Gene/Protein Disease Symptom Drug Enzyme Compound
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220 MHz roton NMR spectral evidence for restricted rotation of one methyl group in the heme side chain of ferric horse cyanomyoglobin is reported here. Temperature dependence of this methyl proton signal was computer-simulated, yielding 14,8 kcal/mol for the methyl hindered rotation. Ionic additives such as NaCl and (NH4) 2 minus SO4 caused a slackening of this restriction of methyl rotation, evidenced from collapse of methyl signal doubling by the addition of these ionic substances. This is discussed in terms of breaking of the salt bridge formed between one of the propionate COO minus group of heme and a part of the apoprotein which might lead to constraint of one of the heme side methyl groups. The peculiarity of hyperfine-shifted methyl proton signals for other myoglobin complexes such as azide and imidazole derivatives is also discussed briefly in terms of constraint of heme side methyl group buried in a hydrophobic cleft.
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PMID:Nuclear magnetic resonance studies of hemoproteins. IV. Hindered rotation of heme side methyl group as a probe for studying van der Waals contacts in the heme side environments of myoglobin derivatives. 116 71

We tested a new captive bubble surface tensiometer with films adsorbed from aqueous suspensions of rabbit lung surfactant and a bovine lung surfactant lipid extract and with films of dipalmitoyl-sn-3-glycerophosphorylcholine (DPPC) spread from solvents. The lack of tubes penetrating the bubble surface eliminated potential leakage pathways for the surface film, which was compressed by increasing external pressure. Surface tensions and areas were calculated directly from bubble shapes without the need of pressure measurements. After only one to two compressions, the rabbit surfactant films exhibited the low surface tension, collapse rates, and compressibilities characteristic of the alveolar surface in situ and approached the behavior of spread DPPC films. The bubble "clicking" phenomenon described earlier by Pattle (Proc. R. Soc. Lond. B Biol. Sci. 148: 217-240, 1958) was also reproduced, but only with the bovine extract, which did not perform as well as the rabbit surfactant in surface tests. These findings suggest that surfactant apoprotein SP-A, which was probably present in the rabbit but not the bovine preparations, enhances both adsorption and stability of pulmonary surfactant monolayers.
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PMID:A captive bubble method reproduces the in situ behavior of lung surfactant monolayers. 260 46

Hybridoma cells were obtained by fusing spleen cells from mice, immunized against the 15 kDa porcine surfactant apoprotein, with a myeloma cell line. Adult mice were inoculated intraperitoneally with this hybridoma; mice that were not inoculated or were inoculated with myeloma cells served as controls. Lung-thorax compliance was measured at various intervals after inoculation. The animals were then killed for histologic-morphometric evaluation of alveolar air expansion, inflammatory reaction in the pulmonary parenchyma, and intraalveolar edema. In the hybridoma group, the mice developed respiratory failure 9 days after inoculation, with markedly reduced lung-thorax compliance, lung congestion, alveolar collapse, hemorrhagic pulmonary edema, and hyaline membranes. Morphometric data from the same animals showed reduced volume density of alveolar air, and increased volume densities of intraalveolar "fluid" (edema) and tissue components. These lung lesions are similar to those in the adult respiratory distress syndrome.
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PMID:Respiratory failure in mice caused by a hybridoma making antibodies to the 15 kDa surfactant apoprotein. 339 79

Model high density lipoproteins containing human apolipoprotein A-I, cholesterol, and a variety of phosphatidylcholines (PCs) have been prepared and tested. The PCs included 1-palmitoyl-2-oleoyl PC (POPC) and its diether analog 1-O-hexadecyl-2-oleyl PC (POPC ether), 1,2-diphytanoyl PC (DPhPC), 1-palmitoyl-2-phytanoyl PC, and 1-phytanoyl-2-palmitoyl PC. All ester PCs were good acyl donors for the transesterification of cholesterol catalyzed by human lecithin-cholesterol acyltransferase except DPhPC, which showed no reactivity. The PCs containing one phytanoyl chain donated an acyl chain to cholesterol as fast as non-branched fatty acyl chains. However, the competitive inhibition of lecithin-cholesterol acyltransferase by POPC ether and DPhPC was similar, and both lipids formed a macromolecular matrix that supported the reactivity of other ester PC substrates. The bulk of physicochemical properties of model high density lipoproteins composed of DPhPC were indistinguishable from those of POPC ether. These properties included 1) alpha-helical content of the apoprotein as assessed by circular dichroism, 2) microviscosity as determined from the fluorescence polarization and lifetime of the probe 1,6-diphenyl-1,3,5-hexatriene, 3) macromolecular weight based upon analytical gel filtration chromatography, and 4) surface polarity revealed by the fluorescence of 6-propionyl-2(dimethylamino)naphthalene. The only major difference in a physicochemical property was that the molecular surface area of DPhPC (area = 69 A2 at collapse pressure) determined by monolayer methods was 17 A2 greater than that of POPC (area = 53 A2 at collapse pressure) at all surface pressures measured. We suggest that the properties of DPhPC in being enzymatically nonreactive but a competitive inhibitor are due to its much larger size and that the active site of lecithin-cholesterol acyltransferase cannot bind phospholipid substrates in a catalytically productive way if they have surface areas of 70 A2 or more.
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PMID:Inhibition of lecithin-cholesterol acyltransferase by diphytanoyl phosphatidylcholine. 359 6

Human plasma apolipoprotein E (apo-E) strongly self-associates to form a stable tetramer in an aqueous solution at pH 7.4 containing 0.15 M NaCl. Tetramerized apo-E is abundant in alpha-helical conformation with an asymmetric molecular shape. Apo-E forms a stable monolayer at the air-water interface with a collapse pressure of 14 dynes/cm and with a limiting molecular area of 21 A2/amino acid. Under low surface pressure (less than 0.5 dyne/cm), it behaves as a monomer at the interface. It binds reversibly to the surface of phosphatidylcholine-coated triolein particles with a diameter of 26 nm from the aqueous phase in which most of the molecules are tetramerized. An apparent dissociation constant (Kd), 1.2 X 10(-6) M (monomeric molarity) or 40 mg/l, is substantially larger than those of the other apolipoproteins, while a binding saturation level (N), 0.8 amino acid/surface phospholipid, is equivalent to the N values of those proteins (Tajima, S., Yokoyama, S., and Yamamoto, A. (1983) J. Biol. Chem. 258, 10073-10082). Content of alpha-helix increases slightly when it is transferred from the aqueous phase to the lipid surface. The results are consistent with a model that amphiphilic alpha-helical conformation is responsible both for self-association and surface binding and suggest that apo-E may easily dissociate from the lipoprotein surface to form a self-associated soluble tetramer.
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PMID:Behavior of human apolipoprotein E in aqueous solutions and at interfaces. 406 13

The adult respiratory distress syndrome (ARDS) is characterized by extended inflammatory processes in the lung microvascular, interstitial, and alveolar compartments, resulting in vasomotor disturbances, plasma leakage, cell injury, and complex gas exchange disturbances. Abnormalities in the alveolar surfactant system have long been implicated in the pathogenetic sequelae of this life-threatening syndrome. This hypothesis is supported by similarities in pulmonary failure between patients with ARDS and preterm babies with infant respiratory distress syndrome, known to be triggered primarily by lack of surfactant material. Mechanisms of surfactant alterations in ARDS include: (a) lack of surface-active compounds (phospholipids, apoproteins) due to reduced generation/release by diseased pneumocytes or to increased loss of material (this feature includes changes in the relative composition of the surfactant phospholipid and/or apoprotein profiles); (b) inhibition of surfactant function by plasma protein leakage (inhibitory potencies of different plasma proteins have been defined); (c) "incorporation" of surfactant phospholipids and apoproteins into polymerizing fibrin upon hyaline membrane formation; and (d) damage/inhibition of surfactant compounds by inflammatory mediators (proteases, oxidants, nonsurfactant lipids). Alterations in alveolar surfactant function may well contribute to a variety of pathophysiological key events encountered in ARDS. These include decrease in compliance, ventilation-perfusion mismatch including shunt flow due to altered gas flow distribution (atelectasis, partial alveolar collapse, small airway collapse), and lung edema formation. Moreover, more speculative at the present time, surfactant abnormalities may add to a reduction in alveolar host defense competence and an upregulation of inflammatory events under conditions of ARDS. Persistent atelectasis of surfactant-deficient and in particular fibrin-loaded alveoli may represent a key event to trigger fibroblast proliferation and fibrosis in late ARDS ("collapse induration"). Overall, the presently available data on surfactant abnormalities in ARDS lend credit to therapeutic trials with transbronchial surfactant administration. In addition to the classical goals of replacement therapy defined for preterm infants (rapid improvement in lung compliance and gas exchange), this approach will have to consider its impact on host defense competence and inflammatory and proliferative processes when applied in adults with respiratory failure.
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PMID:Alveolar surfactant and adult respiratory distress syndrome. Pathogenetic role and therapeutic prospects. 848 20

The present study characterizes the dynamic interfacial properties of calf lung surfactant (CLS) and samples reconstituted in a stepwise fashion from phospholipid (PL), hydrophobic apoprotein (HA), surfactant apoprotein A (SP-A), and neutral lipid fractions. Dipalmitoylphosphatidylcholine (DPPC), the major PL component of surfactant, was examined for comparison. Surface tension was measured over a range of oscillation frequencies (1-100 cycles/min) and bulk phase concentrations (0.01-1 mg/ml) by using a pulsating bubble surfactometer. Distinct differences in behavior were seen between samples. These differences were interpreted by using a previously validated model of surfactant adsorption kinetics that describes function in terms of 1) adsorption rate coefficient (k1), 2) desorption rate coefficient (k2), 3) minimum equilibrium surface tension (gamma*), 4) minimum surface tension at film collapse (gammamin), and 5) change in surface tension with interfacial area for gamma < gamma* (m2). Results show that DPPC and PL have k1 and k2 values several orders of magnitude lower than CLS. PL had a gammamin of 19-20 dyn/cm, significantly greater than CLS (nearly zero). Addition of the HA to PL restored dynamic interfacial behavior to nearly that of CLS. However, m2 remained at a reduced level. Addition of the SP-A to PL + HA restored m2 to a level similar to that of CLS. No further improvement in function occurred with the addition of the neutral lipid. These results support prior studies that show addition of HA to the PL markedly increases adsorption and film stability. However, SP-A is required to completely normalize dynamic behavior.
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PMID:Biophysical characterization and modeling of lung surfactant components. 1023 38

Neocarzinostatin is a potent enediyne antitumor antibiotic complex in which a chromophore is noncovalently bound to a carrier protein. The protein regulates availability of the drug by proper release of the biologically active chromophore. To understand the physiological mechanism of the drug delivery system, we have examined the trifluoroethanol (TFE)-induced conformational changes of the protein with special emphasis on their relation to the release of the chromophore from holoneocarzinostatin. The effect of the alpha helix-inducing agent, TFE, on all the beta-sheet neocarzinostatin proteins was studied by circular dichroism, fluorescence, and (1)H NMR studies. By using binding of anilinonaphthalene sulfonic acid as a probe, we observed that the protein exists in a stable, partially structured intermediate state around 45-50% TFE, which is consistent with the results from tryptophan fluorescence and circular dichroism studies. The native state is stable until 20% TFE and is half-converted into the intermediate state at 30% TFE, which starts to collapse beyond 50%. High pressure liquid chromatographic analysis of the release of the chromophore caused by TFE treatment at 0 degrees C suggests that the release process, which occurs below 20% TFE, does not result from an observable conformational change in the protein. Kinetic measurements of the release of chromophore at 25 degrees C reveal that TFE does stimulate the rate of release, which increases sharply at 15% and reaches a maximum at 20% TFE, although no major secondary or tertiary structural change of the carrier protein is observed under these same conditions. Our data suggest that chromophore release results from a fluctuation of the protein structure that is stimulated by TFE. Complete release of the chromophore occurs at TFE concentrations where no overall observable unfolding of the apoprotein is seen. Thus, the results suggest that denaturation of the protein by TFE is not a necessary step for release of the tightly bound chromophore.
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PMID:Release of the neocarzinostatin chromophore from the holoprotein does not require major conformational change of the tertiary and secondary structures induced by trifluoroethanol. 1098 12

The acute respiratory distress syndrome (ARDS) is a frequent, life-threatening disease in which a marked increase in alveolar surface tension has been repeatedly observed. It is caused by factors including a lack of surface-active compounds, changes in the phospholipid, fatty acid, neutral lipid, and surfactant apoprotein composition, imbalance of the extracellular surfactant subtype distribution, inhibition of surfactant function by plasma protein leakage, incorporation of surfactant phospholipids and apoproteins into polymerizing fibrin, and damage/inhibition of surfactant compounds by inflammatory mediators. There is now good evidence that these surfactant abnormalities promote alveolar instability and collapse and, consequently, loss of compliance and the profound gas exchange abnormalities seen in ARDS. An acute improvement of gas exchange properties together with a far-reaching restoration of surfactant properties was encountered in recently performed pilot studies. Here we summarize what is known about the kind and severity of surfactant changes occurring in ARDS, the contribution of these changes to lung failure, and the role of surfactant administration for therapy of ARDS.
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PMID:Surfactant alteration and replacement in acute respiratory distress syndrome. 1173 35

The outer mitochondrial membrane isoform of mammalian cytochrome b(5) (OM b(5)) is distinguished from the microsomal isoform (Mc b(5)) by its considerably greater stability. In contrast, OM and Mc apocytochrome b(5) (apo-b(5)) exhibit similar thermodynamic stability. Contributing substantially to the greater stability of OM b(5) relative to that of Mc b(5) is the presence of Leu at position 71. Replacing Leu-71 in OM b(5) with the corresponding Mc b(5) residue (Ser) not only diminishes holoprotein stability but also markedly compromises apoprotein stability. The studies reported herein were undertaken to clarify the role played by Leu-71 in stabilizing OM b(5)s relative to Mc b(5)s, and were motivated by the possibility that stability is related to other differences in OM and Mc b(5) properties that are important for their specialized subcellular roles. The results of these studies show that Leu-71 plays an essential role in maintaining the structural integrity of the heme-independent folding core of OM apo-b(5) (core 2), despite its location in the disordered empty heme-binding pocket (core 1). The conformational integrity of core 2 in Mc apo-b(5)s is not similarly dependent on the presence of a hydrophobic residue at position 71, providing new evidence for evolution of compensating structural features not present in OM b(5)s. We propose that Leu-71 achieves its effect on OM apo-b(5) core 2 structure by participating in a nonspecific hydrophobic collapse of disordered core 1, templated by more conformationally restricted side chains of residues in the beta-sheet that separates the two cores. We hypothesize that this has the added effect of maintaining core 1 of OM apo-b(5)s in a state more compact than that which occurs in Mc apo-b(5)s, possibly contributing to stronger heme binding by limiting the number of non-native conformations that the empty heme-binding pocket can populate.
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PMID:Divergence in nonspecific hydrophobic packing interactions in the apo state, and its possible role in functional specialization of mitochondrial and microsomal cytochrome b5. 1626 60


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