Immunochemical comparison of mutant glucocorticoid receptors and wild type receptor fragments produced by neutrophil elastase and chymotrypsin

We characterized the glucocorticoid receptor fragments produced by neutrophil elastase and compared these receptor fragments to nuclear transfer increased (nti) mutant receptors. Neutrophil elastase and chymotrypsin digested [3H]dexamethasone 21-mesylate labeled receptors at different sites to produce 52 kDa and 42 kDa fragments respectively. Both the 52 kDa elastolytic receptor fragments and 42 kDa chymotryptic receptor fragments bound to DNA-cellulose and were immunoadsorbed by anti-glucocorticoid receptor monoclonal antibodies (BUGR2). More extensive digestion of labeled receptors by neutrophil elastase produced 29 kDa receptor fragments that did not bind to DNA-cellulose and did not react with BUGR2 antibodies. The size of nti mutant receptors from S49 mouse lymphoma cell variants is intermediate between that of the 52 kDa elastolytic receptor fragments and 42 kDa chymotryptic receptor fragments. The nti receptors bound to DNA-cellulose with the same affinity as the 52 kDa elastolytic receptor fragments. However, the nti receptors were not immunoadsorbed by BUGR2 antibodies and did not react with these antibodies on Western blot analysis of denatured cellular proteins. The results indicate that 52 kDa elastolytic receptor fragments, 42 kDa chymotryptic receptor fragments and nti mutant receptors correspond to the same region of the receptor molecule. The failure of nti receptors to react with BUGR2 antibodies suggests that the nti receptors may have an altered sequence compared to the corresponding region of normal receptors.     

Characterization of wild type and mutant glucocorticoid receptors from rat hepatoma and mouse lymphoma cells

Using a combination of immunological blotting techniques and hormone affinity labeling, we have characterized the glucocorticoid receptors present in wild type and mutant rat hepatoma (HTC) and mouse thymoma (S49 and WEHI7) cells. Mutant HTC and WEHI7 cells of the receptorless phenotype, which contain greatly reduced amounts of glucocorticoid hormone binding activity, show parallel decreases in immunoreactive material using a monoclonal antibody raised against the rat liver glucocorticoid receptor. This indicates that these receptorless mutant cells harbor defects in either the production or accumulation of receptor protein. Quantitation of immunoreactivity and hormone binding activity present in wild type and mutant S49 cells indicates that these cells contain significantly more immunoreactive material than hormone binding activity. We conclude that S49 cells produce, in addition to their well characterized wild type or mutant receptors, a mutant receptor from a second allele which is of wild type size, is immunologically reactive, but is unable to bind hormone. The S49 mutant cell line nti (nuclear transfer increase) contains a glucocorticoid receptor which has a molecular weight of 40,000, while the wild type receptor has a molecular weight of 94,000. Affinity labeling of glucocorticoid receptors in nti cells with [3H]dexamethasone mesylate indicates that nti cells do not contain wild type sized precursor molecules which bind hormone, nor do they contain immunoreactive fragments of a molecular mass smaller than 94 kDa. It is proposed that the 40-kDa nti receptor is produced as a truncated protein most likely resulting from a nonsense mutation or from a truncated messenger RNA.     

Active domains in wild-type and mutant glucocorticoid receptors.

[3H]Triamcinolone acetonide was used to tag covalently specific glucocorticoid receptors by photoaffinity labelling at lambda greater than or equal to 320 nm. Receptors of wild-type mouse lymphoma cells and two glucocorticoid resistant mutants of "nuclear transfer deficient" (nt-) and "increased nuclear transfer" (nti) phenotypes, respectively, were used. Wild-type and nt- receptors yielded radiolabelled polypeptide bands of mol. wt. 98 000 as revealed by gel electrophoresis under denaturing conditions and fluorography. In contrast, the nti receptor had a mol. wt. of 42 000. Partial proteolysis of the wild-type receptor with alpha-chymotrypsin resulted in a fragment of mol. wt. 39 000 which still contained the steroid binding site but had increased affinity for DNA indistinguishable from that of the nti receptor. Chymotrypsin thus removed a domain from the wild-type receptor polypeptide which is involved in modulating DNA binding. The same domain is missing from the nti receptor.     

Analysis of glucocorticoid unresponsive cell variants using a mouse glucocorticoid receptor complementary DNA clone

We have used a glucocorticoid receptor cDNA isolated from a mouse lymphoma cell line to characterize receptor mRNA and genomic sequences present in wild type and mutant rat hepatoma (HTC) and mouse thymoma (S49 and WEHI7) cells. Wild type rat and mouse cell lines contain two receptor mRNAs, 5 and 7 kilobase pairs (kb) in length, which differ in the length of their 3'-untranslated regions. Levels of receptor mRNA present in mutant HTC, WEHI7, and S49 cells of the r- (receptorless) phenotype are decreased compared to wild type cells. This decreased level of receptor mRNA parallels the decreased level of total immunoreactive receptor protein found in these cells. S49 nt- (nuclear transfer minus) cells contain receptor mRNA levels which parallel their hormone binding and immunoreactive receptor levels. Cells of the r- and nt- phenotype contain no detectable deletions or rearrangements of the receptor gene. We conclude that r- cells have lesions which affect the expression of receptor mRNA. Surprisingly, HTC cells of the r- phenotype differ from WEHI7 and S49 r- cells in that HTC r- cells contain a lower level of receptor DNA than does their parental wild type cell line. Although these cells may contain multiple lesions, it appears that loss of receptor genomic sequences is responsible, in part, for the phenotype of the HTC r- cells. The S49 nti (nuclear transfer increase) cells produce glucocorticoid receptors of molecular weights 40,000 and 94,000. These cells produce, in addition to the wild type 5- and 7-kb receptor mRNAs, two other receptor messages 5.5 and 3.5 kb in length. RNA blot analysis using various portions of our receptor cDNA indicates that these are 5' truncated messages and suggests that the 40-kDa nti receptor is truncated at its NH2-terminal end. These data also indicate that the hormone and DNA-binding regions of the receptor are located in the COOH-terminal half of the protein.     

Immunochemical characterization of wild-type and variant glucocorticoid receptors by monoclonal antibodies

Monoclonal antibodies raised against the rat liver glucocorticoid receptor were used to investigate receptors of wild-type and glucocorticoid-resistant variants of mouse lymphoma cells. Two of the variant types contained receptors of 'nuclear transfer deficient' (nt-) and 'increased nuclear transfer' (nti) phenotypes, respectively, while the third was of the 'receptorless' (r-) phenotype with negligible hormone binding activity. Three monoclonal antibodies of the IgM class and one of the IgG class reacted with both wild-type and nt- receptors but not with the steroid binding form of nti receptors. Some of the antibodies bound the wild-type and nt- receptors more efficiently after activation at 20 degrees C. By use of an immuno-competition assay we were able to detect cross-reacting material in considerable amounts in extracts of nti and r- cell variants. This material was further characterized by gel filtration and immunoblotting. The immunoreactive material of wild-type, nti and r- cells gave a major band of mol. wt. 94 000 upon SDS-gel electrophoresis while the steroid-binding polypeptides of wild-type and nti receptors have mol. wts. of 94 000 and 40 000, respectively. The data show that in S49.1 mouse lymphoma cells the products of two receptor alleles can be distinguished.     

Nuclear interactions of wild type and variant glucocorticoid receptors

Nuclease digestion of nuclei from glucocorticoid sensitive and resistant lymphoma cell lines was used to study the nuclear compartmentalization of wild type and variant glucocorticoid receptors. In comparison with wild type, the variant line (S49 143r) had an increased capacity to translocate to the nucleus (nti), but was more completely released from nuclei by nuclease digestion. Approximately 20% of the receptor in wild type nuclei was resistant to release by DNase I digestion, while only less than 5% of the receptor from nti nuclei was retained under the same conditions. Studies with wild type nuclei show that the nuclease resistant portion of receptors was also more resistant to release by increased ionic strength.     

Activation and partial proteolysis of variant glucocorticoid receptors, studied by two-phase partitioning

In cultured lines of mouse lymphoma cells, resistant to glucocorticoids is frequently associated with the occurrence of glucocorticoid receptors with an abnormally low affinity (nt-) or an abnormally high affinity (nti) for nuclei and DNA. We have investigated whether the abnormal affinities for DNA are correlated with alterations in charge and surface properties of the receptors, that would be revealed through the partition coefficient in aqueous dextran/poly(ethylene glycol) two-phase systems. We have found that none of the receptor variants is defective in the activation step per se, and that only the nti receptors are abnormal in partition properties. Partial proteolysis of wild-type and nt- receptors with alpha-chymotrypsin produces forms which are indistinguishable from the nti receptors with respect to partition coefficients. Upon alpha-chymotrypsin treatment the wild-type receptors attain DNA-binding properties identical to those of the nti receptors, while the nt- receptors, in spite of some increase in DNA affinity, still bind less firmly to DNA than the alpha-chymotrypsin-treated wild-type receptors. alpha-Chymotrypsin treatment of the various receptor types also produces an increase in the binding to dextran sulphate, but the dextran sulphate affinity is higher and varies less between different receptor types than the DNA affinity. Trypsin-treated receptors were found to be devoid of affinity for DNA and dextran sulphate.     

Comparison of cytosolic and nuclear poly(A) polymerases from rat liver and a hepatoma: structural and immunological properties and response to NI-type protein kinases

Poly(A) polymerases were purified from the cytosol fraction of rat liver and Morris hepatoma 3924A and compared to previously purified nuclear poly(A) polymerases. Chromatographic fractionation of the hepatoma cytosol on a DEAE-Sephadex column yielded approximately 5 times as much poly(A) polymerase as was obtained from fractionation of the liver cytosol. Hepatoma cytosol contained a single poly(A) polymerase species [48 kilodaltons (kDa)] which was indistinguishable from the hepatoma nuclear enzyme (48 kDa) on the basis of CNBr cleavage maps. Liver cytosol contained two poly(A) polymerase species (40 and 48 kDa). The CNBr cleavage patterns of these two enzymes were distinct from each other. However, the cleavage pattern of the 40-kDa enzyme was similar to that of the major liver nuclear poly(A) polymerase (36 kDa), and approximately three-fourths of the peptide fragments derived from the 48-kDa species were identical with those from the hepatoma enzymes (48 kDa). NI-type protein kinases from liver or hepatoma stimulated hepatoma nuclear and cytosolic poly(A) polymerases 4-6-fold. In contrast, the liver cytosolic 40- and 48-kDa poly(A) polymerases were stimulated only slightly or inhibited by similar units of the protein kinases. Antibodies produced in rabbits against purified hepatoma nuclear poly(A) polymerase reacted equally well with hepatoma nuclear and cytosolic enzyme but only 80% as well with the liver cytosolic 48-kDa poly(A) polymerase and not at all with liver cytosolic 40-kDa or nuclear 36-kDa enzymes. Anti-poly(A) polymerase antibodies present in the serum of a hepatoma-bearing rat reacted with hepatoma nuclear and cytosolic poly(A) polymerases to the same extent but only 40% as well with the liver cytosolic 48-kDa enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)     

meoA is the structural gene for outer membrane protein c of Escherichia coli K12

Summary The isolation and characterization of two mutants of Escherichia coli K12 with an altered outer membrane protein c is described. The first mutant, strain CE1151, was isolated as a bacteriophage Mel resistant strain which contains normal levels of protein c. Mutant cells adsorbed the phage with a strongly decreased rate. Complexes of purified nonheat modified wild type protein c and wild type lipopolysaccharide inactivated phage Me1, indicating that these components are required for receptor activity for phage Me1. When wild type protein c was replaced by protein c of strain CE1151, the receptorcomplex was far less active, showing that protein c of strain CE1151 is altered. The second mutant produces a protein c with a decreased electrophoretic mobility, designated as protein c^*. An altered apparent molecular weight was also observed for one or more fragments obtained after fragmentation of the mutant protein with cyanogen bromide, trypsin and chymotrypsin. Alteration of protein c was not accompanied by a detectable alteration in protein b or its fragments. Both mutations are located at minute 48 of the Escherichia coli K12 linkage map. The results strongly suggest that meoA is the structural gene for protein c.     

Cytokinin receptors in sporophytes are essential for male and female functions in Arabidopsis thaliana

Arabidopsis has three cytokinin receptors genes: CRE1, AHK2 and AHK3. Availability of plants that are homozygous mutant for these three genes indicates that cytokinin receptors in the haploid cells are dispensable for the development of male and female gametophytes. The triple mutants form a few flowers but never set seed, indicating that reproductive growth is impaired. We investigated which reproductive processes are affected in the triple mutants. Anthers of mutant plants contained fewer pollen grains and did not dehisce. Pollen in the anthers completed the formation of the one vegetative nucleus and the two sperm nuclei, as seen in wild type. The majority of the ovules were abnormal: 78% lacked the embryo sac, 10% carried a female gametophyte that terminated its development before completing three rounds of nuclear division, and about 12% completed three rounds of nuclear division but the gametophytes were smaller than those of the wild type. Reciprocal crosses between the wild type and the triple mutants indicated that pollen from mutant plants did not germinate on wild-type stigmas, and wild-type pollen did not germinate on mutant stigmas. These results suggest that cytokinin receptors in the sporophyte are indispensable for anther dehiscence, pollen maturation, induction of pollen germination by the stigma and female gametophyte formation and maturation.Key words: cytokinin, cytokinin receptor, female gametophyte, male gametophyte, stigma     

Chemical cross-linking of heteromeric glucocorticoid receptors

Glucocorticoid receptors of wild-type and nti ("increased nuclear transfer") mutant S49.1 mouse lymphoma cells exist in extracts under low-salt conditions predominantly as high molecular weight species (Mr greater than or equal to 300,000). These receptor-hormone complexes are unable to bind to DNA. High salt (300 mM KCl) produces dissociated receptors of Mr 116,000 and 60-A Stokes radius (wild type) and Mr 60,000 and 38-A Stokes radius (nti mutant), both of which bind to DNA. We used reaction with bifunctional N-hydroxysuccinimide esters as well as oxidation with Cu2+/o-phenanthroline to stabilize the high molecular weight structures. These cross-linked complexes do not interact with DNA, but reductive cleavage again produces the dissociable receptor forms and restores their ability to bind to DNA. The protein modifying reagents iodoacetamide and diethyl pyrocarbonate also produce stabilized high molecular weight receptor complexes. Cross-linking of the high molecular weight receptor forms can also be achieved in intact cells. Immunochemical techniques were used to prove that the complexes cross-linked either in vivo or in cell extracts do contain the heat shock protein of Mr 90,000 as a common constituent. The data show that the high molecular weight receptor complexes are preexisting in intact cells and that dissociation generates DNA binding ability.     

Similar actions of glucocorticoids and calcium on the regulation of apoptosis in S49 cells

Glucocorticoid-induced lymphocyte cell death is a programmed process which is thought to involve the calcium-dependent degradation of DNA into multiples of 180 basepairs, characteristic of internucleosomal degradation. We have used the glucocorticoid-sensitive mouse lymphoma cell line S49.1 [wild-type (wt)] and the glucocorticoid-resistant cell line S49.22r (nt-) to evaluate the role of both glucocorticoid receptors and calcium in the regulation of internucleosomal DNA degradation and expression of calcium-dependent deoxyribonuclease activity. DNA was isolated from untreated (control) and dexamethasone (dex)-treated viable cells and analyzed for internucleosomal DNA degradation by agarose gel electrophoresis, followed by ethidium bromide staining. Glucocorticoid treatment resulted in substantial internucleosomal DNA degradation in wt cells, but not in nt- cells. This effect was inhibited by coincubation of cells with dex and the glucocorticoid receptor antagonist RU486. In contrast to the glucocorticoid response, administration of either of two calcium ionophores, ionomycin or A23187, produced internucleosomal degradation of DNA in both wt and nt- cells, although the latter were less sensitive to ionophore treatment. Interestingly, A23187 treatment also resulted in a loss of cell viability in HeLa S3 cells, a cell line that does not exhibit glucocorticoid-induced apoptosis. No internucleosomal DNA degradation was detected in HeLa S3 cells killed by A23187. To determine whether similar nucleases are associated with this internucleosomal DNA degradation resulting from both glucocorticoid and calcium ionophore treatment, 0.3 M NaCl nuclear protein extracts were prepared from control and treated cells and analyzed for protein composition or nuclease activity. To assay for nuclease activity, nuclear extracts were electrophoresed in sodium dodecyl sulfate-polyacrylamide gels impregnated with [32P]DNA. Nuclease activity was detected by removal of sodium dodecyl sulfate from the gel, activation with calcium, and subsequent visualization of the loss of [32P]DNA by autoradiography. Dex treatment of wt cells resulted in the appearance of several proteins within the mol wt range of 12-18 kDa, only one of which (16-18 kDa) exhibited calcium-dependent nuclease activity. The appearance of these proteins in nuclear extracts was inhibited by coincubation of glucocorticoid-treated cells with RU 486. Glucocorticoid treatment did not result in the appearance of nuclease activity in nuclear extracts from nt- cells. Interestingly, A23187 or ionomycin treatment resulted in an increase in activity of the 16- to 18-kDa nuclease in both wt and nt- cells. These findings indicate that both glucocorticoid receptors and calcium may share common features in the regulation of apoptosis in lymphoid cells.     

Isolation and characterization of rat liver nuclear glucocorticoid receptor

The rat liver nuclear glucocorticoid receptor has a molecular weight of 90 000. Using antibody bound to the stationary matrix, the cytosol and nuclear glucocorticoid receptors from rat liver were purified. The translocation of glucocorticoid receptor from rat liver cytosol into the nucleus was studied using immunoaffinity chromatography. Immediately after the intraperitoneal injection of rats with the hormone, the receptor translocation started and was complete within 10 min. The 90 000 dalton nuclear receptor component is identical to the 90 000 dalton cytosol component. They have identical molecular weights in the same gel electrophoresis system and produce identical peptide fragments after digestion with Staphyolococcal aureus V8 protease. The receptor component enriched by immunoaffinity chromatography from cytosol of adrenalectomised rats contained mainly a 45 000 dalton component.     

Comparison of photosystem II complexes isolated from tobacco and two chlorophyll deficient tobacco mutants

A comparative study of photosystem II complexes isolated from tobacco (Nicotiana tabacum L. cv. John William's Broadleaf) which contains normal stacked thylakoid membranes, and from two chlorophyll deficient tobacco mutants (Su/su and Su/su var. Aurea) which have low stacked grana or essentially unstacked thylakoids with occasional membrane doublings, has been carried out. The corresponding photosystem II complexes had an O₂ evolving activity ranging from 290 (for the wild type) to 1100 mol O₂ x mg chlorophyll^-1 x h^-1 (for the mutant Su/su var. Aurea). The reduced photosynthetic unit size was also obvious in the mangenese and cytochrome_b559 content. The photosystem II complex from the wild type contained 4 Mn and 1 cytochrome_b559 per 200 to 280 chlorophylls, while the corresponding value for the mutant Su/su var. Aurea was 4 Mn and 1 cytochrome_b559 per 35 to 60 chlorophylls. We have also examined the polypeptide composition and show that the photosystem II complex from the wild type consisted of polypeptides of 48, 42, 33, 32, 30, 28, 23, 21, 18, 16 and 10 kDa, while the mutant complex mainly contained the polypeptides of 48, 42, 33, 32, 30, 28 and 10 kDa. In the mutant photosystem II complex the light-harvesting chlorophyll protein (peptide of 28 kDa) was reduced by a factor of 5 to 6 as compared to the wild type. With respect to the peptide composition and the photosynthetic unit size, the Triton-solubilized photosystem II complex from the mutant Su/su var. Aurea was very similar to O₂ evolving photosystem II reaction center core complexes.Abbreviations PS photosystem - chl chlorophyll - LHCP light-harvesting chlorophyll a/b protein complex     

Heteromeric nature of glucocorticoid receptors

The wild-type and a mutant receptor of S49.1 lymphoma cells have been shown by photoaffinity labelling to contain steroid-binding polypeptides of Mr 94 000 and 40 000, respectively. We investigated the molybdate-stabilized forms of these receptors and obtained Mr 325 000 and 285 000, respectively, by gel filtration and sedimentation analysis. Mild chymotrypsin treatment of the large wild-type receptor resulted in a form of about Mr 290 000 which contained a steroid-binding polypeptide of Mr 40 000. The data suggest that the high -Mr forms of glucocorticoid receptors are heteromeric in nature and contain one steroid-binding polypeptide per complex.     

Mutations in retinoid X receptor that impair heterodimerization with specific nuclear hormone receptor

Retinoid X receptor (RXR) serves as a promiscuous heterodimerization partner for many nuclear receptors through the identity box, a 40-amino acid subregion within the ligand binding domain. In this study, we randomly mutated two specific residues within the human RXRalpha identity box region previously identified as important determinants in heterodimerization (i.e. Ala(416) and Arg(421)). Interestingly, most of these mutants still retained wild type interactions with thyroid hormone receptor (TR), retinoic acid receptor, peroxisome proliferator-activated receptor alpha, small heterodimer partner, and constitutive androstane receptor. However, RXR-A416D and R421L were specifically impaired for interactions with TR, whereas RXR-A416K lost both TR and retinoic acid receptor interactions. Accordingly, RXR-A416D did not support T3 transactivation in mammalian cells, whereas RXR-A416K was not supportive of transactivation by retinoids or T3. These results provide a basis upon which to further design mutant RXRs highly selective in heterodimerization, potentially useful tools to probe nuclear receptor function in vivo.