Developmental regulation of the mRNAs for elastins a, b and c in foetal-calf nuchal ligament and aorta.

The data presented clearly suggest that relative amounts of mRNAs for elastins a, b and c are developmentally regulated in foetal-calf nuchal ligament and aorta and that this regulation is tissue-specific. In nuchal ligament, at earlier stages of foetal development, the relative amounts of mRNAs for elastins a and b are very low. After the foetal age of about 6 months the relative amount of mRNA for elastin b begins to increase. This is followed by an increase in the relative amount of mRNA for elastin a. In aorta, with increasing foetal age, the relative amounts of mRNAs for elastins b and c increase and decrease alternately. The relative amounts of mRNA for elastin a remain low, with only marginal increases with foetal age. A possible self-aggregation role of elastin a in elastogenesis is proposed.     

Bovine elastin cDNA clones: Evidence for the occurrence of a new elastin-related protein in fetal calf ligamentum nuchae

Poly (A+) mRNA was isolated from fetal calf ligamenturn nuchae and used for the construction of cDNA libraries. A fraction highly enriched in elastin mRNA was used to prepare the cDNA probes for screening the libraries. A 2 kb clone, pREl, gave the most positive signal in colony hybridization. It hybridized to a mRNA of the same size as reported for elastin mRNAs from chick and sheep. Hybrid-arrested translation showed that translation of mRNAs for proteins other than elastin doublet was not inhibited by pREI. Southern blot analysis showed that pREl has sequence homology with pVE6 and pVE10, which were tentatively identified as elastin-related cDNA clones representing two distinct mRNAs. DNA sequence data from the 5 end of pREl show that the translated amino acid sequence is not typical of known elastin sequences but contains some elastin-like sequences. All of this evidence strongly suggests the occurrence in fetal calf nuchal ligament of a mRNA which codes for a previously unknown elastin-related protein.     

Complementary DNA cloning establishes microfibril-associated glycoprotein (MAGP) to be a discrete component of the elastin-associated microfibrils

Affinity-purified antibodies to microfibril-associated glycoprotein (MAGP) were used to screen a random-primed, bovine nuchal ligament cDNA library in lambda gt11. A 303-base pair clone, cM5, was isolated which encoded an amino acid sequence homologous with that determined directly from a Lys-C peptide of MAGP. A 936-base pair cDNA clone, cM32, was identified in an oligo(dT)-primed cDNA library using plaque hybridization with clone cM5. Clone cM32 encoded amino acid sequences corresponding to sequences obtained from three Lys-C peptides of MAGP, indicating that the clone was an authentic cDNA for the glycoprotein. The cDNA coded for the entire MAGP polypeptide (21 kDa) of 183 amino acids including a putative signal peptide of 17-19 amino acids. This was confirmed by in vitro translation of synthetic mRNAs transcribed from cM32. The amino acid composition of the encoded protein was virtually identical to that previously published for MAGP. DNA sequence analysis of cM32 indicated that MAGP contains two structurally dissimilar regions, an amino-terminal domain containing high levels of glutamine, proline, and acidic amino acids and a carboxyl-terminal domain containing all 13 of the cysteine residues and most of the basic amino acids. Northern blot hybridization of poly(A+) RNA from fetal nuchal ligament with clone cM32 identified a single mRNA species for MAGP of approximately 1.1 kilobases. The evidence indicates that MAGP is a distinct component of 12-nm microfibrils and that it is not derived from a larger microfibrillar glycopolypeptide.     

Developmental expression of dermatan sulfate proteoglycans in the elastic bovine nuchal ligament.

The nuchal ligament of bovines is a useful system in which to study elastic fibre formation since it contains up to 83% elastin and undergoes a period of rapid elastinogenesis during the last trimester of fetal development and in the first four post-natal months. To identify proteoglycans (PGs) which may be involved in this process we initially investigated changes in the glycosaminoglycan (GAG) profiles during nuchal ligament development. In contrast to the collagenous Achilles tendon, nuchal ligament exhibited: (a) elevated hyaluronan (HA) levels in the peak period of elastin-associated microfibril (fibrillin) synthesis (130-200 days) which precedes elastinogenesis; and (b) markedly increased synthesis of a glucuronate-rich copolymeric form of dermatan sulfate (DS) in the period corresponding to elastin formation (200-270 days). Analysis of DSPGs isolated from 230-day nuchal ligament showed that this copolymer was predominantly associated with a glycoform of biglycan which was specifically elevated at this stage in development. This finding was consistent with Northern blot analysis which showed that steady-state biglycan mRNA levels increased significantly during the elastinogenic period. In contrast, the mRNA levels for decorin, the only other DSPG detected in this tissue, declined rapidly after 140 days of fetal development. In conclusion, the results suggest that HA may play a role in microfibril assembly and that a specific glycoform of biglycan may be associated with the elastinogenic phase of elastic fibre formation.     

Longitudinal gradients of collagen and elastin gene expression in the porcine aorta

The physical and chemical properties of the mammalian aorta are known to vary as a function of distance from the heart. These properties are highly dependent collagen and elastic fibers. In order to evaluate the mechanisms which regulate the accumulation of these two connective tissue proteins, gene expression was evaluated at both the biosynthetic and messenger RNA levels. Short-term (3 h) explant cultures of the medial portion of four segments of the descending aorta in newborn pigs were incubated in the presence of [3H] proline. Collagen production was quantified by collagenase digestion and elastin production was determined by immunoprecipitation. Between the conus arteriosus and the bifurcation of the iliac arteries, relative collagen synthesis increased 2-fold (from 5.8 to 12.0% of total protein synthesis), while relative elastin synthesis declined 10-fold (from 16.4 to 1.6% of total protein synthesis). Similarly, collagen production increased more than 7-fold (from 6.7 to 49.8 X 10(3) molecules/cell/h) while elastin production was reduced more than 3-fold (from 71.8 to 21.0 X 10(3) molecules/cell/h) along this developmental gradient. Elastin synthesis appeared to be controlled to a significant extent by the availability of elastin mRNA, since both cell-free translation and molecular hybridization to a cloned elastin gene probe showed gradients of elastin gene expression. Similarly, collagen synthesis was apparently regulated, at least in part, by an inverse gradient of collagen mRNA, as measured with a cloned cDNA for the pro-alpha 1(I) collagen gene. Marked changes in the amount of non-elastin protein synthesis accompanied differentiation and accounted for larger changes in relative synthesis. These results suggest that the phenotype of the cells of the porcine artery wall is distinct in different regions of this organ at this developmental stage.     

Collagen heterogeneity and quantification in developing bovine nuchal ligament.

The collagenous components were investigated in peptic digests of developing bovine nuchal ligament. Types I and III collagen were the major species isolated, but the presence of types IV, V and VI was also shown. Changes in the pepsin-susceptibility of nuchal ligament during foetal development were observed. CNBr-cleavage peptide analysis indicated that type I collagen became cross-linked rapidly, as evidenced by the lack of alpha 1(I)CB6. At present it is not clear if this decrease in pepsin-susceptibility is due to cross-linking of collagen, to increased deposition of elastin, or to both. Quantification of collagen types I and III was shown to depend on the method used. When pepsin-solubilized material was examined an apparent increase in type III collagen with respect to foetal age was observed, whereas when CNBr digests of intact ligament were examined a relatively constant amount of type III collagen (approx. 24%) was found. The constant amount of type III collagen observed during foetal development changed at birth and increased in mature nuchal ligament to represent approx. 45% of the total collagen.     

Distribution of root mRNA species in other vegetative organs of pea (Pisum sativum L.)

Summary A cDNA library was prepared from, poly(A)⁺ RNA from roots of pea (Pisum sativum L.). Twenty five clones were selected by use of random numbers and used as probes on Northern blots to analyse the distribution of their corresponding mRNA species in other vegetative pea organs: leaf, stem and developing cotyledon. Fifteen cDNA inserts hybridised to single mRNA species, five hybridised to two mRNA species and one hybridised to five homologous mRNAs. Four cDNA clones (16% of those selected) gave no hybridization signals, indicating that the steady state levels of mRNAs were below the detection limit (i.e.less than 2.5 x 10^-5% of poly(A)⁺ RNA). Most of the root mRNAs were represented in all four pea organs as sequences of low and medium abundance. All but two cDNAs encoded mRNA species enhanced in root. However, cDNA clones appeared not to encode mRNA species expressed in a strictly organ-specific manner, as no mRNA unique to root was found. Thus, if organ-unique mRNA species are present, they are only present at a very low level of abundance in the poly(A)⁺RNA population.     

Comparison of polysomal and nuclear poly(A)-containing RNA populations from normal rat liver and Novikoff hepatoma.

Polysomal and nuclear poly(A)-containing RNA of normal rat liver and Novikoff hepatoma cells have been compared by cDNA.RNA hybridization kinetics. Homologous hybridization reactions revealed at total kinetic complexity of about 1.6 X 10(10) and 1.38 X 10(10) daltons for liver and Novikoff mRNA respectively. The high abundance component present in liver cannot be detected in Novikoff. It was found from heterologous reactions that about 30% by weight of mRNA sequences are specific to liver. Determination of the nuclear poly(A)-containing RNA complexities revealed that about 5.5% and 4% of the haploid genome is expressed in the liver and Novikoff respectively. In a heterologous reaction, up to 30% of the liver cDNA failed to form hybrids with Novikoff nuclear RNA. Cross hybridizations have further revealed abundance shifts in both nuclear and polysomal RNA populations. Some sequences abundant in liver are less abundant in Novikoff and some rare liver sequences are relatively abundant in Novikoff.     

Primary structures of bovine elastin a, b, and c deduced from the sequences of cDNA clones

Nucleotide sequence analysis of cDNA clones for bovine elastin revealed the occurrence of three mRNAs for elastin in fetal calf nuchal ligament, encoding three forms of elastins (a, b, and c, of 747, 733, and 713 amino acid residues, respectively). These forms arise as the result of the presence, at a single position, of 102 additional nucleotides in the mRNA for elastin a and of 60 of these nucleotides in the mRNA for elastin b as compared to the mRNA for elastin c. As expected, most lysines occur in pairs, separated by two or three small amino acid residues. However, at two places, lysines occur in groups of three. The occurrence of a group of three lysines followed by a hydrophobic residue (lysine 400, 404, and 407) offers an explanation for the formation of lysinonorleucine. The alignment of amino acid sequences of porcine tropoelastin tryptic peptides with the sequence for bovine elastin a results in the ordering of these tryptic peptides. The analysis of the complete primary structures of elastin a, b, and c provides further insight into the structure-function relations of elastin.     

Terminal differentiation of nuchal ligament fibroblasts: characterization of synthetic properties and responsiveness to external stimuli

The temporal expression of elastogenesis is unique among connective tissues in that elastin production occurs primarily during late fetal and early neonatal periods and is essentially fully repressed once fiber assembly is completed. To test whether elastin synthesis in adult nuchal ligament fibroblasts is permanently repressed or whether the cells retain the ability to reinitiate production upon proper stimulation, we examined in adult ligament cells various parameters known to be involved in the regulation of elastin production. Elastin synthetic capacity, as determined by the levels of steady-state tropoelastin mRNA, of adult tissue was significantly decreased relative to fetal tissue. Likewise, fibroblasts grown from explants of adult ligament had about a fourfold decrease in elastin production and elastin-specific mRNA levels. On the other hand, adult cells were similar to fetal ligament cells in that they were sensitive to glucocorticoid stimulation and demonstrated chemotactic responsiveness to elastin peptides. Since our previous studies have shown that the extracellular matrix (ECM) plays an important role in influencing elastin phenotypic expression, fetal and adult fibroblasts were grown on slices of nonviable adult ligament to test if repression of elastin production was directed by factors in ECM of adult tissues. No change in elastin synthesis was detected with either cell type grown on adult ligament, whereas both fetal and adult cells demonstrated increased elastin production in response to contact with fetal ligament. These results suggest that adult ligament ECM does not provide a metabolic signal to shut off the elastin gene and that adult cells remain responsive to external stimuli that may reinitiate high levels of elastin synthesis.     

Quantitation of casein messenger ribonucleic acid sequences using a specific complementary DNA hybridization probe.

Two highly purified rat casein mRNA fractions were used as templates to synthesize complementary DNA (cDNA) hybridization probes using RNA-directed DNA polymerase isolated from avian myeloblastosis virus. Both of the probes selectively hybridized to RNA isolated from lactating mammary tissue, but not to poly(adenylic acid)-containing rat liver RNA. An analysis of the kinetics of hybridization of the cDNA derived from the 15S casein mRNA (cDNA12S) with their individual mRNA templates indicated that greater than 90% hybridization occurred over a R0t range of one and one-half logs with R0t 1/2 values of 0.0023 and 0.0032 mol s l.-1, respectively. Compared with the total RNA isolated from lactating mammary tissue, these values represented a 166- and 245-fold purification, respectively, of these individual mRNA fractions. Using the 15S casein mRNA as a template, two probes of different lengths and specific activities were synthesized. The deoxyribonucleotide and mRNA concentrations and the temperature of incubation were optimized to obtain either a high specific activity cDNA probe, 330 nucleotides long, which represented approximately 25% of the mRNA or a lower specific activity preparation containing some complete cDNA copies, 1300 nucleotides in length. The Tm of the longer cDNA15S-15S mRNA hybrid was 88.5 degrees C, while that of the short cDNA15S-RNA hybrid was 82.5 degrees C. Following this initial characterization, the cDNA15S probe was utilized for three separate determinations: (1) Analysis of the sequence divergence between mouse and rat casein mRNAs. It was observed that the rate of hybridization of heterologous rat cDNA15S-mouse casein mRNA was only 20% that of the homologous rat cDNA15S-rat casein mRNA hybridization. The resulting heterologous hybrid displayed approximately 17% mismatching compared with the homologous hybrid. (2) Determination of the gene dosage for casein mRNA in normal and malignant mammary cells. In this study, an analysis of the kinetics of hybridization of the high specific activity cDNA15S probe with an excess of DNA isolated from lactating mammary tissue, carcinogen-induced mammary tumors, or rat liver indicated that casein mRNA was transcribed from the nonlification or deletion was observed during tumor formation or the process of mammary differentiation. (3) Quantitation of casein mRNA sequences during normal mammary gland development. RNA excess hybridizations were performed using RNA extracted from either pregnant, lactating, or regressed rat mammary tissue. The concentration of casein mRNA molecules/alveolar cell was found to increase 12-fold from 5 days of pregnancy until 8 days of lactation and then declined to approximately 2% of the maximal level of 79 000 molecules/cell by 7 days after weaning. A coordinate increase was observed in casein mRNA sequences detected by cDNA hybridization and mRNA activity measured in a cell-free translation assay.     

Selective detection of rat and mouse specific albumin and alpha-fetoprotein mRNA molecules under highly stringent hybridization conditions

The molecular analysis of some important interactions observed between the parental genomes in interspecific cell hybrids requires the availability of highly specific hybridization assays to selectively quantitate mRNA sequences coding for the same protein but transcribed from the two different genomes. Specific hybridization techniques which should permit the selective detection of rat and mouse albumin and alpha-fetoprotein (AFP) mRNA molecules in a mixture of the two types of mRNAs are presented here. The high degree of homology existing between the AFP mRNA sequences coding for mouse and rat AFP, and, presumably, albumin, results in extensive cross-hybridization with the cDNA probes under standard hybridization conditions. No size differences could be detected between the two types of mRNA molecules from the two species. A Tm difference of 7 degrees C between the intra- and interspecific mRNA:rat cDNA hybrids allowed the establishment of highly stringent solution hybridization conditions necessary to measure separately the contents of rat albumin and AFP mRNAs. Mouse albumin and AFP cDNA clones were then isolated from mouse liver and yolk sac cDNA libraries, and used to show the usefulness of highly stringent washing conditions to discriminate between rat and mouse albumin and AFP mRNA molecules in conventional "Northern blotting" techniques. In combination with the solution hybridization assay, these filter hybridization techniques can be used to specifically quantitate the content of rat and mouse albumin and AFP mRNA molecules in interspecific cell hybrids.     

Identification of multiple tropoelastins secreted by bovine cells

High resolution gradient sodium dodecyl sulfate-polyacrylamide gel electrophoresis, cell-free translation, and elastin-specific antibodies were used to identify three tropoelastin isoforms secreted by bovine tissue and cells. Tropoelastin isolated from nuchal ligament and from conditioned culture medium or cell-matrix extracts of ligament fibroblasts and auricular chondrocytes resolved as three distinct bands on sodium dodecyl sulfate-polyacrylamide gel electrophoresis with molecular weights of approximately 67,500 (tropoelastin I), 65,000 (tropoelastin II), and 62,000 (tropoelastin III). Three tropoelastin polypeptides with molecular mass 2-3 kDa higher than their corresponding tissue forms were also evident in cell-free translation products of ligamentum nuchae RNA, suggesting that each tropoelastin species is encoded by a unique mRNA. The presence of cysteine in all three tropoelastin isoforms was demonstrated by the incorporation of [35S]cysteine into newly synthesized tropoelastin polypeptides and by immunoreactivity with an antibody raised against a synthetic peptide that defines the cysteine-containing carboxyl-terminal region of tropoelastin. Immunological co-localization of the carboxyl-terminal antibody with insoluble elastin in lung vasculature and parenchyma suggests that intact tropoelastin and not a processed form is incorporated into the elastin fiber.     

Size analysis and relationship of murine leukemia virus-specific mRNA''s: evidence for transposition of sequences during synthesis and processing of subgenomic mRNA.

Virus-specific mRNA from purified polyribosomes of mouse cells infected with Moloney murine leukemia virus (M-MuLV) was analyzed by electrophoresis in agarose gels, followed by hybridization of gel slices with M-MuLV-specific complementary DNA (cDNA). The size resolution of the gels was better than that of sucrose gradients used in previous analyses, and two virus-specific mRNA's of 38S and 24S were detected. The 24S virus-specific mRNA is predominantly derived from the 3' half of the M-MuLV genome, since cDNAgag(pol) (complementary to the 5' half of the M-MuLV genome) could not efficiently anneal with this mRNA. However, sequences complementary to cDNA synthesized from the extreme 5' end of M-MuLV 38S RNA (cDNA 5') are present in the 24S virus-specific mRNA, since cDNA 5' (130 nucleotides) efficiently annealed with this mRNA. The annealing of cDNA 5' was not due to repetition of 5' terminal nucleotide sequences at the 3' end of M-MuLV 38S RNA, since smaller cDNA 5' molecules (60 to 70 nucleotides), which likely lack the terminal repetition, also efficiently annealed with the 24S mRNA. The sequences in 24S virus-specific mRNA recognized by cDNA 5' are not present in 3' fragments of virion RNA that are the same length. Therefore, it appears that RNA sequences from the extreme 5' end of the M-MuLV genome may be transposed to sequences from the 3' half of the M-MuLV 38S RNA during synthesis and processing of the 24S virus-specific mRNA. These results may indicate a phenomenon similar to the RNA splicing processes that occur during synthesis of adenovirus and papovavirus mRNA's.