Purification and characterization of the glycoprotein hormone .alpha.-subunit-like material secreted by HeLa cells

Cox, G.Stanley; Rimerman, Ronald A.

doi:10.1021/bi00417a042

Cited by 6 publications

(1 citation statement)

References 54 publications

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“…Modest increases of hCG subunits transcription induced by PKA and protein kinase C (PKC) activators were described in choriocarcinoma cells (42), and more recently release of free CG␣ subunit in response to PKA and PKC activation was reported in a hepatoma cell line (43). In HeLa cell lines variable levels of constitutive ␣-subunit expression were reported, but in most cases the expression could be enhanced only by treatment with nonspecific activators of gene expression, such as sodium butyrate or inhibitors of DNA synthesis (44,45). As shown here in a sideto-side comparison, GPH␣ transcription in HeLa cells is constitutive and cannot be regulated by cAMP signaling.…”

Section: Discussionmentioning

confidence: 99%

Non-Gonadotropin-Releasing Hormone-Mediated Transcription and Secretion of Large Human Glycoprotein Hormone α-Subunit in Human Embryonic Kidney-293 Cells

Casella

Lindner²,

Zenzmaier

et al. 2007

Endocrinology

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To identify genes that are most responsive to a sustained activation of a G(s) protein-coupled receptor, HEK293 cells were stably transfected with the beta(2)-adrenergic receptor and stimulated with agonist isoproterenol (1 mum). A microarray study indicated that the gene with the highest stimulation index (500-fold) encoded the common alpha-subunit of human glycoprotein hormones (GPHalpha). Induction of GPHalpha transcription in response to cAMP elevations resulted in a dramatic increase (600-fold) of protein secretion as shown by RT-PCR and a highly specific time-resolved immunofluorometric assay. Cloning and sequencing of the GPHalpha cDNA and mass spectrometric analysis of HPLC-purified GPHalpha derived from serum-free HEK293-beta(2)-adrenergic receptor-stimulated cells verified the nature of the molecule. Enzymatic deglycosylation with subsequent Western blots revealed that this was a large hyperglycosylated form of GPHalpha that had not been associated with a beta-subunit previously. This uncombined variant is known to be either cosecreted with GPHs from the pituitary, the placenta, and a variety of tumors or secreted without GPHs from APUD cells and rare tumors. Moreover, it is similar to GPHalpha found at high concentrations in seminal plasma. As shown by a panel of endogenous or transfected G protein-coupled receptors in HEK293 cells, the expression of large GPHalpha was controlled by G(s)- and G(q)- but not G(i)-dependent receptors and mediated via cAMP and Ca(++) release. This suggests that Gq- or G(s)-coupled receptors other than the classical GnRH receptor may play a role in the regulation of nonpituitary, nonplacental GPHalpha secretion under physiological and pathological conditions.

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Section: Discussionmentioning

confidence: 99%

Non-Gonadotropin-Releasing Hormone-Mediated Transcription and Secretion of Large Human Glycoprotein Hormone α-Subunit in Human Embryonic Kidney-293 Cells

Casella

Lindner²,

Zenzmaier

et al. 2007

Endocrinology

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Flow cytometry method for the analysis of membrane-associated human chorionic gonadotropin, its subunits, and fragments on human cancer cells

Acevedo¹,

Krichevsky²,

Campbell-Acevedo³

et al. 1992

Cancer

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A quantitative flow cytometry method for the analysis of membrane‐associated human chorionic gonadotropin (hCG), its subunits, and fragments on human cancer cells was developed using a double‐antibody reaction; a flow cytometer with a 2‐W argon laser, standard settings, and filters for fluorescein isothiocyanate use; commercially available software; and the ectopic hCG producer CCL 2 HeLa cells from the American Type Culture Collection (ATCC) as a cell control to standardize the reagents and for overall quality control. Twenty‐two monoclonal antibodies (MoAb) and immunoglobulin G fractions from three rabbit polyclonal antisera were tested for effects of antibody concentration (titration), reproducibility at different levels of epitope expression, and variability of epitope expression to select appropriate primary antibodies. Based on the results of the various tests, three polyclonal immunoglobulin G antibodies and a panel of nine MoAb directed to epitopes located in five different regions on the hCG molecule were selected as first antibodies. Their specificity was determined by using two unrelated MoAb of the same isotype at the same concentration to replace the primary MoAb and by a competition experiment. The unrelated MoAb also were used for the selection of the appropriate control fluorescence profile needed for the software. The unique characteristics of this method were: the use of living cells, standardized reagents, internal and external quality control, and the highest sensitivity, which could detect as few as 103 molecules of fluorochrome per cell. Serial analyses of the ATCC CCL 2 HeLa cells and two of its variants and of the eutopic hCG producer JEG‐3 choriocarcinoma cells revealed the expression of membrane‐associated epitopes of intact hCG, its subunits, and fragments by a high percentage of the cells, indicating that the expression of these sialoglycoproteins by these two different types of cancer cells is a common phenotypic characteristic.

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Expression of membrane-associated human chorionic gonadotropin, its subunits, and fragments by cultured human cancer cells

Acevedo

Krichevsky

Campbell-Acevedo

et al. 1992

Cancer

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The expression of human chorionic gonadotropin (hCG), its subunits, and fragments on the cell membrane of cultured human cancer cells was investigated using a flow cytometric method. This method uses living cells; a double‐antibody reaction; a flow cytometer with an argon laser, standard settings, and filters for fluorescein isothiocyanate; commercially available software; the American Type Culture Collection (ATCC) CCL 2 HeLa cell line as cell control and overall quality control; polyclonal rabbit antisera raised against the hCG dimer, its α sub‐unit (hCGα), and its β subunit (hCGβ); and a panel of monoclonal antibodies (MoAb) recognizing different epitopes on the intact hCG molecule, its subunits, and fragments. The purified immunoglobulin G fractions from the polyclonal antisera were used to estimate the total expression of the membrane‐associated glycoproteins; the MoAb were used to detect the expression of epitopes of the hCG dimer, its subunits, and fragments. The results of the analyses done on cells from 74 established cancer cell lines of different types and origins (including 52 carcinomas, 10 sarcomas, 4 leukemias, 6 lymphomas, and 2 retinoblastomas) showed variable degrees of reactivity in a great percentage of cells in all cell lines studied with MoAb directed against different conformational epitopes of intact hCG (hCG‐holo), hCGβ hCGβ‐free, the carboxy terminal peptide (CTP) of hCGβ, and an epitope of hCGα. The expression of the membrane‐associated epitopes of hCG and its subunits was found to be a phenotypic marker characteristic of all evaluated cultured human cancer cell lines, irrespective of their type or origin. There were, however, quantitative and qualitative differences in the expression of the different epitopes. Thus, hCGβ, free and as part of hCG‐holo, recognized by the MoAb against hCGβ‐CTP, was expressed by a high percentage of cells of most cell lines. There was great variability in the expression of hCG‐holo, recognized by MoAb B109. For this reason some groups of cancers expressed larger amounts of incompetent hCGα and/or hCGβ than others. Cell lines derived from adenocarcinomas of the lung were the only exception to this general finding; the expression of small amounts of hCG‐holo was caused by a low degree of hCGα synthesis.

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Purification and characterization of the glycoprotein hormone .alpha.-subunit-like material secreted by HeLa cells

Cited by 6 publications

References 54 publications

Non-Gonadotropin-Releasing Hormone-Mediated Transcription and Secretion of Large Human Glycoprotein Hormone α-Subunit in Human Embryonic Kidney-293 Cells

Non-Gonadotropin-Releasing Hormone-Mediated Transcription and Secretion of Large Human Glycoprotein Hormone α-Subunit in Human Embryonic Kidney-293 Cells

Flow cytometry method for the analysis of membrane-associated human chorionic gonadotropin, its subunits, and fragments on human cancer cells

Expression of membrane-associated human chorionic gonadotropin, its subunits, and fragments by cultured human cancer cells

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