Production of recombinant soluble human integrin alpha4beta1

Integrin alpha4beta1 is a major leukocyte adhesion receptor that is a key target for the development of anti-inflammatory therapeutics. With the dual long-term goals of developing a reagent for use in high-throughput inhibitor screening assays and for crystallisation trials and subsequent structure determination, we have generated a recombinant soluble alpha4beta1 receptor. Both subunits were truncated prior to the transmembrane domains by site-directed mutagenesis and expressed using baculovirus infection of insect cells. The molecular weights of the recombinant subunits were as expected for post-translationally unmodified protein. In addition, as observed for the native subunit, a proportion of the alpha4 subunit was proteolytically processed into two fragments. ELISA and solid phase ligand-binding assays were performed to investigate the folding and functionality of the soluble integrin. The data suggest that the receptor was correctly folded and that it bound recombinant ligands with similar kinetics to the native molecule.     

DNA polymerases of rabbit mammary gland: partial purification, characterization and changes in DNA polymerase activities as a function of physiological state

DNA polymerases alpha and beta were partially purified from rabbit mammary gland, and their properties were examined. Many of these properties (sedimentation coefficients, pH optima, divalent cation requirements, sensitivity to various inhibitors) are similar to those commonly regarded as typical of eukaryotic DNA polymerases alpha and beta. Effect of stage of pregnancy and lactation on the levels of activity of DNA polymerases alpha, beta and gamma in rabbit mammary gland was examined. These experiments reveal a considerable variation of DNA polymerase-alpha activity; the highest enzyme activity is observed on day-20 of pregnancy and on day-1 of lactation.     

Expression of an engineered form of recombinant procollagen in mouse milk

We have examined the suitability of the mouse mammary gland for expression of novel recombinant procollagens that can be used for biomedical applications. We generated transgenic mouse lines containing cDNA constructs encoding recombinant procollagen, along with the alpha and beta subunits of prolyl 4-hydroxylase, an enzyme that modifies the collagen into a form that is stable at body temperature. The lines expressed relatively high levels (50-200 micrograms/ml) of recombinant procollagen in milk. As engineered, the recombinant procollagen was shortened and consisted of a pro alpha 2(I) chain capable of forming a triple-helical homotrimer not normally found in nature. Analysis of the product demonstrated that (1) the pro alpha chains formed disulphide-linked trimers, (2) the trimers contained a thermostable triple-helical domain, (3) the N-propeptides were aligned correctly, and (4) the expressed procollagen was not proteolytically processed to collagen in milk.     

Epithelial development and differentiation in the mammary gland is not dependent on alpha 3 or alpha 6 integrin subunits

In the mammary gland, both laminin and integrins have been shown to be required for normal ductal morphogenesis during development in vivo, and for functional differentiation in culture models. Major integrin receptors for laminins in the mammary gland are alpha 3 beta 1, alpha 6 beta 1, and alpha 6 beta 4. However, the specific subunits that contribute to laminin-mediated mammary cell function and development have not been identified. In this study, we use a genetic approach to test the hypothesis that laminin-binding integrins are required for the function of the mammary gland in vivo. Rudiments of embryonic mammary gland were shown to develop in the absence of these integrin subunits. Postnatal development of the mammary gland was studied in integrin null tissue that had been transplanted into the mammary fat pads of syngeneic hosts. In mammary epithelium lacking alpha 6 integrin, the beta 4 subunit was not apparent and hemidesmosome formation was only rudimentary. However, despite this deficiency, normal ductal morphogenesis and branching of the mammary gland occurred and myoepithelial cells were distributed normally with respect to luminal cells. Mammary alveoli devoid of alpha 3 or alpha 6 integrin formed in pregnancy and were histologically and functionally identical to those in wild-type mammary gland. The tissue underwent full morphological differentiation, and the epithelial cells retained the ability to synthesize beta-casein. This work demonstrates that mammary tissue genetically lacking major laminin-binding integrin receptors is still able to develop and function.     

Water-soluble prolactin receptors from porcine mammary gland

Two types of prolactin receptors were identified in sow mammary gland. When light membranes were prepared on a discontinuous sucrose gradient (0.3 and 1.7 M) and then diluted and washed with 0.3 M sucrose solution, a large amount (about 50%) of receptors were released from membranes and appeared in the supernatant fraction. These two forms (hydrophobic and water-soluble) of receptors were characterized as having the same binding specificity for lactogenic hormones and a similar affinity constant for ovine prolactin (K alpha approximately 10-12 X 10(9) M-1). Polyclonal antibodies and one monoclonal (mAb M110) antibody, obtained against partially purified prolactin receptors from rabbit mammary gland, cross-reacted effectively with sow mammary receptors. They completely inhibited the specific binding of [125I]oPRL to membrane and water-soluble receptors. The present studies indicate that the two types of sow prolactin receptors could represent the same molecular entity and confirm that prolactin receptors from rabbit and sow mammary gland exhibit numerous antigenic similarities.     

Acetyl Coenzyme A Synthetase (ADP Forming) from the Hyperthermophilic Archaeon Pyrococcus furiosus: Identification, Cloning, Separate Expression of the Encoding Genes, acdAI and acdBI, in Escherichia coli, and In Vitro Reconstitution of the Active Heterotetrameric Enzyme from Its Recombinant Subunits

Acetyl-coenzyme A (acetyl-CoA) synthetase (ADP forming) represents a novel enzyme in archaea of acetate formation and energy conservation (acetyl-CoA + ADP + P(i) --> acetate + ATP + CoA). Two isoforms of the enzyme have been purified from the hyperthermophile Pyrococcus furiosus. Isoform I is a heterotetramer (alpha(2)beta(2)) with an apparent molecular mass of 145 kDa, composed of two subunits, alpha and beta, with apparent molecular masses of 47 and 25 kDa, respectively. By using N-terminal amino acid sequences of both subunits, the encoding genes, designated acdAI and acdBI, were identified in the genome of P. furiosus. The genes were separately overexpressed in Escherichia coli, and the recombinant subunits were reconstituted in vitro to the active heterotetrameric enzyme. The purified recombinant enzyme showed molecular and catalytical properties very similar to those shown by acetyl-CoA synthetase (ADP forming) purified from P. furiosus.     

Human nerve growth factor beta (hNGF-beta): mammary gland specific expression and production in transgenic rabbits

Transgenic rabbits carrying gene constructs encoding human nerve growth factor beta (hNGF-beta) cDNA were generated. Expression of hNGF-beta mRNA was restricted to the mammary gland of lactating rabbits. Western Blot analysis revealed a polypeptide of 13.2 kDa in the milk of transgenic animals. hNGF-beta was purified from the milk by a two-step chromatographic procedure. Electrospray mass spectroscopy analysis of purified hNGF-beta depicted a molecular weight of 13,261 Da per subunit. The biological activity of the hNGF-beta was tested using PC12W2 cells and cultures of dorsal root ganglion neurons from chicken embryos. Crude defatted milk from transgenic animals and purified hNGF-beta demonstrated full biological activity when compared to commercial recombinant hNGF-beta.     

Isolation and characterization of recombinant human casein kinase II subunits alpha and beta from bacteria

cDNA encoding the casein kinase II (CKII) subunits alpha and beta of human origin were expressed in Escherichia coli using expression vector pT7-7. Significant expression was obtained with E. coli BL21(DE3). The CKII subunits accounted for approximately 30% of the bacterial protein; however, most of the expressed proteins were produced in an insoluble form. The recombinant CKII alpha subunit was purified by DEAE-cellulose chromatography, followed by phosphocellulose and heparin-agarose chromatography. The recombinant CKII beta subunit was extracted from the insoluble pellet and purified in a single step on phosphocellulose. From 10 g bacterial cells, the yield of soluble protein was 12 mg alpha subunit and 5 mg beta subunit. SDS/PAGE analysis of the purified recombinant proteins indicated molecular masses of 42 kDa and 26 kDa for the alpha and beta subunits, respectively, in agreement with the molecular masses determined for the subunits of the native enzyme. The recombinant alpha subunit exhibited protein kinase activity which was greatest in the absence of monovalent ions. With increasing amounts of salt, alpha subunit kinase activity declined rapidly. Addition of the beta subunit led to maximum stimulation at a 1:1 ratio of both subunits. Using a synthetic peptide (RRRDDDSDDD) as a substrate, the maximum protein kinase stimulation observed was fourfold under the conditions used. The Km of the reconstituted enzyme for the synthetic peptide (80 microM) was comparable to the mammalian enzyme (40-60 microM), whereas the alpha subunit alone had a Km of 240 microM. After sucrose density gradient analysis, the reconstituted holoenzyme sedimented at the same position as the mammalian CKII holoenzyme.     

Phosphorylation of casein kinase II

Casein kinase II from rabbit reticulocytes is a tetramer with an alpha,alpha' beta 2 or alpha 2 beta 2 structure; the alpha subunits contain the catalytic activity, and the beta subunits are regulatory in nature [Traugh, J.A., Lin, W. J., Takada-Axelrod, F., & Tuazon, P. T. (1990) Adv. Second Messenger Phosphoprotein Res. 24, 224-229]. When casein kinase II is isolated from rabbit reticulocytes by a rapid two-step purification of the enzyme, both the alpha and beta subunits are phosphorylated to a significant extent. In vitro, purified casein kinase II undergoes autophosphorylation on the beta subunit. In the presence of polylysine and polyarginine, phosphorylation of the beta subunits is inhibited, and the alpha subunits (alpha and alpha') become autophosphorylated. The effectiveness of polylysine coincides with the molecular weight. With basic proteins, including a number of histones and protamine, autophosphorylation of both subunits is observed. With histones, autophosphorylation of each subunit can be greater than that observed with the autophosphorylated enzyme alone or with a basic polypeptide. Thus, the potential exists for modulatory proteins to alter the autophosphorylation state of casein kinase II. Taken together, the data suggest that phosphorylation of the alpha subunit of casein kinase II in vivo may be due to an unidentified protein kinase or due to autophosphorylation. In the latter instance, casein kinase II could be transiently associated with specific intracellular compounds, such as basic proteins, with a resultant stimulation of autophosphorylation.     

Major pertussis-toxin-sensitive GTP-binding protein of bovine lung. Purification, characterization and production of specific antibodies

Two GTP-binding proteins which can be ADP-ribosylated by islet-activating protein, pertussis toxin, were purified from the cholate extract of bovine lung membranes. Both proteins had the same heterotrimeric structure (alpha beta gamma), but the alpha subunits were dissociated from the beta gamma when they were purified in the presence of AlCl3, MgCl2 and NaF. The molecular mass of the alpha subunit of the major protein (designated GLu, with beta gamma) was 40 kDa and that of the minor one was 41 kDa. The results of peptide mapping analysis of alpha subunits with a limited proteolysis indicated that GLu alpha was entirely different from the alpha of brain Gi or Go, while the 41-kDa polypeptide was identical with the alpha of bovine brain Gi. The kinetics of guanosine 5'-[3-O-thio]triphosphate (GTP[gamma S]) binding to GLu was similar to that to lung Gi but quite different from that to brain Go. On the other hand, incubation of GLu alpha at 30 degrees C caused a rapid decrease of GTP[gamma S] binding, the inactivation curve being similar to that of Go alpha but different from that of Gi alpha. The alpha subunits of lung Gi and GLu did not react with the antibodies against the alpha subunit of bovine brain Go. The antibodies were raised in rabbits against GLu alpha and were purified with a GLu alpha-Sepharose column. The purified antibodies reacted not only with GLu alpha but also with the 41-kDa protein and purified brain Gi alpha. However, the antibodies adsorbed with brain Gi alpha reacted only with GLu alpha, indicating antisera raised with GLu alpha contained antibodies that recognize both Gi alpha and GLu alpha, and those specific to GLu alpha. These results further indicate that GLu is different from Gi or Go. Anti-GLu alpha antibodies reacted with the 40-kDa proteins in the membranes of bovine brain and human leukemic (HL-60) cells. The beta gamma subunits were also purified from bovine lung. The beta subunit was the doublet of 36-kDa and 35-kDa polypeptides. The lung beta gamma could elicit the ADP-ribosylation of GLu alpha by islet-activating protein, increase the GTP[gamma S] binding to GLu and protect the thermal denaturation of GLu alpha. The antibodies raised against brain beta gamma cross-reacted with lung beta but not with lung gamma.     

Sequence analysis and expressional regulation of messenger RNAs encoding beta subunits of follicle-stimulating hormone and luteinizing hormone in the red-bellied newt, Cynops pyrrhogaster

Two distinct cDNAs encoding beta subunits of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) were cloned from the cDNA library constructed for the pituitary of the red-bellied newt, Cynops pyrrhogaster, and sequenced. The newt FSHbeta and LHbeta cDNAs encode polypeptides of 129 and 131 amino acids, including signal peptides of 20 and 19 amino acids, respectively. The number and position of cysteine and N-glycosylation in each of the beta subunits of FSH and LH, which are considered essential for assembly of the alpha subunit, are well conserved between the newt and other tetrapods. The high homology (41.6%) between the beta subunits of newt FSH and LH imply less specificity of FSH and LH in gonadal function. One cDNA encoding the common polypeptide chain alpha subunit of FSH and LH was also isolated from the newt pituitary gland. The mRNAs of FSHbeta, LHbeta, and the alpha subunit were expressed only in the pituitary gland among various newt tissues. Double-staining with in situ hybridization and immunohistochemistry revealed coexpression of FSHbeta and LHbeta in the same newt pituitary cells. Ovariectomy induced a significant increase in FSHbeta mRNA levels, but there was no significant change in LHbeta or alpha subunit mRNA levels compared with those in control animals. Taken together, these data suggest that two kinds of gonadotropins, namely FSH and LH, are expressed in the same gonadotropin-producing cells in the pars distalis of the newt as well as in other tetrapods and that the expression of FSHbeta is negatively regulated by the ovaries.     

Antisera specific for the alpha 1, alpha 2, alpha 3, and beta subunits of the Na,K-ATPase: differential expression of alpha and beta subunits in rat tissue membranes

We have developed a panel of antibodies specific for the alpha 1, alpha 2, alpha 3, and beta subunits of the rat Na,K-ATPase. TrpE-alpha subunit isoform fusion proteins were used to generate three antisera, each of which reacted specifically with a distinct alpha subunit isotype. Western blot analysis of rat tissue microsomes revealed that alpha 1 subunits were expressed in all tissues while alpha 2 subunits were expressed in brain, heart, and lung. The alpha 3 subunit, a protein whose existence had been inferred from cDNA cloning, was expressed primarily in brain and copurified with ouabain-inhibitable Na,K-ATPase activity. An antiserum specific for the rat Na,K-ATPase beta subunit was generated from a TrpE-beta subunit fusion protein. Western blot analysis showed that beta subunits were present in kidney, brain, and heart. However, no beta subunits were detected in liver, lung, spleen, thymus, or lactating mammary gland. The distinct tissue distributions of alpha and beta subunits suggest that different members of the Na,K-ATPase family may have specialized functions.     

Isolation and characterization of casein mRNAs from lactating ewe mammary glands.

RNA from bound polysomers of lactating ewe's mammary gland directs the synthesis of the three major milk proteins (alphas, beta and kappa-caseins) in a cell-free system derived from rabbit reticuyocytes. The "in vitro" product was identified by immunoprecipitation with specific antibodies and by electrophoresis in SDS polyacrylamide gel. Each of these messengers was purified from 20 to 25 fold from total membrane-bound polysomal RNA using poly U-Sepharose chromatography. This purified fraction assayed in a reticulocyte cell-free system is able to direct also the synthesis of 2 minor secretory proteins (beta-lactoglobulin and alpha-lactalbumin). The messenger RNAs purified by hybridization to poly U-Sepharose have a sedimentation coefficient of about 12 S and an apparent molecular weight of approximatively 3.5 s 10-5 daltons was observed by polyacrylamide gel electrophoresis under denaturing contitions. This value which correspond to about 900 nucleotides is significantly greater than the number expected for coding milk proteins.     

Establishment of La-tPA/G-CSF dual transgenic mice and expression in their mammary gland

Expression vectors of human granulocyte colony stimulating factor (G-CSG) and long acting tissue plasminogen activator (La-tPA) in mammary gland were constructed using promoters of mouse whey acid protein gene (WAP) and sheep β-lactoglobulin gene (BLG) with sizes of 2.6 and 5 kb respectively. Two kinds of transgenic mice of G-CSF and La-tPA were produced with microinjection. The expression of G-CSF and La-tPA was achieved in mammary glands of transgenic mice, respectively. In order to establish dual transgenic mice of La-tPA/G-CSF, transgenic mice carrying G-CSF and La-tPA gene characterized with specific expression in mammary gland were mated. La-tPA/G-CSF dual transgenic mice were screened out from the hybrid offspring by Once-PCR. The co-expression of La-tPA and G-CSF in mammary gland of the dual transgenic mice was confirmed by the milk assayed and Northern blot analysis. Some parameters about the dual transgenic mice indicated that there were fewer litters than that of normal mice. The ratio of du     

Expression of active human blood clotting factor VIII in mammary gland of transgenic rabbits

Human clotting factor VIII is probably the largest protein to be expressed to date in the mammary gland of a transgenic animal, and it requires extensive posttranslational modification to achieve full biological activity. The mammary gland specific construct mWAP-hFVIII-MT-I was injected into the pronuclei of rabbit zygotes, and three transgenic offspring were obtained. Founder 385 showed germ-line transmission of a single integrated copy, and a homozygous line was established from this animal. The rhFVIII was transcribed and translated exclusively in the mammary gland. The activity of rhFVIII in the rabbit milk ranged from 5 to 8% of that found in normal human plasma. Results indicate the suitability of the transgenic rabbit mammary gland for rhFVIII production.     

Identification of in vitro synthesized pituitary glycoprotein alpha subunit. Translation of a possible precursor.

Bovine pituitary RNA was translated in heterologous cell-free systems derived from wheat germ and reticulocyte lysate. Analyses of the cell-free products by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed three major proteins, exhibiting apparent molecular weights of 25,000, 24,000, and 14,000. The two larger products were identified as preprolactin and pregrowth hormone by immunoprecipitation and thus demonstrated the fidelity of pituitary RNA translation. The 14,000-dalton product was shown to be immuno-precipitable with specific bovine lutropin (LH)alpha antisera. Since this protein is 3000 to 4000 daltons larger than the apoprotein form of the alpha subunits, it suggests that the subunit is synthesized in precursor form. The immunological specificity was further demonstrated by the successful competition with unlabeled alpha subunit plus the failure to immunoprecipitate this product using specific antisera to other pituitary hormones. Although specific antisera to bTSH(thyrotropin)beta and bLH(lutropin)beta failed to immunoprecipitate the 14,000-dalton product, LHbeta antisera precipitated a product with a molecular weight of approximately 18,000. Since the alpha and beta antisera specifically precipitated different products, and since a larger immunoprecipitable product was not detected, the results suggest that the two subunits are synthesized separately.     

Isolation of mRNA from bovine pituitary. The cell-free synthesis of the alpha and beta subunits of luteinizing hormone

RNA derived from bovine steer pituitary was translated in wheat germ cell-free extracts containing [35S]methionine. Antisera generated against purified denatured alpha and beta subunits of lutropin were used to demonstrate the synthesis of both proteins in vitro. The immunoprecipitated products of the cell-free system were resolved on sodium dodecyl sulfate/polyacrylamide gels and it was observed that the molecular weight of the immunoprecipitated alpha subunit protein was approximately 14,000, while that of the beta protein was estimated to be 16,000. Since the molecular weights of authentic alpha and beta subunits are 10,600 and 14,000 respectively, the cell-free products presumably represented their pre-protein forms. The ratio of the immunoprecipitated subunit pre-proteins was dependent on the magnesium concentration in the translation mixtures; at 2.1 mM, translation of lutropin alpha and beta mRNAs was comparable. RNA isolated from cow pituitary tissue directed the synthesis of fivefold less of the alpha and beta immunoprecipitated proteins than did steer RNA. Since the blood levels of gonadal steroids are higher in the cow, the results supported the hypothesis that lutropin alpha and beta mRNA biosynthesis is repressed by these steroids. The data also suggest that synthesis of lutropin alpha and beta subunits is coordinately expressed in certain physiological situations.     

Processing enzyme glucosidase II: proposed catalytic residues and developmental regulation during the ontogeny of the mouse mammary gland

Following the action of glucosidase I to clip the terminal alpha1,2-linked glucose, glucosidase II sequentially cleaves the two inner alpha1,3-linked glucose residues from the Glcalpha1,2Glcalpha1,3Glcalpha1,3Man(9)GlcNAc(2) oligosaccharide of the incipient glycoprotein as it undergoes folding and maturation. Glucosidase II belongs to family 31 glycosidases. These enzymes act by the acid-base catalytic mechanism. The cDNA of the wild-type and several mutant forms of the fusion protein of the enzyme in which mutations were introduced in the conserved motif D(564)MNE(567) were expressed in Sf9 cells, and the proteins were purified on Ni-NTA matrix. The catalytic activity of the purified proteins was determined with radioactive Glc(2)Man(9)GlcNAc(2) substrate. The results show that the aspartate and glutamate within the D(564)MNE(567) motif can serve for catalysis, most likely as the acid-base pair within the active site of the enzyme. The developmental regulation of glucosidase II was studied during the ontogeny of the mouse mammary gland for its growth and differentiation. The mRNA of both alpha and beta subunits of the enzyme, immunoreactive alpha and beta subunits, and enzyme activity were measured over the complete developmental cycle. The changes in all the parameters were consistent with similar fluctuations with several other enzymes of the N-glycosylation machinery reported earlier, reaching a three- to fourfold increase over the basal level in the virgin gland at the peak of lactation. Altogether it appears that there is a coordinated regulation of the enzymes involved in protein N-glycosylation during the development of the mouse mammary gland.     

Coexpression of both alpha and beta subunits is required for assembly of regulated casein kinase II

Casein kinase II is an ubiquitous serine-threonine kinase whose functional significance and regulation in the living cell are not clearly understood. The native enzyme has an oligomeric structure made of two different (alpha and beta) subunits with an alpha 2 beta 2 stoichiometry. To facilitate the study of the structure-activity relationship of the kinase, we have expressed its isolated subunits in a baculovirus-directed insect cell expression system. The resulting isolated recombinant alpha subunit exhibited a protein kinase catalytic activity, in agreement with previous observations [Cochet, C., & Chambaz, E. M. (1983) J. Biol. Chem. 258, 1403-1406]. Coinfection of insect cells with recombinant viruses encoding the two kinase subunits resulted in the biosynthesis of a functional enzyme. Active recombinant oligomeric kinase was purified to near homogeneity with a yield of about 5 mg of enzymatic protein per liter, showing that, in coinfected host cells, synthesis was followed, at least in part, by recombination of the two subunits with an alpha 2 beta 2 stoichiometry. The catalytic properties of the recombinant enzyme appeared highly similar to those previously observed for casein kinase II purified from bovine tissue. Access to the isolated subunits and to their alpha 2 beta 2 association disclosed that the beta subunit is required for optimal catalytic activity of the kinase. In addition, the beta subunit is suggested to play an essential role in the regulated activity of the native casein kinase II. This is clearly illustrated by the observation of the effect of spermine which requires the presence of the beta subunit to stimulate the kinase catalytic activity which is borne by the alpha subunit.(ABSTRACT TRUNCATED AT 250 WORDS)