Characterization of novel lignocellulose-degrading enzymes from the porcupine microbiome using synthetic metagenomics

Plant cell walls are composed of cellulose, hemicellulose, and lignin, collectively known as lignocellulose. Microorganisms degrade lignocellulose to liberate sugars to meet metabolic demands. Using a metagenomic sequencing approach, we previously demonstrated that the microbiome of the North American porcupine (Erethizon dorsatum) is replete with genes that could encode lignocellulose-degrading enzymes. Here, we report the identification, synthesis and partial characterization of four novel genes from the porcupine microbiome encoding putative lignocellulose-degrading enzymes: β-glucosidase, α-L-arabinofuranosidase, β-xylosidase, and endo-1,4-β-xylanase. These genes were identified via conserved catalytic domains associated with cellulose- and hemicellulose-degradation. Phylogenetic trees were created for each of these putative enzymes to depict genetic relatedness to known enzymes. Candidate genes were synthesized and cloned into plasmid expression vectors for inducible protein expression and secretion. The putative β-glucosidase fusion protein was efficiently secreted but did not permit Escherichia coli (E. coli) to use cellobiose as a sole carbon source, nor did the affinity purified enzyme cleave p-Nitrophenyl β-D-glucopyranoside (p-NPG) substrate in vitro over a range of physiological pH levels (pH 5–7). The putative hemicellulose-degrading β-xylosidase and α-L-arabinofuranosidase enzymes also lacked in vitro enzyme activity, but the affinity purified endo-1,4-β-xylanase protein cleaved a 6-chloro-4-methylumbelliferyl xylobioside substrate in acidic and neutral conditions, with maximal activity at pH 7. At this optimal pH, K_M, V_max, and k_cat were determined to be 32.005 ± 4.72 μM, 1.16x10^-5 ± 3.55x10^-7 M/s, and 94.72 s^-1, respectively. Thus, our pipeline enabled successful identification and characterization of a novel hemicellulose-degrading enzyme from the porcupine microbiome. Progress towards the goal of introducing a complete lignocellulose-degradation pathway into E. coli will be accelerated by combining synthetic metagenomic approaches with functional metagenomic library screening, which can identify novel enzymes unrelated to those found in available databases.

Pattern analysis of microtubule-polymerizing and -depolymerizing agent combinations as cancer chemotherapies

Subcellular distribution of mass can be analyzed by a technique that involves culturing cells on interferometers and digitizing their interference contours. Contour sampling resulted in 102 variables per cell, which were predictors of oncogenic transformation. Cell phenotypes can be deconstructed by use of latent factors, which represent the covariance of the real variables. The reversal of the cancer-type phenotype by a combination of microtubule-stabilizing and -depolymerizing agents was described previously. The implications of these results have been explored by clinicians who treated patients with the combination of docetaxel and vinorelbine (Navelbine). The current study was performed to determine the effects of different combinations on phenotype and in phases of the cell cycle other than mitosis. Combinations of paclitaxel with either colchicine, podophyllotoxin, nocodazole, or vinblastine caused phenotype reversal. Paclitaxel analogue, 7-deoxytaxol, by itself caused reversal. Factors #4, (filopodia), #5 (displacement and/or deep invaginations in the periphery), #8, and #12 took on values typical of normal cells, whereas the values of #7 (p21-activated kinase), and #13 (rounding up) shifted toward the cancer-type. All combinations altered microtubule arrangement at the cell edge. Delivery schedules and drug ratios used in clinical studies were subjected to analysis. Clinical response rates were better when the combination was not interspersed with a single agent (P=0.004). The results support the idea that efficacy depends upon simultaneous exposure to both agents, and suggest a novel mechanism for combination therapies. These therapies appear to restore in transformed cells some of the features of a contact-inhibited cell, and to impede progress through the cell cycle even when provided at nanomolar concentrations.

Pbx1 is required for Hox D3-mediated angiogenesis

Our previous studies showed that the homeobox (Hox) D3 transcription factor induces expression of alphavbeta3 integrin and promotes endothelial cell (EC) migration and angiogenesis. Since binding of Hox 3 factors to target DNA is enhanced by the co-factor Pbx, we investigated whether Pbx1 is also required for angiogenesis. We observed that EC predominantly express the Pbx1b isoform. Nuclear extracts from angiogenic EC express higher levels of active Pbx1 and more effectively form complexes on Pbx1/Hox consensus DNA oligonucleotides as compared to nuclear extracts from quiescent EC. Introduction of anti-sense against Pbx1 impaired the formation of Pbx1/Hox complexes on target DNA consensus in nuclear extracts from angiogenic EC. Anti-sense against Pbx1 also impaired EC migration and blocked angiogenesis induced by bFGF in vivo. Furthermore, although the levels of Hox D3 were unchanged, expression of its target gene, beta3 integrin was reduced, consistent with impaired transcriptional activation by Hox D3. Together, these studies suggest that Pbx1 is required for pro-angiogenic Hox DNA binding and transcriptional activity in endothelial cells.

Novel p21-activated kinase-dependent protrusions characteristically formed at the edge of transformed cells

During long-term culture, certain lines become neoplastic while accumulating changes in cell shape. Early and late cell populations have characteristic shape phenotypes that have been quantified by computerized assay. Phenotypes are determined from variables describing three-dimensional aspects of the subcellular distribution of mass. The features of cells can be recognized by use of latent factors, which are theoretical variables based on the covariance of the primary variables. Factor #7 represented a cell edge feature different from filopodia. We studied the morphological characteristics and morphogenesis of the feature. Brief exposure of cells from rat tracheal epithelium to phorbol 12-myristate 13-acetate (PMA) enhanced #7 values. The time to reach maximal #7 values was prolonged if PMA was administered with calcium ionophore or lysophosphatidic acid (LPA). Factor #7 was elevated during periods of ruffling suppression and stress fiber reorganization. Cells showing high #7 values were examined by scanning electron microscopy (SEM) and found to exhibit strap-shaped and cupola-shaped projections. Because RhoA regulates stress fiber formation, we sought to perturb #7 features by introducing dominant-acting negative and positive constructs of RhoA, RhoA-N19, and RhoA-V14. Neither affected #7 values. Although overexpression of the kinase inhibitory domain of p21-activated kinase 1 (PAK) had no effect on #7 values, they were affected by overexpression of a domain binding PAK-interacting guanine nucleotide exchange factor (PIX). Because a PAK-PIX complex is implicated in the remodeling of focal complexes (FCs) and recycling of PAK to the cytoplasm, the results implicate a component of FCs in the formation of #7 features. The data suggested that feature formation is driven by activated Cdc42-binding kinase (ACK) and Rac. Moreover, they suggested that the #7 protrusions are neurite-like structures and that their development involves FC regulation.

From laminin to lamin: regulation of tissue-specific gene expression by the ECM

Mammary epithelial cells need a laminin-rich extracellular matrix (ECM) to achieve a functionally differentiated phenotype that includes secretion of milk-specific proteins such as beta-casein. There is good evidence that ECM-induced expression of beta-casein involves an 'ECM-response element' in the promoter of the casein gene that is activated by integrin-mediated signalling. This article proposes that ECM-induced structural changes in the cytoskeleton, histone organization and the nuclear matrix contribute to this tissue-specific gene expression.

Hox D3 expression in normal and impaired wound healing

BACKGROUND

We have previously shown that Hox D3 and Hox B3 can promote angiogenesis. As angiogenesis is essential for wound healing, we examined expression of these genes in the vasculature following wounding in normal and genetically diabetic adult mice with impaired healing.

METHODS

In situ hybridization was performed on tissues taken 0, 1, 4, 7, and 14 days following administration of linear wounds in wild-type and genetically diabetic mice. Expression of Hox D3 and Hox B3, angiogenesis, and synthesis of type I collagen were assessed in the wound.

RESULTS

Hox B3 was expressed in endothelial cells (ECs) of both medium and small vessels in unwounded tissue, whereas little Hox D3 was detected in resting ECs. Hox D3 expression was significantly upregulated by 1 day after wounding in ECs of vessels immediately adjacent to the wound site, and expression was maintained for at least 7 days. In the diabetic mice, expression of Hox B3 was similar to that of wild-type mice. In contrast, expression of Hox D3 in ECs was significantly lower and delayed during wound repair in diabetic mice. In cultured microvascular ECs, Hox D3 selectively induced high levels of collagen I mRNA expression. Hox D3-deficient wounds of diabetic animals also displayed a reduction in expression and deposition of type I collagen.

CONCLUSIONS

These results suggest that reduced angiogenesis and type I collagen in diabetic mice with impaired wound healing may be related to deficient Hox D3 expression, and restoring Hox D3 expression may enhance angiogenesis and wound repair.

Membrane interactions of a new class of anticancer agents derived from arylchloroethylurea: a FTIR spectroscopic study

We have investigated the interaction between a new class of antineoplastic agents derived from arylchloroethylurea (CEU) and different lipids such as dimyristoylphosphatidylcholine (DMPC) in the absence and presence of 30 mol% of cholesterol, dimyristoylphosphatidylglycerol (DMPG) and a mixture made of 1-palmitoyl-2-oleylphosphatidylcholine (POPC) and DMPC by Fourier transform infrared (FTIR) spectroscopy. The results indicate that the drugs incorporate in the bilayer and cause a decrease of the phase transition temperature and an increase of the conformational disorder of the lipid acyl chains. These effects are dependent on the nature (degree of branching, length of the alkyl chain and presence of a sulfur atom), as well as on the position of the R substituent and are related to the cytotoxicity of the drugs. More specifically, the more cytotoxic drugs, such as 4-sec-butyl CEU, are those having a bulky branched substituent and those for which the disordering effect on the lipid bilayer is the greatest. On the other hand, the disordering effect is small for the long chain CEUs, such as 4-n-hexadecyl CEU, which have been shown to have weak cytotoxic activity.

Association of smoking with serum and dietary levels of antioxidants in adults: NHANES III, 1988-1994

OBJECTIVES

This study examined the association of smoking with serum levels and dietary intakes of antioxidants in a nationally representative sample.

METHODS

This study classified 7873 apparently healthy adults aged 17 to 50 years from National Health and Nutrition Examination Survey III (NHANES III) data as nonsmokers or as smokers if their serum cotinine levels were either lower than 14 ng/mL or 14 ng/mL or greater, respectively. SUDAAN software was used for the statistical analysis.

RESULTS

Smokers of both sexes had significantly (P < .001) lower serum levels of vitamin C, alpha-carotene, beta-carotene, beta-cryptoxanthin, and lutein/zeaxanthin. Reduction in the serum vitamin E, lycopene, and selenium levels in smokers was slight. Smokers also had significantly lower dietary intakes of vitamin C and beta-carotene. A significant (P < .001) inverse relation was found between serum vitamin C and beta-carotene levels and cotinine levels independent of diet effect, and a positive relation (P < .001) was found between serum levels and dietary intakes.

CONCLUSIONS

Antioxidants appear to have differing declines in serum levels as a result of reduced dietary intakes and the effects of smoking.

A grouping interpretation of the modality effect in immediate probed recognition

In a series of experiments on immediate probed recognition for eight 3-digit numbers, it was shown that if the target modality involved auditory components and the effect of the similarity of the modality of the probe to that of the targets was controlled, unequivocal evidence was obtained for an auditory superiority effect (modality effect) for hit rates for the final items of the list. Moreover, false-alarm rates were significantly lower following targets with an auditory component than they were following silently seen targets. It is argued that this pattern of hits and false alarms is consistent with the idea that targets that have an auditory component yield memory representations that are better grouped as units than are those for targets that are only silently seen; in particular, if a new probe has a first digit that accidentally matches the first digit of a target item, it is more likely that the subject will mistakenly identify this new probe as old (give a false alarm) if the target has only been partially encoded because it was only silently seen.

Interaction between lipid bilayers and a new class of antineoplastic agents derived from arylchloroethylurea: a 2H solid-state NMR study

We have investigated the interaction between a new class of antineoplastic agents derived from arylchloroethylurea (CEU) and model membrane of dimyristoylphosphatidylcholine by deuterium nuclear magnetic resonance spectroscopy. The results indicate that the drug incorporates in the bilayer and causes an increase of the lipid acyl chain order, this effect being greater close to the interfacial region of the lipid bilayer. The increase in ordering is dependent on the nature (degree of ramification, length of the alkyl chain, and presence of a sulfur atom) as well as on the position of the R substituent and is correlated with the cytotoxicity of the drugs. More specifically, the more cytotoxic drugs, such as 4-sec-butyl CEU, are those having a bulky ramified substituent and those for which the ordering effect on the lipid bilayer is the smallest. On the other hand, the ordering effect is greater and seen all along the lipid acyl chains for the long-chain CEUs, such as n-hexadecyl CEU, which have been shown to have very weak cytotoxic activity. Finally, the results obtained as a function of the drug concentration indicate that the ordering effect is seen for lipid to drug molar ratios as low as 20:1.

Validated high-performance liquid chromatographic methods for quantitation of a novel nonsteroidal antiestrogen

HPLC assays were developed and validated for the quantitation of the novel orally active nonsteroidal antiestrogen EM-800 ¿(S)-(+)-4-[7-(2,2-dimethyl-l-oxopropoxy)-4-methyl-2-[4-[2-(1-pipe ridinyl)- ethoxy]phenyl]-2H-l-benzopyran-3-yl]-phenyl 2,2-dimethylpropanoate¿. The assay involves reversed-phase C18 or C4 columns using different mobile phases with ammonium acetate buffers and UV detection at lambda = 240 nm. The standard curve was linear over the concentration range of 10-1100 micrograms/ml. The precision (% relative standard deviation) values of these methods were in the range of 0.38-0.52 and 1.89-3.45% with C4 and C18 reversed phases, respectively. The limit of detection was found to be 1 microgram/ml. Enantiomeric separation was also obtained using a chiral method (ChiralPak AD column) using a mixture of hexane-reagent alcohol-diethylamine (94.9:5.0:0.1) as mobile phase. These methods were applied to stability studies, evaluation of pharmaceutical dosage forms and in the framework of toxicological studies. Details of some of these applications will be presented.

Microtubule-associated protein 1 light chain 3 is a fibronectin mRNA-binding protein linked to mRNA translation in lamb vascular smooth muscle cells

Intimal cushions form in the fetal ductus arteriosus by fibronectin-dependent smooth muscle cell migration which is associated with greater efficiency of fibronectin mRNA translation. We investigated whether the AU-rich element (ARE), UUAUUUAU, in the 3'-untranslated region (3'UTR) of fibronectin mRNA is involved in this mechanism by transfecting smooth muscle cells with plasmids containing the chloramphenicol acetyltransferase coding region with its 3'UTR replaced by fibronectin 3'UTR bearing intact or mutated ARE. More efficient translation of fusion mRNA with intact versus mutated ARE was observed. This effect was amplified in ductus (10.9-fold) compared with nonmigratory, lower fibronectin-producing aorta cells (6.5-fold). Ductus cells transfected with wild-type but not ARE-mutated plasmid reverted to the stellate phenotype of aorta cells associated with reduced fibronectin production. This suggested that plasmid ARE sequesters RNA-binding factors, thereby reducing endogenous fibronectin mRNA translation. We next purified a 15-kD fibronectin ARE-dependent RNA-binding protein and identified it as microtubule-associated protein 1 light chain 3 (LC3). LC3 is present in greater amounts in ductus compared with aorta cells, and overexpression of LC3 in aortic cells by transfection enhances fibronectin mRNA translation to levels observed in ductus cells.

Induction of the angiogenic phenotype by Hox D3

Angiogenesis is characterized by distinct phenotypic changes in vascular endothelial cells (EC). Evidence is provided that the Hox D3 homeobox gene mediates conversion of endothelium from the resting to the angiogenic/invasive state. Stimulation of EC with basic fibroblast growth factor (bFGF) resulted in increased expression of Hox D3, integrin alphavbeta3, and the urokinase plasminogen activator (uPA). Hox D3 antisense blocked the ability of bFGF to induce uPA and integrin alphavbeta3 expression, yet had no effect on EC cell proliferation or bFGF-mediated cyclin D1 expression. Expression of Hox D3, in the absence of bFGF, resulted in enhanced expression of integrin alphavbeta3 and uPA. In fact, sustained expression of Hox D3 in vivo on the chick chorioallantoic membrane retained EC in this invasive state and prevented vessel maturation leading to vascular malformations and endotheliomas. Therefore, Hox D3 regulates EC gene expression associated with the invasive stage of angiogenesis.

Interaction of 4-tert-butyl-[3-(2-chloroethyl) ureido] benzene with phosphatidylcholine bilayers: a differential scanning calorimetry and infrared spectroscopy study

We have investigated the interaction between a new antineoplastic drug, 4-tert-butyl-[3-(2-chloroethyl)ureido] benzene (tBCEU), and distearoylphosphatidylcholine bilayers using differential scanning calorimetry, Fourier transform infrared spectroscopy (FT-IR), and high-pressure infrared spectroscopy. The results obtained with the three different techniques indicate that the drug incorporates in the lipid bilayer. More specifically, the incorporation of the tBCEU results in a decrease in the phase transition temperature of the lipid and in an increase in the amount of gauche conformers in the liquid-crystalline phase. In the gel phase, high-pressure FT-IR results indicate that the incorporation of tBCEU decreases the acyl chain packing. In addition, the results suggest the presence of hydrogen bonding between the lipid carbonyl group and a hydrogen bond donor in the tBCEU molecule. A possible candidate for this donor is the NH group adjacent to the phenyl ring. A model is proposed for the incorporation of tBCEU in lipid bilayers, with the hydrophobic portion of the drug intercalated between the lipid bilayers and the hydrophilic region located close to the interfacial region of the bilayer.

Membrane fluidity response to odorants as seen by 2H-NMR and infrared spectroscopy

Fourier transform infrared spectroscopy (FTIR) and deuterium nuclear magnetic resonance spectroscopy (2H-NMR) have been used to study the location of two odorants, beta-ionone and menthone, in a model membrane of dimyristoylphosphatidylcholine, as well as the effect of the odorants on the structure and dynamics of the phospholipids. The interaction has been investigated for two lipid-to-odorant molar ratios, 10:1 and 1:1. The two odorants were found to affect the fluidity of the membrane. More specifically, the 2H-NMR results indicate that at a lipid-to-odorant molar ratio of 10:1, both beta-ionone and menthone increase the order of the deuterons in the interfacial and headgroup regions of the lipid while the incorporation of the odorants at a lipid-to-odorant molar ratio of 1:1 decreases the order of both the lipid headgroup and acyl chains. On the other hand, the infrared results show that the incorporation of beta-ionone and menthone decreases the phase transition temperature and cooperativity of the lipid acyl chains. The results suggest that the site of incorporation of beta-ionone and menthone is very similar in DMPC membranes.

Suppression of apoptosis by basement membrane requires three-dimensional tissue organization and withdrawal from the cell cycle

The basement membrane (BM) extracellular matrix induces differentiation and suppresses apoptosis in mammary epithelial cells, whereas cells lacking BM lose their differentiated phenotype and undergo apoptosis. Addition of purified BM components, which are known to induce beta-casein expression, did not prevent apoptosis, indicating that a more complex BM was necessary. A comparison of culture conditions where apoptosis would or would not occur allowed us to relate inhibition of apoptosis to a complete withdrawal from the cell cycle, which was observed only when cells acquired a three-dimensional alveolar structure in response to BM. In the absence of this morphology, both the GI cyclin kinase inhibitor p21/WAF-1 and positive proliferative signals including c-myc and cyclin DI were expressed and the retinoblastoma protein (Rb) continued to be hyperphosphorylated. When we overexpressed either c-myc in quiescent cells or p21 when cells were still cycling, apoptosis was induced. In the absence of three-dimensional alveolar structures, mammary epithelial cells secrete a number of factors including transforming growth factor alpha and tenascin, which when added exogenously to quiescent cells induced expression of c-myc and interleukin-beta1-converting enzyme (ICE) mRNA and led to apoptosis. These experiments demonstrate that a correct tissue architecture is crucial for long-range homeostasis, suppression of apoptosis, and maintenance of differentiated phenotype.

Suppression of ICE and apoptosis in mammary epithelial cells by extracellular matrix

Apoptosis (programmed cell death) plays a major role in development and tissue regeneration. Basement membrane extracellular matrix (ECM), but not fibronectin or collagen, was shown to suppress apoptosis of mammary epithelial cells in tissue culture and in vivo. Apoptosis was induced by antibodies to beta 1 integrins or by overexpression of stromelysin-1, which degrades ECM. Expression of interleukin-1 beta converting enzyme (ICE) correlated with the loss of ECM, and inhibitors of ICE activity prevented apoptosis. These results suggest that ECM regulates apoptosis in mammary epithelial cells through an integrin-dependent negative regulation of ICE expression.

Tenascin-C inhibits extracellular matrix-dependent gene expression in mammary epithelial cells. Localization of active regions using recombinant tenascin fragments

The physiological role of tenascin in vivo has remained obscure. Although tenascin is regulated in a stage and tissue-dependent manner, knock-out mice appear normal. When tenascin expression was examined in the normal adult mouse mammary gland, little or none was present during lactation, when epithelial cells actively synthesize and secrete milk proteins in an extracellular matrix/lactogenic hormone-dependent manner. In contrast, tenascin was prominently expressed during involution, a stage characterized by the degradation of the extracellular matrix and the subsequent loss of milk production. Studies with mammary cell lines indicated that tenascin expression was high on plastic, but was suppressed in the presence of the laminin-rich, Engelbreth-Holm-Swarm (EHS) tumour biomatrix. When exogenous tenascin was added together with EHS to mammary epithelial cells, beta-casein protein synthesis and steady-state mRNA levels were inhibited in a concentration-dependent manner. Moreover, this inhibition by tenascin could be segregated from its effects on cell morphology. Using two beta-casein promoter constructs attached to the chloramphenicol acetyltransferase reporter gene we showed that tenascin selectively suppressed extracellular matrix/prolactin-dependent transcription of the beta-casein gene in three-dimensional cultures. Finally, we mapped the active regions within the fibronectin type III repeat region of the tenascin molecule that are capable of inhibiting beta-casein protein synthesis. Our data are consistent with a model where both the loss of a laminin-rich basement membrane by extracellular matrix-degrading enzymes and the induction of tenascin contribute to the loss of tissue-specific gene expression and thus the involuting process.

Inflammation is responsible for the development of wound-induced tumors in chickens infected with Rous sarcoma virus

When newly hatched chicks are given injections of Rous sarcoma virus, a tumor develops at the site of injection. In spite of the presence of the virus in the blood, no other tumors are found distant from the site of inoculation during the life span of the animal (4-6 weeks). However, if a wound is made away from the primary tumor, a tumor develops at the site of wounding. Work in our laboratory showed previously that these wound tumors do not develop as a result of metastasis, therefore, factors released upon wounding must contribute to the development of the wound tumors. In particular, we showed that transforming growth factor (TGF) beta, a growth factor implicated in wound healing, can replace wounding in tumor development. However, we also showed that epidermal growth factor and TGF-alpha, growth factors that also have roles in wound healing, do not induce tumors. To identify the critical event(s) and to determine the mechanism involved in wound tumor development, we have continued these studies. Here we show that: (a) wound tumor development correlates with the presence of circulating virus and inflammation; (b) the virus is present in serum and in heterophils of the peripheral blood; (c) cell division at the site of wounding precedes the expression of viral proteins; (d) in addition to TGF-beta, acidic and basic fibroblast growth factors can also replace wounding in tumor development; (e) these three factors (TGF-beta, acidic fibroblast growth factor, basic fibroblast growth factor) which promote tumors also induce inflammation, whereas epidermal growth factor and TGF-alpha do not; and (f) during the inflammatory response, blood vessel leakage occurs as tested by the release of fibrinogen into the tissues. To test the possibility that inflammation is the key element in the development of these wound tumors, we used beta-methylprednisolone, an antiinflammatory drug that inhibits inflammation (including blood vessel leakage), to determine if wound tumor development could be prevented. We found that when inflammation was inhibited, tumors were also inhibited; when inflammation could not be stopped, tumors developed as before. These results indicate that the effect of wounding on the development of wound tumors in Rous sarcoma virus-infected chicks is accomplished through the cytokines released by the inflammatory cells at the site of wounding. These inflammatory mediators play a critical role in providing the conducive environment for oncogene integration and activation, and subsequent development of tumors.(ABSTRACT TRUNCATED AT 400 WORDS)

Transforming growth factor-beta regulates increased ductus arteriosus endothelial glycosaminoglycan synthesis and a post-transcriptional mechanism controls increased smooth muscle fibronectin, features associated with intimal proliferation

BACKGROUND

In previous studies we established that there are developmentally regulated increases in endothelial hyaluronan (HA) and heparan sulfate (HS), and smooth muscle cell fibronectin (FN) related to the formation of intimal cushions, structures essential to the postnatal closure of the ductus arteriosus (DA). In this report, we investigated the mechanisms underlying these features to ascertain whether they were independently or coordinately regulated.

EXPERIMENTAL DESIGN

We determined by assessing HA polymer size and by pulse labeling with [3H]glucosamine whether the increased glycosaminoglycans (GAGs) incorporated in DA compared with aorta (Ao) endothelial cell matrices reflected increased synthesis of HA and HS rather than decreased degradation. We assessed whether transforming growth factor-beta (TGF-beta) may be responsible for the increased DA endothelial GAGs and smooth muscle FN production by confirming the presence of TGF-beta in DA tissue using immunohistochemistry and by assessing the effect of adding neutralizing antibodies to the cell cultures. We next determined whether the level of regulation of the increase in FN in DA smooth muscle cells was transcriptional or post-transcriptional by relating protein synthesis to steady state mRNA levels and to mRNA levels after serum stimulation. Using northern blot analyses with specific probes, we also explored the possibility that the FN produced by the DA and Ao was qualitatively different in the proportion of isoforms containing the V95+ region associated with secretion or the EIIIB+ region that has been related to migration.

RESULTS

We observed that HA polymer size produced by DA and Ao endothelial cells was similar and we further verified using pulse labeling that the increase in DA compared with Ao endothelial GAGs reflected increased synthesis of HA and HS rather than decreased degradation. There was increased immunostaining for TGF-beta in DA compared with Ao tissue and we showed that TGF-beta neutralizing antibodies reduced synthesis of GAGs by the DA endothelial cells to the level of that seen in the Ao cells, but did not reduce DA smooth muscle cell FN synthesis. The increase in FN synthesis by DA compared to Ao smooth muscle cells was not associated with increased levels of steady-state mRNA for FN. Furthermore, following serum-stimulated increases in FN mRNA, the DA yielded greater amounts of FN protein compared to Ao smooth muscle cells. The increased FN production by the DA smooth muscle cells could not be attributed to a relative lack of degradation of FN protein or mRNA, or to qualitative differences which might influence secretion, as both cell types contained similar proportions of EIIIB+ and V95+ isoforms of FN.

CONCLUSIONS

These results would suggest that, in contrast to the TGF-beta dependent increase in DA endothelial GAG synthesis, the increase in DA smooth muscle FN synthesis arises through differences in post-transcriptional regulation that are likely independent of TGF-beta.

Effect of ambient oxygen changes on platelet activating factor production by fetal ovine endothelial cells

To determine whether platelet activating factor (PAF) plays a role in the responses seen in the fetal and transitional circulations, we assessed endogenous release of PAF in cultured fetal ovine endothelial cells from the pulmonary artery (PA), ductus arteriosus (DA) and aorta (Ao) under basal conditions and following exposure to hypoxia or hyperoxia. The cells were prelabeled with [3H] acetate and subsequently exposed to different ambient oxygen concentrations, i.e., 95% O2 or 95% N2, balance CO2, using calcium ionophore as a positive control. The effect of indomethacin on DA endothelial PAF production following stimulation with ionophore was also established. Synthesis of [3H] PAF was measured by counts comigrating on TLC with unlabeled PAF. We found that PAF production by fetal ovine PA, Ao and DA cells was similar and unaffected by hypoxia or hyperoxia. Exposure of ionophore stimulated DA cells to indomethacin was, however, associated with a decrease in PAF production (p less than 0.05). We speculate that in vitro alterations in ambient O2 concentration do not influence fetal ovine endothelial PAF production but indomethacin may decrease PAF production in the DA.

Fibronectin, hyaluronan, and a hyaluronan binding protein contribute to increased ductus arteriosus smooth muscle cell migration

"Intimal cushions" which develop in the late gestation lamb ductus arteriosus (DA) are characterized by smooth muscle cells migrating into a large subendothelial space. Our previous in vitro studies, comparing DA cells with those from the aorta (Ao), have shown, even in early gestation, a 10-fold increase in DA endothelial incorporation of hyaluronan into the subendothelial matrix, a 2-fold increase in smooth muscle fibronectin synthesis and, in response to endothelial conditioned medium, a 2-fold increase in chondroitin sulfate. To determine whether these extracellular matrix components may be playing a role in inducing DA smooth muscle migration, we seeded Da or Ao smooth muscle cells onto three-dimensional collagen (2.0 mg/ml) gels and assessed migration 2, 5, and 8 days later. After 8 days, significantly greater numbers of DA compared to Ao cells were found invading the gels (23.1 +/- 3.1% vs 16.2 +/- 2.3%, P less than 0.01). Addition of GRGDS peptides (0.5 mM) or antibodies against fibronectin significantly decreased migration in the DA cells, but had no effect on migration in the Ao. Addition of endothelial conditioned medium to induce smooth muscle chondroitin sulfate production had no effect on DA cell migration. Inclusion of hyaluronan in the gel (0.5-1.5 mg), however, further enhanced DA cell migration, being greatest (31.9 +/- 3.1%) at a concentration of 1 mg/ml. Hyaluronan was without effect on Ao smooth muscle cell migration. The ability of hyaluronan to promote migration in cultures of DA smooth muscle cells was blocked completely by the addition of antibodies (1:100 dilution, 1 micrograms/ml) to a cell surface hyaluronan binding protein (HABP). As well, addition of anti-HABP to cells on gels containing collagen only significantly reduced migration in the DA but not the Ao. Immunofluorescent staining revealed that in DA cells, HABP was more concentrated in lamellipodia and leading edges than in Ao cells. As well, DA smooth muscle cells synthesized greater amounts of HABP as determined by Western immunoblotting and immunoprecipitation using polyclonal antisera to HABP. Thus, our studies indicate that both increased fibronectin and HABP contribute to the enhanced migration of DA smooth muscle cells. These results, together with our previous studies showing a 10-fold increase in hyaluronan accumulation in the DA endothelial matrix, would suggest a mechanism for increased DA smooth muscle migration into the subendothelial matrix observed in vivo.

Developmentally regulated changes in extracellular matrix in endothelial and smooth muscle cells in the ductus arteriosus may be related to intimal proliferation

In the late gestation fetal lamb ductus arteriosus (DA), intimal proliferation is observed, characterized by smooth muscle migration and proliferation in the subendothelium. The nature of changes in the endothelial and smooth muscle extracellular matrix associated with the development of this feature are not known. We assessed the production of glycoproteins (fibronectin, laminin, and type IV collagen) and glycosaminoglycans (GAGs) (hyaluronic acid, heparan sulfate, and chondroitin sulfate) in endothelial and smooth muscle cells harvested from the DA, aorta (Ao), and pulmonary artery of fetal lambs at 100 days gestation, before the appearance of DA intimal proliferation, and at 138 days, when well-developed intimal 'cushions' are seen. In passage 3 cells, glycoprotein synthesis was measured by sodium dodecyl sulfate-polyacrylamide gel electrophoresis after 48 hours incubation with [35S]methionine, and GAGs were assessed by labeling with [3H] glucosamine and separation on DEAE ion-exchange high performance liquid chromatography. Analyses were carried out on culture medium, cell layer, and solubilized matrix. Fibronectin secretion by DA smooth muscle cells from 100-day lambs was found to be twice that of Ao or pulmonary artery cells. No significant differences were seen in smooth muscle cells from 138-day lambs or when comparing endothelial cells from each of the vascular sites at both gestational ages. As well, there were no DA-specific differences in laminin or type IV collagen. No significant differences in endothelial GAG secretion were observed comparing each vascular site at both gestational ages. Analysis of endothelial-derived matrices, however, revealed increased incorporation of hyaluronic acid in the DA from 100-day lambs, 10-fold that of the pulmonary artery and Ao, and increased heparan sulfate. These differences were still present in cell matrices from late gestation animals, but were less marked. No differences in GAGs were seen when comparing smooth muscle cells. Incubation of 100-day DA and Ao smooth muscle cells with endothelial conditioned medium however, resulted in a 2-fold increase in chondroitin sulfate in DA, compared with Ao. These results indicate that distinct, developmentally regulated patterns of extracellular matrix production are related to vascular site and specific features appear to precede intimal proliferation in the DA.

Oxygen-related prostaglandin synthesis in ductus arteriosus and other vascular cells

We compared oxygen-related prostaglandin synthesis in fetal lamb ductus arteriosus (DA) pulmonary artery (PA) and aorta endothelial and smooth muscle cells. We measured basal synthesis of 6-keto-PGF1 alpha and PGE2, the response to calcium ionophore (A23187), a nonspecific stimulus of prostaglandin production, as well as the response to oxygen, a perinatal stimulus, monitoring both the effects of hyperoxia (95% O2) and hypoxia (2% O2). In addition, we established whether differences observed in fetal lamb PA cells related to oxygen tension were also observed in newborn central and microvessel PA cells. Our results indicate that DA endothelial cells increase 6-keto-PGF1 alpha in response to ionophore (p less than 0.05). With hyperoxia, DA endothelial cells increase PGE2 synthesis and DA smooth muscle cells increase 6-keto-PGF1 alpha (p less than 0.05 and 0.02, respectively). Aorta smooth muscle cells increase 6-keto-PGF1 alpha in response to ionophore and hyperoxia (p less than 0.003 and 0.05, respectively). PA endothelial and smooth muscle cells have higher levels of basal prostaglandin synthesis when compared with DA and aorta. In response to ionophore, increased 6-keto-PGF1 alpha is observed in both PA endothelial and smooth muscle cells (p less than 0.02 and 0.0004, respectively), and PGE2 is increased in PA smooth muscle cells (p less than 0.003). Hypoxia, however, decreases PA smooth muscle production of both 6-keto-PGF1 alpha and PGE2 (p less than 0.02 and 0.01, respectively). Similar observations were made in newborn lamb central and microvessel PA cells.(ABSTRACT TRUNCATED AT 250 WORDS)