Molecular cloning of a cDNA for the chicken progesterone receptor B antigen

Expression profile of heat shock protein 108 during retinal development in the chick

In the developing chick retina, heat shock protein 108 (HSP108), which exhibits transferrin binding activity, has been demonstrated at the mRNA level, while transferrin shows two expression peaks. Here, we investigated the expression profile of HSP108 in the developing chick retina at the protein level. The localization of HSP108 in embryonic days 15 (E15), E18, and postnatal day 2 (P2) chick retina was examined immunohistochemically using monoclonal antibody 9G10 specific for chick HSP108, while the expression levels of HSP108 in developing chick retina from E12 to P2 and adult were measured by Western blot analysis. HSP108 was expressed in the ganglion cell layer, inner nuclear layer, outer plexiform layer, outer nuclear layer, inner segments of photoreceptors and retinal pigment epithelium. Two peaks of HSP108 expression were found at around E13 and E18, respectively. Since the two HSP108 peaks appeared to be correlated with the transferrin expression peaks during retinal development, HSP108 may be associated with iron metabolism during the development of the retina.

Distribution of heat shock protein 108 mRNA during the development of the chicken brain

The developmental expression of heat shock protein 108 (HSP108) mRNA was mapped in chicken brain using in situ hybridization and reverse transcription-polymerase chain reaction (RT-PCR). RT-PCR showed that HSP108 mRNA increased from embryonic day 5 (E5) to 13 (E13), significantly decreased from E17 to E21 and then increased again at the adult stage. In situ hybridization showed that while intense HSP108 positive (HSP108+) signals were localized in the cerebellum from E7 to E14, the intensities of these signals were significantly decreased at E17. However, at the adult stage, HSP108 expression increased in a cell type dependent manner. A decrease in HSP108 mRNA expression during differentiation was also observed in an in vitro study of brain cells treated with nerve growth factor (NGF).

Heat shock protein 108 mRNA expression during chicken retina development

In a developmental study on the expression of heat shock protein 108 (HSP108) mRNA in the chicken retina, we found different spatial and temporal expressions of HSP108 mRNA in each retinal layer. While intense HSP108 signals were found in the retina neuroblast layer at embryonic day 5 (E5), the ganglion cell population (GC), inner nuclear layer (IN) and pigment epithelium (PE) showed HSP108 expression at E9. At E14, HSP108 signals were reduced versus the previous stages even though signals were still detected in the GC, the IN, the outer nuclear layer and the PE. HSP108 signals were still detectable at the E21 stage, although each retinal layer showed a much differentiated morphology and diminished signal intensity. These results suggest that HSP108 expression might be developmentally regulated throughout eye organogenesis and that it plays a role in ocular development.

Binding specificity of avian heat shock protein 108

Chicken heat shock protein 108 (HSP108), the avian homolog of GRP94, was originally isolated from hen oviduct and binds Fe-ovotransferrin (Fe-OTf). The liver is also a rich source, and liver membranes bind Fe-OTf with a KD of 1.7 x 10(-7) M, a value similar to oviduct membranes. A competition assay, based on the binding of 125I-Fe-OTf to liver membranes, was utilized to examine the binding specificity of HSP108. Ovalbumin and avidin competed effectively, with KD's of 1.8 x 10(-7) M and 1.4 x 10(-7) M, respectively. Iron-free OTf bound with a 10-fold higher KD. Egg white lysozyme, chicken IgG, human transferrin, rabbit muscle actin, and porcine insulin do not bind. Neither do denatured ovalbumin or ovalbumin tryptic peptides. Thus, the binding activity of HSP108 is not restricted to Fe-OTf, nor is it universal.

Molecular cloning of a steroid-regulated 108K heat shock protein gene from hen oviduct

The natural gene for a steroid inducible 108K heat shock protein has been isolated from a lambda genomic library prepared from hen oviduct tissue. Genomic DNA blots indicate that it exists as a single copy gene in the chick oviduct haploid genome. The 9.9 kilobase gene codes for a messenger RNA of 2733bp (21) and is split into 18 exons as established by sequence comparison of cDNA and genomic clones. The 3' end of the gene contains a repetitive element which shares homology with the CR1 family of repeats. The first exon contains both the untranslated leader and coding regions of the gene. The promoter region is rich in G + C residues (70%) and the dinucleotide CG. This 5' flanking segment contains bases similar both in sequence and location to the Goldberg-Hogness TATA homology and consensus sequence CCAAT. A consensus sequence located upstream of steroid hormone responsive chicken genes is found at -267 and on a reverse orientation at -593. The structure of this gene is of interest since the presence of introns in heat shock genes is rare in any species examined to date. Furthermore, this gene lacks the previously described heat shock promoter consensus sequence (C-GAA-TTC-G) present in other species.

Cloning and sequence analysis of rabbit progesterone-receptor complementary DNA

Two lambda gt11 clones containing fragments of cDNA encoding the rabbit progesterone receptor were isolated with the aid of monoclonal and monospecific polyclonal antireceptor antibodies. RNA gel blot analysis showed that the corresponding mRNA was approximately equal to 5900 nucleotides in size and present in the uterus, where its concentration was increased by estrogen treatment, and in the vagina. This mRNA was not detected in liver, in spleen, in intestine, and in kidney where the receptor protein is known to be absent or present in very small concentration. Cross-hybridizing clones were isolated from a lambda 10 library. The DNA was sequenced, and the primary structure of the progesterone receptor was deduced. It consists of 930 amino acids and contains a basic, cysteine-rich region (residues 568-645) with extensive homology to the glucocorticoid and estrogen receptors and the v-erbA oncogene protein. This region is followed by a C-terminal domain that is similar in size to the corresponding domains of the other steroid receptors and v-erbA and shows striking amino acid homology with the glucocorticoid receptor and significant homology with the estrogen receptor. In contrast, the region extending from the cysteine-rich segment toward the N terminus differed in size and amino acid sequence from that of the other receptors and v-erbA. This region had a high proline content in the progesterone receptor.

Amino acid sequence of a chicken heat shock protein derived from the complementary DNA nucleotide sequence

The complete nucleotide sequence for a chicken heat shock protein (hsp108) was determined from cDNA clones isolated from hen oviduct and bursal lymphoma recombinant DNA libraries. This protein has certain biochemical similarities to the progesterone receptor, but it is clearly distinct from it. The initial cDNA clone, isolated from a chicken oviduct cDNA library, was detected by antibody screening and hybrid-selected translation [Zarucki-Schulz, T., Kulomaa, M. S., Headon, D. R., Weigel, N. L., Baez, M., Edwards, D. P., McGuire, W. L., Schrader, W. T., & O'Malley, B. W. (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 6358-6362]. The earlier clones were used to screen for additional cDNAs, and cDNAs that define the entire mRNA sequence of hsp108 have been obtained. The nucleotide sequence codes for peptides present in hsp108 as determined by protein microsequencing. The 5' end of the mRNA was determined by primer extension studies. The mRNA contains a noncoding region of 101 nucleotides upstream from the predicted initiation codon. The 3' untranslated region contains 244 nucleotides beyond the termination codon, and it contains a predicted polyadenylation signal 26 nucleotides from the end of the complete cDNA. The coding region of 2385 nucleotides corresponds to a polypeptide chain of 795 amino acids, giving a molecular weight of 91,555 for the hsp108 protein. In another paper, evidence is presented that hsp108 shows a high degree of amino acid sequence homology with two heat shock proteins, hsp90 (yeast) and hsp83 (Drosophila), and is indeed inducible by heat shock [Sargan, D. R., Tsai, M.-J., & O'Malley, B. W. (1986) Biochemistry (following paper in this issue)].

hsp108,,,,,, a novel heat shock inducible protein of chicken

cDNA clones encoding a protein that copurifies with the progesterone receptor B subunit but does not bind progesterone have been described [Kulomaa, M. S., Weigel, N. L., Kleinsek, D. A., Beattie, W. G., Conneely, O. M., March, C., Zarucki-Schulz, T., Schrader, W. T., & O'Malley, B. W. (1986) Biochemistry (preceding paper in this issue)]. A full-length sequence for these clones was derived and was found to encode a protein that is structurally unrelated to the progesterone receptor but that contains significant homologies to the previously described heat shock proteins hsp90 of yeast and hsp83a of Drosophila melanogaster. In this paper it is shown that this protein is indeed a heat shock protein. Though the apparent molecular weight of the protein is 108,000 on sodium dodecyl sulfate-polyacrylamide gels, the molecular weight of the polypeptide backbone is 92,000. The steady-state level of gene transcripts as well as the level of protein is inducible by heat shock, but the gene is constitutively expressed in a number of tissues. A previously undescribed heat shock protein of molecular weight 78,000 in these preparations is also reported.

Glucocorticoid mechanism of action: monoclonal antibodies as experimental tools

In order to provide a further insight into glucocorticoid receptor (GR)-mediated action of glucocorticoid hormones, we produced ten monoclonal antibodies against rat GR. In studies combining physicochemical separation methods with antibody methodology, we established that the molybdate-stabilised GR contains one steroid-binding monomer. Using a monoclonal anti-GR antibody-based immunoaffinity chromatographic procedure, we purified two non-ligand-binding proteins, with molecular weights of 80,000 and 90,000, present in the molybdate-stabilised GR complex. These proteins are not recognised by monoclonal antibodies directed against GR. The possible relation of these two proteins to heat shock proteins remains to be established. Immunohistochemical studies of GR in the central nervous system of the rat provided new information on the distribution of GR, particularly in the hypothalamus. Studies of intracellular receptor localisation in rat brain after endocrine manipulations gave results in support of the classical concept of translocation of GR from cytoplasm to cell nucleus. Studies with a cell culture system also supported the existence of GR in the cytoplasm as well as in the cell nucleus.

Cloning of the chicken progesterone receptor

Monospecific antibodies directed against the chicken progesterone receptor (PR) form B were used to screen a randomly primed phage lambda gt11 cDNA expression library prepared from size-fractionated chicken oviduct mRNA. Two independent immunoreactive clones, lambda cPR1 and lambda cPR2, were isolated. Antibodies selected from anti-PR form B antiserum on matrices of lambda cPR1 and lambda cPR2 fusion proteins detected two proteins on electrophoretic immunoblots of crude and purified PR preparations. These proteins had the same apparent molecular weights as did PR forms A and B crosslinked with the tritiated progestin R 5020. Thus, lambda cPR1 and lambda cPR2 fusion proteins contain epitopes present in both PR forms A and B. A cDNA clone, lambda cPR3, containing the inserts of both lambda cPR1 and lambda cPR2, was isolated from a randomly primed lambda gt10 oviduct cDNA library, indicating that both cDNA inserts were derived from the same oviduct mRNA. Additional evidence that these cDNAs correspond to PR mRNA was provided by sequencing the lambda cPR3 cDNA insert, since it was found to encode the sequence of three tryptic peptides prepared from purified PR form B. A fourth and a fifth cDNA clone, lambda cPR4 and lambda cPR5, were sequentially isolated from the same lambda gt10 cDNA library beginning with a probe derived from the 3' end of the lambda cPR3 insert. Partial DNA sequencing of lambda cPR4 and lambda cPR5 revealed the presence of a sequence coding for a cysteine-rich domain that is strikingly homologous to the amino acid sequences present in the putative DNA-binding domain of the human and chicken estrogen receptors, human glucocorticoid receptor, and v-erbA gene product of the avian erythroblastosis virus.