Alkaline phosphatase conjugated protein A as a sensitive reagent to immunoscreen an expression cDNA plasmid library: isolation of cDNA to the calcium-binding protein of the chick embryonic chorioallantoic membrane

A highly efficient immunoscreening procedure has been developed to isolate cDNA clones to the calcium-binding protein (CaBP) of the chick embryonic chorioallantoic membrane (CAM). A library of total CAM cDNA was constructed using the expression plasmid vector, pUC 19. Bacterial clones containing plasmids with CaBP cDNA inserts were detected immunohistochemically based on their expression of hybrid CaBP protein sequences. For immunodetection, nitrocellulose bacterial colony replicas were treated with specific antibodies to the CaBP followed by incubation with Staphylococcus aureus Protein A conjugated with alkaline phosphatase (AP) which served as a secondary immunoreagent. Positive clones were then histochemically identified based on AP enzyme activity. The identity of the immunopositive clones was further verified by in vitro translation of mRNA selected by hybridization to the cloned cDNA. The AP-based immunoscreening procedure yields stable reaction products with relatively low background, and should find general application for isolating specific cDNA clones from expression cDNA libraries.     

Differential screening of a cDNA library with cDNA probes amplified in a heterologous host: isolation of murine GRP78 (BiP) and other serum-regulated low-abundance mRNAs

A novel method was used to screen differentially a cDNA library for clones representing serum-regulated mRNA species of low abundance. To increase the amount of probe available for screening, the cDNA probe was cloned and amplified. Two separate cDNA 'probe' libraries were constructed in the Escherichia coli plasmid vector pDE613, using poly(A)+mRNA from murine cells at 0 and 16 h after stimulation of a G0 population. Radiolabelled plasmid DNA from each library was hybridized sequentially to colony blots of the third 'target' library, constructed with mRNA from serum-stimulated cells in the Bacillus subtilis vector pBD214. Differential screening of the target cDNA library with the two probe libraries identified novel murine cDNA clones, some representing cytoplasmic poly(A)+RNA species of low (0.01%) abundance, accumulating after serum stimulation of a quiescent mouse embryo fibroblast population. One cDNA clone was found to correspond to mitochondrial 16S rRNA and a second was identified as the murine equivalent of previously described cDNA clones for the hamster 78-kDa glucose-regulated protein (GRP78) and the rat immunoglobulin heavy-chain-binding protein. GRP78 mRNA has not previously been recognized as a serum-inducible message.     

Cloning of rat aorta lysyl oxidase cDNA: complete codons and predicted amino acid sequence

Lysyl oxidase cDNA clones were identified by their reactivity with anti-bovine lysyl oxidase in a neonatal rat aorta cDNA lambda gt11 expression library. A 500-bp cDNA sequence encoding four of six peptides derived from proteolytic digests of bovine aorta lysyl oxidase was found from the overlapping cDNA sequences of two positive clones. The library was rescreened with a radiolabeled cDNA probe made from one of these clones, thus identifying an additional 13 positive clones. Sequencing of the largest two of these overlapping clones resulted in 2672 bp of cDNA sequence containing partial 5'- and 3'-untranslated sequences of 286 and 1159 nucleotides, respectively, and a complete open reading frame of 1227 bp encoding a polypeptide of 409 amino acids (46 kDa), consistent with the 48 +/- 3 kDa cell-free translation product of rat smooth muscle cell RNA that was immunoprecipitated by anti-bovine lysyl oxidase. The rat aorta cDNA-derived amino acid sequence contains the sequence of each of the six peptides isolated and sequenced from the 32-kDa bovine aorta enzyme, including the C-terminal peptide with sequence identity of 96%. Northern blots screened with lysyl oxidase cDNA probes identified hybridizing species of 5.8 and 4.5 kb in mRNA of rat aorta and lung, while dot blot analyses were negative for lysyl oxidase mRNA in preparations of rat brain, liver, kidney, and heart. A 258-bp segment of the 3'-untranslated region of lysyl oxidase cDNA is 93% identical with a highly conserved region of the 3'-untranslated sequence of rat elastin cDNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Brain-specific expression of MAP2 detected using a cloned cDNA probe

We describe the isolation of a set of overlapping cDNAs encoding mouse microtubule associated protein 2 (MAP2), using an anti-MAP antiserum to screen a mouse brain cDNA expression library cloned in bacteriophage lambda gt11. The authenticity of these clones was established by the following criteria: (a) three non-identical clones each expressing a MAP2 immunoreactive fusion protein were independently isolated from the expression library; each of these clones cross-hybridized at the nucleic acid level; (b) anti-MAP antiserum was affinity purified using nitrocellulose-bound fusion protein; these antibodies detected only MAP2 in an immunoblot experiment of whole brain microtubule protein; (c) a series of cDNA "walking" experiments was done so as to obtain a non-overlapping cloned fragment corresponding to a different part of the same mRNA molecule. Upon subcloning this non-overlapping fragment into plasmid expression vectors, a fusion protein was synthesized that was immunoreactive with an anti-MAP2 specific antiserum. Thus, a single contiguous cloned mRNA molecule encodes at least two MAP2-specific epitopes; (d) the cloned cDNA probes detect an mRNA species in mouse brain that is of a size (approximately 9 kb) consistent with the coding capacity required by a 250,000-D protein. The MAP2-specific cloned cDNA probes were used in RNA blot transfer experiments to assay for the presence of MAP2 mRNA in a variety of mouse tissues. Though brain contained abundant quantities of MAP2 mRNA, no corresponding sequences were detectable in RNA prepared from liver, kidney, spleen, stomach, or thymus. We conclude that the expression of MAP2 is brain-specific. Use of the MAP2 specific cDNA probes in genomic Southern blot transfer experiments showed the presence of a single gene encoding MAP2 in mouse. The microheterogeneity of MAP2 is therefore ascribable either to alternative splicing within a single gene, or to posttranslational modification(s), or both. Under conditions of low stringency, the mouse MAP2 cDNA probe cross-hybridizes with genomic sequences from rat, human, and (weakly) chicken, but not with sequences in frog, Drosophila, or sea urchin DNA. Thus, there is significant interspecies divergence of MAP2 sequences. The implications of the above observations are discussed in relationship to the potential biological function of MAP2.     

Molecular cloning of cDNA corresponding to mRNA species whose steady state levels in the thyroid are enhanced by thyrotropin. Homology of one of these sequences with ferritin H

A lambda gt11 cDNA library was constructed using poly(A)+ mRNA from thyrotropin (TSH)-stimulated Fisher rat thyroid (FRTL5) cells. The library was screened for nonthyroglobulin cDNA sequences by differential plaque filter hybridization using single-stranded cDNA probes synthesized from mRNA prepared from quiescent and TSH-stimulated FRTL5 cells. Thyroglobulin cDNA-containing recombinants in the library were avoided by prehybridizing the TSH probe to excess thyroglobulin cDNA. Of 48,000 clones screened, 60 were chosen as representing mRNA species whose abundance was increased in TSH-stimulated versus quiescent cultures. Southern blot analysis of 9 clones confirmed that the TSH-cDNA probe hybridized to a greater extent to the cDNA inserts than did the control probe. cDNA insert sizes varied between 0.3 kilobase (kb) and 1.0 kb. Northern slot blot analysis using as probes the cDNA of four of these clones (FC4, FC26, FC29, and FC43) demonstrated that TSH stimulation of FRTL5 cells increased the steady state levels of the respective mRNA species by 4-12-fold. For all 4 clones, increases in mRNA levels were apparent within approximately 1 h and were maximal after 14-18 h of TSH stimulation. Determination of the partial nucleotide sequence of these 4 clones confirmed that none was thyroglobulin, thyroid peroxidase, or any other gene previously reported to be stimulated by TSH. Three of the clones bore no homology to any known nucleotide sequence, but FC26 was 85% homologous with human ferritin H. Northern blot analysis using the FC26 cDNA insert as a probe confirmed hybridization to an mRNA species of 1 kb, the known size of ferritin H mRNA. In summary, using the technique of differential plaque filter hybridization, we have identified 4 new genes whose mRNA levels are increased by TSH stimulation of thyroid cells. One of these genes is homologous to human ferritin H.     

Isolation of mouse N-CAM-related cDNA: detection and cloning using monoclonal antibodies.

Clones coding for the mouse neural cell adhesion molecule (N-CAM) were isolated from a cDNA library prepared in the expression vector lambda gt 11 from mRNA extracted from a mouse neuroblastoma cell line. This library was screened with two anti-N-CAM monoclonal antibodies directed against different sites on the molecule and with rabbit anti-N-CAM serum. Two clones were identified with the first monoclonal antibody, three with the second one, none reacted with both. The relevance of these cDNA clones to N-CAM was confirmed by several observations. First, cDNA sequences detected with one monoclonal antibody cross-hybridized with those identified by the other antibody. Second, the different fusion proteins all bound the rabbit serum in addition to one monoclonal antibody. Finally, the probes hybridized to discrete mRNA species of sufficient lengths to code for the very large N-CAM polypeptides in RNA preparations from N-CAM-expressing, but not from N-CAM-negative cells. An additional mRNA species not seen in embryonic brain was expressed in adult mouse brain. Genomic blot experiments indicated that sequences corresponding to one of our probes are present only a few times in the mouse genome.     

Transforming growth factor-alpha in the mammalian brain. Immunohistochemical detection in neurons and characterization of its mRNA

In this communication, we demonstrate that adult mammalian brain neurons express transforming growth factor-alpha (TGF-alpha). We used the anti-TGF-alpha monoclonal antibody, MF9, to immunohistochemically localize TGF-alpha in human and rat brain. We found specific immunoreactivity in neurons throughout the brain which was not a result of cross-reactivity of MF9 with the neuropeptide, synenkephalin. Northern blot analysis of bovine and rat brain RNA using human and rat TGF-alpha cDNA probes, respectively, revealed a single 4.8-kilobase pair mRNA with approximately equal abundance in the bovine brainstem, cerebellum, hypothalamus, and cerebral cortex. Fetal rat brain had about 2-fold more TGF-alpha mRNA than did adult rat. The brain TGF-alpha cDNA was cloned from a human neonatal brainstem library. Four identical clones were isolated after screening 10(6) recombinant lambda gt11 phage. The sequence of the 894-base pair cDNA was virtually identical with the cDNA isolated from a human renal cell carcinoma. A single alanine codon was deleted in the brain cDNA at an exon-exon junction. The alanine deletion is within the amino-terminal region of the TGF-alpha precursor that is thought to be removed by proteolytic processing of the precursor to the mature growth factor. These studies indicate that the normal mammalian brain neurons express TGF-alpha.     

Study of the expression of myelin proteolipid protein (lipophilin) using a cloned complementary DNA.

We have prepared a lambda gt10 cDNA library with the mRNA isolated from fetal calf brains which were actively myelinating. Using two oligonucleotides made according to the known amino acid sequence of myelin proteolipid protein (PLP or lipophilin), we have isolated several cDNA clones for this major intrinsic membrane protein of myelin. One of these clones, designated as pLP1, is found to contain 444 bp of coding sequence for the C-terminal half of PLP and 486 bp of 3' untranslated sequence. Using pLP1 as a hybridization probe, we have studied the regulation of PLP at the mRNA level during rat brain development. Our results show that the relative amounts of mRNA for PLP and that for the major extrinsic protein of the myelin membrane, myelin basic protein, increase coordinately during the course of myelination in the brain.     

Identification of recombinant phages containing sequences from different rat myosin heavy chain genes.

The construction and identification of a recombinant plasmid containing a cDNA insert which hybridizes specifically to myosin heavy chain mRNA is described. The plasmid was used as a probe to screen a rat genomic library for recombinant phages containing myosin heavy chain sequences. Six clones with approximately 15 k bp inserts each were isolated. Digestion with several restriction enzymes and hybridization of the fractionated DNA with the plasmid probe showed that the clones contained 3 different DNA inserts. Electron microscopy of a heteroduplex made by hybridization of DNA from two clones confirmed that the inserts originated in different genes. Hybridization of size-fractionated ECOR1 digested rat spleen DNA with the cloned probe suggested the existence of at least 5 myosin heavy chain genes.     

Molecular cloning and nucleotide sequence of cDNA encoding the rat kidney S-adenosylmethionine synthetase.

We previously reported the isolation of a cDNA encoding the liver-specific isozyme of rat S-adenosylmethionine synthetase from a lambda gt11 rat liver cDNA library. Using this cDNA as a probe, we have isolated and sequenced cDNA clones for the rat kidney S-adenosylmethionine synthetase (extrahepatic isoenzyme) from a lambda gt11 rat kidney cDNA library. The complete coding sequence of this enzyme mRNA was obtained from two overlapping cDNA clones. The amino acid sequence deduced from the cDNAs indicates that this enzyme contains 395 amino acids and has a molecular mass of 43,715 Da. The predicted amino acid sequence of this protein shares 85% similarity with that of rat liver S-adenosylmethionine synthetase. This result suggests that kidney and liver isoenzymes may have originated from a common ancestral gene. In addition, comparison of known S-adenosylmethionine synthetase sequences among different species also shows that these proteins have a high degree of similarity. The distribution of kidney- and liver-type S-adenosylmethionine synthetase mRNAs in kidney, liver, brain, and testis were examined by RNA blot hybridization analysis with probes specific for the respective mRNAs. A 3.4-kilobase (kb) mRNA species hybridizable with a probe for kidney S-adenosylmethionine synthetase was found in all tissues examined except for liver, while a 3.4-kb mRNA species hybridizable with a probe for liver S-adenosylmethionine synthetase was only present in the liver. The 3.4-kb kidney-type isozyme mRNA showed the same molecular size as the liver-type isozyme mRNA. Thus, kidney- and liver-type S-adenosylmethionine synthetase isozyme mRNAs were expressed in various tissues with different tissue specificities.     

Molecular cloning of cDNAs for the nerve-cell specific phosphoprotein, synapsin I.

To provide access to synapsin I-specific DNA sequences, we have constructed cDNA clones complementary to synapsin I mRNA isolated from rat brain. Synapsin I mRNA was specifically enriched by immunoadsorption of polysomes prepared from the brains of 10-14 day old rats. Employing this enriched mRNA, a cDNA library was constructed in pBR322 and screened by differential colony hybridization with single-stranded cDNA probes made from synapsin I mRNA and total polysomal poly(A)+ RNA. This screening procedure proved to be highly selective. Five independent recombinant plasmids which exhibited distinctly stronger hybridization with the synapsin I probe were characterized further by restriction mapping. All of the cDNA inserts gave restriction enzyme digestion patterns which could be aligned. In addition, some of the cDNA inserts were shown to contain poly(dA) sequences. Final identification of synapsin I cDNA clones relied on the ability of the cDNA inserts to hybridize specifically to synapsin I mRNA. Several plasmids were tested by positive hybridization selection. They specifically selected synapsin I mRNA which was identified by in vitro translation and immunoprecipitation of the translation products. The established cDNA clones were used for a blot-hybridization analysis of synapsin I mRNA. A fragment (1600 bases) from the longest cDNA clone hybridized with two discrete RNA species 5800 and 4500 bases long, in polyadenylated RNA from rat brain and PC12 cells. No hybridization was detected to RNA from rat liver, skeletal muscle or cardiac muscle.     

A cloned chromogranin A (CgA) cDNA detects a 2.3Kb mRNA in diverse neuroendocrine tissues

CgA is a 72Kd protein of unknown function that is present in many neuroendocrine tissues and co-secreted with their resident hormones. We prepared a cDNA library to the mRNA from CgA-producing human medullary thyroid carcinoma (MTC) cells in the expression vector lambda gt11. The library was screened with a panel of one polyclonal and two monoclonal antibodies to CgA. The specificity of the antibodies for CgA was demonstrated by immunoassay, immunohistology, and immunoprecipitation of the in vitro translation products of mRNA from CgA-producing tissues. A chromogenic second antibody identified five immunoreactive clones. Their cDNA inserts were isolated after EcoRI digestion and agarose gel electrophoresis. These cDNAs were 32P-labelled and used as probes in Northern hybridization studies. An mRNA of approximately 2.3Kb was detected with the cDNA probes in human cell lines from MTC and lung cancers that were shown to produce CgA and in human pheochromocytoma and bovine adrenal medulla tissue. To confirm its identity, one of the putative CgA cDNAs was subcloned into a plasmid and was used to hybridization-arrest the in vitro translation of CgA mRNA. These studies demonstrate the cloning of cDNAs which hybridize with CgA mRNA from diverse neuroendocrine tissues.     

A simple, effective method for the construction of subtracted cDNA libraries

A simple method is described for the construction of subtracted cDNA libraries. The technique was used to create a human pancreatic tumor cDNA library that was screened using either hybridization with cDNA probes or antibodies. cDNA from a well-differentiated tumor cell line (CD-11) was subtracted against RNA from an undifferentiated tumor cell line (Panc-1). The subtracted cDNA was purified from RNA-cDNA hybrids by oligo-dA cellulose affinity chromatography. Single-stranded subtracted cDNA was used as a template for random primed second-strand synthesis using the Klenow's fragment of DNA polymerase. After ligation with Eco R1 adapters, cDNA was inserted into lambda gt11. A library of 140,000 primary pfu was obtained that contained 92% recombinants. A small portion of this library (40,000 pfu) was subjected to probe screening with a mucin cDNA probe known to be differentially expressed by CD-11 cells. The ratio of mucin cDNA clones to actin cDNA clones was increased by greater than 300-fold in the subtracted cDNA library compared to a standard cDNA library from the same cell line. The absolute number of mucin cDNA clones per 40,000 pfu was also increased 32-fold in the subtracted library. Pancreatic tumor mucin cDNAs were also identified in the subtracted library by antibody screening. The subtraction procedure yielded a 50-fold enrichment in differentially expressed cDNA detected by antibodies, compared to a nonsubtracted library from the same cell line.     

Cloned proteolipid protein and myelin basic protein cDNA. Transcription of the two genes during myelination

cDNA clones of rat brain proteolipid protein (PLP), also named lipophilin, the major integral myelin membrane protein, and of myelin basic protein (MBP), the major extrinsic myelin protein, have been isolated from a rat brain cDNA library cloned into the PstI site of pBR322. Poly(A)+ RNA from actively myelinating 18-day-old rats has been reversely transcribed. Oligonucleotides synthesized according to the established amino-acid sequence of lipophilin and the nucleotide sequence of the small myelin basic protein of the N-terminal, the central and C-terminal region of their sequences were used as hybridization probes for screening. The largest insert in one of several lipophilin clones was 2,585 base pairs (bp) in length (pLp 1). It contained 521 bp of the C-terminal coding sequence and the complete 2,064 bp long non-coding 3' sequence. The myelin basic protein cDNA insert of clones pMBP5 and pMBP6 is 2,530 bp long and that of clones pMBP2 and pMBP3 640 bp. These clones were also characterized. pMBP2 was sequenced and used together with the lipophilin cDNA clones as hybridization probes to estimate the lipophilin and myelin basic protein mRNA levels of rat brain during the myelination period. The expression of the lipophilin and myelin basic protein genes during development of the myelin sheath appears to be strictly coordinated.     

Isolation of cDNA clones and complete amino acid sequence of human erythrocyte glycophorin C

Two cDNA clones for glycophorin C, a transmembrane glycoprotein of the human erythrocyte which carries the blood group Gerbich antigens, have been isolated from a human reticulocyte cDNA library. The clones were identified with a mixture of 32 oligonucleotide probes (14-mer) which have been synthetized according to the amino acid sequence Asp-Pro-Gly-Met-Ala present in the N-terminal tryptic peptide of the molecule. The primary structure of glycophorin C deduced from the nucleotide sequence of the 460 base-pair insert of the pGCW5 clone indicates that the complete protein is a single polypeptide chain of 128 amino acids clearly organized in three distinct domains. The N-terminal part (residues 1-57, approximately) which is N- and O-glycosylated is connected to a hydrophilic C-terminal domain (residues 82-128, approximately) containing 4 tyrosine residues by a hydrophobic stretch of nonpolar amino acids (residues 58-81, approximately) probably interacting with the membrane lipids and permitting the whole molecule to span the lipid bilayer. Northern blot analysis using a 265-base-pair restriction fragment obtained by DdeI digestion of the inserted DNA shows that the glycophorin C mRNA from human erythroblasts is approximately 1.4 kilobases long and is present in the human fetal liver and the human K562 and HEL cell lines which exhibit erythroid features. The glycophorin C mRNA, however, is absent from adult liver and lymphocytes, indicating that this protein represents a new erythrocyte-specific probe which might be useful to study erythroid differentiation.     

A new recombinant DNA strategy for the molecular cloning of rare membrane proteins.

We have constructed a cDNA library in the plasmid expression vector pUEX enriched in sequences encoding membrane proteins. The procedure involved positive selection of sequences common to two different rat tissues (thus excluding tissue-specific mRNA) followed by positive selection between this material and RNA extracted from membrane bound polysomes (thus excluding cytoplasmic proteins). The resultant library prepared from rat kidney cDNA hybridized with rat liver poly(A)+ RNA, contained 30,000 clones and was shown to be enriched in cDNAs encoding membrane proteins. Seventeen clones selected because they encode large fusion proteins were shown to be single copy in the library, and not present in nucleotide data banks. Thus the strategy is particularly suitable for cloning low abundance cDNAs encoding membrane proteins.