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Query: EC:3.4.21.4 (
trypsin
)
42,187
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The high molecular weight forms of adrenocorticotropic hormone (ACTH) produced by mouse
pituitary tumor
cells (AtT-20/D-16v) were separated from each other by gel filtration; their ability to stimulate steroidogenesis by isolated rat adrenal cortical cells was studied. Pools of pro-ACTH/endorphin. ACTH biosynthetic intermediate, and glycosylated ACTH(1--39) were obtained; on the basis of NaDodSO4-polyacrylamide gel electrophoresis, over 97% of the immunoactive ACTH was found to have the expected molecular weight. Suspension of isolated rat adrenal cortical cells were incubated overnight in tissue culture medium and used in a 2-h steroid production assay. Synthetic human ACTH(1--39) [hACTH(1--39)] was used as a bioassay and immunoassay standard; 60 pM hACTH(1--39) stimulated half-maximal production of fluoregenic steroid. The amount of pro-ACTH/endorphin, ACTH biosynthetic intermediate, or glycosylated (ACTH(1--39) added was estimated with an ACTH(17--24) immunoassay. All three high molecular weight forms of ACTH are capable of stimulating the same maximal level of steroidogenesis as hACTH(1--39). Glycosylated ACTH(1--39) is equipotent with hACTH(1--39); ACTH biosynthetic intermediate and pro-ACTH/endorphin are, respectively, 100- and 300-fold less potent than hACTH(1--39). Steroid production in response to all four forms of ACTH is linear in time. All of the different forms of ACTH stimulate the synthesis of corticosterone and related steroids; no significant production of cortisol or aldosterone was observed. beta-Lipotropin (beta LPH) and 16K fragment, which comprise the non-ACTH regions of pro-ACTH/endorphin and are secreted by the
pituitary tumor
cells, did not stimulate or interfere with steroidogenesis. Brief incubations of pro-ACTH/endorphin and ACTH biosynthetic intermediate with
trypsin
generated lower molecular weight forms of ACTH and increased biological activity 50-fold; thus, the decreased steroidogenic potency of these forms of ACTH is thought to be due to structural constraints on the ACTH(1--39)-like sequence in these larger precursor molecules
...
PMID:Steroidogenic activity of high molecular weight forms of corticotropin. 22 22
Mouse tumor cell beta-lipotropin (beta LPH) and gamma-lipotropin (gamma LPH) were purified from mouse
pituitary tumor
cell culture medium by ion exchange chromatography and gel filtration. The mouse tumor cell beta LPH was identified by immunoprecipitation with several antisera to beta-endorphin, generation of opioid bioactivity upon brief treatment with
trypsin
, and its identity with the molecule previously shown to serve as an intermediate in the biosynthesis of beta-endorphin. Mouse tumor cell beta LPH (Mr = 8200 +/- 250) and gamma LPH (Mr = 4600 +/- 200) are significantly smaller than known mammalian beta LPH (Mr = 10,000) and gamma LPH (Mr = 6300) molecules. The beta-endorphin region of mouse tumor cell beta LPH has the same amino acid composition as ovine, bovine, and camel beta-endorphin, and species-specific differences are thus located in the gamma LPH region of the molecule. Mouse tumor cell beta LPH and gamma LPH lack a methionine residue at what had been considered to be a highly conserved site in their beta-melanotropin-like region. A species-specific radioimmunoassay for mouse tumor cell gamma LPH was developed. Rat pituitary beta LPH and gamma LPH were shown to be similar to the corresponding mouse tumor cell molecules in size and lack of methionine in their beta-melanotropin-like segment.
...
PMID:Characterization of mouse tumor cell beta-lipotropin. 48 93
The mouse anterior
pituitary tumor
cell line, AtT-20, targets secretory proteins into two distinct intracellular pathways. When the DNA that encodes trypsinogen is introduced into AtT-20 cells, the protein is sorted into the regulated secretory pathway as efficiently as the endogenous peptide hormone ACTH. In this study we have used double-label immunoelectron microscopy to demonstrate that trypsinogen colocalizes in the same secretory granules as ACTH. In vitro mutagenesis was used to test whether the information for targeting trypsinogen to the secretory granules resides at the amino (NH2) terminus of the protein. Mutations were made in the DNA that encodes trypsinogen, and the mutant proteins were expressed in AtT-20 cells to determine whether intracellular targeting could be altered. Replacing the trypsinogen signal peptide with that of the kappa-immunoglobulin light chain, a constitutively secreted protein, does not alter targeting to the regulated secretory pathway. In addition, deletion of the NH2-terminal "pro" sequence of trypsinogen has virtually no effect on protein targeting. However, this deletion does affect the signal peptidase cleavage site, and as a result the enzymatic activity of the truncated
trypsin
protein is abolished. We conclude that neither the signal peptide nor the 12 NH2-terminal amino acids of trypsinogen are essential for sorting to the regulated secretory pathway of AtT-20 cells.
...
PMID:In vitro mutagenesis of trypsinogen: role of the amino terminus in intracellular protein targeting to secretory granules. 304 Jul 70
We previously reported that putative nuclear receptors for thyroid hormone can be demonstrated by incubation of hormone either with intact GH(1) cells, a rat
pituitary tumor
cell line, or with isolated GH(1) cell nuclei and rat liver nuclei in vitro. We characterized further the kinetics of triiodothyronine (T3) and thyroxine (T4) binding and the biochemical properties of the nuclear receptor after extraction to a soluble form with 0.4 M KCl. In vitro binding of [(125)I]T3 and [(125)I]T4 with GH(1) cell and rat liver nuclear extract was examined at 0 degrees C and 37 degrees C. Equilibrium was attained within 5 min at 37 degrees C and 2 h at 0 degrees C. The binding activity from GH(1) cells was stable for at least 1 h at 37 degrees C and 10 days at - 20 degrees C. Chromatography on a weak carboxylic acid column and inactivation by
trypsin
and Pronase, but not by DNase or RNase, suggested that the putative receptor was a nonhistone protein. The estimated equilibrium dissociation constants (K(d)) for hormone binding to the solubilized nuclear binding activity was 1.80 x 10(-10) M (T3) and 1.20 x 10(-9) M (T4) for GH(1) cells and 1.57 x 10(-10) M (T3) and 2.0 x 10(-9) M (T4) for rat liver. These K(d) values for T3 are virtually identical to those which we previously reported with isolated rat liver nuclei and GH(1) cell nuclei in vitro. The 10-fold greater affinity for T3 compared to T4 in the nuclear extract is also identical to that observed with intact GH(1) cells. In addition, the [(125)I]T3 and [(125)I]T4 high-affinity binding in the nuclear extract were inhibited by either nonradioactive T3 or T4, which suggests that the binding activity in nuclear extract was identical for T3 and T4. In contrast, the binding activity for T4 and T3 in GH(1) cell cytosol was markedly different from that observed with nuclear extract (K(d) values were 2.87 x 10(-10) M for T4 and 1.13 x 10(-9) M for T3). Our results indicate that nuclear receptors for T3 and T4 can be isolated in a soluble and stable form with no apparent change in hormonal affinity. This should allow elucidation of the mechanisms of thyroid hormone action at the molecular level.
...
PMID:Thyroid hormone action: in vitro characterization of solubilized nuclear receptors from rat liver and cultured GH1 cells. 437 51
Activation of the mouse liver glucocorticoid receptor resulted in the generation of a protein of very different characteristics from that found previously in the mouse AtT-20
pituitary tumor
cell line [Vedeckis, W. V. (1981) Biochemistry 20, 7237-7245]. Ion-exchange and adsorption chromatography showed that the activated liver receptor was a more basic protein--it eluted earlier from a DEAE-cellulose column, while a later elution was observed upon phosphocellulose and DNA-cellulose chromatography. Further experiments showed that this was due to proteolysis of the liver receptor to a smaller form (3.2 S; Rs = 3.9 nm; Mr = 53 000; f/f0 = 1.45) after activation. Mero-receptor (2.4 S; Rs = 2.4 nm; Mr = 24 000; f/f0 = 1.15) was detectable when cytosol was chromatographed on hydroxylapatite or was treated with
trypsin
. These proteolytic fragments are similar to those obtained for various other steroid hormone receptors. Mixing experiments with liver cytosol showed that the AtT-20 glucocorticoid receptor could also be cleaved to these fragments. Endogenous proteases are apparently in low concentration in this cell line. Finally, activation appears to result in the exposure of the protease-sensitive regions, since sodium molybdate, which prevents receptor activation, also renders the receptor resistant to proteolysis.
...
PMID:Limited proteolysis of the mouse liver glucocorticoid receptor. 684 99
We have shown previously (D. A. Sirbasku, 1978, Proc. Natl. Acad. Sci. U.S.A., 75:3786-3790) that an estrogen-inducible growth factor activity for rat mammary and rat
pituitary tumor
cells can be identified in extracts of rat uteri, although at the time of that report only a limited biochemical characterization of the activity was presented. In this report, we have evaluated the growth factor activity for lipid, steroid hormone or protein-like properties. Uterine growth factor activity was assayed by measure of the increased cell number of the MTW9/PL rat mammary tumor cell line established by this laboratory and described previously (D. A. Sirbasku, 1978, Cancer Res. 38:1154-1165). Studies showed the following characteristics of growth factor activity: destroyed by
trypsin
treatment; labile when heated at 80 degrees C; partially denatured by 6 M guanidine or 8 M urea treatment or 50% aqueous solutions of organic solvents; inactivated by extremes of pH or overnight treatment with mild acid; not dialyzable at neutral pH; of apparent molecular weight of 70,000 daltons by G-100 Sephadex chromatography; possessing an isoelectric point of 4.8 to 5.2; not chloroform/methanol extractable; and not in any way identified as either a lipid or a steroid hormone. The data available suggest that the uterine growth factor activity is a protein or polypeptide of apparent high molecular weight, and that the activity does not directly correspond to other known growth factors.
...
PMID:Properties of a growth factor activity present in crude extracts of rat uterus. 725 89
To understand how estradiol-17 beta (E2) influences MtTW15 rat
pituitary tumor
function, we have evaluated the cytosolic E2 binding properties of tumors derived from control and steroid treated host animals. Specific E2 binding (approximately 3 pmoles/g tumor) was observed in all groups and was steroid responsive. The E2 binding macromolecule migrated to 7S following sucrose density gradient sedimentation and was specific for estrogenic steroids. Saturation analysis of E2 binding revealed a high affinity interaction (Kd = 5.5 +/- 0.5 x 10(-10) M). Furthermore, E2 binding was temperature-sensitive and degraded by
trypsin
. Thus, the MtTW15 tumor contains an estrogen receptor. Accordingly, the effects of 4 antiestrogenic drugs on tumor estrogen-receptor levels, tumor growth and hormone production were evaluated. In general, these drugs reduced cytosolic estrogen receptor levels, promoted tumor growth and increased tumor growth-hormone production. It is suggested that these compounds can exert both estrogen agonist and antagonist properties in MtTW15 tumors.
...
PMID:Estrogen receptor-like macromolecule in MtTW15 rat pituitary tumors: effects of antiestrogens. 728 85
Environmental or nutritional estrogenic toxicants are thought to mediate developmental and carcinogenic pathologies. Estrogen receptor (ER) measurements are currently used to predict hormonal responsiveness; therefore all ER subpopulations should be considered. We have been involved in the immunoidentification and characterization of membrane steroid receptors in several systems and have recently shown that binding of estradiol (E2) to a subpopulation of ERs (mER) residing in the plasma membrane of GH3
pituitary tumor
cells mediates the rapid release of prolactin (PRL). Here we review these findings and present other important characterizations of these receptors such as
trypsin
and serum susceptibility, movement in the membrane, confocal localization to the membrane, binding to and function of impeded ligands, and immunoseparation of cells bearing mER. We plan to use this system as a model for both the physiological and pathological nongenomic effects of estrogens and estrogenic xenobiotics. Specifically, it should be useful as an in vitro assay system for the ability of estrogenic xenobiotics to cause rapid PRL release as an example of nongenomic estrogen effects.
...
PMID:The other estrogen receptor in the plasma membrane: implications for the actions of environmental estrogens. 859 73
