Hormone-dependent changes in A and B forms of progesterone receptor

The influence of different estrogen and/or progesterone treatments on concentrations of A and B forms of progesterone receptor (PR-A and PR-B) in the different cell types of chick oviduct was studied. A semiquantitative immunohistochemical assay for cellular PR concentrations was developed using a computer-assisted image analysis system. The staining intensity of nuclear PR in the basal layer of epithelial cells, glandular, smooth muscle and mesothelial cells was analysed separately using two monoclonal antibodies, PR6 and PR22. The measured concentrations of PR varied between different cell types and from cell to cell. A significant decrease in PR concentration, as noted by a decrease in staining intensity, was observed in all cell types studied 2 or 6 h after a single injection of progesterone with or without simultaneous estrogen administration. The decrease was also verified with immunoblotting and an immunoenzymometric assay (IEMA) for chicken PR. After down-regulation the concentration of PR recovered to the control level within 48 h after progesterone or estrogen administration. Estrogen administration alone was observed to cause changes in the concentration of PR-A only, having little or no effect on PR-B concentration depending on the cell type studied.

These findings indicate that estrogen and progesterone cause cell-specific changes not only to the total concentration of PR but also to the cellular ratio of PR-A and PR-B.     

Two rat surfactant protein A isoforms arise by a novel mechanism that includes alternative translation initiation

A single gene for rat surfactant protein A (SP-A) encodes two isoforms that are distinguished by an isoleucine-lysine-cysteine (IKC) N-terminal extension (SP-A and IKC-SP-A). Available evidence suggests that the variants are generated by alternative signal peptidase cleavage of the nascent polypeptide at a primary site (Cys(-)(1)-Asn(1)) and a secondary site (Gly(-)(4)-Ile(-)(3)). In this study, we used site-directed mutagenesis and heterologous expression in vitro and in insect cells to the examine mechanisms that may lead to alternative signal peptidase cleavage including alternative translation initiation at two in-frame AUGs (Met(-)(30) and Met(-)(20)), a suboptimal context for hydrolysis at the primary cleavage site, or cotranslational protein modifications that expose an otherwise cryptic secondary cleavage site. In vitro translation of a rat cDNA for SP-A resulted in both 28 and 29 kDa primary translation products on SDS-PAGE analysis, while translation of cDNAs encoding Met-30Ala and Met-20Ala mutations resulted in only the single 28 and 29 kDa molecular mass species, respectively. These data are consistent with translation initiation at both Met(-)(30) and Met(-)(20) during in vitro synthesis of SP-A. The Met-30Ala mutation reduced expression of the longer isoform in insect cells, indicating that the Met(-)(30) site also contributes to eucaryotic protein expression. Forcing translation initiation at Met(-)(30) by optimizing the Kozak consensus sequence surrounding that codon or by mutating the Met(-)(20) codon resulted in preferential expression of the longer SP-A isoform but reduced overall expression of the protein almost 10-fold. Both isoforms were generated to some degree whether translation was initiated at the codon for Met(-)(30) or Met(-)(20), indicating that the site of translation initiation is not the sole determinant of isoform generation and suggesting that either the context of the primary cleavage site is suboptimal or that cotranslational modifications affect cleavage. Preventing N-terminal glycosylation at Asn(1) did not affect the site of signal peptidase cleavage. Disruption of interchain disulfide formation at Cys(-)(1) by substitution with serine markedly enhanced cleavage at the Gly(-)(4)-Ile(-)(3) bond, but substitution with alanine enhanced cleavage at the Cys(-)(1)-Asn(1) bond. We conclude that rat SP-A isoforms arise by a novel mechanism that includes both alternative translation initiation at two in-frame AUGs and a suboptimal context for signal peptidase hydrolysis at the primary cleavage site.     

Immunological similarity between the chick oviduct progesterone receptor forms A and B

A large-scale purification of the progesterone receptor from laying hens is described which yields apparently homogeneous form A and form B receptor in denatured form. The purification procedure is based initially on differential DNA affinity chromatography of both form A and B receptors. Under the conditions of preparation and activation described, progesterone receptor form B binds to DNA-cellulose even in the presence of 100 mM salt. This binding cannot be observed after thermal activation. Receptors obtained at 5% purity using conventional chromatographic purification steps were covalently cross-linked with radioactive ligand by photoaffinity labeling and purified to homogeneity using preparative gel electrophoresis systems under denaturing conditions. This material has been successfully used to generate polyclonal antibodies in rabbits. Immunoblots demonstrated a high degree of cross-reaction between anti-A antibodies and progesterone receptor form B, as well as between anti-B antibodies and progesterone receptor form A, using homogeneous as well as 5% pure receptors as probes. Implications of the immunological data and the novel DNA-binding characteristics of form B are discussed with respect to topological conformation of the progesterone receptor and the structural similarity between forms A and B.     

Differential hormone-dependent phosphorylation of progesterone receptor A and B forms revealed by a phosphoserine site-specific monoclonal antibody

Human progesterone receptor (PR) is phosphorylated on multiple serine residues (at least seven sites) in a manner that involves distinct groups of sites coordinately regulated by hormone and different kinases. Progress on defining a functional role for PR phosphorylation has been hampered both by the complexity of phosphorylation and the lack of simple, nonradioactive methods to detect the influence of ligands and other signaling pathways on specific PR phosphorylation sites in vivo. Toward this end, we have produced monoclonal antibodies (MAbs) that recognize specific phosphorylation sites within human PR including a basal site at Ser 190 (MAb P190) and a hormone-induced site at Ser 294 (MAb P294). Biochemical experiments showed the differential reactivity of the P190 and P294 MAbs for phosphorylated and unphosphorylated forms of PR. Both MAbs recognize specific phosphorylated forms of PR under different experimental conditions including denatured PR protein by Western blots and PR in its native conformation in solution or complexed to specific target DNA. As detected by Western blot of T47D cells treated with hormone for different times, hormone-dependent down-regulation of total PR and the Ser 190 phosphorylation site occurred in parallel, whereas the Ser 294 phosphorylation site was down-regulated more rapidly. This difference in kinetics suggests that the Ser 294 site is more labile than basal sites and is acted upon by distinct phosphatases. A strong preferential hormone-dependent phosphorylation of Ser 294 was observed on PR-B as compared with the amino-terminal truncated A form of PR. This was unexpected because Ser 294 and flanking sequences are identical on both proteins, suggesting that a distinct conformation of the N-terminal domain of PR-A inhibits phosphorylation of this site. That Ser 294 lies within an inhibitory domain that mediates the unique repressive functions of PR-A raises the possibility that differential phosphorylation of Ser 294 is involved in the distinct functional properties of PR-A and PR-B.     

Generation of multiple isoforms of eukaryotic translation initiation factor 4GI by use of alternate translation initiation codons

Eukaryotic translation initiation factor 4GI (eIF4GI) is an essential protein that is the target for translational regulation in many cellular processes and viral systems. It has been shown to function in both cap-dependent and cap-independent translation initiation by recruiting the 40S ribosomal subunit to the mRNA cap structure or internal ribosome entry site (IRES) element, respectively. Interestingly eIF4GI mRNA itself has been reported to contain an IRES element in its 5' end that facilitates eIF4GI protein synthesis via a cap-independent mechanism. In HeLa cells, eIF4GI exists as several isoforms that differ in their migration in sodium dodecyl sulfate (SDS) gels; however, the nature of these isoforms was unclear. Here, we report a new cDNA clone for eIF4GI that extends the 5' sequence 340 nucleotides beyond the previously published sequence. The new extended sequence of eIF4GI is located on chromosome 3, within two additional exons immediately upstream of the previously published eIF4GI sequence. When mRNA transcribed from this cDNA clone was translated in vitro, five eIF4GI polypeptides were generated that comigrated in SDS-polyacrylamide gels with the five isoforms of native eIF4GI. Furthermore, translation of eIF4GI-enhanced green fluorescent protein fusion constructs in vitro or in vivo generated five isoforms of fusion polypeptides, suggesting that multiple isoforms of eIF4GI are generated by alternative translation initiation in vitro and in vivo. Mutation of two of the five in-frame AUG residues in the eIF4GI cDNA sequence resulted in loss of corresponding polypeptides after translation in vitro, confirming alternate use of AUGs as the source of the multiple polypeptides. The 5' untranslated region of eIF4GI mRNA also contains an out-of-frame open reading frame (ORF) that may down-regulate expression of eIF4GI. Further, data are presented to suggest that a proposed IRES embedded in the eIF4GI ORF is able to catalyze synthesis of multiple eIF4GI isoforms as well. Our data suggest that expression of the eIF4GI isoforms is partly controlled by a complex translation strategy involving both cap-dependent and cap-independent mechanisms.     

Differential sensitivity of chicken progesterone receptor forms to sulfhydryl reactive reagents

DNA binding of chick progesterone receptor B form (PRB) has been examined and compared to that of the A form (PRA). We found that the elution profiles of the two receptors overlap on DNA-cellulose columns. Both PRA or PRB could bind to plasmid DNA equivalently as assayed by sedimentation velocity studies. However, DNA-binding activity of the two receptor forms showed differential sensitivity to reducing agents and to sulfhydryl (SH) reactive reagents. Reducing agents stabilized DNA-binding activity of PRA more efficiently than they stabilized PRB. Moreover, removal of reducing agents from receptor preparations caused preferential loss of DNA binding by PRB compared to the PRA. DNA-binding activity of PRA was readily destroyed by sulfhydryl modifying reagents such as N-ethylmaleimide and iodoacetamide while PRB was 3-4 times less sensitive to these reagents. We conclude the DNA-binding activity of PRB is less stable due to altered accessibility of SH groups despite the amino acid sequence identity of the DNA-binding domains of PRA and PRB.     

Differential expression of uterine progesterone receptor forms A and B during the menstrual cycle

Recent studies suggest that the progesterone receptor isoforms (PR-A and PR-B) activate genes differentially and that PR-A may act as a repressor of PR-B function. Hence, the absolute and relative expression of the two isoforms will determine the response to progesterone. We have measured their relative expression in the uterus of cycling women who underwent endometrial biopsy. PR isoforms were identified on blots of SDS-PAGE gels by reaction with the AB-52 antibody after immunoprecipitation from endometrial extract. Both isoforms were highest in the peri-ovulatory phase, but levels of PR-A were always higher than those of PR-B. The ratio of PR-A to PR-B changed during the menstrual cycle. Between days 2 and 8, PR-B is almost undetectable and the A:B ratio is >10:1. From days 9 to 13, the ratio is about 5:1, and it is about 2:1 between days 14 and 16. Thereafter, PR-B dwindles rapidly and is virtually undetectable at the end of the cycle. In various hypoestrogenic environments, PR-B expression was reduced. However, exogenous estrogens in the follicular phase in the form of oral contraceptives, enhanced PR-B expression. These data support the possibility that progesterone acts through cycle-specific PR isoforms.     

mRNA翻译起始区二级结构改变对干扰素基因在大肠杆菌中翻译的影响

为研究mRNA翻译起始区结构与基因表达的关系,利用密码子的简并性,在不改变表达产物氨基酸序列的前提下定点突变α8干扰素及αA干扰素衍生物基因的5′端若干位点,使其与表达载体重组后转录形成的mRNA翻译起始区结构发生改变。SDS-PAGE及活性测定证实这些改变提高了外源基因的表达水平。RNA斑点印迹表明突变前后基因转录水平差别不大,表达水平的提高主要由于翻译效率的提高。mRNA翻译起始区二级结构预测提示其生成自由能(ΔG)的变化可能与表达水平的提高有关。     

Immunologic detection of a protein homologous to chicken progesterone receptor B subunit

A monoclonal antibody described previously by us (Edwards, D. P., Weigel, N. L., Schrader, W. T., O'Malley, B. W., and McGuire, W. L. (1984) Biochemistry 23, 4427-4435) was used to study progesterone receptor B subunits of chick and hen oviduct. We find that the antibody does not recognize the form of receptor B able to bind [3H]progesterone in vitro. Rather, it reacts exclusively with a homologous protein of the same molecular weight, termed B antigen. The antigen is present in both immature estrogen-treated chicks and in egg-laying hens. This antigen is indistinguishable from the hormone-binding receptor species (termed receptor B) as shown by peptide mapping techniques using either Staphylococcus aureus V8 protease or trypsin. The B antigen and the hormone binder can be resolved by ion-exchange chromatography. Sedimentation velocity data show that the two proteins are present in distinct, separable cytosolic entities. The functional relationship between the two proteins has not been established.     

Phosphorylation of the chicken progesterone receptor

We have examined the phosphorylation of the chicken progesterone receptor in tissue slices and in vitro. The receptor is phosphorylated in tissue slices and this phosphorylation is stimulated by progesterone. As others have reported, partially purified receptor preparations contain a kinase activity which phosphorylates histones and receptor. We have shown that this activity can be separated from the receptor. The receptor is a substrate for several kinases, including the catalytic subunit of the cAMP-dependent protein kinase and PPdPK, a polypeptide-dependent protein kinase. Phosphorylation by the cAMP-dependent protein kinase results in an apparent increase in the molecular weight of the receptor when the receptor is analyzed by SDS-PAGE. These results are consistent with apparent changes in molecular weight observed for rabbit and human progesterone receptor upon treatment of tissue or cells with hormone.     

Unfolding of mRNA secondary structure by the bacterial translation initiation complex

Translation initiation is a key step for regulating the level of numerous proteins within the cell. In bacteria, the 30S initiation complex directly binds to the translation initiation region (TIR) of the mRNA. How the ribosomal 30S subunit assembles on highly structured TIR is not known. Using fluorescence-based experiments, we assayed 12 different mRNAs that form secondary structures with various stabilities and contain Shine-Dalgarno (SD) sequences of different strengths. A strong correlation was observed between the stability of the mRNA structure and the association and dissociation rate constants. Interestingly, in the presence of initiation factors and initiator tRNA, the association kinetics of structured mRNAs showed two distinct phases. The second phase was found to be important for unfolding structured mRNAs to form a stable 30S initiation complex. We show that unfolding of structured mRNAs requires a SD sequence, the start codon, fMet-tRNA(fMet), and the GTP bound form of initiation factor 2 bound to the 30S subunit.     

Potassium salts influence the fidelity of mRNA translation initiation in rabbit reticulocyte lysates: unique features of encephalomyocarditis virus RNA translation.

It is widely assumed that in vitro translation of mRNA is more efficient in the presence of potassium acetate rather than KCl, that the optimum concentration of potassium acetate is higher than for KCl, and that uncapped RNAs exhibit a lower optimum salt concentration than capped mRNAs. When these assumptions were examined using several different mRNA species in four batches of rabbit reticulocyte lysate, some notable exceptions were found. The translation of encephalomyocarditis virus (EMCV) RNA exhibited a salt optimum unusually high for an uncapped mRNA, and was very much more efficient and accurate with KCl rather than potassium acetate. It was also unique in being strongly activated by low concentrations (5-10 mM) KSCN in the presence of 90 mM potassium acetate. For the translation of other uncapped RNAs (poliovirus RNA, cowpea mosaic virus (CPMV) M RNA and bacteriophage MS2 RNA) amino acid incorporation at the optimum potassium acetate level was significantly greater than could be achieved using KCl. However, KCl was found to be restrictive and potassium acetate permissive for the synthesis of abnormal products thought to arise from initiation at incorrect sites, with the result that KCl gave a product pattern closer to that observed in vivo. In the particular case of the reticulocyte lysate system, accurate translation therefore requires the use of KCl rather than potassium acetate, but the choice of salt was found to be less critical in cell-free extracts from HeLa or L-cells.     

Dominant expression of progesterone receptor form B mRNA in ovarian endometriosis

This study was designed to examine the biological implications of progesterone receptor form A (PR-A) and B (PR-B) mRNA expressions in human ovarian endometriosis (ectopic endometrium). A high ratio of PR-B to PR-AB (PR-A+PR-B) mRNA expression was found in 8 of 14 cases of endometriosis, compared with the ratio in eutopic endometrium. The mean ratio in ectopic endometria was significantly (p < 0.01) higher than in eutopic endometria. The ratio in eutopic and ectopic endometria showed no significant change during the menstrual cycle. The mean ratio in ectopic endometria in the proliferative and secretory phases of the endometrium was significantly (p < 0.01) higher than in eutopic endometria. In conclusion, PR-B mRNA was relatively highly expressed in some endometriomas, which might lead to aberrations in the control of progestational effects involving responsiveness to sex steroidal growth regulation.