Characterization of an antiidiotypic antibody mimicking the actions of estradiol and its interaction with estrogen receptors.

The ability of a monoclonal antiidiotypic antibody (clone 1D5) directed against the binding site of a monoclonal antiestradiol antibody to interact with the estrogen receptor (ER) was investigated. The following lines of evidence indicate that clone 1D5 has the capacity of mimicking the actions of estradiol, and recognizes ER: 1) in binding experiments, clone 1D5 inhibited the binding of [3H]estradiol to porcine cytosolic 32-kilodalton ER fragment in a dose-dependent manner; irrelevant antibody had no effect; 2) in sucrose gradient density analysis, clone 1D5 abolished the specific peak of the [3H] estradiol-ER complex in the 4S region; 3) in immunoprecipitation experiments, clone 1D5 interacted with unoccupied ER, but not with estradiol-occupied ER; 4) in direct immunofluorescence studies clone 1D5 stained the nuclei of cultured rat epithelial cells and recognized estrogen binding sites in nuclear cryostat sections prepared from human, rat, and mouse estrogen-responsive tissues; and 5) When clone 1D5 was injected to immature female rats, it caused 46% increase in uterine creatine kinase activity, suggesting that clone 1D5 may possess estrogenic like activity. Under the same experimental conditions, estradiol caused 58% increase in creatine kinase activity. Collectively, these results suggest that clone 1D5 interacts with the steroid binding site of ER. Therefore, clone 1D5 can serve as a tool in the study of function and structure relationship of ER and to detect changes of ER levels in target cells of various species.

Effects of gonadal steroids and their antagonists on DNA synthesis in human vascular cells.

The cardiovascular effect of estrogen is currently under intense investigation, but the role of androgens in vascular biology has attracted little attention. Because endothelial repair and vascular smooth muscle cell (VSMC) proliferation affect atherogenesis, we analyzed the effects of 17beta-estradiol (E2), dihydrotestosterone (DHT), and sex hormone antagonists on DNA synthesis in human umbilical VSMCs and in E304 cells (a human umbilical endothelial cell line). In VSMCs, both E2 and DHT had a biphasic effect on [3H]thymidine incorporation into DNA: low concentrations (0.3 nmol/L for E2, 3 nmol/L for DHT) stimulated [3H]thymidine incorporation (+35% and +41%, respectively), whereas high concentrations (30 nmol/L for E2, 300 nmol/L for DHT) inhibited [3H]thymidine incorporation (-40%). In contrast, E2 (0.3 to 300 nmol/L) and DHT (3 to 3000 nmol/L) dose-dependently enhanced [3H]thymidine incorporation in E304 cells (peak, +85% for both). In VSMCs, high concentrations of E2 and DHT inhibited platelet-derived growth factor (PDGF)-or insulin-like growth factor (IGF-1)-induced DNA synthesis (-50% to 80%), whereas PDGF- or IGF-1-dependent DNA synthesis in E304 cells was further increased by E2. The antiestrogens tamoxifen and raloxifene mimicked the effects of E2 on DNA synthesis in both VSMCs and E304 cells. However, when coincubated with a stimulatory concentration of E2 (0.3 nmol/L), tamoxifen and raloxifene blocked E2-induced [3H]thymidine incorporation in E304 cells but not in VSMCs. Finally, the androgen antagonist flutamide inhibited the biphasic effects of DHT on VSMCs and blocked the increase in DNA elicited by DHT in E304 cells. The results suggest complex, dose-dependent, and cell-specific interactions of estrogens, androgens, and their respective antagonists in the control of cellular proliferation in the vascular wall. Gonadal steroid-dependent inhibition of VSMC proliferation and stimulation of endothelial replication may contribute to vascular protection and remodeling responses to vascular injury.

Anti-idiotypic antibody as an oestrogen mimetic in vivo: stimulation of creatine kinase specific activity in rat animal models.

Previous studies indicated that the anti-idiotypic antibody (clone 1D5) significantly increased the specific activity of creatine kinase (CK) activity in the rat uterus, and in vitro in skeletal cells capable of responding to oestradiol (E2), suggesting that the antibody has oestrogenic-like activity. Moreover, the F(ab')2 dimer of clone 1D5 acted like an antagonist and completely inhibited the increase in CK specific activity by either E2 or clone 1D5 in these skeletal cells. In the present study, we examined the in vivo effects of clone 1D5 and its proteolytic fragment, the F(ab')2 dimer, E2 and dihydrotestosterone (DHT) on CK specific activity in the epiphyseal cartilage, diaphyseal bone, uterus, prostate, thymus and pituitary of immature or gonadectomized female and male rat animal models. In the intact immature animals, clone 1D5 caused an increase in CK in all organs of the female except in the pituitary. In the diaphyseal bone and prostate of male rats there was no stimulation by 1D5. The CK response in the uterus, epiphysis, and diaphysis of immature female rats was dose-dependent and was blocked by either the anti-oestrogen tamoxifen or the F(ab')2 dimer of clone 1D5. E2, DHT, as well as clone 1D5, stimulated CK specific activity in both the diaphysis and epiphysis of ovariectomized female and castrated male rats, whereas sex specificity in the CK response was observed also in the uterus and the prostate of gonadectomized animals. Collectively, these results suggest that, as in cell culture, an intact antibody is necessary for the observed stimulation of CK specific activity and the F(ab')2 dimer can act as an antagonist. Furthermore, the observed biological effects of clone 1D5 which are absolutely parallel to E2, imply that the anti-idiotypic antibody is able to penetrate the cell and reach the nuclear oestrogen receptor and transduces a signal to the nucleus, by as yet uncharacterized mechanisms.

Pharmacological effects of the continuous administration of an LHRH agonist in the ageing male rat: comparison with orchidectomy.

The age-related changes in tissue response to chronic treatment for 1 month with a potent LHRH agonist were investigated in the ageing male rat, and the observed pharmacological effects were compared with orchidectomy. In both young (4 months) and old (22 months) rats, treatment resulted in a significant decrease in the weights of prostates and testes, a decrease in plasma LH and testosterone levels, a loss of LH receptors in the testes and in a complete depletion of prostatic nuclear androgen receptors, reaching levels observed after castration. In young rats, treatment with an LHRH agonist or orchidectomy induced a three- or sixfold increase in prostatic creatine kinase (CK) activity which may have been induced by the local stimulatory effect of oestradiol arising from the conversion of precursor steroids secreted by the adrenal. On the other hand, in old rats, 7 days after orchidectomy or after treatment with an LHRH agonist a twofold increase or no change was induced in prostatic CK activity respectively. SDS gel electrophoresis patterns of cytosolic prostatic proteins of young rats treated with an LHRH agonist or young rats orchidectomized 7 days previously revealed the presence of several intensified proteins, two of them having apparent molecular weight of 67 kDa and 43 kDa, whereas in the old rats treated with LHRH agonist or old rats castrated 7 days previously, these two proteins were not intensified. The results of this study confirmed that continuous treatment with an LHRH agonist to young and old rats induces medical castration since the pharmacological effects observed were the same as those induced with surgical castration.(ABSTRACT TRUNCATED AT 250 WORDS)

Anti-idiotypic antibody as an oestrogen mimetic: removal of Fc fragment converts agonist to antagonist.

Previous studies indicated that the anti-idiotypic antibody (clone 1D5) caused an increase in uterine creatine kinase (CK) activity when administered in vivo to immature female rats, indicating that the antibody has oestrogenic-like activity. It was, therefore, of interest to investigate the structural requirements of clone 1D5 to act as an oestrogen mimetic in an in vitro model system. In the present study, the effect of clone 1D5 and its proteolytic fragments, F(ab')2, Fab' and Fc on CK activity was examined in cultured skeletal cells having functional oestrogen receptor (ER). Incubation of female-derived calvaria cells or epiphyseal cartilage cells with clone 1D5 (8.33 nM) or oestradiol (E2) (30 nM) for 24 h caused a significant increase in CK activity, indicating that clone 1D5 acted as an agonist. On the other hand, incubation of male-derived calvaria cells devoid of a functional ER with clone 1D5 or E2 did not have any effect on CK activity. Incubation of female-derived calvaria cells with clone 1D5 and E2 did not result in any further increase in CK activity, whereas dihydrotestosterone (DHT) did not alter the response to clone 1D5. The CK response to clone 1D5, in female-derived calvaria cells was time- and dose-dependent and could be inhibited in a dose-dependent manner by the oestrogen antagonist tamoxifen. In contrast, the proteolytic fragments of clone 1D5, the F(ab')2 dimer (12 nM) and the Fab' monomer (24 nM), and the Fc fragment (28 nM) did not have E2-like activity in these cells.(ABSTRACT TRUNCATED AT 250 WORDS)

6-Carboxymethyl genistein: a novel selective oestrogen receptor modulator (SERM) with unique, differential effects on the vasculature, bone and uterus.

The novel genistein (G) derivative, 6-carboxymethyl genistein (CG) was evaluated for its biological properties in comparison with G. Both compounds showed oestrogenic activity in vitro and in vivo. On the other hand G and CG differed in the following parameters: (i) only CG displayed mixed agonist-antagonist activity for oestrogen receptor (ER) alpha in transactivation assays and (ii) only CG was capable of attenuating oestrogen (E(2))-induced proliferation in vascular smooth muscle cells and of inhibiting oestrogen-induced creatine kinase (CK) specific activity in rat tissues. On the other hand only G enhanced the stimulatory effect on CK specific activity in the uterus. In comparison to the selective oestrogen receptor modulator (SERM) raloxifene (RAL), CG showed the same selectivity profile as RAL in blocking the CK response to E(2) in tissues derived from both immature and ovariectomized female rats. Molecular modelling of CG bound to the ligand binding domain (LBD) of ERbeta predicts that the 6-carboxymethyl group of CG almost fits the binding cavity. On the other hand, molecular modelling of CG bound to the LBD of ERalpha suggests that the carboxyl group of CG may perturb the end of Helix 11, eliciting a severe backbone change for Leu 525, and consequently induces a conformational change which could position Helix 12 in an antagonist conformation. This model supports the experimental findings that CG can act as a mixed agonist-antagonist when E(2) is bound to its receptors. Collectively, our findings suggest that CG can be considered a novel SERM with unique effects on the vasculature, bone and uterus.

Phosphorylation of proteins in rat ovarian plasma membranes by [gamma-32P]GTP: evidence for the formation of a high energy phosphoprotein.

Incubation of rat ovarian plasma membranes with [gamma-32P]guanosine 5'-triphosphate (GTP) in the presence of an adenosine triphosphate (ATP)-trapping system results in the labeling of a single protein, Mr 33,000 +/- 3000 designated 'a' (Amir-Zaltsman, Y., Ezra, E., Walker, M., Lindner, H. R. and Salomon, Y. (1980) FEBS Lett. 122, 166-170). Based on competition with other nucleotides it is concluded that protein 'a' is preferentially phosphorylated by [gamma-32P]GTP (Km = 0.28 microM). Phosphorylation of protein 'a' does not occur at pH less than 5 and progressively increases to plateau levels at pH 7-9. Phosphorylation of protein 'a' is absolutely dependent on the presence of divalent cations 1 mM Mg2+, Ca2+, or Cd2+. At higher concentrations, 5-20 mM, Mg2+ or in the presence of 1 mM Mn2+ ions other proteins are also phosphorylated. While vanadate ions selectively prevent the labeling of protein 'a', molybdate ions were found to inhibit phosphorylation of all the membrane proteins including protein 'a'. In contrast to molybdate ions, vanadate ions were found to accelerate the dephosphorylation of phosphoprotein 'a'. We suggest that phosphoprotein 'a' is a high energy protein intermediate in which the phosphate is present as a phosphoramidate for the following reasons: (i) Guanosine diphosphate (GDP) but not guanosine 5'-O-(2-thiodiphosphate) selectively accelerated the dephosphorylation of phosphoprotein 'a' but only in the presence of Mg2+ ions. (ii) The phosphoprotein intermediate is hydrolyzed in the presence of hydroxylamine. (iii) Phosphoprotein 'a' is labile in the presence of 1 N HCl but stable in 1 N NaOH at 37 degrees C. (iv) Phosphoprotein 'a' is heat labile. Phosphoprotein 'a' is readily digested by several proteolytic enzymes and a single cleavage peptide is generated upon treatment with Staphylococcus aureus V8 protease. The properties of protein 'a' were compared and found different from another phosphoprotein Mr 90,000 +/- 1000, designated 'b' that was selected arbitrarily. We propose that protein 'a' is a GTP requiring enzyme intermediate, of yet unidentified function.

Characterization of a prolactin-daunomycin ligand as a probe for drug targeting.

Conjugates of ovine prolactin and daunomycin were prepared for use as affinity-labelled drug carriers in cancer cells carrying the prolactin receptor. The binding affinity of the conjugates to prolactin receptors in rat liver membrane preparations and in viable granulosa cells derived from estradiol- and pregnant mare serum gonadotropin (PMSG)-treated immature female rats was less than an order of magnitude lower than prolactin. The toxicity of the conjugate in cultured granulosa cells was dependent upon the concentration of the daunomycin present in the culture. The cytotoxic effect of the ligand was abolished by the addition of free prolactin or NH4Cl to the granulosa cell cultures. These conjugates may be useful probes in drug targeting against hormone-sensitive cancer.

Vitamin D analogs modulate the action of gonadal steroids in human vascular cells in vitro.

We have previously reported that estradiol (E2) and dihydrotestosterone (DHT) regulate cell growth in human umbilical arterial smooth muscle cells (SMC) and in an endothelial cell line (E304). In SMC both gonadal steroids stimulated DNA synthesis at low concentrations and suppressed 3[H] thymidine incorporation at high concentrations, whereas in E304 cells E2 and DHT dose dependently enhanced DNA synthesis. In both cell types gonadal steroids also induced the specific activity of creatine kinase BB (CK). Previous evidence suggets that the in vitro and in vivo CK responses to gonadal steroids in bone cells are upregulated by pretreatment with vitamin D analogs due to increased level of cellular estrogen receptors (ER). Here we analyzed the interaction of the vitamin D analogs hexafluorovitamin D (FL), JK-1624 F2-2 (JKF), and CB 1093 (CB) with gonadal steroids in regulating DNA synthesis and CK activity in human vascular cells in vitro. In E304 cells, daily treatment with FL, JKF, or CB (1 nmol/L for 3 days) increased DNA synthesis by 110 +/- 11%, 65 +/- 16%, and 88 +/- 23% respectively. In contrast, the same analogs inhibited 3[H] thymidine incorporation by 52 +/- 21%, 46 +/- 19%, and 50 +/- 10%, respectively, in SMC. In both cell types all three analogs increased CK by 25% to 75% and amplified the CK response to E2 and to DHT by twofold to threefold. In E304 cells the vitamin D analogs also increased DNA response to gonadal steroids from 50% to 60% to 200% to 280%. In SMC these analogs did not modify the DNA synthetic response to a low E2 concentration, but prevented the suppression of DNA synthesis exerted by high concentrations of E2 and DHT. Vitamin D inhibitors known to block cellular calcium mobilization, had no effect on the proliferative activity induced by vitamin D analogs. However, the inhibitor of the nuclear effects of vitamin D, ZK 159222, blocked the stimulatory effects of CB on DNA synthesis in E304 cells. Finally, both 1,25(OH)2 D3, and JKF decreased the expression of ERbeta proteins in SMC and increased the ERalpha isoform in E304 cells by 40% to 75%. The results indicate that vascular cells are targets for both vitamin D and gonadal steroid action and suggest a possible interaction between these hormones in the regulation of cell proliferation via modulation of vascular ER or interaction with proteins associated with ER.

Platelet-derived endothelial cell growth factor inhibits DNA synthesis in vascular smooth muscle cells.

Platelet-derived endothelial cell growth factor (PD-ECGF) is linked to angiogenesis in human cancer. Direct studies have demonstrated that PD-ECGF is a potent mitogen for endothelial cells in vivo. Because endothelial repair and smooth muscle cell proliferation are two processes that affect arterial wall structure and tone, we analyzed the effects of PD-ECGF on DNA synthesis and creatine kinase BB-specific activity (CK) in human umbilical artery smooth muscle cells (SMC) and in a human umbilical endothelial cell line (E304). In SMC, PD-ECGF (0.001 to 10 U/mL) inhibited DNA synthesis dose dependently (-24% + 6% to -63% + 15%) assessed by 3[H]thymidine incorporation into DNA, whereas in E304 it stimulated DNA synthesis dose dependently (30% + 4% to 100% + 4%). In both SMC and E304, however, PD-ECGF elicited an increase in CK-specific activity by 54% to 130% and 79% to 163%, respectively. These effects were reversed by a specific anti-PD-ECGF antibody. In E304 cells PD-ECGF enhanced 17beta-estradiol (E2) or dihydrotestosterone (DHT)-induced DNA synthesis from 56% to 122% and from 127% to 359%, and CK activity from 70% to 180% and from 90% to 190%, respectively. In SMC PD-ECGF, an inhibitor of 3[H]thymidine incorporation by itself, markedly enhanced the stimulatory effect of low concentrations of E2 and DHT on 3[H]thymidine incorporation. It also increased E2 and DHT CK induction from 40% to 140% and from 52% to 120%, respectively. In both E304 and SMC, PD-ECGF inhibited the proliferative and the CK-inducing effects of platelet-derived growth factor (PDGF) and immunoglobulin F1 (IGF1). Thus, PD-ECGF, an established growth promoter for endothelial cells, is a potent inhibitor of DNA synthesis in human arterial SMC. However, in both E304 endothelial cells and SMC, PD-ECGF enhances the stimulatory effect of low concentrations of gonadal steroids on 3[H]thymidine incorporation. PD-ECGF antagonizes PDGF- and IGF1-induced DNA synthesis in both E304 and SMC cells. By inhibiting arterial SMC proliferation and accelerating endothelial cell replication, PD-ECGF may buffer the effect of PDGF and favorably modulate arterial wall response to injury.

The measurement of oestrone-3-glucuronide in urine by non-competitive idiometric assay.

We report a novel non-competitive idiometric assay for the measurement of oestrone-3-glucuronide (EG) in diluted urine. The method is based on the use of two types of anti-idiotypic antibody, the beta-type and alpha-type, that recognize different epitopes within the hypervariable region of the primary anti-EG antibody (Ab1). The beta-type anti-idiotypic antibody is analyte sensitive and competes with the analyte for an epitope of the primary antibody at the binding site. On the other hand, the alpha-type is analyte insensitive, but does not bind the Ab1 in the presence of the beta-type due to epitope proximity. In the present format, reaction mixtures containing the europium labelled Ab1 are reacted sequentially with EG standards or diluted urine samples, with the beta-type anti-idiotypic antibody and biotinylated alpha-type anti-idiotypic antibody on immobilized streptavidin coated microtiter plates. After 1 h incubation, the fluorescence of europium is measured by a time-resolved fluorescence and is proportional to the concentration of EG over a range of 0-10 nmol/l. The method demonstrates good sensitivity, precision and comparability with an alternative competitive fluorescent immunoassay. The idiometric assay for EG may be applied for the monitoring of ovarian function in women and is suitable for dipstick technology.

Estrogen stimulation of creatine kinase B specific activity in 3T3L1 adipocytes after their differentiation in culture: dependence on estrogen receptor.

We have demonstrated previously that rat adipose tissue showed sex and depot-specific responses to gonadal steroids. The epididymal fat pad in males responded exclusively to androgens by increased specific activity of the brain type isozyme of creatine kinase (CK). In females, the parametrial adipose tissue responded exclusively to estrogens. The present study was undertaken to follow the responsiveness to steroid hormones, and the presence of estrogen receptors (ER), in 3T3L1 cells during their differentiation from pre-adipocytes to adipocytes. In pre-adipocytes in which the basal CK specific activity is low, there was no CK response to 17beta estradiol (E2) or dihydrotestosterone (DHT). Differentiation of the cells into adipocytes was accompanied by increased basal CK activity which was stimulated by E2, but not by DHT. Responsiveness to E2 began 5 days after switching pre-adipocytes to differentiation medium. Upon differentiation, ER became demonstrable in the cell nuclei by staining with FITC labeled anti-idiotypic antibody (clone 1D5) directed against the steroid binding domain of ER. The response to E2 was time-dependent and blocked completely by cycloheximide or actinomycin D. 1D5 itself, which has an estrogen mimetic effect, stimulated CK activity in the cells similarly to E2. The antiestrogen tamoxifen which also stimulated CK activity in the adipocytes, completely blocked E2 action. The 'pure' antagonist of E2, ICI 164,384 and the tissue-selective antiestrogens, raloxifene or tamoxifen methiodide were also complete antagonists with no agonistic effects. The response of the 3T3L1 adipocytes to E2 was upregulated by 1,25(OH)2D3. Moreover, IGF1 was also a potent stimulator of CK in these cells, and therefore may mediate partially the stimulation by E2. Transient transfection of the pre-adipocytes with ER permitted E2 induction of CK. Thus, the appearance of ER and concomitant responsiveness to E2 is another hormone-related change occurring in 3T3L1 cells during differentiation, in addition to changes such as development of insulin responsiveness. The interactions in this system provide a useful in vitro model for investigating the development of responsiveness to E2.

A monoclonal antibody to oestradiol potentiates the stimulation of the specific activity of the brain type creatine kinase by oestrogen in vivo and in vitro.

We described previously the in vivo immunoneutralization effects of a high affinity anti-oestradiol antibody clone 15 in blocking ovulation and synaptic remodeling in cycling female rats. In the present study we report the enhancing effects of this antibody. Treatment of ovariectomized female rats or female derived skeletal cell cultures in vitro with anti-E2 15 plus oestrogen (E2) potentiated the specific activity of the brain type creatine kinase (CK) response to E2 in the rat tissues or skeletal cells. The enhancing CK response of anti E2 15 plus E2 was time- and dose-dependent in the uterus, thymus, epiphysis and diaphysis of ovariectomized female rats. In the pituitary, on the other hand, anti-E2 15 blocked the stimulatory CK response to E2. Two other high affinity anti-E2 antibodies, clones 8D9 and 11B6, had no effect in augmenting the response of CK to E2 in rat tissues. Moreover, the enhancing CK response in rat tissues was specific to anti-E2 15 plus E2 since the intact anti-E2 in the presence of other oestrogen mimetics, such as oestriol or stilbestrol or tamoxifen did not potentiate the CK response in rat tissues. In this model system the Fab' monomer of anti-E2 15 abolished the CK response to E2 in rat tissues and not to anti-E2 15 plus E2 whereas tamoxifen completely blocked the CK response to anti E2 plus E2. Anti E2 15 may therefore serve as a specific carrier in delivering E2 to oestrogen sensitive rat tissues or cells containing functional oestrogen receptors and thereby increasing the magnitude of E2 effects in vivo and in vitro.

Assessment of estrogen receptor distribution in human endometrium by direct immunofluorescence.

OBJECTIVE: To use a direct immunofluorescence technique employing a fluorescein labeled anti-idiotypic antibody that recognizes the estrogen receptor (ER) order to assess the distribution of ER in the uteri of normal women throughout the normal menstrual cycle and of a woman exposed prenatally to diethylstilbestrol (DES). SUBJECTS: Included in the study were 25 women aged between 35 and 50 years and an amenorrheic patient diagnosed as "DES Syndrome". LOCALIZATION: Localization of ER expression in frozen sections of uterine tissue was achieved by direct immunofluorescence using a fluorescein labeled anti-idiotypic antibody that interacts with ER. RESULTS: Analysis of the immunofluorescence staining indicated that in the normal human endometrium the intensity of ER staining varied according to the phase of the cycle as well as according to the cell type. On the other hand, endometrial ER evaluation of the patient with DES syndrome showed minimal expression of ER and after treatment with conjugated estrogens, endometrial biopsy revealed a significant increase in ER expression. CONCLUSIONS: These findings indicate that the fluorescein labeled anti-idiotypic antibody can be used to detect ER in normal and pathological human endometrium and to monitor changes in ER expression in the endometrium during hormonal therapy.

ADP-ribosylation of microtubule proteins as catalyzed by cholera toxin.

Incubation of purified rat brain tubulin with cholera toxin and radiolabeled [32P] or [8-3H]NAD results in the labeling of both alpha and beta subunits as revealed on sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). Treatment of these protein bands with snake venom phosphodiesterase resulted in quantitative release of labeled 5'-AMP, respectively labeled with the corresponding isotope. Two-dimensional separation by isoelectric focusing and SDS-PAGE of labeled and native tubulin revealed that labeling occurs at least in four different isotubulins. The isoelectric point of the labeled isotubulins was slightly lower than that of native purified tubulin. This shift in mobility is probably due to additional negative charges involved with the incorporation of ADP-ribosyl residues into the tubulin subunits. SDS-PAGE of peptides derived from [32P]ADP-ribosylated alpha and beta tubulin subunits by Staphylococcus aureus protease cleavage showed a peptide pattern identical with that of native tubulin. Microtubule-associated proteins (MAP1 and MAP2) of high molecular weight were also shown to undergo ADP-ribosylation. Incubation of permeated rat neuroblastoma cells in the presence of [32P]NAD and cholera toxin results in the labeling of only a few cell proteins of which tubulin is one of the major substrates.

Inhibitors of protein tyrosine phosphorylation: preliminary assessment of activity by time-resolved fluorescence.

Epidermal growth factor (EGF) receptor (ErbB1)-associated tyrosine kinase inhibitors may act as potential chemotherapeutic agents. In order to assess the inhibitory activity of these compounds, we developed a simple and sensitive assay based on time-resolved fluorescence. In this technique, crude cell lysates bearing the ErbB1 receptor were captured in microtitre plates immobilized with monoclonal anti-ErbB1 antibody SG 565. Subsequently, the phosphotyrosine content of the cell lysates was quantified by a europium-labelled anti-phosphotyrosine antibody. Thus, genistein, a tyrosine kinase inhibitor, was capable of reducing by half the tyrosine phosphorylation caused by the binding of EGF to A431 cells, whereas 6-carboxymethyl genistein did not inhibit protein tyrosine phosphorylation. This assay is simple to perform, does not use radioactive substrates, and can be useful for screening EGF receptor tyrosine kinase inhibitors from natural products or synthetic compounds. Moreover, the assay has a high signal:noise ratio and is suitable for large-scale screening.

Menopause is associated with a significant increase in blood monocyte number and a relative decrease in the expression of estrogen receptors in human peripheral monocytes.

PROBLEM: The clinical significance of the differential expression of estrogen receptor (ER) in human monocytes was evaluated. METHOD: Two color flow cytometry analysis was used on peripheral blood samples of young and postmenopausal females and postmenopausal females treated with estrogen replacement therapy. In addition, the monocyte and lymphocyte counts and the blood estrogen levels of each patient were determine. RESULTS: During menopause there is a significant decrease in the percentage of ER positive monocytes, and an increase in blood monocyte number, which declines following estrogen replacement therapy to values of the young. CONCLUSIONS: These findings suggest that estrogen modulates the monocyte numbers and its effects may be mediated through the ER in the monocytes.