Your search keyword '"White SH"' showing total 287 results

151. Bicipetal tenodesis for anterior subluxation of the superior tibiofibular joint.

Author

White SH

Subjects

Adolescent, Decompression, Surgical, Female, Humans, Joint Dislocations surgery, Knee Joint, Orthopedic Procedures, Tendons transplantation

Abstract

A technique for stabilising the superior tibiofibular joint using an autogenous biceps graft passed through a tibial tunnel is described. The common peroneal nerve should be decompressed and the lateral inferior genicular artery protected. The technique proved to be safe and effective in two patients who were followed for at least two years.

Published

2001

152. Energetics, stability, and prediction of transmembrane helices.

Author

Jayasinghe S, Hristova K, and White SH

Subjects

Bacteriorhodopsins chemistry, Bacteriorhodopsins metabolism, Cell Membrane chemistry, Genome, Genomics methods, Hydrogen Bonding, Protein Structure, Secondary, Solubility, Static Electricity, Thermodynamics, Cell Membrane metabolism, Computational Biology methods, Membrane Proteins chemistry, Membrane Proteins metabolism

Abstract

We show that the peptide backbone of an alpha-helix places a severe thermodynamic constraint on transmembrane (TM) stability. Neglect of this constraint by commonly used hydrophobicity scales underlies the notorious uncertainty of TM helix prediction by sliding-window hydropathy plots of membrane protein (MP) amino acid sequences. We find that an experiment-based whole-residue hydropathy scale (WW scale), which includes the backbone constraint, identifies TM helices of membrane proteins with an accuracy greater than 99 %. Furthermore, it correctly predicts the minimum hydrophobicity required for stable single-helix TM insertion observed in Escherichia coli. In order to improve membrane protein topology prediction further, we introduce the augmented WW (aWW) scale, which accounts for the energetics of salt-bridge formation. An important issue for genomic analysis is the ability of the hydropathy plot method to distinguish membrane from soluble proteins. We find that the method falsely predicts 17 to 43 % of a set of soluble proteins to be MPs, depending upon the hydropathy scale used., (Copyright 2001 Academic Press.)

Published

2001

153. Magnetic resonance imaging assessment for unicompartmental knee replacement: a limited role.

Author

Sharpe I, Tyrrell PN, and White SH

Subjects

Anterior Cruciate Ligament pathology, Double-Blind Method, Humans, Osteoarthritis, Knee pathology, Predictive Value of Tests, Preoperative Care, Arthroplasty, Replacement, Knee, Magnetic Resonance Imaging, Osteoarthritis, Knee surgery

Abstract

The purpose of this study was to see if MRI has a role in pre-operative assessment of patients for unicompartmental knee replacement. Until now, surgeons have been unable to predict whether a patient is suitable until the operation itself when the anterior cruciate ligament is inspected. We found that 33% of patients with anteromedial osteoarthritis had a degenerate anterior cruciate ligament according to magnetic resonance imaging, compared to only 13% on surgical inspection. We conclude that MRI is too sensitive to changes of the anterior cruciate ligament to be of much practical value.

Published

2001

154. 'Detergent-like' permeabilization of anionic lipid vesicles by melittin.

Author

Ladokhin AS and White SH

Subjects

Circular Dichroism, Detergents chemistry, Particle Size, Permeability, Phosphatidylcholines, Phosphatidylglycerols, Melitten chemistry, Membranes, Artificial

Abstract

Melittin (MLT), the 26-residue toxic peptide from the European honeybee Apis mellifera, is widely used for studying the principles of membrane permeabilization by antimicrobial and other host-defense peptides. A striking property of MLT is that its ability to permeabilize zwitterionic phospholipid vesicles is dramatically reduced upon the addition of anionic lipids. Because the mechanism of permeabilization may be fundamentally different for the two types of lipids, we examined MLT-induced release of entrapped fluorescent dextran markers of two different molecular masses (4 and 50 kDa) from anionic palmitoyloleoylphosphatidylglycerol (POPG) vesicles. Unlike release from palmitoyloleoylphosphatidylcholine (POPC) vesicles, which is highly selective for the 4 kDa marker, implying release through pores of about 25 A diameter [Ladokhin et al., Biophys. J. 72 (1997) 1762], release from POPG vesicles was found to be non-selective, i.e., 'detergent-like'. Oriented circular dichroism measurements of MLT in oriented POPG and POPC multilayers disclosed that alpha-helical MLT can be induced to adopt a transbilayer orientation in POPC multilayers, but not in POPG multilayers. The apparent inhibition of MLT permeabilization by anionic membranes may thus be due to suppression of translocation ability.

Published

2001

155. Alphas and taus of tryptophan fluorescence in membranes.

Author

Ladokhin AS and White SH

Subjects

Cell Membrane chemistry, Lipid Bilayers chemistry, Lipid Bilayers metabolism, Membrane Fluidity, Membrane Proteins chemistry, Rotation, Spectrometry, Fluorescence methods, Statistics as Topic, Cell Membrane metabolism, Fluorescence, Membrane Proteins metabolism, Tryptophan chemistry, Tryptophan metabolism

Published

2001

156. How membranes shape protein structure.

Author

White SH, Ladokhin AS, Jayasinghe S, and Hristova K

Subjects

Cell Membrane ultrastructure, Lipid Bilayers metabolism, Membrane Lipids metabolism, Membrane Proteins metabolism, Protein Structure, Secondary, Thermodynamics, Cell Membrane physiology, Lipid Bilayers chemistry, Membrane Lipids chemistry, Membrane Proteins chemistry

Published

2001

157. Lipids lost, lipids regained.

Author

Gouaux E and White SH

Subjects

Animals, Cardiolipins chemistry, Diacylglycerol Kinase genetics, Escherichia coli, Humans, Lipids, Lipoproteins chemistry, Liposomes, Membranes physiology, Micelles, Microscopy, Atomic Force, Mutation, Purple Membrane, Rhodopsin, Surface-Active Agents, X-Ray Diffraction, Membranes chemistry

Published

2001

158. Protein chemistry at membrane interfaces: non-additivity of electrostatic and hydrophobic interactions.

Author

Ladokhin AS and White SH

Subjects

Amino Acid Sequence, Amino Acid Substitution genetics, Animals, Antimicrobial Cationic Peptides chemistry, Antimicrobial Cationic Peptides genetics, Antimicrobial Cationic Peptides metabolism, Bee Venoms enzymology, Cell Membrane chemistry, Models, Molecular, Peptides chemistry, Peptides metabolism, Phosphatidylcholines metabolism, Phosphatidylglycerols metabolism, Phospholipases A chemistry, Phospholipases A metabolism, Protein Binding, Protein Conformation, Solvents, Static Electricity, Thermodynamics, Water metabolism, Cell Membrane metabolism, Membrane Proteins chemistry, Membrane Proteins metabolism

Abstract

Non-specific binding of proteins and peptides to charged membrane interfaces depends upon the combined contributions of hydrophobic (DeltaG(HPhi)) and electrostatic (DeltaG(ES)) free energies. If these are simply additive, then the observed free energy of binding (DeltaG(obs)) will be given by DeltaG(obs)=DeltaG(HPhi)+DeltaG(ES), where DeltaG(HPhi)=-sigma(NP)A(NP) and DeltaG(ES)=zFphi. In these expressions, A(NP) is the non-polar accessible area, sigma(NP) the non-polar solvation parameter, z the formal peptide valence, F the Faraday constant, and phi the membrane surface potential. But several lines of evidence suggest that hydrophobic and electrostatic binding free energies of proteins at membrane interfaces, such as those associated with cell signaling, are not simply additive. In order to explore this issue systematically, we have determined the interfacial partitioning free energies of variants of indolicidin, a cationic proline-rich antimicrobial peptide. The synthesized variants of the 13 residue peptide covered a wide range of hydrophobic free energies, which allowed us to examine the effect of hydrophobicity on electrostatic binding to membranes formed from mixtures of neutral and anionic lipids. Although DeltaG(obs) was always a linear function of DeltaG(HPhi), the slope depended upon anionic lipid content: the slope was 1.0 for pure, zwitterionic phosphocholine bilayers and 0.3 for pure phosphoglycerol membranes. DeltaG(obs) also varied linearly with surface potential, but the slope was smaller than the expected value, zF. As observed by others, this suggests an effective peptide valence z(eff) that is smaller than the formal valence z. Because of our systematic approach, we were able to establish a useful rule-of-thumb: z(eff) is reduced relative to z by about 20 % for each 3 kcal mol(-1) (1 kcal=4.184 kJ) favorable increase in DeltaG(HPhi). For neutral phosphocholine interfaces, we found that DeltaG(obs) could be predicted with remarkable accuracy using the Wimley-White experiment-based interfacial hydrophobicity scale., (Copyright 2001 Academic Press.)

Published

2001

159. Specificity of the Oxford knee status questionnaire. The effect of disease of the hip or lumbar spine on patients' perception of knee disability.

Author

Harcourt WG, White SH, and Jones P

Subjects

Hip surgery, Humans, Joint Diseases surgery, Lumbar Vertebrae surgery, Knee physiopathology, Surveys and Questionnaires

Abstract

There is a need for the accurate measurement of the outcome after knee surgery. The Oxford Knee Score is being increasingly used since it is reported to be short, simple, inexpensive and validated. We sent the questionnaire to 346 patients awaiting surgery to the hip or lumbar spine. Only 11% of 141 patients with proximal pathology who denied knee problems gave a maximum score. Their mean score was substantially lower than expected at 28.7 (maximum 48), and was significantly lower than the score of 36.5 obtained from patients after total knee replacement. We therefore suggest that the frequent coexistence of hip or spinal pathology will significantly alter both the absolute score and any improvement to be expected after knee surgery. Although sensitive to disability originating from the knee the Oxford Knee Score is not sufficiently specific since it is heavily influenced by more proximal pathology.

Published

2001

160. MPtopo: A database of membrane protein topology.

Author

Jayasinghe S, Hristova K, and White SH

Subjects

Algorithms, Internet, Software, Cell Membrane chemistry, Databases, Factual, Proteins chemistry

Abstract

The reliability of the transmembrane (TM) sequence assignments for membrane proteins (MPs) in standard sequence databases is uncertain because the vast majority are based on hydropathy plots. A database of MPs with dependable assignments is necessary for developing new computational tools for the prediction of MP structure. We have therefore created MPtopo, a database of MPs whose topologies have been verified experimentally by means of crystallography, gene fusion, and other methods. Tests using MPtopo strongly validated four existing MP topology-prediction algorithms. MPtopo is freely available over the internet and can be queried by means of an SQL-based search engine.

Published

2001

161. Structure, location, and lipid perturbations of melittin at the membrane interface.

Author

Hristova K, Dempsey CE, and White SH

Subjects

Animals, Biophysical Phenomena, Biophysics, Circular Dichroism, Dimerization, In Vitro Techniques, Lipid Bilayers chemistry, Membrane Lipids chemistry, Membrane Proteins chemistry, Models, Molecular, Phosphatidylcholines chemistry, Protein Structure, Quaternary, Protein Structure, Secondary, X-Ray Diffraction, Melitten chemistry

Abstract

Melittin is arguably the most widely studied amphipathic, membrane-lytic alpha-helical peptide. Although several lines of evidence suggest an interfacial membrane location at low concentrations, melittin's exact position and depth of penetration into the hydrocarbon core are unknown. Furthermore, the structural basis for its lytic action remains largely a matter of conjecture. Using a novel x-ray absolute-scale refinement method, we have now determined the location, orientation, and likely conformation of monomeric melittin in oriented phosphocholine lipid multilayers. Its helical axis is aligned parallel to the bilayer plane at the depth of the glycerol groups, but its average conformation differs from the crystallographic structure. As observed earlier for another amphipathic alpha-helical peptide, the lipid perturbations induced by melittin are remarkably modest. Small bilayer perturbations thus appear to be a general feature of amphipathic helices at low concentrations. In contrast, a dimeric form of melittin causes larger structural perturbations under otherwise identical conditions. These results provide direct structural evidence that self-association of amphipathic helices may be the crucial initial step toward membrane lysis.

Published

2001

162. Obturator dislocation of the hip.

Author

Toms AD, Williams S, and White SH

Subjects

Adult, Follow-Up Studies, Hip Dislocation diagnostic imaging, Hip Dislocation etiology, Hip Joint surgery, Humans, Magnetic Resonance Imaging, Male, Postoperative Complications diagnostic imaging, Tomography, X-Ray Computed, Traction, Hip Dislocation therapy

Abstract

We describe two patients with obturator dislocation of the hip which was irreducible by described techniques of closed reduction. The first required open reduction using the iliofemoral approach with release of rectus femoris. The second was treated on a traction table which allowed disengagement of the head and, when combined with simultaneous lateral traction, adduction and gradual release of the longitudinal traction, facilitated a smooth reduction. Since the hip is stable in flexion, early mobilisation in an extension-limiting brace avoids the prolonged bed rest traditionally recommended for this injury.

Published

2001

163. Perceptions of outcomes after unicompartmental and total knee replacements.

Author

Weale AE, Halabi OA, Jones PW, and White SH

Subjects

Activities of Daily Living, Age Factors, Aged, Chi-Square Distribution, Female, Follow-Up Studies, Humans, Knee Joint physiopathology, Knee Prosthesis adverse effects, Male, Menisci, Tibial surgery, Middle Aged, Osteoarthritis, Knee surgery, Pain Measurement, Postoperative Complications, Prosthesis Design, Prosthesis Failure, Quality of Life, Reoperation, Retrospective Studies, Statistics, Nonparametric, Surveys and Questionnaires, Treatment Outcome, Arthroplasty, Replacement, Knee adverse effects, Arthroplasty, Replacement, Knee psychology, Attitude to Health

Abstract

An independent measurement of the quality of outcome of 31 consecutive Oxford medial unicompartmental knee replacements in 28 patients and 130 total knee replacements in 104 patients performed between 1993 and 1997 is reported. The indications for surgery were anteromedial osteoarthritis for unicompartmental replacement and more extensive osteoarthritis for total knee replacement. All patients were treated by one surgeon. As a validated outcome measure of knee function, the Oxford 12-item knee questionnaire showed identical outcome in both groups with a mean score of 36.5 (maximum possible, 48). Neither the pain nor the functional outcomes were significantly different, although patients receiving unicompartmental replacement were better able to descend stairs. Two patients needed revision surgery in the unicompartmental replacement group compared with only one patient in the total knee replacement group. The femoral component of two unicompartmental replacements showed radiologic signs of loosening. The tibial component of one total knee replacement appeared loose, but the patient had no symptoms. In comparison with total knee replacement, implantation of meniscal bearing unicompartmental replacement technically is demanding and unforgiving. However, revision of a failed Oxford unicompartmental replacement is easier than revision of a failed total knee replacement, and the authors recommend this device for younger patients in whom one could expect a total knee replacement to fail within their lifetime.

Published

2001

164. How to measure and analyze tryptophan fluorescence in membranes properly, and why bother?

Author

Ladokhin AS, Jayasinghe S, and White SH

Subjects

Fluorescence, Fluorescence Polarization, Fluorescent Dyes, Molecular Conformation, Photophobia, Lipid Bilayers chemistry, Membrane Lipids chemistry, Spectrometry, Fluorescence methods, Tryptophan analysis

Abstract

Tryptophan fluorescence is a powerful tool for studying protein structure and function, especially membrane-active proteins and peptides. It is arguably the most frequently used tool for examining the interactions of proteins and peptides with vesicular unilamellar model membranes. However, high light scattering associated with vesicular membrane systems presents special challenges. Because of their reduced light scattering compared to large unilamellar vesicles (LUV), small unilamellar vesicles (SUV) produced by sonication are widely used membrane models. Unfortunately, SUV, unlike LUV, are metastable and consequently unsuitable for equilibrium thermodynamic measurements. We present simple and easily implemented experimental procedures for the accurate determination of tryptophan (Trp) fluorescence in either LUV or SUV. Specifically, we show that Trp spectra can be obtained in the presence of up to 6 mM LUV that are virtually identical to spectra obtained in buffer alone, which obviates the use of SUV. We show how the widths and peak positions of such spectra can be used to evaluate the heterogeneity of the membrane conformation and penetration of peptides. Finally, we show how to use a reference fluorophore for the correction of intensity measurements so that the energetics of peptide partitioning into membranes can be accurately determined., (Copyright 2000 Academic Press.)

Published

2000

165. Formation and characterization of a single Trp-Trp cross-link in indolicidin that confers protease stability without altering antimicrobial activity.

Author

Osapay K, Tran D, Ladokhin AS, White SH, Henschen AH, and Selsted ME

Subjects

Amino Acid Sequence, Animals, Cattle, Chromatography, High Pressure Liquid, Dimerization, Electrophoresis, Polyacrylamide Gel, Enzyme Stability, Microbial Sensitivity Tests, Models, Molecular, Molecular Sequence Data, Oxidation-Reduction, Peptide Mapping, Protein Structure, Secondary, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Anti-Infective Agents chemistry, Antimicrobial Cationic Peptides, Endopeptidases metabolism, Peptides chemistry, Tryptophan chemistry

Abstract

Indolicidin is a 13-residue cationic, antimicrobial peptide-amide isolated from the cytoplasmic granules of bovine neutrophils. The unique composition of indolicidin distinguishes it from alpha-helical and beta-structured cationic peptides, because five of indolicidin's 13 residues are tryptophans: H-Ile-Leu-Pro-Trp-Lys-Trp-Pro-Trp-Trp-Pro-Trp-Arg-Arg-NH(2). Solid phase synthesis of indolicidin gave rise to a minor byproduct that possessed unusual fluorescence and UV absorbance properties compared with authentic indolicidin. The byproduct was purified by combined ion exchange and reversed phase high pressure liquid chromatography steps and was shown be identical to authentic indolicidin in its microbicidal activity against Staphylococcus aureus, Escherichia coli, Candida albicans, and Cryptococcus neoformans. Mass analysis of the byproduct revealed a 2-atomic mass unit reduction compared with indolicidin, suggesting the deprotonation of two indole side chains to form an intrachain delta(1),delta(1)'-ditryptophan derivative. We confirmed the nature of the cross-linked byproduct, termed X-indolicidin, by absorbance and fluorescence spectroscopy, peptide mapping, and sequence analysis. Edman degradation revealed that Trp-6 and Trp-9 were covalently cross-linked. Compared with indolicidin, X-indolicidin was partially resistant to digestion with trypsin and chymotrypsin, suggesting that the ditryptophan stabilizes a subset of molecular conformations that are protease resistant but that are absent in the native structure.

Published

2000

166. Designing transmembrane alpha-helices that insert spontaneously.

Author

Wimley WC and White SH

Subjects

Amino Acid Sequence, Buffers, Circular Dichroism, Coumarins metabolism, Energy Transfer, Fluorescence, Hydrogen Bonding, Lipid Bilayers chemistry, Liposomes chemistry, Liposomes metabolism, Lysophospholipids metabolism, Membrane Fusion, Membrane Lipids metabolism, Molecular Sequence Data, Phosphatidylcholines metabolism, Phosphatidylethanolamines metabolism, Phosphatidylglycerols metabolism, Protein Binding, Protein Structure, Secondary, Solubility, Spectrometry, Fluorescence, Thermodynamics, Tryptophan metabolism, Lipid Bilayers metabolism, Peptides chemistry, Peptides metabolism, Protein Engineering, Water metabolism

Abstract

Direct measurement of the free energies of transfer of hydrophobic membrane-spanning alpha-helices from water to membranes is important for the determination of an accurate experiment-based hydrophobicity scale for membrane proteins. An important objective of such a scale is to account for the presently unknown thermodynamic cost of partitioning hydrogen-bonded peptide bonds into the membrane hydrocarbon core. We describe here the physical properties of a transmembrane (TM) peptide, TMX-1, designed to test the feasibility of engineering peptides that spontaneously insert across bilayers but that have the important property of measurable monomeric water solubility. TMX-1, Ac-WNALAAVAAAL-AAVAAALAAVAAGKSKSKS-NH(2), is a 31-residue sequence with a 21-residue nonpolar core, N- and C-caps to favor helix formation, and a highly polar C-terminus to improve solubility and to control directionality of insertion into lipid vesicles. TMX-1 appeared to be soluble in water up to a concentration of at least 1 mg/mL (0.3 mM). However, fluorescence spectroscopy, fluorescence quenching, and circular dichroism (CD) spectroscopy indicated that the high solubility was due to the formation of molecular aggregates that persisted at peptide concentrations down to at least 0.1 microM peptide. Nevertheless, aqueous TMX-1 partitioned strongly into membrane vesicles with apparent mole-fraction free-energy values of -7.1 kcal mol(-1) for phosphatidylcholine (POPC) vesicles and -8.2 kcal mol(-1) for phosphatidylglycerol (POPG) vesicles. CD spectroscopy of TMX-1 in oriented multilayers formed from either lipid disclosed a very strong preference for a transmembrane alpha-helical conformation. When TMX-1 was added to preformed vesicles, it was fully helical. A novel fluorescence resonance energy transfer (FRET) method demonstrated that at least 50% of the TMX-1 insered spontaneously across the vesicle membranes. Binding and insertion were found to be fully reversible for POPC vesicles but not POPG vesicles. TMX-1 was thus found to have many of the properties required for thermodynamic measurements of TM peptide insertion. Importantly, the results obtained delineate the experimental problems that must be considered in the design of peptides that can partition spontaneously and reversibly as monomers into and across membranes. Our success with TMX-1 suggests that these problems are not insurmountable.

Published

2000

167. Determining the membrane topology of peptides by fluorescence quenching.

Author

Wimley WC and White SH

Subjects

Amino Acid Sequence, Coumarins chemistry, Energy Transfer, Fluorescent Dyes chemistry, Lysophospholipids chemistry, Melitten chemistry, Molecular Sequence Data, Phosphatidylethanolamines chemistry, Spectrometry, Fluorescence methods, Structure-Activity Relationship, Tryptophan analogs & derivatives, Tryptophan chemistry, Lipid Bilayers chemistry, Peptides chemistry

Abstract

Determination of the topology of peptides in membranes is important for characterizing and understanding the interactions of peptides with membranes. We describe a method that uses fluorescence quenching arising from resonance energy transfer ("FRET") for determining the topology of the tryptophan residues of peptides partitioned into phospholipid bilayer vesicles. This is accomplished through the use of a novel lyso-phospholipid quencher (lysoMC), N-(7-hydroxyl-4-methylcoumarin-3-acetyl)-1-palmitoyl-2-hydroxy-sn-gly cero-3-phosphoethanolamine. The design principle was to anchor the methylcoumarin quencher in the membrane interface by attaching it to the headgroup of lyso-phosphoethanolamine. We show that lysoMC can be incorporated readily into large unilamellar phospholipid vesicles to yield either symmetrically (both leaflets) or asymmetrically (outer leaflet only) labeled bilayers. LysoMC quenches the fluorescence of membrane-bound tryptophan by the Förster mechanism with an apparent R(0) that is comparable to the thickness of the hydrocarbon core of a lipid bilayer (approximately 25 A). Consequently, the methylcoumarin acceptor predominantly quenches tryptophans that reside in the same monolayer as the probe. The topology of a peptide's tryptophan in membranes can be determined by comparing the quenching in symmetric and asymmetric lysoMC-labeled vesicles. Because it is essential to know that asymmetrically incorporated lysoMC remains so under all conditions, we also developed a second type of FRET experiment for assessing the rate of transbilayer diffusion (flip-flop) of lysoMC. Except in the presence of pore-forming peptides, there was no measurable flip-flop of lysoMC, indicating that asymmetric distributions of quencher are stable. We used these methods to show that N-acetyl-tryptophan-octylamide and tryptophan-octylester rapidly equilibrate across phosphatidylcholine (POPC) and phosphatidylglycerol (POPG) bilayers, while four amphipathic model peptides remain exclusively on the outer monolayer. The topology of the amphipathic peptide melittin bound to POPC could not be determined because it induced rapid flip-flop of lysoMC. Interestingly, melittin did not induce lysoMC flip-flop in POPG vesicles and was found to remain stably on the external monolayer.

Published

2000

168. CD spectra of indolicidin antimicrobial peptides suggest turns, not polyproline helix.

Author

Ladokhin AS, Selsted ME, and White SH

Subjects

Animals, Cattle, Circular Dichroism, Hot Temperature, Micelles, Models, Molecular, Protein Conformation, Protein Folding, Protein Structure, Secondary, Sodium Dodecyl Sulfate, Spectrophotometry, Tryptophan chemistry, Anti-Infective Agents chemistry, Antimicrobial Cationic Peptides, Peptides chemistry

Abstract

Indolicidin is a 13-residue antimicrobial peptide-amide isolated from the cytoplasmic granules of bovine neutrophils that contains five Trp and three Pro residues. Falla et al. [(1996) J. Biol. Chem. 271, 19298] suggested that indolicidin forms a poly-L-proline II helix based upon the circular dichroism (CD) spectra of a closely related peptide (indolicidin methyl ester). In contrast, we found no evidence of poly-L-proline II helix formation in the CD spectra of native indolicidin in various solvents or when bound to micelles and membranes [Ladokhin et al. (1997) Biophys. J. 72, 794]. We interpreted the spectra as arising from unordered and/or beta-turn structures, but noted a sharp negative band at 227 nm arising from the tryptophan residues that would mask spectral features characteristic of poly-L-proline II helix. We have reexamined this issue by means of CD measurements of native indolicidin and several of its analogues. None of the features characteristic of a poly-L-proline helix (or alpha- or 3(10)-helix) were observed for any of the peptides studied. To eliminate artifacts associated with tryptophan, we synthesized indolicidin-L and indolicidin-F in which all five tryptophans were replaced with leucines or phenylalanines, respectively. The changes in CD spectra of these Trp-free peptides upon transfer into membrane-like environments were found to be consistent with the formation of beta-turns. For the native indolicidin in SDS micelles, temperature increases resulted in a coupled diminution of two sharp bands, a negative one at 227 nm and a positive one at 217 nm. This phenomenon, which is absent in indolicidin-L variants with single Leu-->Trp substitutions, is consistent with exciton splitting produced by the stacking of indole rings. Type VI turns in model peptides in aqueous solution are known to be promoted by stacking interactions between cis-proline and neighboring aromatic residues [Yao et al. (1994) J. Mol. Biol. 243, 754]. Molecular modeling of indolicidin with a -Trp(6)-cis-Pro(7)-Trp(8)- type VIa turn demonstrated the feasibility of this turn conformation and revealed the possibility of an accompanying amphipathic structure. We therefore suggest that turn conformations are the principal structural motif of indolicidin and that these turns greatly enhance membrane activity.

Published

1999

169. An amphipathic alpha-helix at a membrane interface: a structural study using a novel X-ray diffraction method.

Author

Hristova K, Wimley WC, Mishra VK, Anantharamiah GM, Segrest JP, and White SH

Subjects

Amino Acid Sequence, Circular Dichroism, Lipid Bilayers chemistry, Molecular Sequence Data, Peptides chemistry, Protein Conformation, Scattering, Radiation, Membrane Proteins chemistry, X-Ray Diffraction methods

Abstract

The amphipathic alpha-helix is a recurrent feature of membrane-active proteins, peptides, and toxins. Despite extensive biophysical studies, the structural details of its affinity for membrane interfaces remain rather vague. We report here the first results of an effort to obtain detailed structural information about alpha-helices in membranes by means of a novel X-ray diffraction method. Specifically, we determined the transbilayer position and orientation of an archetypal class A amphipathic helical peptide in oriented fluid-state dioleoylphosphatidylcholine (DOPC) bilayers. The peptide, Ac-18A-NH2(Ac-DWLKAFYDKVAEKLKEAF-NH2), is a model for class A amphipathic helices of apolipoprotein A-I and other exchangeable lipoproteins. The diffraction method relies upon experimental determinations of absolute scattering-length density profiles along the bilayer normal and the transbilayer distribution of the DOPC double bonds by means of specific bromination, and molecular modeling of the perturbed lipid bilayer (derived using the transbilayer distribution of the double bonds) and the peptide. The diffraction results showed that Ac-18A-NH2was located in the bilayer interface and that its transbilayer distribution could be described by a Gaussian function with a 1/e-halfwidth of 4.5(+/-0.3) A located 17.1(+/-0.3) A from the bilayer center, close to the glycerol moiety. Molecular modeling suggested that Ac-18A-NH2is helical and oriented generally parallel with the bilayer plane. The helicity and orientation were confirmed by oriented circular dichroism measurements. The width of the Gaussian distribution, a measure of the diameter of the helix, indicated that the Ac-18A-NH2helix penetrated the hydrocarbon core to about the level of the DOPC double bonds. Bilayer perturbations caused by Ac-18A-NH2were surprisingly modest, consisting of a slight decrease in bilayer thickness with a concomitant shift of the double-bond distribution toward the bilayer center, as expected from a small increase in lipid-specific area caused by the peptide., (Copyright 1999 Academic Press.)

Published

1999

170. Folding of amphipathic alpha-helices on membranes: energetics of helix formation by melittin.

Author

Ladokhin AS and White SH

Subjects

Amino Acid Sequence, Animals, Circular Dichroism, In Vitro Techniques, Liposomes, Melitten genetics, Membranes, Artificial, Models, Molecular, Molecular Sequence Data, Protein Binding, Protein Conformation, Protein Folding, Protein Structure, Secondary, Stereoisomerism, Thermodynamics, Melitten chemistry

Abstract

Membranes have a potent ability to promote secondary structure formation in a wide range of membrane-active peptides, believed to be due to a reduction through hydrogen bonding of the energetic cost of partitioning peptide bonds. This process is of fundamental importance for understanding the mechanism of action of toxins and antimicrobial peptides and the stability of membrane proteins. A classic example of membrane-induced folding is the bee-venom peptide melittin that is largely unstructured when free in solution, but strongly adopts an amphipathic alpha-helical conformation when partitioned into membranes. We have determined the energetics of melittin helix formation through measurements of the partitioning free energies and the helicities of native melittin and of a diastereomeric analog with four d-amino acids (d4,l-melittin). Because D4,l-melittin has little secondary structure in either the free or bound forms, it serves as a model for the experimentally inaccessible unfolded bound form of native melittin. The partitioning of native melittin into large unilamellar phosphocholine vesicles is 5.0(+/-0.7) kcal mol-1 more favorable than the partitioning of d4,l-melittin (1 cal=4.186 J). Differences in the circular dichroism spectra of the two forms of melittin indicate that bound native melittin is more helical than bound d4, l-melittin by about 12 residues. These findings disclose that the free energy reduction per residue accompanying the folding of melittin in membrane interfaces is about 0.4 kcal mol-1, consistent with the hypothesis that hydrogen bonding reduces the high cost of partitioning peptide bonds. A value of 0.6 kcal mol-1 per residue has been observed for beta-sheet formation by a hexapeptide model system. These two values provide a useful rule of thumb for estimating the energetic consequences of membrane-induced secondary structure formation., (Copyright 1999 Academic Press.)

Published

1999

171. Membrane protein folding and stability: physical principles.

Author

White SH and Wimley WC

Subjects

Animals, Hydrogen Bonding, Lipid Bilayers chemistry, Lipid Bilayers metabolism, Models, Molecular, Protein Conformation, Protein Structure, Secondary, Thermodynamics, Membrane Proteins chemistry, Membrane Proteins metabolism, Protein Folding

Abstract

Stably folded membrane proteins reside in a free energy minimum determined by the interactions of the peptide chains with each other, the lipid bilayer hydrocarbon core, the bilayer interface, and with water. The prediction of three-dimensional structure from sequence requires a detailed understanding of these interactions. Progress toward this objective is summarized in this review by means of a thermodynamic framework for describing membrane protein folding and stability. The framework includes a coherent thermodynamic formalism for determining and describing the energetics of peptide-bilayer interactions and a review of the properties of the environment of membrane proteins--the bilayer milieu. Using a four-step thermodynamic cycle as a guide, advances in three main aspects of membrane protein folding energetics are discussed: protein binding and folding in bilayer interfaces, transmembrane helix insertion, and helix-helix interactions. The concepts of membrane protein stability that emerge provide insights to fundamental issues of protein folding.

Published

1999

172. Hydrophobic interactions of peptides with membrane interfaces.

Author

White SH and Wimley WC

Subjects

Amino Acid Sequence, Animals, Humans, Molecular Sequence Data, Protein Folding, Lipid Bilayers chemistry, Membrane Proteins chemistry, Thermodynamics

Abstract

The thermodynamic principles underlying the structural stability of membrane proteins are difficult to obtain directly from whole proteins because of intractable problems related to insolubility in the aqueous phase and extreme stability in the membrane phase. The principles must therefore be surmised from studies of the interactions of small peptides with lipid bilayers. This review is concerned with the hydrophobic interactions of such peptides with the interfacial regions of lipid bilayers. We first develop a general framework for thinking about the thermodynamics of membrane protein stability that centers on interfacial interactions and review the structural and chemical evidence that supports this interface-centered point of view. We then describe an experimentally determined whole-residue interfacial hydrophobicity scale that reveals the central role of the peptide bond in partitioning and folding. Finally, we consider the complexity and diversity of interfacial interactions revealed by differences between side-chain hydrophobicities determined using different classes of peptides.

Published

1998

173. Childhood memory and self-description in young Chinese adults: the impact of growing up an only child.

Author

Wang Q, Leichtman MD, and White SH

Subjects

Adolescent, Adult, China, Female, Humans, Male, Self-Assessment, Memory, Only Child psychology, Self Concept

Abstract

This study examined the relationship between self-description and childhood memory in 255 Chinese young adults. Ninety-nine participants were from only child families and 156 had siblings. All participants completed two questionnaires: a version of the Twenty Statements Test of Kuhn and McPartland (Kuhn, M.H., McPartland, T.S., 1954. An empirical investigation of self-attitudes. American Sociological Review 19, 68-76) eliciting self-descriptions, and an instrument asking for earliest and other childhood memories. Based on theories positing a relationship between autobiography and the organization of the self, we predicted differences on both measures between only- and sibling-child participants. Findings indicated that compared with sibling children, only children had more private and fewer collective self-descriptions, earlier first memories, more specific and more self-focused memories. In addition, autobiographical measures were influenced by cohort, gender, preschool attendance, and urban/rural family effects. Findings are discussed in terms of literature on autobiography, the self and childhood in China.

Published

1998

174. The preference of tryptophan for membrane interfaces.

Author

Yau WM, Wimley WC, Gawrisch K, and White SH

Subjects

Bacterial Outer Membrane Proteins, Models, Molecular, Nuclear Magnetic Resonance, Biomolecular, Phosphatidylcholines chemistry, Porins, Receptors, Virus chemistry, Static Electricity, Surface Properties, Thermodynamics, Tryptophan analogs & derivatives, Water, Lipid Bilayers chemistry, Tryptophan chemistry

Abstract

One of the ubiquitous features of membrane proteins is the preference of tryptophan and tyrosine residues for membrane surfaces that presumably arises from enhanced stability due to distinct interfacial interactions. The physical basis for this preference is widely believed to arise from amphipathic interactions related to imino group hydrogen bonding and/or dipole interactions. We have examined these and other possibilities for tryptophan's interfacial preference by using 1H magic angle spinning (MAS) chemical shift measurements, two-dimensional (2D) nuclear Overhauser effect spectroscopy (2D-NOESY) 1H MAS NMR, and solid state 2H NMR to study the interactions of four tryptophan analogues with phosphatidylcholine membranes. We find that the analogues reside in the vicinity of the glycerol group where they all cause similar modest changes in acyl chain organization and that hydrocarbon penetration was not increased by reduction of hydrogen bonding or electric dipole interaction ability. These observations rule out simple amphipathic or dipolar interactions as the physical basis for the interfacial preference. More likely, the preference is dominated by tryptophan's flat rigid shape that limits access to the hydrocarbon core and its pi electronic structure and associated quadrupolar moment (aromaticity) that favor residing in the electrostatically complex interface environment.

Published

1998

175. Determination of the hydrocarbon core structure of fluid dioleoylphosphocholine (DOPC) bilayers by x-ray diffraction using specific bromination of the double-bonds: effect of hydration.

Author

Hristova K and White SH

Subjects

Absorption, Indicators and Reagents, Models, Chemical, Povidone, X-Ray Diffraction methods, Lipid Bilayers chemistry, Phosphatidylcholines chemistry

Abstract

Changes in the structure of the hydrocarbon core (HC) of fluid lipid bilayers can reveal how bilayers respond to the partitioning of peptides and other solutes (Jacobs, R. E., and S. H. White. 1989. Biochemistry. 28:3421-3437). The structure of the HC of dioleoylphosphocholine (DOPC) bilayers can be determined from the transbilayer distribution of the double-bonds (Wiener, M. C., and S. H. White. 1992. Biophys. J. 61:434-447). This distribution, representing the time-averaged projection of the double-bond positions onto the bilayer normal (z), can be obtained by means of neutron diffraction and double-bond specific deuteration (Wiener, M. C., G. I. King, and S. H. White. 1991. Biophys. J. 60:568-576). For fully resolved bilayer profiles, a close approximation of the distribution could be obtained by x-ray diffraction and isomorphous bromine labeling at the double-bonds of the DOPC sn-2 acyl chain (Wiener, M. C., and S. H. White. 1991. Biochemistry. 30:6997-7008). We have modified the bromine-labeling approach in a manner that permits determination of the distribution in under-resolved bilayer profiles observed at high water contents. We used this new method to determine the transbilayer distribution of the double-bond bromine labels of DOPC over a hydration range of 5.4 to 16 waters per lipid, which reveals how the HC structure changes with hydration. We found that the transbilayer distributions of the bromines can be described by a pair of Gaussians of 1/e half-width A(Br) located at z = +Z(Br) relative to the bilayer center. For hydrations from 5.4 waters up to 9.4 waters per lipid, Z(Br) decreases from 7.97 +/- 0.27 A to 6.59 +/- 0.15 A, while A(Br) increased from 4.62 +/- 0.62 A to 5.92 +/- 0.37 A, consistent with the expected hydration-induced decrease in HC thickness and increase in area per lipid. After the phosphocholine hydration shell was filled at approximately 12 waters per lipid, we observed a shift in Z(Br) to approximately 7.3 A, indicative of a distinct structural change upon completion of the hydration shell. For hydrations of 12-16 waters per lipid, the bromine distribution remains constant at Z(Br) = 7.33 +/- 0.25 A and A(Br) = 5.35 +/- 0.5 A. The absolute-scale structure factors obtained in the experiments provided an opportunity to test the so-called fluid-minus method of structure-factor scaling. We found that the method is quite satisfactory for determining the phases of structure factors, but not their absolute values.

Published

1998

176. Folding of beta-sheet membrane proteins: a hydrophobic hexapeptide model.

Author

Wimley WC, Hristova K, Ladokhin AS, Silvestro L, Axelsen PH, and White SH

Subjects

Circular Dichroism, Fluorescence, Kinetics, Lipid Bilayers chemistry, Liposomes metabolism, Permeability, Phosphatidylcholines metabolism, Spectroscopy, Fourier Transform Infrared, Temperature, Thermodynamics, Tryptophan chemistry, Membrane Proteins chemistry, Peptides chemistry, Protein Folding, Protein Structure, Secondary

Abstract

Beta-sheets, in the form of the beta-barrel folding motif, are found in several constitutive membrane proteins (porins) and in several microbial toxins that assemble on membranes to form oligomeric transmembrane channels. We report here a first step towards understanding the principles of beta-sheet formation in membranes. In particular, we describe the properties of a simple hydrophobic hexapeptide, acetyl-Trp-Leu5 (AcWL5), that assembles cooperatively into beta-sheet aggregates upon partitioning into lipid bilayer membranes from the aqueous phase where the peptide is strictly monomeric and random coil. The aggregates, containing 10 to 20 monomers, undergo a relatively sharp and reversible thermal unfolding at approximately 60 degreesC. No pores are formed by the aggregates, but they do induce graded leakage of vesicle contents at very high peptide to lipid ratios. Because beta-sheet structure is not observed when the peptide is dissolved in n-octanol, trifluoroethanol or sodium dodecyl sulfate micelles, aggregation into beta-sheets appears to be an exclusive property of the peptide in the bilayer membrane interface. This is an expected consequence of the hypothesis that a reduction in the free energy of partitioning of peptide bonds caused by hydrogen bonding drives secondary structure formation in membrane interfaces. But, other features of interfacial partitioning, such as side-chain interactions and reduction of dimensionality, must also contribute. We estimate from our partitioning data that the free energy reduction per residue for aggregation is about 0.5 kcal mol-1. Although modest, its aggregate effect on the free energy of assembling beta-sheet proteins can be huge. This surprising finding, that a simple hydrophobic hexapeptide readily assembles into oligomeric beta-sheets in membranes, reveals the potent ability of membranes to promote secondary structure in peptides, and shows that the formation of beta-sheets in membranes is more facile than expected. Furthermore, it provides a basis for understanding the observation that membranes promote self-association of beta-amyloid peptides. AcWL5 and related peptides thus provide a good starting point for designing peptide models for exploring the principles of beta-sheet formation in membranes., (Copyright 1998 Academic Press Limited.)

Published

1998

177. The viability of soft tissues in elderly subjects undergoing hip surgery.

Author

Bader DL and White SH

Subjects

Aged, Aged, 80 and over, Carbon Dioxide metabolism, Female, Femoral Fractures epidemiology, Hip Fractures epidemiology, Humans, Incidence, Intraoperative Complications epidemiology, Intraoperative Complications metabolism, Male, Monitoring, Intraoperative instrumentation, Oxygen metabolism, Partial Pressure, Posture, Preoperative Care, Pressure, Pressure Ulcer epidemiology, Pressure Ulcer metabolism, Risk Factors, Sodium Chloride, Dietary, Femoral Fractures surgery, Hip Fractures surgery, Intraoperative Complications prevention & control, Monitoring, Intraoperative methods, Pressure Ulcer prevention & control

Abstract

Aims: To assess the viability of soft tissues in elderly patients subjected to prolonged support pressures., Design: measurements were performed on the soft tissues of patients undergoing surgery for fracture of the proximal femur., Methods: 10 subjects, mean age 84 years, participated. Transcutaneous gas tensions were continuously monitored in an area adjacent to the contralateral greater trochanter, which was loaded with an external applicator. Subcutaneous interstitial pressures using a slit catheter were also measured., Results: Transcutaneous oxygen partial pressure fell in some patients to critically low levels, defined as below 2.7 kPa (20 mmHg), whilst they were subjected to normal interface pressures on the operating table. Transcutaneous partial carbon dioxide pressures rarely rose above 8.0 kPa (60 mmHg). The measured interstitial pressures could lead to local occlusion of skin microvessels., Conclusions: This study confirms that tissue viability could be compromised in elderly patients undergoing surgical procedures. The methods employed may be of value in assessing support surfaces in the operating theatre to reduce the incidence of pressure sores in this high-risk patient group.

Published

1998

178. Protein folding in membranes: determining energetics of peptide-bilayer interactions.

Author

White SH, Wimley WC, Ladokhin AS, and Hristova K

Subjects

Calorimetry, Dialysis, Lipid Bilayers, Models, Chemical, Spectrum Analysis, Thermodynamics, Titrimetry, Membrane Proteins chemistry, Protein Folding

Published

1998

179. Critical role of lipid composition in membrane permeabilization by rabbit neutrophil defensins.

Author

Hristova K, Selsted ME, and White SH

Subjects

Amino Acid Sequence, Animals, Bacterial Adhesion, Blood Proteins chemistry, Cell Membrane Permeability, Defensins, Escherichia coli metabolism, Escherichia coli physiology, Humans, Membrane Lipids chemistry, Molecular Sequence Data, Molecular Weight, Neutrophils metabolism, Protein Conformation, Rabbits, Sequence Homology, Amino Acid, Blood Proteins pharmacology, Membrane Lipids metabolism, Neutrophils drug effects, alpha-Defensins

Abstract

We have examined the interactions of the six known rabbit neutrophil defensin antimicrobial peptides with large unilamellar vesicles (LUV) made from various lipid mixtures based on the lipid composition of Escherichia coli membranes. We find that the permeabilization of LUV made from E. coli whole lipid extracts differs dramatically from that of single-component LUV made from palmitoyl-oleoyl-phosphatidylglycerol (POPG). Specifically, defensins NP-1, NP-2, NP-3A, NP-3B, and a natural mixture of the six defensins cause fast nonpreferential leakage of high molecular weight dextrans as well as the low molecular weight fluorophore/quencher pair 8-aminonapthalene-1,3,6 trisulfonic acid (ANTS)/p-xylene-bis-pyridinium bromide (DPX) from E. coli whole lipid LUV through large, transient membrane lesions. In contrast, release of ANTS/DPX from POPG LUV induced by the defensins is slow and graded with preference for DPX (Hristova, K., Selsted, M. E., and White, S. H. (1996) Biochemistry 35, 11888-11894). Interestingly, defensins NP-4 and NP-5 alone do not induce leakage from E. coli whole lipid LUV, whereas only NP-4 is ineffective with POPG LUV. Examination of the sequences of the six defensins suggests that the inactivity of NP-4 and NP-5 may be due to their lower net positive charge and/or the substitution of a Thr for the Arg or Lys that follows the fourth Cys residue. We found the presence of three major lipid components of E. coli whole lipid to be essential for creation of the large lesions observed in LUV: phosphatidylethanolamine, phosphatidylglycerol, and cardiolipin. Cardiolipin appears to play a key role because no leakage can be induced when only phosphatidylglycerol and phosphatidylethanolamine are present. These results indicate the importance of membrane lipid composition in the permeabilization of cell membranes by rabbit defensins.

Published

1997

180. Membrane proteins. Structure, assembly, and function: a panoply of progress.

Author

Garavito RM and White SH

Subjects

Membrane Proteins chemistry

Published

1997

181. Sizing membrane pores in lipid vesicles by leakage of co-encapsulated markers: pore formation by melittin.

Author

Ladokhin AS, Selsted ME, and White SH

Subjects

Chromatography, Gel, Dextrans metabolism, Drug Compounding, Fluoresceins metabolism, Fluorescent Dyes metabolism, Melitten pharmacology, Octoxynol pharmacology, Particle Size, Permeability, Phosphatidylcholines metabolism, Spectrometry, Fluorescence, Liposomes metabolism, Melitten metabolism

Abstract

Many toxins and antimicrobial peptides permeabilize membrane vesicles by forming multimeric pores. Determination of the size of such pores is an important first step for understanding their structure and the mechanism of their self-assembly. We report a simple method for sizing pores in vesicles based on the differential release of co-encapsulated fluorescently labeled dextran markers of two different sizes. The method was tested using the bee venom peptide melittin, which was found to form pores of 25-30 A diameter in palmitoyloleoylphosphatidylcholine (POPC) vesicles at a lipid-to-peptide ratio of 50. This result is consistent with observations on melittin pore formation in erythrocytes (Katsu, T., C. Ninomiya, M. Kuroko, H. Kobayashi, T. Hirota, and Y. Fujita 1988. Action mechanism of amphipathic peptides gramicidin S and melittin on erythrocyte membrane Biochim. Biophys. Acta. 939:57-63).

Published

1997

182. Bilayer interactions of indolicidin, a small antimicrobial peptide rich in tryptophan, proline, and basic amino acids.

Author

Ladokhin AS, Selsted ME, and White SH

Subjects

Animals, Anti-Infective Agents chemistry, Circular Dichroism, Kinetics, Naphthalenes pharmacology, Octoxynol, Peptides chemistry, Permeability, Phosphatidylcholines, Phosphatidylglycerols, Pyridinium Compounds pharmacology, Spectrometry, Fluorescence, Spectrophotometry, Tryptophan, Anti-Infective Agents metabolism, Antimicrobial Cationic Peptides, Lipid Bilayers metabolism, Liposomes metabolism, Peptides metabolism

Abstract

Tryptophan, proline, and basic amino acids have all been implicated as being important in the assembly and structure of membrane proteins. Indolicidin, an antimicrobial 13-residue peptide-amide isolated from the cytoplasmic granules of bovine neutrophils, is highly enriched in these amino acids: five tryptophans, three prolines, three basic residues, and no acidic residues. Consistent with the likely importance of these amino acids in membrane protein assembly, indolicidin is known to be highly membrane-active and is believed to act by disruption of cell membranes. We have, therefore, examined the interactions of native indolicidin with large unilamellar vesicles (LUV) formed from palmitoyloleoylphosphatidylcholine (POPC), and palmitoyloleoylphosphatidylglycerol (POPG), in order to use it as a model system for studying membrane protein insertion and for evaluating the relative contributions of hydrophobic and electrostatic forces in peptide-bilayer interactions. Equilibrium dialysis measurements indicate that indolicidin binds strongly, but reversibly, to both neutral POPC and anionic POPG vesicles with free energies of transfer of -8.8 +/- 0.2 and -11.5 +/- 0.4 kcal/mol, respectively. The extremely strong partitioning into POPG vesicles necessitated the development of a new equilibrium dialysis method that is described in detail. Tryptophan fluorescence measurements show that indolicidin is located in the bilayer interface and that indole fluorescence is affected by the type of lipid used to form the LUVs. Circular dichroism (CD) measurements reveal unordered conformations in aqueous and bulk organic solutions and a somewhat more ordered, but not alpha-helical, conformation in SDS micelles and lipid bilayers. Fluorescence requenching measurements (Ladokhin et al. 1995. Biophys. J. 69:1964-1971) on vesicles loaded with the fluorophore/quencher pair 8-aminonapthalene-1,3,6 trisulfonic acid (ANTS)/p-xylene-bis-pyridinium bromide (DPX), show that indolicidin induces membrane permeabilization. For anionic POPG, leakage is graded with a high preference for the release of cationic DPX over anionic ANTS. For neutral POPC vesicles no such preference is observed. Leakage induction is more effective with POPG vesicles than with POPC vesicles, as judged by three quantitative measures that are developed in the Appendix.

Published

1997

183. Mechanism of leakage of contents of membrane vesicles determined by fluorescence requenching.

Author

Ladokhin AS, Wimley WC, Hristova K, and White SH

Subjects

Animals, Cell Membrane Permeability, Coated Vesicles chemistry, Coated Vesicles metabolism, Cytoplasmic Granules chemistry, Cytoplasmic Granules metabolism, Humans, Cell Membrane chemistry, Cell Membrane metabolism, Cell Membrane ultrastructure, Fluorescent Dyes, Models, Biological, Models, Theoretical

Published

1997

184. Experimentally determined hydrophobicity scale for proteins at membrane interfaces.

Author

Wimley WC and White SH

Subjects

Animals, Humans, Protein Folding, Water chemistry, Membrane Proteins chemistry

Abstract

The partitioning of membrane-active oligopeptides into membrane interfaces promotes the formation of secondary structure. A quantitative description of the coupling of structure formation to partitioning, which may provide a basis for understanding membrane protein folding and insertion, requires an appropriate free energy scale for partitioning. A complete interfacial hydrophobicity scale that includes the contribution of the peptide bond was therefore determined from the partitioning of two series of small model peptides into the interfaces of neutral (zwitterionic) phospholipid membranes. Aromatic residues are found to be especially favoured at the interface while charged residues, and the peptide bond, are disfavoured about equally. Reduction of the high cost of partitioning the peptide bond through hydrogen bonding may be important in the promotion of structure formation in the membrane interface.

Published

1996

185. Interactions of monomeric rabbit neutrophil defensins with bilayers: comparison with dimeric human defensin HNP-2.

Author

Hristova K, Selsted ME, and White SH

Subjects

Amino Acid Sequence, Animals, Blood Proteins chemistry, Blood Proteins pharmacology, Cell Membrane drug effects, Conserved Sequence, Defensins, Fluorescence, Humans, Lipid Bilayers chemistry, Liposomes chemistry, Molecular Sequence Data, Naphthalenes metabolism, Permeability drug effects, Phosphatidylcholines analysis, Phosphatidylglycerols analysis, Protein Conformation, Pyridinium Compounds metabolism, Rabbits, Blood Proteins metabolism, Lipid Bilayers metabolism, Liposomes metabolism, Neutrophils chemistry, alpha-Defensins

Abstract

Human antimicrobial neutrophil defensin HNP-2 has been shown to form large multimeric pores in pure 1-palmitoyl-2-oleoyl phosphatidylglycerol (POPG) bilayers that lead to all-or-none release of vesicle contents [Wimley et al. (1994) Protein Sci.3, 1362-1373]. Because human neutrophil defensins form natural dimers in solution, the question arises as to the role of dimerization in pore formation. However, the dimers are so stable that this question is not easily answered directly. Rabbit neutrophil defensins, whose three-dimensional structures are very similar to those of human defensins, are monomeric in aqueous solution and thus provide an opportunity to test the hypothesis that dimerization may play a role in multimeric pore formation. We therefore examined the interactions of the six known rabbit neutrophil defensins with large unilamellar vesicles (LUV) under the conditions known to lead to stable pore formation by HNP-2. We find that the rabbit defensins bind strongly to LUVs formed from pure POPG or mixtures of POPG with neutral (zwitterionic) phospholipid but induce leakage of vesicle contents only from pure POPG vesicles. Rabbit defensin NP-4 does not cause leakage under any conditions examined. The remaining defensins, NP-1, NP-2, NP-3A, NP-3B, and NP-5, cause graded release of the contents of pure POPG vesicles as does a mixture of the six defensins. The graded release indicates that the rabbit defensins do not form stable pores in the membrane. This result thus suggests that the structural features of human defensins that permit dimer formation in aqueous solution are likely to be important in the formation of multimeric pores.

Published

1996

186. Solvation energies of amino acid side chains and backbone in a family of host-guest pentapeptides.

Author

Wimley WC, Creamer TP, and White SH

Subjects

Amides chemistry, Amino Acid Sequence, Calorimetry, Computer Simulation, Models, Chemical, Molecular Sequence Data, Monte Carlo Method, Octanols chemistry, Solutions, Solvents, Thermodynamics, Titrimetry, Water chemistry, Amino Acids chemistry, Oligopeptides chemistry

Abstract

Octanol-to-water solvation free energies of acetyl amino amides (Ac-X-amides) [Fauchère, J.L., & Pliska, V. (1983) Eur. J. Med. Chem. --Chim. Ther. 18,369] form the basis for computational comparisons of protein stabilities by means of the atomic solvation parameter formalism of Eisenberg and McLachlan [(1986) Nature 319, 199]. In order to explore this approach for more complex systems, we have determined by octanol-to-water partitioning the solvation energies of (1) the guest (X) side chains in the host-guest pentapeptides AcWL-X-LL, (2) the carboxy terminus of the pentapeptides, and (3) the peptide bonds of the homologous series of peptides AcWLm (m = 1-6). Solvation parameters were derived from the solvation energies using estimates of the solvent-accessible surface areas (ASA) obtained from hard-sphere Monte Carlo simulations. The measurements lead to a side chain solvation-energy scale for the pentapeptides and suggest the need for modifying the Asp, Glu, and Cys values of the "Fauchère-Pliska" solvation-energy scale fro the Ac-X-amides. We find that the unfavorable solvation energy of nonpolar residues can be calculated accurately by a solvation parameter of 22.8 +/- 0.8 cal/mol/A2, which agrees satisfactorily with the AC-X-amide data and thereby validates the Monte Carlo ASA results. Unlike the Ac-X-amide data, the apparent solvation energies of the uncharged polar residues are also largely unfavorable. This unexpected finding probably results, primarily, from differences in conformation and hydrogen bonding in octanol and buffer but may also be due to the additional flaking peptide bonds of the pentapeptides. The atomic solvation parameter (ASP) for the peptide bond is comparable to the ASP of the charged carboxy terminus which is an order of magnitude larger than the ASP of the uncharged polar side chains of the Ac-X-amides. The very large peptide bond ASP, -96 +/- 6 cal/mol/A2, profoundly affects the results of computational comparisons of protein stability which use ASPs derived from octanol-water partitioning data.

Published

1996

187. Direct measurement of salt-bridge solvation energies using a peptide model system: implications for protein stability.

Author

Wimley WC, Gawrisch K, Creamer TP, and White SH

Subjects

Amino Acid Sequence, Amino Acids, Buffers, Calorimetry, Chromatography, High Pressure Liquid, Hydrogen-Ion Concentration, Kinetics, Magnetic Resonance Spectroscopy, Models, Molecular, Molecular Sequence Data, Oligopeptides chemical synthesis, Salts, Solubility, Spectrometry, Mass, Fast Atom Bombardment, Structure-Activity Relationship, Thermodynamics, Oligopeptides chemistry, Protein Conformation

Abstract

The solvation energies of salt bridges formed between the terminal carboxyl of the host pentapeptide AcWL- X-LL and the side chains of Arg or Lys in the guest (X) position have been measured. The energies were derived from octanol-to-buffer transfer free energies determined between pH 1 and pH 9. 13C NMR measurements show that the salt bridges form in the octanol phase, but not in the buffer phase, when the side chains and the terminal carboxyl group are charged. The free energy of salt-bridge formation in octanol is approximately -4 kcal/mol (1 cal = 4.184 J), which is equal to or slightly larger than the sum of the solvation energies of noninteracting pairs of charged side chains. This is about one-half the free energy that would result from replacing a charge pair in octanol with a pair of hydrophobic residues of moderate size. Therefore, salt bridging in octanol can change the favorable aqueous solvation energy of a pair of oppositely charged residues to neutral or slightly unfavorable but cannot provide the same free energy decrease as hydrophobic residues. This is consistent with recent computational and experimental studies of protein stability.

Published

1996

188. Leakage of membrane vesicle contents: determination of mechanism using fluorescence requenching.

Author

Ladokhin AS, Wimley WC, and White SH

Subjects

Amino Acid Sequence, Animals, Biophysical Phenomena, Biophysics, Cell Membrane Permeability, In Vitro Techniques, Kinetics, Lipid Bilayers chemistry, Liposomes, Models, Chemical, Molecular Sequence Data, Naphthalenes pharmacokinetics, Oligopeptides chemistry, Pyridinium Compounds pharmacokinetics, Spectrometry, Fluorescence, Membrane Lipids chemistry

Abstract

Agents such as antimicrobial peptides and toxins can permeabilize membrane vesicles to cause leakage of entrapped contents in either a graded or an all-or-none fashion. Determination of which mode of leakage is induced is an important step in understanding the molecular mechanism of membrane permeabilization. Wimley et al. (1994, Protein Sci. 3:1362-1378) have developed a fluorescence method for distinguishing the two modes that makes use of the dye/quencher pair 8-aminonapthalene-1,3,6 trisulfonic acid (ANTS)/p-xylene-bis-pyridinium bromide (DPX) without the usual need for the physical separation of vesicles from released contents. Their "requenching" method establishes the mode of release through the fluorescence changes that occur when DPX is added externally to a solution of vesicles that have released some fraction of their contents. However, the requenching method as originally stated ignored the possibility of preferential release of dye or quencher. Here we extend the theory of the method to take into account preferential release and the effects of graded leakage. The ratio of the rates of release of the cationic quencher DPX and anionic dye 8-aminonapthalene-1,3,6 trisulfonic acid can be estimated by means of the theory. For graded leakage, we show that the release of the markers does not coincide with the fluorescence changes observed in the standard leakage assay. This is true for self-quenching dyes as well and means that 1) the amount of released material will be overestimated and 2) the kinetics will be nonexponential and have artificially high apparent rates. We show how the extended requenching analysis allows the results of leakage experiments to be corrected for artifacts that result from graded and preferential leakage. Experimental evidence is presented for the existence of peptide-induced preferential graded leakage of DPX from both neutral and anionic vesicles.

Published

1995

189. Callus distraction in Ollier's disease.

Author

Pandey R, White SH, and Kenwright J

Subjects

Bone Lengthening instrumentation, Bony Callus physiopathology, Child, External Fixators, Female, Femur surgery, Humans, Osteotomy methods, Tibia surgery, Bone Lengthening methods, Enchondromatosis complications, Leg Length Inequality etiology, Leg Length Inequality surgery

Published

1995

190. Structure, function, and membrane integration of defensins.

Author

White SH, Wimley WC, and Selsted ME

Subjects

Amino Acid Sequence, Animals, Blood Bactericidal Activity, Blood Proteins genetics, Cell Membrane metabolism, Defensins, Humans, Micrococcus luteus, Molecular Sequence Data, Structure-Activity Relationship, Blood Proteins chemistry, Blood Proteins physiology

Abstract

Defensins comprise a structural class of small cationic peptides that exert broad-spectrum antimicrobial activities through membrane permeabilization. Their predominantly beta-sheet structure, stabilized by three disulfide bonds, distinguishes them from other antimicrobial peptides which typically form amphiphilic helices. Defensins bind to membranes electrostatically and subsequently form apparently multimeric pores. Recent structural and biophysical studies are beginning to provide insights into the process of permeabilization.

Published

1995

191. Electronic publishing: Protein Science at the edge of a revolution.

Author

White SH

Subjects

Computer Communication Networks, Office Automation, Proteins, Periodicals as Topic, Publishing

Published

1994

192. Interactions between human defensins and lipid bilayers: evidence for formation of multimeric pores.

Author

Wimley WC, Selsted ME, and White SH

Subjects

Amino Acid Sequence, Anti-Infective Agents isolation & purification, Anti-Infective Agents metabolism, Blood Proteins isolation & purification, Blood Proteins metabolism, Defensins, Humans, Membrane Fusion, Models, Molecular, Molecular Sequence Data, Naphthalenes metabolism, Permeability, Phosphatidylcholines chemistry, Phosphatidylglycerols chemistry, Protein Binding, Sequence Homology, Amino Acid, Anti-Infective Agents chemistry, Blood Proteins chemistry, Lipid Bilayers chemistry, Neutrophils chemistry, alpha-Defensins

Abstract

Defensins comprise a family of broad-spectrum antimicrobial peptides that are stored in the cytoplasmic granules of mammalian neutrophils and Paneth cells of the small intestine. Neutrophil defensins are known to permeabilize cell membranes of susceptible microorganisms, but the mechanism of permeabilization is uncertain. We report here the results of an investigation of the mechanism by which HNP-2, one of 4 human neutrophil defensins, permeabilizes large unilamellar vesicles formed from the anionic lipid palmitoyloleoylphosphatidylglycerol (POPG). As observed by others, we find that HNP-2 (net charge = +3) cannot bind to vesicles formed from neutral lipids. The binding of HNP-2 to vesicles containing varying amounts of POPG and neutral (zwitterionic) palmitoyloleoylphosphatidylcholine (POPC) demonstrates that binding is initiated through electrostatic interactions. Because vesicle aggregation and fusion can confound studies of the interaction of HNP-2 with vesicles, those processes were explored systematically by varying the concentrations of vesicles and HNP-2, and the POPG:POPC ratio. Vesicles (300 microM POPG) readily aggregated at HNP-2 concentrations above 1 microM, but no mixing of vesicle contents could be detected for concentrations as high as 2 microM despite the fact that intervesicular lipid mixing could be demonstrated. This indicates that if fusion of vesicles occurs, it is hemi-fusion, in which only the outer monolayers mix at bilayer contact sites. Under conditions of limited aggregation and intervesicular lipid mixing, the fractional leakage of small solutes is a sigmoidal function of peptide concentration. For 300 microM POPG vesicles, 50% of entrapped solute is released by 0.7 microM HNP-2. We introduce a simple method for determining whether leakage from vesicles is graded or all-or-none. We show by means of this fluorescence "requenching" method that native HNP-2 induces vesicle leakage in an all-or-none manner, whereas reduced HNP-2 induces partial, or graded, leakage of vesicle contents. At HNP-2 concentrations that release 100% of small (approximately 400 Da) markers, a fluorescent dextran of 4,400 Da is partially retained in the vesicles, and a 18,900-Da dextran is mostly retained. These results suggest that HNP-2 can form pores that have a maximum diameter of approximately 25 A. A speculative multimeric model of the pore is presented based on these results and on the crystal structure of a human defensin.

Published

1994

193. The evolution of proteins from random amino acid sequences: II. Evidence from the statistical distributions of the lengths of modern protein sequences.

Author

White SH

Subjects

Exons genetics, Introns genetics, Protein Folding, Proteins classification, Statistics as Topic, Terminator Regions, Genetic genetics, Amino Acid Sequence genetics, Biological Evolution, Models, Genetic, Proteins genetics

Abstract

This paper continues an examination of the hypothesis that modern proteins evolved from random heteropeptide sequences. In support of the hypothesis, White and Jacobs (1993, J Mol Evol 36:79-95) have shown that any sequence chosen randomly from a large collection of nonhomologous proteins has a 90% or better chance of having a lengthwise distribution of amino acids that is indistinguishable from the random expectation regardless of amino acid type. The goal of the present study was to investigate the possibility that the random-origin hypothesis could explain the lengths of modern protein sequences without invoking specific mechanisms such as gene duplication or exon splicing. The sets of sequences examined were taken from the 1989 PIR database and consisted of 1,792 "super-family" proteins selected to have little sequence identity, 623 E. coli sequences, and 398 human sequences. The length distributions of the proteins could be described with high significance by either of two closely related probability density functions: The gamma distribution with parameter 2 or the distribution for the sum of two exponential random independent variables. A simple theory for the distributions was developed which assumes that (1) protoprotein sequences had exponentially distributed random independent lengths, (2) the length dependence of protein stability determined which of these protoproteins could fold into compact primitive proteins and thereby attain the potential for biochemical activity, (3) the useful protein sequences were preserved by the primitive genome, and (4) the resulting distribution of sequence lengths is reflected by modern proteins. The theory successfully predicts the two observed distributions which can be distinguished by the functional form of the dependence of protein stability on length. The theory leads to three interesting conclusions. First, it predicts that a tetra-nucleotide was the signal for primitive translation termination. This prediction is entirely consistent with the observations of Brown et al. (1990a,b, Nucleic Acids Res 18:2079-2086 and 18: 6339-6345) which show that tetra-nucleotides (stop codon plus following nucleotide) are the actual signals for termination of translation in both prokaryotes and eukaryotes. Second, the strong dependence of statistical length distributions on sequence-termination signaling codes implies that the evolution of stop codons and translation-termination processes was as important as gene splicing in early evolution. Third, because the theory is based upon a simple no-exon stochastic model, it provides a plausible alternative to a limited universe of exons from which all proteins evolved by gene duplication and exon splicing (Dorit et al. 1990, Science 250:1377-1382).

Published

1994

194. Global statistics of protein sequences: implications for the origin, evolution, and prediction of structure.

Author

White SH

Subjects

Amino Acid Sequence, Amino Acids chemistry, Biological Evolution, Computer Simulation, Databases, Factual, Models, Chemical, Origin of Life, Random Allocation, Stochastic Processes, Protein Structure, Secondary

Published

1994

195. Quantitation of electrostatic and hydrophobic membrane interactions by equilibrium dialysis and reverse-phase HPLC.

Author

Wimley WC and White SH

Subjects

Antifungal Agents isolation & purification, Antifungal Agents metabolism, Blood Proteins isolation & purification, Blood Proteins metabolism, Chromatography, High Pressure Liquid methods, Defensins, Dialysis methods, Humans, Indoles chemistry, Indoles metabolism, Kinetics, Lipid Bilayers chemistry, Lipids, Membranes chemistry, Membranes metabolism, Thermodynamics, Chemistry, Physical methods, Lipid Bilayers metabolism

Abstract

Equilibrium dialysis and reverse-phase HPLC have been used for the sensitive and precise quantitation of both electrostatic and hydrophobic interactions of peptides and small molecules with lipid bilayers. We show that hydrophobic solutes are rapidly and quantitatively released from lipid dispersions when loaded onto a C4 reverse-phase HPLC column equilibrated in water+0.1% trifluoroacetic acid and that the lipid molecules have no interfering effect on the chromatography. Peptides interacting electrostatically with bilayers are released quantitatively when a higher ionic strength buffer (water+2% ammonium acetate) is used. As little as 50 ng of solute can be accurately quantitated even in the presence of milligram amounts of lipid. We demonstrate the application of these methods to the hydrophobic interactions between indoles and lipid bilayers and to the electrostatic interaction between defensins, which are cationic antibiotic peptides, and anionic bilayers. The high sensitivity allows nondestructive quantitation of submicrogram amounts of precious solutes and the high precision allows the heat capacity change, an important thermodynamic parameter, to be obtained from the partitioning data.

Published

1993

196. Membrane partitioning: distinguishing bilayer effects from the hydrophobic effect.

Author

Wimley WC and White SH

Subjects

Chromatography, High Pressure Liquid, Indoles, Liposomes, Mathematics, Skatole, Thermodynamics, Water, Lipid Bilayers, Models, Biological, Phosphatidylcholines

Abstract

The free energy of transfer of nonpolar solutes from water to lipid bilayers is often dominated by a large negative enthalpy rather than the large positive entropy expected from the hydrophobic effect. This common observation has led to the concept of the "nonclassical" hydrophobic effect and the idea that the "classical" hydrophobic effect may not drive partitioning in many bilayer systems. We show through measurements of the heat capacity changes associated with the partitioning of tryptophan side-chain analogs into lipid bilayers and into bulk cyclohexane that the hydrophobic effect plays a crucial role regardless of the large negative enthalpy. The results emphasize that bulk-phase measurements are inadequate for describing bilayer partitioning. The experimental approach described should be generally useful for analyzing the bilayer interactions of a broad range of biologically important molecules.

Published

1993

197. A historical review of limb lengthening and bone transport.

Author

Kenwright J and White SH

Subjects

History, 20th Century, Humans, Internal Fixators, Leg, Osteogenesis, Tibia surgery, Time Factors, Wound Healing, Bone Lengthening history, Bone Transplantation history

Published

1993

198. The evolution of proteins from random amino acid sequences. I. Evidence from the lengthwise distribution of amino acids in modern protein sequences.

Author

White SH and Jacobs RE

Subjects

Amino Acid Sequence, Bacteriorhodopsins chemistry, Databases, Factual, Mathematics, Probability, Protein Folding, Protein Structure, Secondary, Proteins genetics, Rhodopsin chemistry, Biological Evolution, Proteins chemistry

Abstract

We examine in this paper one of the expected consequences of the hypothesis that modern proteins evolved from random heteropeptide sequences. Specifically, we investigate the lengthwise distributions of amino acids in a set of 1,789 protein sequences with little sequence identify using the run test statistic (ro) of Mood (1940, Ann. Math. Stat. 11, 367-392). The probability density of ro for a collection of random sequences has mean = 0 and variance = 1 [the N(0,1) distribution] and can be used to measure the tendency of amino acids of a given type to cluster together in a sequence relative to that of a random sequence. We implement the run test using binary representations of protein sequences in which the amino acids of interest are assigned a value of 1 and all others a value of 0. We consider individual amino acids and sets of various combinations of them based upon hydrophobicity (4 sets), charge (3 sets), volume (4 sets), and secondary structure propensity (3 sets). We find that any sequence chosen randomly has a 90% or greater chance of having a lengthwise distribution of amino acids that is indistinguishable from the random expectation regardless of amino acid type. We regard this as strong support for the random-origin hypothesis. However, we do observe significant deviations from the random expectation as might be expected after billions years of evolution. Two important global trends are found: (1) Amino acids with a strong alpha-helix propensity show a strong tendency to cluster whereas those with beta-sheet or reverse-turn propensity do not. (2) Clustered rather than evenly distributed patterns tend to be preferred by the individual amino acids and this is particularly so for methionine. Finally, we consider the problem of reconciling the random nature of protein sequences with structurally meaningful periodic "patterns" that can be detected by sliding-window, autocorrelation, and Fourier analyses. Two examples, rhodopsin and bacteriorhodopsin, show that such patterns are a natural feature of random sequences.

Published

1993

199. Partitioning of tryptophan side-chain analogs between water and cyclohexane.

Author

Wimley WC and White SH

Subjects

Chemical Phenomena, Chemistry, Physical, Hydrogen Bonding, Indoles chemistry, Nitrogen chemistry, Thermodynamics, Cyclohexanes chemistry, Tryptophan chemistry, Water chemistry

Abstract

We have measured the partitioning of the tryptophan side-chain analogs 3-methylindole and N-methylindole between water and cyclohexane over the temperature range 8-55 degrees C to investigate the relative contribution of the imine-NH- to the free energy of transfer. We take advantage of the fact that the indole imine nitrogen is blocked by a methyl group in N-methylindole. Unlike previous studies, we take into account the water present in the cyclohexane phase. Free energies of partitioning were calculated using mole-fraction, volume-fraction, and Flory-Huggins-corrected volume-fraction partition coefficients [De Young, L. R., & Dill, K. A. (1990) J. Phys. Chem. 94, 801-809; Sharp, K. A., Nicholls, A., Friedman, R., & Honig, B. (1991) Biochemistry 30, 9686-9697]. These approaches account for configurational entropy changes in different ways and thus lead to different values for the calculated free energies of transfer. There is a 2-3-fold difference in the free energies calculated from our measurements, using the different units. Independent of units, the partitioning of both compounds involves identical entropy changes. However, 3-methylindole has an additional unfavorable enthalpic contribution to partitioning into cyclohexane of +1.6 kcal/mol (independent of units) which is presumably the cost of removing the indole -NH- group from water and transferring it to cyclohexane. In cyclohexane, 3-methylindole forms hydrogen bonds with water that cause water to copartition into cyclohexane with the solute. A method is described which allows the partitioning process to be examined independent of subsequent interactions with water in the solvent.

Published

1992

200. Appreciation. Jane s. Richardson: biophysical society national lecturer 1992.

Author

White SH

Published

1992