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Target Concepts:
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Query: UNIPROT:P67775 (
alpha isoform
)
797
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lometrexol, a tight-binding antifolate inhibitor of the purine de novo enzyme glycinamide ribonucleotide formyltransferase (GARFT), was the first GARFT inhibitor to be investigated clinically. Unexpected observations of delayed cumulative toxicity prompted a search for a second generation antimetabolite with a more favorable biochemical, pharmacological and toxicological profile. LY309887, 6R-2',5'-thienyl-5, 10-dideazatetrahydrofolic acid, had 9-fold greater potency to inhibit GARFT (Ki = 6.5 nM) compared to lometrexol. Like lometrexol, LY309887 was activated by folpolyglutamate synthetase, however, it had a lower first order rate constant. In vitro and in vivo data were consistent with these observations: polyglutamation of LY309887 was less extensive compared to lometrexol and livers of mice accumulated fewer polyglutamates of LY309887 than polyglutamates of lometrexol. The affinities of these two compounds for isoforms of human folate receptors (FR) were compared. Lometrexol had a 6-fold higher affinity for FR alpha than LY309887 and both compounds had higher affinity for the
alpha isoform
compared to the beta isoform. The selectivity of LY309887 for FR alpha (beta (Ki)/ alpha (Ki) = 10.5) was twice that of lometrexol's (beta / alpha = 5.0). Lometrexol and LY309887 were potent cytotoxic compounds against the human leukemia cell line CCRF-
CEM
with IC50's of 2.9 nM and 9.9 nM, respectively. In vivo, LY309887 was more potent than lometrexol at inhibiting tumor growth in the C3H mammary murine tumor model and several tumor xenografts. Excellent efficacy was achieved by both compounds in several colon xenografts. In two pancreatic human xenografts, LY309887 achieved greater efficacy than lometrexol. In summary, the biochemical and pharmacological properties of lometrexol and LY309887 support the hypothesis that these antifolates will have clinical activity against human solid tumors. LY309887 is a second generation GARFT inhibitor with biochemical and pharmacological properties which distinguish it from lometrexol and suggest that it will have broad antitumor activity, a different pharmacokinetic profile and produce less toxicity than lometrexol in cancer patients.
...
PMID:Biochemistry and pharmacology of glycinamide ribonucleotide formyltransferase inhibitors: LY309887 and lometrexol. 895 84
Alternative splicing of the human glucocorticoid receptor (hGR) primary transcript produces two highly homologous protein isoforms, termed hGR alpha and hGRbeta, that differ at their carboxy-termini. In contrast to the well characterized hGR
alpha isoform
, which modulates gene expression in a hormone-dependent fashion, the biological significance of hGRbeta has only recently begun to emerge. We and others have shown that the hGRbeta messenger RNA transcript is widely expressed in human tissues and that the hGRbeta protein functions as a dominant negative inhibitor of hGR alpha in transfected cells. Unfortunately, these initial studies did not determine whether the hGRbeta protein was made in vivo. Such analyses are hindered because available anti-hGR antibodies cannot discriminate between the similarly sized hGR alpha and hGRbeta proteins. Therefore, to investigate the expression of the hGRbeta protein, we have produced an antipeptide, hGRbeta-specific antibody termed BShGR. This antibody was made against the unique 15-amino acid peptide at the carboxy-terminus of hGRbeta and recognizes both the native and denatured conformations of hGRbeta, but does not cross-react with hGR alpha. Using BShGR on Western blots and in immunoprecipitation experiments, we detected the hGRbeta protein in a variety of human cell lines and tissues. Immunocytochemistry was then performed with BShGR on HeLa S3 and
CEM
-C7 cells and on tissue sections prepared from lung, thymus, and liver to assess the cellular and subcellular distribution of hGRbeta. In all immunopositive cells, hGRbeta was found in the nucleus independent of glucocorticoid treatment. Within tissues, the hGRbeta protein was expressed most abundantly in the epithelial cells lining the terminal bronchiole of the lung, forming the outer layer of Hassall's corpuscle in the thymus, and lining the bile duct in the liver. As a potential in vivo inhibitor of hGR alpha activity, expression of hGRbeta may be an important factor regulating target cell responsiveness to glucocorticoids.
...
PMID:Expression and subcellular distribution of the beta-isoform of the human glucocorticoid receptor. 934 35
The
alpha isoform
of the glucocorticoid receptor (GRalpha) binds glucocorticoids and functions as a ligand-dependent transcription factor. Although GRalpha is expressed in almost all tissues and cells, its subcellular distribution is controversial. Many studies have reported that GRalpha translocates from the cytoplasm to the nucleus in a hormone-dependent manner whereas others have concluded that GRalpha is constitutively located in the nucleus. These conflicting data may result from the use of antibodies that do not discriminate GRalpha from a splice variant of the GR gene termed GRbeta. Using a GRbeta-specific antibody, we have recently demonstrated that GRbeta resides in the nucleus of cells independent of glucocorticoid treatment. In the following study we have generated a novel GRalpha-specific antibody (AShGR) in order to assess, unambiguously, the subcellular distribution of GRalpha. AShGR recognizes recombinant GRalpha on Western blots and in immunoprecipitation experiments but does not cross-react with recombinant GRbeta. Endogenous GRalpha is detected by AShGR in a variety of human cell lines including HeLa S3,
CEM
-C7, HEK-293, MCF-7, Hep G2, and secondary lung epithelial cells. In addition, AShGR detects endogenous rat and mouse GRalpha. Immunocytochemistry was performed with AShGR on COS-I cells transfected with human GRalpha and on HTC rat hepatoma cells expressing endogenous GRalpha. In both systems, GRalpha was found in the cytoplasm of cells in the absence of hormone and in the nucleus after hormone treatment. These studies mark the first time a GRalpha-specific antibody has been employed to examine the expression and subcellular distribution of endogenous GRalpha.
...
PMID:Immunocytochemical analysis of the glucocorticoid receptor alpha isoform (GRalpha) using GRalpha-specific antibody. 1049 33
The mechanisms by which glucocorticoids (GC) regulate annexin I (ANXA1) secretion in different cells are still a matter of debate. The aims of this study were to evaluate the ability of dexamethasone (Dex) to induce ANXA1 secretion and to investigate the roles of the intracellular free Ca2+ concentration ([Ca2+]i), and of the GC receptor, on that process. For this purpose, the human immature lymphoblastic CCRF-
CEM
cell line was used. Treatment of the cells with Dex, for up to 4 h, significantly reduced the intracellular content of ANXA1 and increased the amount of this protein bound to the outer surface of the plasma membrane, whereas exposure of cells to Dex, for 12 h, induced the synthesis of ANXA1. At the same short time periods, Dex also induced a significant increase in the [Ca2+]i. Incubation of the cells with BAPTA-AM (10 microM), a cell-permeant high affinity Ca2+ chelator, completely inhibited Dex-induced ANXA1 secretion. Furthermore, the Ca2+ ionophore, ionomycin, alone induced ANXA1 cleavage, but not its secretion. Additionally, we used brefeldin A to investigate the involvement of the classical endoplasmic reticulum (ER)-Golgi pathway of protein secretion in the release of ANXA1. The GC receptor antagonist, RU486, neither reverted the Dex-dependent ANXA1 secretion nor inhibited the increase of the [Ca2+]i induced by Dex. Together, our results indicate that Dex induces ANXA1 synthesis and secretion in CCRF-
CEM
cells. ANXA1 secretion in this cell type show the following characteristics: (i) is unlikely to involve the classical ER-Golgi pathway; (ii) requires a Ca(2+)-dependent cleavage of ANXA1; (iii) involves both Ca(2+)-dependent and independent mechanisms; and (iv) is apparently independent of the GC receptor
alpha isoform
.
...
PMID:Dexamethasone induces the secretion of annexin I in immature lymphoblastic cells by a calcium-dependent mechanism. 1223 84
