Cultured Cell Populations Research Articles

The effect of epidermal growth factor and transforming growth factor β1 on proliferation and differentiation of urothelial cells in urinary bladder explant culture

The effects of two growth factors, EGF and TGFβ1, on growth and differentiation of different populations of urothelial cells in explant cultures of mouse urinary bladder have been studied by electron microscopy and lectin analysis. In an explant culture 10 days after the implantation three different populations of urothelial cells can be distinguished. Original urothelial cells, which are integral part of the explant, new urothelial cells, which cover the baso‐lateral sides of the explant and are organized in a multilayer epithelium, and new urothelial cells, which are not any more in direct contact with the explant and grow over the membrane in epithelium‐like structure. Exogenously added EGF or TGFβ1 did not affect either the formation or the thickness of multilayered urothelium, so cells were proliferating on the free surfaces of stroma as well as on the epithelium expanding over the membrane. In the absence of growth factors in medium, the newly formed baso‐lateral multilayered epithelium bordering the stroma shows ultrastructural signs of terminal differentiation suggesting that for cell proliferation and differentiation the action of stroma is of crucial importance. On the other hand, the differentiation of the epithelium spreading over the membrane, but not its thickness, is affected by exogenously added TGFβ1. Solely in TGFβ1‐treated cultures a differentiation sirnilar to that in vivo takes place. The apoptosis of the urothelial cells was not increased by TGFβ1. The lectin analysis by WGA and ConA conjugated with ferritin revealed that ConA‐ferritin combines only with the surface cells which grow over the membrane in the absence of TGFβ1.

The effect of epidermal growth factor and transforming growth factor β1 on proliferation and differentiation of urothelial cells in urinary bladder explant culture

The effects of two growth factors, EGF and TGF β 1, on growth and differentiation of different populations of urothelial cells in explant cultures of mouse urinary bladder have been studied by electron microscopy and lectin analysis. In an explant culture 10 days after the implantation three different populations of urothelial cells can be distinguished. Original urothelial cells, which are integral part of the explant, new urothelial cells, which cover the baso-lateral sides of the explant and are organized in a multilayer epithelium, and new urothelial cells, which are not any more in direct contact with the explant and grow over the membrane in epithelium-like structure. Exogenously added EGF or TGF β 1 did not affect either the formation or the thickness of multilayered urothelium, so cells were proliferating on the free surfaces of stroma as well as on the epithelium expanding over the membrane. In the absence of growth factors in medium, the newly formed baso-lateral multilayered epithelium bordering the stroma shows ultrastructural signs of terminal differentiation suggesting that for cell proliferation and differentiation the action of stroma is of crucial importance. On the other hand, the differentiation of the epithelium spreading over the membrane, but not its thickness, is affected by exogenously added TGF β 1. Solely in TGFβ 1-treated cultures a differentiation sirnilar to that in vivo takes place. The apoptosis of the urothelial cells was not increased by TGF β 1. The lectin analysis by WGA and ConA conjugated with ferritin revealed that ConA-ferritin combines only with the surface cells which grow over the membrane in the absence of TGF β 1.

Cytokine and chemokine production by CD34+ haemopoietic progenitor cells: detection in single cells.

In vitro expansion of haemopoietic progenitor cells (HPC), lineage-specific differentiation, and gene transfer are all based on in vitro culture systems using haemopoietic growth factors (HGF). A close control of the actual culture conditions, however, is difficult due to secondary mediators secreted by the heterogenous population of mature and immature cells in culture. Although monocytes and granulocytes have already been identified as active producers, this study specifically addressed the role of CD34+ progenitor cells in this respect. Using an immunostaining method that enables simultaneous detection of cytokines and phenotype, 56 +/- 6% CD34+ peripheral blood progenitor cells (PBPC) were found to contain cytoplasmic IL-8 after stimulation with phorbol myristate acetate + ionomycin for 90 min. 19 +/- 40%, stained positive after TNF-alpha induction (20 h), and 7 +/- 1% expressed IL-8 in the presence of culture medium alone. Intra-cytoplasmic TNF-alpha and IL-1beta were detected at lower frequency, and < 1% of CD34+ cells expressed IL-1ra or IL-6, whereas IL-1alpha, IL-10 and G-CSF were not detected. Thus, CD34+ HPC are able to synthesize chemo- and cytokines that may operate in an auto- or paracrine manner to modulate in vivo as well as in vitro growth and differentation of haemopoietic cells.

Ultrastructure of Platelet Formation by Human Megakaryocytes Cultured With the Mpl Ligand

AbstractThe site and mechanism of platelet production by bone marrow megakaryocytes (MKs) has been the subject of extensive studies, but is still a matter of controversy. However, the recent discovery of the Mpl ligand (Mpl-l), also called megakaryocyte growth and development factor (MGDF ) or thrombopoietin, has resulted in considerable progress in the understanding of the maturation of the MK lineage. To better understand the mechanism of platelet production, we examined the late stage of MK maturation by electron microscopy in cells cultured in the presence of Mpl-l. Human bone marrow CD34+CD38+ cells, which contain late MK progenitors, were purified by flow cytometry and cultured in a serum-free liquid medium containing recombinant human Mpl-l (MGDF 10 ng/mL) for 7 days. In this system, the majority of cultured cells were large MKs with lobulated polyploid nuclei. The MKs displayed a smooth surface with harmonious cytoplasmic maturation and abundant, regularly distributed demarcation membranes and α-granules, and even some dense granules. Interestingly, approximately 30% of the MKs observed displayed morphologic evidence of platelet production: at optical microscopy, MKs formed long filamentous cytoplasmic extensions (proplatelets) that fragmented into platelet-sized particles. Moreover, flow cytometric analysis of this cultured cell population showed GPIIb-positive particles of the size of platelets. Electron microscopic observation showed that MKs producing platelets displayed thin pseudopods on the surface, and that the channels of the demarcation membrane system were dilated, allowing long strands of cytoplasm to extend from the cell periphery. These cytoplasmic strands displayed beading with constrictions separating platelet-sized segments; the more distal to the cell core, the smaller the fragments were. They eventually detached from the cell core into the culture medium either occasionally still elongated or, more often, separated into individual platelets. Parallel longitudinal and perpendicular microtubules were visualized in the constricted regions of these cytoplasmic strips; immunogold study of tubulin localization confirmed this subcellular distribution. On both sides of the constricted areas, vacuoles were noted, the fusion of which might have led to the detachment of individual platelets. Finally, in close proximity to the platelet-forming MKs, numerous microparticles were shed. Although some of these particles might correspond to transverse sections of pseudopods, this did not seem to be the case, since they were rarely seen around thrombin-stimulated MKs with surfaces bristled by numerous pseudopods. Flow cytometry showed that apart from shed cytoplasmic fragments of platelet size, numerous smaller particles strongly labeled for CD41 were also released by mature MKs. In conclusion, this study describes the ultrastructure of human platelet production in cultured MKs, involving the formation of proplatelets and the shedding of microparticles.

A child case of CD34 +, CD33 −, HLA-DR −, CD7 +, CD56 + stem cell leukemia with thymic involvement

It has been reported that the CD56 +/CD7 +/CD3 − phenotype of natural killer (NK) cells develop from the CD34 +/HLA-DR − bone marrow (BM) mononuclear cell population in long-term BM culture (LTBMC). An HLA-DR −/CD33 +/CD56 +/CD16 − myeloid/natural killer cell acute leukemia has been described. We report here a 7-year-old boy who developed stem cell acute leukemia with superior vena cava syndrome secondary to thymic involvement. Surface marker analyses revealed that the leukemia cells showed CD34 +/HLA-DR −/CD33 −/CD7 +/CD56 + phenotype. When stimulated with phorbol ester in vitro the leukemic cells morphologically differentiated to myeloid cells developing CD13, CD15 and CD56 antigens. Our results suggest that CD34 +/HLA-DR −/CD7 +/CD56 + stem cell leukemia may arise from transformation of a pluripotent precursor cell, which could differentiate to both myeloid and NK cell lineages.

A modular set of Flp, FRT and lacZ fusion vectors for manipulating genes by site-specific recombination

Site-specific recombinases can serve as powerful tools to target genetic manipulations to specific cell populations in culture and in the organism. A series of vectors for engineering gene activation, deletion and integration in mammalian cells using Flp recombinase is described here. The vectors are modular in design so that specific cassettes can be linked depending on the application. Using these vectors, efficient Flp-mediated lacZ activation and β-galactosidase (βGal) detection has been demonstrated in mammalian cell culture. These vectors should facilitate using Flp to mark cell populations, as well as to activate, remove or mutate genes in culture and in the mouse.

Detection of human cytomegalovirus (HCMV) DNA from cell-free plasma of immunosuppressed patients by nested PCR: influence of nucleic acid extraction method

Blood cells and plasma preparations from HCMV-seropositive healthy blood donors were all nPCR negative. Detection of HCMV DNA from PBMC and granulocytes (DNAemia) of immunosuppressed patients by nPCR did not correlate with the isolation of infectious virus from these cell populations in cell culture (viremia). However HCMV could be isolated in 60% of cases from other materials of the same patient. HCMV DNA detected in blood cells persisted for up to one year in an asymptomatically infected individual after NTX. The sensitivity of HCMV DNA detection in cell-free plasma (up to 5 fg) depended on the method used for DNA isolation. The rate of HCMV DNA detection in plasma was lower than in leukocytes. In all cases of positive plasma PCR infectious virus could be isolated from any other material of the symptomatically infected patients. Therefore HCMV DNA PCR from plasma of immunosuppressed patients seems to be a suitable and easy alternative to HCMV RT/PCR for routine diagnosis of HCMV disease.

Monte Carlo approach to tissue-cell populations.

We describe a stochastic dynamics of tissue cells with special emphasis on epithelial cells and fibro- blasts and fibrocytes of the connective tissue. Pattern formation and growth characteristics of such cell populations in culture are investigated numerically by Monte Carlo simulations for quasi-two-dimensional systems of cells. A number of quantitative predictions are obtained which may be confronted with experimental results. Furthermore we introduce several biologically motivated variants of our basic model and briefly discuss the simulation of two dimensional analogs of two complex processes in tissues: the growth of a sarcoma across an epithelial boundary and the wound healing of a skin cut. As compared to other approaches, we find the Monte Carlo approach to tissue growth and structure to be particularly simple and flexible. It allows for a hierarchy of models reaching from global description of birth-death processes to very specific features of intracellular dynamics. (c) 1995 The American Physical Society

Effects of growth hormone-releasing peptide-2 (GHRP-2) on membrane Ca2+ permeability in cultured ovine somatotrophs.

The newly synthesized GH-releasing peptide, GHRP-2 (D-Ala-D-beta Nal-Ala-Trp-D-Phe-Lys-NH2), was studied in somatotroph-enriched populations of ovine pituitary cells in primary culture. Nystatin-perforated whole-cell recordings were made on identified somatotrophs after 4-14 days of culture. Using a standard bath solution (containing Na+, Ca2+) and an electrode solution containing K+ in current-clamp recordings, GHRP-2 (10 nM) depolarized the membrane potential of the cells triggering a burst of action potentials. Voltage-clamp recordings indicated that GHRP-2 produced a slowly inactivated inward current with a slight reduction in outward current. The inward current was blocked by the Ca2+ channel blocker, Co2+ (0.5 mM). Ca2+ currents were then isolated using tetraethylammonium bath solution and an electrode solution containing Cs+. Ovine somatotrophs possess transient (T type) and long lasting (L type) Ca2+ currents. The L type current was abolished by addition of nifedipine (3 microM) to the bath solution and T type current was isolated on this basis. Current-voltage relationships indicated an increase in both T and L type Ca2+ currents in response to GHRP-2. The voltage-dependent inactivation curve for T type Ca2+ current was shifted towards a less negative level by the peptide. Intracellular free Ca2+ concentration ([Ca2+]i) in somatotroph-enriched populations was specifically increased by GHRP-2 but this effect was totally abolished by blockade of membrane Ca2+ channels. These data show that GHRP-2 causes an influx of Ca2+ leading to an increase in [Ca2+]i in ovine somatotrophs.(ABSTRACT TRUNCATED AT 250 WORDS)

Proliferative zones of postnatal rat brain express epidermal growth factor receptor mRNA

Two ligands for the epidermal growth factor receptor (EGF-R), EGF and transforming growth factor-α (TGFα), have recently been shown to influence the proliferation, differentiation or survival of diverse populations of fetal and neonatal neuronal and glial cells in culture. These findings suggest that EGF, TGFα, or another EGF-R ligand play a role in the regulation of similar cellular developmental events in vivo. In the present study, in situ hybridization with an 35S-labeled cRNA probe was used to determine if mRNA for EGF-R is expressed in two principal germinal zones of the postnatal rat brain, the forebrain ventricular/subventricular zone and the cerebellar external granule layer. Cells labeled with the EGF-R cRNA were distributed throughout the subventricular zone, particularly in the dorsolateral aspect, from birth to adulthood, although the numbers of labeled cells as well as the density of hybridization diminished during development. In the developing cerebellum, virtually all cells in the external granule layer were densely labeled with the EGF-R cRNA, as were numerous perikarya throughout the molecular layer. EGF-R mRNA was also transiently expressed at lower levels by neurons of the internal granule layer and deep cerebellar nuclei. By adulthood, cerebellar expression of EGF-R mRNA was not detected. These results demonstrate prominent expression of EGF-R mRNA within germinal zones of the developing brain and indicate a role for EGF, TGFα, or another member of the EGF-related family in regulating the activities of neuronal and glial progenitor cells in vivo.

Identification and cloning of a megakaryocyte growth and development factor that is a ligand for the cytokine receptor MpI

A novel megakaryocyte growth and development factor (MGDF) has been identified in aplastic canine plasma, and its cDNAs have been cloned from canine, murine, and human sources. Purified canine MGDF isolated by procedures involving MpI receptor affinity chromatography exists in at least two forms, with apparent molecular masses of 25 kDa and 31 kDa, that share the N-terminal amino acid sequence APP-ACDPRLLNKMLRDSHVLH. Human, dog, and mouse cDNAs for MGDF are highly conserved and encode open reading frames for proteins of 353, 352, and 356 amino acids, respectively, including predicted signal peptides. Canine MGDF and recombinant human MGDF support the development of megakaryocytes from human CD34 + progenitor cell populations in liquid culture and promote the survival of a factor-dependent murine cell line (32D) engineered to express MpI. These biological activities are blocked by the soluble extracellular domain of MpI. These data demonstrate that MGDF is a novel cytokine that regulates megakaryocyte development and is a ligand for the MPI receptor.

A pyrimido[1,6-a]benzimidazole that enhances DNA cleavage mediated by eukaryotic topoisomerase II: a novel class of topoisomerase II-targeted drugs with cytotoxic potential.

Recently, a number of novel quinolones with potent activity against topoisomerase II and eukaryotic cells have been described. Many of these compounds contain aromatic substituents in their C-7 ring positions. To determine whether pyrimido[1,6-a]benzimidazoles, a class of drugs modeled on quinolones, also display activity toward eukaryotic systems, the effects of Ro 46-7864 and Ro 47-3359 on Drosophila melanogaster topoisomerase II and Kc cells were characterized. While the former drug contains an aliphatic group (4-N-methylpiperazine) at the ring position equivalent to C-7 in quinolones, the latter compound contains an aromatic substituent (2,6-dimethylpyridine). Both pyrimido[1,6-a]benzimidazoles inhibited DNA relaxation catalyzed by the type II enzyme. However, only Ro 47-3359 enhanced topoisomerase II-mediated DNA cleavage and was toxic to Kc cells. At a concentration of 100 microM, this drug approximately doubled the levels of DNA breakage in vitro and killed > 50% of the initial cell population of cultures. These results strongly suggest that selected pyrimido[1,6-a]benzimidazoles may function as topoisomerase II-targeted drugs with cytotoxic potential.

Herpesvirus-mediated gene delivery into the rat brain: specificity and efficiency of the neuron-specific enolase promoter.

1. Herpesvirus infection with genetically engineered vectors is a way to deliver foreign gene products to various cell populations in culture and in vivo. Selective neuronal gene expression can be achieved using the neuron-specific enolase (NSE) promoter regulating expression of a transgene placed in and delivered by a herpesvirus vector. 2. We sought to determine the anatomical specificity and efficiency of herpesvirus-mediated gene transfer into the rat brain following placement of virus particles carrying a transgene (lacZ) under control of the NSE promoter. The virus utilized was thymidine kinase (TK) deficient and therefore replication deficient in the brain. 3. Infusion of 10(6) plaque-forming units of virus into the striatum caused a limited number of striatal neurons to express the lacZ transgene mRNA and protein product 7 days postinfection. In addition, small numbers of neurons expressing the transgene mRNA and protein were found ipsilateral to the viral injection in the frontal cortex, substantia nigra pars compacta, and thalamus. Neurons at these anatomic loci project directly to the striatal injection site. No other cells within the brains of injected animals expressed the lacZ gene. 4. While this herpesvirus NSE vector was capable of introducing novel functional genetic information into postmitotic neurons within defined neuroanatomic constraints, the numbers of neurons expressing detectable levels of beta-galactosidase was minimal. The calculated efficiency of delivery and transgene expression at 7 days postinfection was 1 transgenic neuron per 10(4) virus particles infused. 5. We conclude that NSE probably is not an optimal promoter for use in gene delivery to CNS neurons in herpesvirus vectors and that the efficacy of gene delivery using other neuron-specific promoters placed at various sites in the herpes viral genome needs to be explored.

Correlation of the in vitro cytotoxicity of ethyldeshydroxysparsomycin and cisplatin with the in vivo antitumour activity in murine L1210 leukaemia and two resistant L1210 subclones.

The cultured murine leukaemia L1210 cell populations used in the present study were derived from L1210 cells that had been grown in vivo. Subclones resistant to sparsomycin (L1210/Sm) or cisplatin (L1210/CDDP) were also developed in vivo. The doubling times of the cultured cell populations were identical. Fractions surviving after drug treatment in vitro were determined by colony formation in soft agar. The results, based on the differential sensitivity of the cell populations to ethyldeshydroxysparsomycin (EdSm) and CDDP, indicated that after a short exposure, cultured L1210/CDDP cells were cross-resistant to EdSm. L1210/Sm cells, however, were not cross-resistant to CDDP. The results obtained in cultured cell populations were confirmed in vivo. CD2f1 mice bearing i.p. implants of 1 x 10(5) tumour cells were given EdSm or CDDP and a combination of the two agents. Drugs were given once daily every 4 days for 3 doses starting at 24 h after tumour implantation. Treatment of mice bearing L1210/wt leukaemia with combined EdSm and CDDP caused strongly synergistic antitumour activity. In animals bearing the two resistant subclones, however, combined drug treatment did not improve the antitumour activity. The corresponding median survival of mice receiving combined drug treatment was 60 days in each group containing 6 mice bearing L1210/wt, with 4-6 cures being noted; 19 days in animals harbouring L1210/Sm, with 2 cures being recorded among 6 mice; and 11 days in mice bearing L1210/CDDP, with no cure being obtained. The results of this study indicate that the synergism resulting from combined treatment with CDDP and EdSm is a function of the cellular properties of the target tumour-cell populations and is independent of host factors.

Human Herpesvirus-6-Associated Suppression of Growth Factor-Induced Macrophage Maturation in Human Bone Marrow Cultures

AbstractCultures of marrow mononuclear cells were exposed to medium derived from cell cultures infected with several different strains of human herpesvirus-6 (HHV-6) immediately before the addition of either of two growth factors, granulocyte-macrophage colony-stimulating factor and interleukin-3. Exposure to any of the viral preparations suppressed the outgrowth of nonspecific esterase-positive adherent macrophages induced by the factors by more than 90%. The nonadherent cell populations in the infected cultures were numerically similar to those in uninfected control cultures, demonstrating the absence of a nonspecific cytotoxic effect of the viral materials. Infectious virus was not necessary for the macrophage outgrowth suppression. These findings suggest that HHV-6 either encodes or induces a soluble mediator or mediators that can interfere with the responses of bone marrow to growth factors and possibly block the normal differentiation of macrophages from marrow precursors.

Human herpesvirus-6-associated suppression of growth factor-induced macrophage maturation in human bone marrow cultures

Cultures of marrow mononuclear cells were exposed to medium derived from cell cultures infected with several different strains of human herpesvirus-6 (HHV-6) immediately before the addition of either of two growth factors, granulocyte-macrophage colony-stimulating factor and interleukin-3. Exposure to any of the viral preparations suppressed the outgrowth of nonspecific esterase-positive adherent macrophages induced by the factors by more than 90%. The nonadherent cell populations in the infected cultures were numerically similar to those in uninfected control cultures, demonstrating the absence of a nonspecific cytotoxic effect of the viral materials. Infectious virus was not necessary for the macrophage outgrowth suppression. These findings suggest that HHV-6 either encodes or induces a soluble mediator or mediators that can interfere with the responses of bone marrow to growth factors and possibly block the normal differentiation of macrophages from marrow precursors.

Isolation and functional studies on feline bone marrow derived macrophages

In this report, we describe an in vitro culture method for feline bone marrow cells, which yields large numbers of quiescent macrophages after 14 days of culture. The bulk of the cultured cell population consists of macrophages as assessed by morphology, macrophage specific cytochemistry, and phagocytosis. The remaining cells were lymphocytes, bone marrow stromal cells, fibroblasts and occasional polymorphonuclear leukocytes. While resting cells produced no detectable interleukin 1, stimulation with lipopolysaccharide (LPS) induced the production of biologically active interleukin 1. After 6 h LPS stimulation, mRNA for tumor necrosis factor α and interleukin 1β was detectable. The absence of mRNA in unstimulated cells indicates cultured macrophages were not activated until stimulated by LPS or plastic adherence. This approach provides a useful means to measure potential modulatory effects by virus infections or other agents upon feline macrophage gene expression.

Demonstration of cytokeratin in endothelial cells of the synovial microvasculature in situ and in vitro.

We have used a panel of anti-cytokeratin antibodies and immunofluorescence microscopy to examine synovial tissue from a variety of large and small joints in patients with various rheumatic conditions, including RA, OA, AS, pigmented villonodular synovitis (PVNS) and tenosynovitis (TS). In every case we regularly found blood vessels with endothelia which express cytokeratin. Positive staining was obtained with a guinea pig anti-keratin antibody, with monoclonal antibody 8.13 and with a monoclonal antibody specific for keratin 18. Staining of endothelial cells was confirmed by double labelling with antibodies to cytokeratin and factor VIII/von Willebrand factor. We also detected a polypeptide corresponding to cytokeratin 18 (MW 45,000) by Western blotting of synovial tissue. In addition we have isolated pure populations of synovial endothelial cells in culture and demonstrate an extensive cytokeratin intermediate filament network which co-localizes with vimentin filaments. An understanding of the role of the cytokeratin 18 network in synovial endothelium may be important for our understanding of endothelial changes in synovial disease.

The possible use of spleen cells for the adoptive immunotherapy of cancer patients

The possible use of spleen-derived mononuclear cells (SPMC) for the intentional and economical adoptive immunotherapy of cancer patients was studied. SPMC were obtained from spleens resected surgically from patients with gastric cancer or idiopathic thrombocytopenic purpura (ITP). When SPMC were cultured in recombinant interleukin 2 (rIL2), SPMC, in the form of interleukin-activated killer spleen cells (IL-SP) proliferated in six of eight cases. CD8+ lymphocytes were the major expanding cell population in most SPMC cultures and IL-SP showed a significant cytolytic activity against cultured tumor cells during cell proliferation. When cultured with a streptococcal preparation, OK-432, for 24 to 48 h, SPMC showed cytotoxic activity against tumor cells and were expressed as OK-432 activated killer spleen cells (OK-SP). The effects of supernatants from IL-SP and OK-SP on tumor cell growth were also examined. The supernatants from IL-SP and OK-SP significantly inhibited cell growth in 3 and 10 out of 11 cases, respectively, while those from OK-SP showed higher growth inhibitory activity than those from IL-SP. The results of this study indicate the potential of SPMC as effector cells for the adoptive immunotherapy of cancer patients.

Estradiol regulates gonadotropin-releasing hormone receptor number, growth and inositol phosphate production in αT3-1 cells

Gonadal steroids act at the pituitary to regulate gonadotropin-releasing hormone (GnRH) receptor number and the responsiveness of gonadotropes to GnRH and can act at post-receptor sites to modulate Ca 2+ -mediated and protein kinase C-mediated signal-transducing pathways. However, such effects have been seen in the mixed cell population of primary cell cultures and may involve indirect effects on cells other than gonadotropes. Here, steroid effects on a recently described gonadotrope-derived cell line (αT3-1 cells) have been assessed. In these cells estradiol, progesterone, testosterone and corticosterone all exerted trophic effects. Estradiol increased [ 3H]thymidine incorporation with an EC 50 of 10 −12 to 10 −11 M and this effect was blocked by keoxifene, an estrogen receptor antagonist. Estradiol also reduced binding of [ 125I]buserelin (EC 50 approximately 10 −11 M), an effect which appears to reflect a reduction in GnRH receptor number rather than a change in K d. Estradiol also shifted the dose-response curve for GnRH-stimulated inositol phosphate (IP) accumulation rightward, increasing the EC 50 for this GnRH effect by approximately 20-fold. Accordingly estradiol acts directly upon αT3-1 cells not only to reduce GnRH receptor number, but also to reduce the efficiency of coupling of residual GnRH receptors to second messenger generation.