amounts of various TSH forms which, once bound to their receptor, can induce variable activation of post-receptor events while controlling cell proliferation.

Carbohydrate-dependent epitope mapping of human thyrotropin.

To probe possible effects of carbohydrate chains in the conformation of pituitary glycoprotein hormones, two radiolabeled derivatives of human thyroid-stimulating hormone (hTSH), either partially deglycosylated in the beta-subunit or fully deglycosylated in both the alpha- and beta-subunits, were compared to the native hormone for binding to monoclonal as well as polyclonal antibodies. Monoclonal antibodies were screened for their ability to bind the intact hormone (anti-hTSH), hTSH and its free alpha-subunit (anti-alpha) or its free beta-subunit (anti-beta). A panel of 14 monoclonal antibodies directed against at least eight out of the 12 epitopes known to be present in the hormone was tested in solid-phase assays for their capacity to bind intact and deglycosylated forms of hTSH. All of them displayed identical recognition of native and partially deglycosylated 125I-hTSH. In contrast, binding of fully deglycosylated 125I-hTSH to anti-hTSH and anti-beta antibodies was dramatically lost while that of anti-alpha was preserved. This clearly indicates that most of the epitopes specific for subunit association as well as those present on the beta-subunit are glycosylation dependent. No alteration was found in antibody recognition following deglycosylation of free individual subunits, indicating that the carbohydrate effect can only occur in the combined dimer. Using polyclonal antisera raised against the International Reference Preparations, we found that the deglycosylated hormone could be bound by the anti-beta antiserum although at a much lower dilution than the native antigen, suggesting the presence of at least one glycosylation-independent epitope in the beta-subunit. Competitive binding assays revealed that deglycosylated hTSH is 5 times less immunoreactive toward the anti-beta compared to the anti-alpha antiserum. The current data thus demonstrate the presence of the glycosylation-independent epitopes in the alpha-subunit of hTSH and the localization of most of the glycosylation-dependent domains in the beta-subunit.

Differential effect of glycosylation on the expression of antigenic and bioactive domains in human thyrotropin.

Enzymatic deglycosylation of human thyroid-stimulating hormone (hTSH) was shown to result in a mixture of partially and fully deglycosylated forms of the hormone by gel electrophoresis, silver staining and immunoblotting. Radioiodination of the enzymatic digest, followed by gel filtration and concanavalin A-Sepharose chromatography allowed to separate two different forms of partially deglycosylated [125I]hTSH and a fully deglycosylated hormone. The final recovery was of approx. 60% for [125I]hTSH deglycosylated in its beta-subunit, of 30% for [125I]hTSH missing the oligosaccharide in beta and one in alpha but only of 10% for [125I]hTSH deglycosylated in both the alpha- and beta-subunits. Gel electrophoresis under non-denaturing conditions showed that each form migrated distinctly from free subunits and reverse-phase high performance liquid chromatography after reduction and carboxymethylation identified the presence of the two subunits. Mapping of [125I]hTSH derivatives with polyclonal, monoclonal and anti-peptide antibodies allowed to identify two novel glycosylation-independent epitopes preserved in deglycosylated hTSH while the main immunogenic determinant was lost. When assayed in a bioassay with FRTL-5 cells, the hormone deprived of its beta-linked carbohydrate chain was found to be as effective as the native hormone on cAMP production and cell growth. In contrast, the fully deglycosylated derivative proved to stimulate cAMP release but appeared to be definitely less potent on thyroid cell growth. Our findings thus demonstrate that glycosylation of the alpha-subunit but not that of the beta-subunit is essential to express the domains involved in hTSH immunoreactivity as well as those controlling the post-receptor biological activity of the hormone.

Relationships between the anti-HIV V(3)-derived peptide SPC(3) and lymphocyte membrane properties involved in virus entry: SPC(3) interferes with CXCR(4).

SPC(3) is a multiple antigen peptide derived from the V(3) loop of human immunodeficiency virus (HIV) envelope (Env). It exerts a potent anti-HIV activity whereas it alters neither Env expression nor binding to CD(4). Here, SPC(3) binding characteristics, its subsequent intracellular fate and the fact that it inhibited SDF(1)alpha binding to the lymphocyte surface provided strong arguments to conclude that it exerts its anti-HIV activity through interference with the CXCR(4) coreceptor. In contrast, it interferes with none of the other major surface proteins and mechanisms involving V(3) and implicated in infection, as shown here. This work identifies the target mechanism of SPC(3).

[Biological polymorphism and functional domains of pituitary glycoprotein hormones]. / Polymorphisme biologique et domaines fonctionnels des hormones glycoprotéiques hypophysaires.

The glycoprotein hormones are a family of four proteins: LH, FSH, TSH and CG. These molecules are glycosylated dimers, sharing a common alpha-subunit and differing by their beta-subunit which confers to the hormone its immunological and biological specificity. The biological function of these hormones is mediated through the recognition of specific receptors at the target organ. Although still controversial, it appears that both subunits of the hormone are required to bind to the receptor and induce cAMP release. Furthermore, these hormones exhibit natural variability in their bioactivity and the molecular basis of this process are poorly understood at the moment. Recent data relative to the mapping of glycoprotein hormones, were obtained by site-directed mutagenesis as well as by the use of synthetic peptides. These two approaches allowed to elucidate several linear peptide sequences involved in the biologically active conformation and immunoreactivity of these molecules. Furthermore, these hormones exist in different molecular forms with a variable biological activity and immunological ratio, and this polymorphism is probably due to the glycan moities. The presence of these glycans are necessary for full expression of their biological activity as well as immunoreactivity, and both the biosynthesis and the secretion of these various glycoforms are probably under physiological regulation. We therefore propose that glycosylation may alter the expression of several domains at the surface of the hormone to modulate its plasmatic clearance as well as the action of each individual glycoform at the receptor and this will ultimately control its biological function.

Effect of changes in the glycosylation of the human immunodeficiency virus type 1 envelope on the immunoreactivity and sensitivity to thrombin of its third variable domain.

The influence of HIV Env glycosylation on the conformation of the third variable domain (V3) of Env was studied by both deglycosylation of mature Env and the use of Env produced by recombinant systems in which alpha-glucosidase activity was inhibited by either deoxynojirimycin (DNM) or mutation. Selective deglycosylation affected anti-V3 antibody binding. The immunoreactivity and sensitivity to thrombin cleavage of V3 presented on Env produced in baby hamster kidney cells were changed by DNM treatment. In contrast, Env expressed in alpha-glucosidase I-deficient Chinese hamster ovary cells or in their parental cells treated by DNM fully retained these V3 properties. These results are discussed in relation to the inconsistent data obtained on V3 property changes resulting from Env glycosylation changes.

Recombinant HIV envelope expressed in an alpha-glucosidase I-deficient CHO cell line and its parental cell line in the presence of 1-deoxynojirimycin is functional.

alpha-Glucosidase inhibitors-e.g., 1-deoxynojirimycin (DNM)-interfere with HIV infectivity in CD4+ cell cultures but have proven unsuccessful in clinical trials. In vitro, several HIV Env properties, including the cleavage of the Env precursor gp 160, the immunoreactivity of the third variable domain (V3) of Env, the binding to the CD4 receptor, and the induction of the membrane fusion between the virus and the host cell, have been reported to be altered by such inhibitors. We have studied these properties for Env expressed via a recombinant vaccinia virus in two Chinese hamster ovary cell lines, an alpha-glucosidase I-deficient cell line and its parental cell line, treated with DNM under conditions that have been reported to alter Env properties. The glycosylation of Env, but not the quantity produced, varied in accordance with the experimental conditions. However, irrespective of these conditions, Env cleavage, V3 immunoreactivity, CD4 binding, membrane expression, and ability to induce syncytium formation were similar. Thus, neither the alpha-glucosidase I deficiency nor DNM treatment had a significant effect on the properties of Env produced here. Cellular mechanisms that may allow the normal expression of Env are discussed and may offer an explanation for the many discrepant results obtained to date on the effects of DNM on HIV Env.

Polymorphism of thyrotropin and alpha subunit in human pituitary adenomas.

To understand better why patients with TSH-secreting pituitary tumors exhibit variable degree of hyperthyroidism, we analyzed the various isoforms of TSH and alpha-subunit secreted by 4 TSH-secreting adenomas in primary culture. All patients had macrodenomas clinically associated with hyperthyroidism with normal to elevated TSH plasma levels. The in vivo molar alpha/TSH ratio ranged from 18.4 to 3.8. The hormone material secreted over 4 to 48 h in culture was separated by gel isoelectrofocusing, eluted and estimated by immunoassays. The release of free alpha-subunit was noticeably different among adenomas. Three tumors were found to release an homogeneous and acidic (pI = 5.4-4.5) species totally unrelated to the alpha-subunit dissociated from intrapituitary TSH (5 isoforms, pI = 8.8-5.8) while another was more heterogeneous (pI = 8.8, 8.4, 7.6, 6.8, 5.8, 5.4-4.5). Tumoral TSH exhibited at least six detectable isoforms (pI = 8.6, 8.3-8.0, 7.5, 7.0, 6.5, 6.0) very similar to those present in a purified intrapituitary hormone preparation. While intrapituitary TSH was composed of 70% of alkaline (pI = 8.6-7.5), 25% of neutral (pI = 7.0-6.0) and 5% (pI = 5.8-4.5) of acidic forms, these species were found to be more evenly distributed in adenomatous secretion (43%/42%/15%). The TSH-secreting tumors thus appeared to relase preferentially neutral and acidic forms of TSH than alkaline components but for one tumor, this ratio could be modified by chronic incubation with TRH. When assayed for their capacity to stimulate 3H-thymidine incorporation in FRTL-5 cells, neutral TSH appeared definitely less potent than the alkaline and acidic isohormones. Altogether, these data show that pituitary adenomas synthesize normal forms of TSH but release them in variable amount in the medium. When circulating in the blood, the ratio between active and inactive isoforms of TSH may thus be responsible for the variable stimulation of the thyroid gland observed in the patients.

Carbohydrate chains of human thyrotropin are differentially susceptible to endoglycosidase removal on combined and free polypeptide subunits.

The accessibility of the asparagine-linked carbohydrate chains of human thyrotropin (hTSH) and free alpha and beta subunits was investigated by their susceptibility to endoglycosidases H and F as well as to peptide:N-glycosidase F. Iodinated hTSH or subunits were incubated with a commercial enzyme preparation containing both endoglycosidase F and N-glycosidase F activities and further analyzed by sodium dodecyl sulfate gel electrophoresis followed by quantitative autoradiography. We show that, working at the optimum of the N-glycosidase activity, the relative amount of endoglycosidase required for half-deglycosylation was 20-fold higher for native hTSH than for the reduced and dissociated subunits. Under nondenaturing conditions, the 18K beta subunit of hTSH could be readily deglycosylated to a 14K species while the 22K alpha subunit was largely resistant. However, both subunits were converted to an apoprotein of similar apparent molecular weight of 14K following reduction of disulfide bonds. In contrast, the free alpha subunit of human choriogonadotropin appeared fully sensitive to carbohydrate removal under nonreducing conditions despite the presence of a partially deglycosylated 18K intermediate at low concentration of endoglycosidase. Similarly, both hTSH-alpha and hTSH-beta could be completely deglycosylated after acid dissociation of the native hormone. While all three carbohydrate chains of hTSH are sensitive to pure peptide:N-glycosidase F, only one on alpha and the single oligosaccharide present on beta in hTSH appeared to be cleaved by pure endoglycosidase F. Interestingly, one of the two carbohydrate chains present on alpha was also found to be susceptible to endoglycosidase H.(ABSTRACT TRUNCATED AT 250 WORDS)

Biological and immunochemical characterization of recombinant human thyrotrophin.

Recombinant human thyroid-stimulating hormone (recTSH) has recently been engineered to detect metastatic lesions in patients operated on for thyroid cancer. In this report, we have compared the microheterogeneity, carbohydrate (CHO) content, mitogenic potency and immunoreactivity of the biotechnology product to those of human TSH of pituitary origin (pitTSH). Compositional analysis revealed that recombinant (rec) TSH produced in Chinese hamster ovary cells was overglycosylated compared with the native hormone (21 and 14%, respectively) with a higher amount of sialic acid and lack of N-acetylgalactosamine. Electrofocusing followed by immunoblotting resolved recTSH into six glycoforms with pIs ranging from 6.0 to 8.6, which were converted to a major species of pI 8.9 by sialidase treatment. pitTSH contained five main isoforms of pI 6.5-8.2 distinct from those of recTSH and partially resistant to sialidase. Binding activity of both human TSHs to porcine thyroid membrane receptors was found to be similar, but recTSH appeared to be 20% active compared to pitTSH in eliciting cAMP production and cell growth in rat FRTL-5 cells. Immunoreactivity of the recombinant hormone was investigated using polyclonal and monoclonal antibodies raised against the native hormone or synthetic peptide sequences of its subunits. While rec- and pitTSH were recognized to a similar extent by anti-protein antibodies, they exhibited a different binding pattern to antipeptide antibodies. Serial dilution of anti-alpha 1-25, anti-alpha 26-51, anti-beta 96-112 antisera bound recTSH to a greater extent than pitTSH, while anti-beta 31-51 and anti-beta 53-76 displayed similar recognition toward both preparations.(ABSTRACT TRUNCATED AT 250 WORDS)

Properties of HIV envelope expressed in the presence of SPC3, an Env-derived peptide drug under phase II clinical trials.

A multibranched peptide construct (SPC3) derived from the conserved sequence of the third variable domain (V3) of the human immunodeficiency virus (HIV) envelope (Env) inhibits HIV infectivity. It is being tested in phase II clinical trials (FDA protocol 257A). Because some Env-derived peptides inhibit HIV infectivity through alteration of Env biosynthetic pathway, we studied whether SPC3 displays its activity through interference with Env biosynthesis or with its functions at the membrane. Syncytium formation was impaired when human CD4+ cells expressed recombinant HIV Env in the presence of SPC3. This inhibition was not due to an effect of SPC3 on the amount of Env expressed at the cell membrane. As assessed using antibodies, the conformation of the receptor binding site and of V3 presented on membrane Env was not affected by the presence of SPC3 during biosynthesis. Finally, despite the ability of SPC3 to bind to CD4+ cell membrane, SPC3 did not interfere with Env binding to CD4. These data suggest that SPC3 interferes with the infection process at a post-CD4 binding step, and not with the folding of Env.

Pituitary resistance to thyroid hormones.

Pituitary thyroid hormone resistance (PRTH) refers to a particular form of thyroid hormone refractoriness that is accompanied by peripheral hyperthyroidism, as only the TSH-secreting pituitary cells appear to be resistant to the effects of thyroid hormones. The presence of PRTH is suspected and diagnosed on the basis of the finding of high free thyroid hormone levels along with unsuppressed TSH, clinical signs and symptoms of hyperthyroidism and values of at least one of the parameters evaluating peripheral thyroid hormone action in the hyperthyroid range. However, most patients with PRTH present with clinical signs and symptoms of thyroid dysfunction, particularly goiter and tachycardia, overlapping those recorded in patients with generalized thyroid hormone resistance (GRTH), i.e. refractoriness to thyroid hormones at both pituitary and peripheral tissue level. Moreover, most of them display normal values of other parameters evaluating the peripheral effects of thyroid hormones and bear mutations in the gene encoding for T3 nuclear receptors similar to those found in patients with GRTH. These findings are questioning the existence of PRTH as a separate clinical entity and support the view that the various forms of thyroid hormone resistance may be part of a spectrum of disease with variable expression in different issues.