Ionic channels formed byStaphylococcus aureus alpha-toxin: Voltage-dependent inhibition by divalent and trivalent cations

Summary The interaction ofStaphylococcus aureus -toxin with planar lipid membranes results in the formation of ionic channels whose conductance can be directly measured in voltage-clamp experiments. Single-channel conductance depends linearly on the solution conductivity suggesting that the pores are filled with aqueous solution; a rough diameter of 11.4±0.4 Å can be estimated for the pore. The conductance depends asymmetrically on voltage and it is slightly anion selective at pH 7.0, which implies that the channels are asymmetrically oriented into the bilayer and that ion motion is restricted at least in a region of the pore. The pores are usually open in a KCl solution but undergo a dose- and voltage-dependent inactivation in the presence of diand trivalent cations, which is mediated by open-closed fluctuations at the single-channel level. Hill plots indicate that each channel can bind two to three inactivating cations. The inhibiting efficiency follows the sequence Zn²⁺>Tb³⁺>Ca²⁺>Mg²⁺>Ba²⁺. suggesting that carboxyl groups of the protein may be involved in the binding step. A voltage-gated inactivation mechanism is proposed which involves the binding of two polyvalent cations to the channel, one in the open and one in the closed configuration, and which can explain voltage, dose and time dependence of the inactivation.     

Isolation,structural and functional characterization of Staphylococcus aureus protoplasts obtained using lysoamidase

The action of the lysoamidase bacteriolytic complex on Staphylococcus aureus VKM B-209P cells has been studied to obtain protoplasts. The cells in the midlogarithmic phase were the most sensitive to lysoamidase action. It led to local destruction of cell wall due to hydrolysis of the peptidoglycan. Protoplast formation occurred in two steps in the presence of 1 M sucrose. First, osmotically fragile spheroplasts were formed. Then, the protoplasts were released from the destructed cell wall. The protoplast yield was about 80%. The protoplasts preserved the intact ultrastructure and were able to synthesize peptidoglycan fibrillae. Mainly the spheroplasts that maintained the cell-wall residues reversed into bacterial forms. The protoplasts had respiratory activity similar to cells. Respiration of cells and protoplasts was stimulated by various substrates. High rates of oxygen consumption were observed with -glycerophosphate and ethanol as substrates.     

Relationship between soluble tumor necrosis factor (TNF) receptors and TNFα during immunotherapy with interleukin-2 and/or interferon α

Eleven metastatic cancer patients were studied during three different regimens of immunotherapy with interleukin-2 (IL-2) and/or interferon (IFN): group A received 4 days of IL-2 i.a. infusion (n=3), group B IFN s.c. during 5 days (n=4), followed on day 3 by 5 days of a continuous IL-2 i.v. infusion, and group C had 4 days of IL-2 i.v. infusion together with s.c. IFN on days 1 and 4 (n=4). Soluble tumor necrosis factor receptors (sTNFR) p55 and p75 and TNF concentrations in serum were analyzed before therapy and daily during 8 days of the first therapy cycle. sTNFR was measured by radioimmunoassay. sTNFR p55 increased in all patient groups from a baseline value of 5.2±0.9 ng/ml to a maximum of 13.6±1.2 ng/ml by days 3–4 (P=0.003). sTNFR p75 increased from 7.6±1.1 ng/ml to peak values of 30.1±2.6 ng/ml in groups A and B (P=0.02). In group C the sTNFR p75 response was weak (NS). In group B, the increase of both p55 and p75 occurred only after addition of IL-2 to IFN. TNF increased weakly during treatment with IFN alone (group B); it rose strongly during IL-2 and the combined treatment (groups A-C) from 8±2 pg/ml to 115±13 pg/ml (P=0.003). In group B, it reached the maximum 24 h after addition of IL-2 to IFN and decreased thereafter. there was a significant relationship between TNF and sTNFR p55 or sTNFR p75 in groups A and C, (P=0.001), but not in group B. Group C was also investigated during the third therapy cycle. The increase of sTNFR p75 was stronger (P=0.01) and that of TNF weaker than in the first cycle; the sTNFR p55 response was similar in both cycles. In conclusion sTNFR p55 and p75 are rapidly induced during IL-2 and IL-2+IFN treatment, the increase of sTNF receptors parallels or exceeds that of TNF and may influence the immunomodulatory effects of TNF during cytokine therapy.     

Voltage-dependent channel formation by rods of helical polypeptides

Summary The voltage-dependence of channel formation by alamethicin and its natural analogues can be described by a dipole flip-flop gating model, based on electric field-induced transbilayer orientational movements of single molecules. These field-induced changes in orientation result from the large permanent dipole moment of alamethicin, which adopts -helical conformation in hydrophobic medium. It was, therefore, supposed that the only structural requirement for voltage-dependent formation of alamethicin-type channels might be a rigid lipophilic helical segment of minimum length.In order to test this hypothesis we synthesized a family of lipophilic polypeptides—Boc-(Ala-Aib-Ala-Aib-Ala) _n -OMe,n=1–4—which adopt -helical conformation forn=2–4 and studied their interaction with planar lipid bilayers. Surprisingly, despite their large difference in chain length, all four polypeptides showed qualitatively similar behavior. At low field strength of the membrane electric field these polypeptides induce a significant, almost voltage-independent increase of the bilayer conductivity. At high field strength, however, a strongly voltage-dependent conductance increase occurs similar to that observed with alamethicin. It results from the opening of a multitude of ion translocating channels within the membrane phase.The steady-state voltage-dependent conductance depends on the 8^th–9^th power of polypeptide concentration and involves the transfer of 4–5 formal elementary charges. From the power dependences on polypeptide concentration and applied voltage of the time constants in voltage-jump current-relaxation experiments, it is concluded that channels could be formed from preexisting dodecamer aggregates by the simultaneous reorientation of six formal elementary charges. Channels exhibit large conductance values of several nS, which become larger towards shorter polypeptide chain length. A mean channel diameter of 19 Å is estimated corresponding roughly to the lumen diameter of a barrel comprised of 10 -helical staves. Similar to experiments with the N-terminal Boc-derivative of alamethicin we did not observe the burst sequence of nonintegral conductance steps typical of natural (N-terminal Ac-Aib)-alamethicin. Saturation in current/voltage curves as well as current inactivation in voltage-jump current-relaxation experiments are found. This may be understood by assuming that channels are generated as dodecamers but, while reaching the steady state, reduce their size to that of an octamer or nonamer. We conclude that the overall behavior of these synthetic polypeptides is very similar to that of alamethicin. They exhibit the same concentration and voltage-dependences but lack the stabilizing principle of resolved channel states characteristic of alamethicin.     

New syntheses of α-methyl- and α,α′-dimethylspermine

-Methylspermine and ,-dimethylspermine were synthesized in high overall yields starting from N-(benzyloxycarbonyl)-3-aminobutanol in order to study polyamine biochemistry in vitro and in vivo.__________Translated from Bioorganicheskaya Khimiya, Vol. 31, No. 2, 2005, pp. 200–205.Original Russian Text Copyright © 2005 by Grigorenko, Vepsalainen, Jarvinen, Keinanen, Alhonen, Janne, Khomutov.     

Chemical modification ofStaphylococcus aureus α-toxin by diethylpyrocarbonate: Role of histidines in its membrane-damaging properties

Summary Staphylococcus aureus -toxin causes cell damage by forming an amphiphilic hexamer that inserts into the cell membrane and generates a hydrophilic pore. To investigate the role of the three histidine residues of this toxin we modified them with diethylpyrocarbonate, obtaining N-carbethoxy-histidine whose appearance may be followed spectrophotometrically. Despite the statistical nature of random chemical modification, it was possible to establish that modification of any one of the three histidines was enough to impair -toxin activity on red blood cells and platelets. Two out of three histidines were essential for the interaction of the toxin with model membranes such as lipid vesicles and planar bilayers. Loss of lytic activity in both natural and model membranes was due both to defective binding and to defective oligomerization. When -toxin hexamers inserted into lipid vesicles were assayed for chemical modifiability two histidines per monomer were found to be protected from diethylpyrocarbonate modification, whereas only one was protected after delipidation of the oligomer with a detergent. A possible model for the role of each histidine in the monomer is presented.     

Tnf-α and IL-1α inhibit both pyruvate dehydrogenase activity and mitochondrial function in cardiomyocytes: Evidence for primary impairment of mitochondrial function

Cytokines such as tumor necrosis factor (TNF) and Interleukin-1 (IL1) are known to influence energy metabolism and mitochondrial function in tumor and vascular smooth muscle cells. The aim of the present study was to investigate whether in cardiomyocytes mitochondrial function and PDH activity may also be impaired by TNF and IL1. Pyruvate dehydrogenase (PDH) activity and mitochondrial oxygen consumption of cultured cardiomyocytes were determined after subchronic exposure (24 h) to TNF (1, 10, 100, 1000 I.U./ml) and IL1 (0.1, 1, 10, 100 I.U./ ml).TNF- and IL1- exposure of the cardiomyocytes resulted in a concentration dependent decrease of PDH activity up to 38%. In parallel, selective oxygen consumption of the respiratory chain complexes I (NADH:ubiquinone oxidoreductase) and II (succinate:ubiquinone oxidoreductase) decreased by up to 45%. Addition of the PDH activator dichloracetate (0.01 M) resulted in complete restoration of PDH activity but not of mitochondrial function. The results suggest a primary inhibition of the mitochondrial respiratory chain by TNF and IL1 and a subsequent down regulation of PDH activity.     

Promotion of murine antitumour activity by prothymosin α treatment: I. Induction of tumoricidal peritoneal cells producing high levels of tumour necrosis factor α

Summary The effect of prothymosin (ProT) on the survival of DBA/2 mice inoculated with syngeneic tumour cells was studied. DBA/2 mice inoculated intraperitoneally (i.p.) with 2×10⁵ syngeneic leukaemic L1210 cells developed ascites within 8–12 days and died 10–14 days later. Treatment with ProT consistently inhibited the development of ascites in 20% of the treated animals and prolonged the survival of 40%–60% of the animals up to 70 days. The most effective treatment schedule of ProT was 300 ng/mouse given i.p. at 2-day intervals for 3 weeks followed by a rest period of 7 days, prior to tumour cell inoculation. Peritoneal exudate (PE) cells collected from mice treated with the optimal dose of ProT produced, in the absence of exogenous stimulus, six- to eightfold higher levels of tumour necrosis factor (TNF) than PE cells from control mice. Furthermore these cells exhibited cytotoxic activity against several tumour cell lines including the syngeneic L1210, the TNF-insensitive P815 mastocytoma, the human MOLT-4 lymphoblastic leukaemia, as well as the murine TNF-sensitive L929 fibroblast cell line. Kinetic studies revealed that both production of TNF and tumoricidal activity peaked 7 days after the last injection of ProT and were maintained at high levels over a period of 1 month. Injections with 150 ng ProT slightly improved the survival of mice whereas higher (500 ng and 1000 ng) doses of ProT and a wide range of thymosin 1 doses remained without any effect. PE cells collected from these mice produced extremely low levels of TNF and exhibited negligible tumoricidal activity. Our data demonstrate that ProT has a protective effect in vivo against the growth of adoptively transfered tumour cells and suggest that this effect is, at least in part, mediated by ProT-activated PE cells. These cells were demonstrated to produce high levels of TNF in vitro and to exhibit activity against both TNF-sensitive and TNF-resistant cell lines.Supported by a CEC grant to Dr. M. Papamichail     

Interactions between esterified whey proteins (alpha-lactalbumin and beta-lactoglobulin) and DNA studied by differential spectroscopy

Spectroscopic study of interactions between esterified whey proteins and nucleic acids, at neutral pH, showed positive differential spectra over a range of wavelength between 210 and 340 nm. In contrast, native forms of whey proteins added to DNA did not produce any differential spectra. The positive difference in UV absorption was observed after addition of amounts of proteins as low as 138 molar ratio (MR) of protein/DNA, indicating high sensitivity of the applied method to detect interactions between basic proteins and DNA. UV-absorption differences increased with MR of added whey protein up to saturation. The saturation points were reached at relatively lower MR in the case of methylated forms of the esterified protein as compared to its ethylated form. Saturation of nucleic acid (2996 bp long) was achieved using 850 and 1100 MR of methylated -lactoglobulin and of methylated -lactalbumin, respectively. Saturation with ethylated forms of the proteins was reached at MR of 3160 and 2750. Lysozyme, a native basic protein, showed a behavior similar to what was observed in the case of methylated forms of the dairy proteins studied. However, in the case of lysozyme, saturation was achieved at relatively lower MR (700). Methylated -casein failed to give positive spectra at pH 7 in the presence of DNA. It interacted with DNA only when the pH of the medium was lowered to 6.5, below its pI. Generally, amounts of proteins needed to saturate nucleic acid were much higher than those needed to neutralize it only electrostatically, demonstrating the presence on DNA of protein-binding sites other than the negative charges on the sugar-phosphate DNA backbones. Addition of 0.1% SDS to the medium suppressed totally all spectral differences between 210–340 nm. The presence of 5 M urea in the medium reduced only the spectral differences between 210–340 nm, pointing to the role played by hydrophobic interactions. Peptic hydrolysates of esterified and native proteins or their cationic fractions (pH > 7) produced negative differential spectra when mixed with DNA. The negative differences in UV absorption spectra were the most important in the case of peptic hydrolysates of methylated derivatives of whey proteins.     

The effect of ATP on cucumber (<Emphasis Type="Italic">Cucumis sativus</Emphasis> L.) regeneration from nodal explants: association with α-tocopherol,H<Subscript>2</Subscript>O<Subscript>2</Subscript> and size of culture vessel

We investigated the effect of adenosine 5-triphosphate (ATP), -tocopherol and H₂0₂ on the micropropagation of cucumber (Cucumis sativus L.) from nodal explants. The effect of the size of the liquid culture vessel (250-ml flask vs. 2.5-l airlift bioreactor) was also evaluated. The addition of ATP alone caused a significant increase in the number of branches (internodes) and in internodal length, but also a reduction of leaf number, compared to control cultures. It also increased significantly the accumulation of NO₃^– and K⁺ . The application of ATP + -tocopherol was associated with a significant increase in bud, internodal, leaf and petiole number, internodal, petiole and root length, as well as plant fresh weight, but reduced PO₄^3– and Ca²⁺ accumulation. The combined application of ATP + -tocopherol + H₂O₂ was associated with maximum petiole length and increased plant fresh weight but reduced Ca²⁺ accumulation. Compared to all other treatments, application of ATP + -tocopherol in bioreactor-incubated cultures produced significantly larger plants, with an increased bud number, internode lenght and soluble carbohydrate concentration, but also with a reduced fresh weight, root length and reduced NO₃^– and PO₄^3– and Ca²⁺ concentrations. These effects were associated with changes in the redox status of the regenerants, as well as dehydrogenase and peroxidase activities. The perspective for an application of ATP and antioxidants as novel, cost-efficient growth regulators in the micropropagation of this commercially important vegetable species is discussed.     

Properties and synthesis de novo of auxin-induced α-amylase in pea cotyledons

Analysis of starch-degrading enzymes in a crude extract of detached cotyledons of Pisum sativum L. by polyacrylamide gel electrophoresis (PAGE) demonstrated the presence of one band of -amylase (EC 3.2.1.1) activity. The activity of only this amylase was promoted in cotyledons incubated with 2,4-dichlorophenoxyacetic acid (2,4-D). The auxin-induced -amylase from pea cotyledons was purified to homogeneity, as judged by the criterion of a single band after PAGE. The relative molecular mass (M_r), estimated by gel filtration, was approx. 42 000 and the enzyme contained no carbohydrate moiety. Sodium dodecylsulfate-PAGE yielded a single band that corresponded to an M_r of 41 000. The isoelectric point was 5.85 and the aminoacid composition was similar to that of -amylase from other plants. When [³H]leucine was fed to detached dry cotyledons prior to incubation, the radioactivity in -amylase from cotyledons incubated in the presence of 2,4-D was found to be approx. 10-fold higher than that from cotyledons incubated in distilled water. When -amylase from cotyledons incubated with ²H₂O that contained 2,4-D and the tritiated amylase were centrifuged together in a CsCl density gradient, the peak of enzymatic activity of deuterated -amylase was shifted to a denser fraction than the peak of radioactivity of the tritiated enzyme. These results show that auxin-induced -amylase in pea cotyledons is synthesized de novo.Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - M_r relative molecular mass - PAGE polyacrylamide gel electrophoresis - PAS periodic acid-Schiff - pI isoelectric point - SDS sodium dodecyl sulfate We are very grateful to Mr. Kazuo Itoh and Mrs. Matsumi Doe for carrying out the analysis of amino-acid composition.     

Purification and characterization of GDP L -Fuc: N-acetyl β D -glucosaminide α1→6fucosyltransferase from human blood platelets

-6 L -Fucosyltransferase (1,6FucT; EC 2.4.1.68) from human platelets, the enzyme that is released into serum during coagulation of blood, was purified 100,000-fold. The purification required three sequential chromatographic steps: chromatofocusing, affinity column chromatography on GnGn-Gp(asialo-aglacto-transferrin glycopeptide)-CH-Sepharose, and gel filtration of Sephadex G-200. The final preparation contained a protein that migrated as a single discrete band Mr of 58,000 in sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) under non-reducing conditions, and as a single enzymatically active peak Mr of 58,000 in gel filtration. Although the purified enzyme utilized the biantennary GnGn-Gp as substrate, it was twice as active with the triantennary oligosaccharide when the Man 1,3 antenna was substituted with GlcNac1,4. On the other hand the tetraantennary oligosaccharide was not a preferred substrate. The Km values for the substrate asialo-agalactotransferrin-glycopeptide, and GDP L -fucose were 29 and 28 M, respectively. The optimum pH of the enzyme was 6.0. The activity of 1,6FucT was abolished in the presence of -mercaptoethanol. Divalent cations such as Mg2+ and Ca2+ activated, but Cu2+, Zn2+ and Ni2+ strongly inhibited the activity.     

A robust and cost-effective method for the production of Val, Leu, Ile (δ1) methyl-protonated 15N-, 13C-, 2H-labeled proteins

A selective protonation strategy is described that uses [3-2H] 13C -ketoisovalerate to introduce (1H- methyl)-leucine and (1H- methyl)-valine into 15N-, 13C-, 2H-labeled proteins. A minimum level of 90% incorporation of label into both leucine and valine methyl groups is obtained by inclusion of 100 mg/L -ketoisovalerate in the bacterial growth medium. Addition of [3,3-2H2] -ketobutyrate to the expression media (D2O solvent) results in the production of proteins with (1H-1 methyl)-isoleucine (>90% incorporation). 1H-13C HSQC correlation spectroscopy establishes that CH2D and CHD2 isotopomers are not produced with this method. This approach offers enhanced labeling of Leu methyl groups over previous methods that utilize Val as the labeling agent and is more cost effective.     

Induction of lymphokine-activated killer activity in mice by prothymosin α

We have recently demonstrated that prothymosin (ProT) when administered intraperitoneally (i.p.) protects DBA/2 mice against the growth of syngeneic leukemic L1210 cells through the induction of tumoricidal peritoneal cells producing high levels of tumor necrosis factor (TNF) [Papanastasiou et al. (1992) Cancer Immunol Immunother 35: 145]. In this report we tested further immunological alterations that may be caused by the administration of ProT in vivo. We demonstrate that i.p. injections of ProT enhance natural killer (NK) cell activity and induce lymphokine-activated (LAK) activity in vivo. Thus, splenocytes from ProT-treated DBA/2 animals exhibited significantly higher cytotoxic activity (up to threefold) against the NK-sensitive YAC cell line and the NK-resistant P815 and L1210 syngeneic tumor cells, as compared to splenocytes from syngeneic control mice. The enhancement of the cytotoxic profile of DBA/2 splenocytes was associated with increased percentages of CD8⁺ cells, NK cells and activated CD3⁺ cells. The ProT-induced effect persisted for 30 days after the end of the ProT treatment period and returned to normal levels 20 days later. SPlenocytes from non-treated DBA/2 animals generated high NK and LAK activities in response to ProT in vitro. The ProT-induced NK an LAK activities reached 84% and 75% respectively of what was obtained with interleukin-2 (IL-2). High concentrations of TNF and IL-2 were generated in response to ProT in LAK cultures. These findings suggest that ProT may provide an overall protective effect against tumor growth in vivo through induction of NK and LAK activities possibly indirectly via the production of IL-2 and TNF in the spleen, peritoneal cavity and probably other lymphoid organs.This work was supported by a CEC grant to M. Papamichail     

Lysosomal α-D-mannosidase

-mannosidosis in the human is an autosomal recessive lysosomal storage disease caused by a deficiency of lysosomal -D-mannosidasea actvity. Lysosomal -D-mannosidase is involved in the catabolism of N-linked glycoproteins through the sequential degradation of high-mannose, hybrid and complex oligosaccharides. This review is focused on human, mouse, bovine and feline genes coding for lysosomal -D-mannosidase. In particular the exon-intron structure of the genes, their promoters, and the identification of mutations causing the disease have been examined. The construction, by homologous recombination, of a mouse model of -mannosidosis is reported.     

Expression of α-amylase in response to wounding in mung bean

The activity of -amylase (EC 3.2.1.1) in mung bean (Vigna radiata (L.) Wilczek) cotyledons increased markedly in response to wounding. The changes in enzyme activity were in parallel with those in enzyme content. The level of -amylase mRNA also notably increased in wounded cotyledons and attained its maximum level during the period between 1 and 2 d after wounding. The level of mRNA for phenylalanine ammonia-lyase, which is one of the well-characterized stress-inducible proteins, also increased after wounding, but the increase in mRNA level was faster than that of -amylase mRNA. On the other hand, the content of mRNA for actin, a housekeeping protein, was almost the same in wounded and unwounded cotyledons. The increase in -amylase mRNA level in wounded cotyledons was severely inhibited by -amanitin and cordycepin. -Amylase expression in the first leaves of mung-bean seedlings was also induced by wounding.Abbreviations PAL phenylalanine ammonia-lyase - SSC standard saline citrate We greatly acknowledge Prof. Richard Meagher, Department of Genetics, University of Georgia, Athens, USA for the gift of soybean actin gene clone. We also thank Mr. Kaoru Ishiwata for technical assistance.     

Proteolytic digestion of α-lactalbumin: Physiological implications

The kinetics of the partial digestion of bovine -lactalbumin (-LA) by trypsin, -chymotrypsin, and pepsin was monitored by lactose synthase activity, HPLC, and difference spectrophotometry. The relative stabilities of the various metal-bound states of -LA to trypsin and chymotrypsin at 37 and 5°C decrease in the following order: Ca(II)--LA>Zn(II), Ca(II)--LA>apo--LA. The HPLC digestion patterns of Ca(II)--LA and Zn(II), Ca(II)--LA at 5 and 37°C were similar, while the corresponding digestion patterns for apo--LA were quite different, reflecting the existence of the thermally induced denaturation states of apo--LA within this temperature region. Occupation of the first Zn(II)-binding site in Ca(II)-loaded -LA slightly alters the HPLC digestion patterns at both temperatures and accelerates the digestion at 37°C due to Zn(II)-induced shift of the thermal transition of -LA, exposing some portion of thermally denatured protein. The results suggest that the binding of Zn(II) to the first Zn(II)- (or Cu(II))-specific site does not cause any drastic changes in the overall structure of -LA. The acidic form of -LA (atpH 2.2 and 37°C) was digested by pepsin at rates similar to that for the apo- or Cu(II), Ca(II)-loaded forms by trypsin or -chymotrypsin at neutralpH. Complexation of -LA with bis-ANS affords protection against pepsin cleavage. It is suggested that the protective effects of similar small lipophilic compounds to -LA may have physiological significance (e.g., for nutritional transport).On leave from the Institute of Biological Physics, USSR Academy of Sciences, Pushchino, Moscow Region, 142292, USSR.     

Restriction in the conformational flexibility of apoproteins in the presence of organic cosolvents: a consequence of the formation of "native-like conformation".

The influence of n-propanol on the overall -helical conformation of -globin, apocytochrome C, and the functional domain of streptococcal M49 protein (pepM49) and its consequence on the proteolysis of the respective proteins has been investigated. A significant amount of -helical conformation is induced into these proteins atpH 6.0 and 4°C in the presence of relatively low concentrations of n-propanol. The induction of -helical conformation into the proteins increased as a function of the propanol concentration, the maximum induction occurring around 30% n-propanol. In the case of -globin, the fluorescence of its tryptophyl residues also increased as a function of n-propanol concentration, the midpoint of this transition being around 20% n-propanol. Furthermore, concomitant with the induction of helical conformation into these proteins, the proteolysis of their polypeptide chain by V8 protease also gets restricted. The -helical conformation induced into - and -globin by n-propanol decreased as the temperature is raised from 4 to 24°C. In contrast, the -helical conformation of both - and -chain (i.e., globin with noncovalently bound heme) did not exhibit such a sensitivity to this change in temperature. However, distinct differences exist between the n-propanol induced -helical conformation of globins and the -helical conformation of - and -chains. A cross-correlation of the n-propanol induced increase in the fluorescence of -globin with the corresponding increase in the -helical conformation of the polypeptide chain suggested that the fluorescence increase represents a structural change of the protein that is secondary to the induction of the -helical conformation into the protein (i.e., an integration of the helical conformation induced to the segments of the polypeptide chain to influence the microenvironment of the tryptophyl residues). Presumably, the fluorescence increase is a consequence of the packing of the helical segments of globin to generate a native-like structure. The induction of -helical conformation into these proteins in the presence of n-propanol and the consequent generation of native-like conformation is not unique to n-propanol. Trifluoroethanol, another helix-inducing organic solvent, also behaves in the same fashion as n-propanol. However, in contrast to the proteins described above, n-propanol could neither induce an -helical conformation into performic acid oxidized RNAse-A nor restrict its proteolysis by proteases. Thus, the high sensitivity of apoproteins and the protein domains to assume -helical conformation in the presence of low concentration of n-propanol with a concomitant restriction of the proteolytic susceptibility of their polypeptide chain appears to be unique to those proteins that exhibit high -helical propensities. Apparently, this phenomenon of helix induction and the restriction of proteolysis reflects the formation of rudimentary tertiary interaction of the native protein and is unique to apoproteins or structural domains of -helical proteins. Consistent with this concept, the induction of -helical conformation into shorter polypeptide fragments of 30 residues, (e.g., _1-30, which exists in an -helical conformation in hemoglobin) is very low. Besides, this peptide exhibited neither the high sensitivity to the low concentrations of n-propanol seen with the apoproteins/protein domains nor the resistance toward proteolysis. The results suggest that the organic cosolvent induced decrease in the conformational flexibility of the apoprotein, and the consequent restriction of their proteolytic cleavage provides an opportunity to develop new strategies for protease catalyzed segment condensation reactions.     

The regions of alpha-neurotoxin binding on the extracellular part of the alpha-subunit of human acetylcholine receptor

A set of 18 synthetic uniform overlapping peptides spanning the entire extracellular part (residues 1–210) of the -subunit of human acetylcholine receptor were studied for their binding activity of¹²⁵I-labeled -bungarotoxin and cobratoxin. A major toxin-binding region was found to reside within peptide 122–138. In addition, low-binding activities were obtained with peptides 34–49 and 194–210. It is concluded that the region within residues 122–138 constitutes a universal major toxin-binding region for acetylcholine receptor of various species.