Effects of methylprednisolone on the energy metabolism of quiescent and conA-stimulated thymocytes of the rat

The short-term effects of high concentrations of Methylprednisolone (MP) on the energy metabolism of quiescent and Concanavalin A-stimulated rat thymocytes were investigated in vitro. Concanavalin A (ConA) stimulated the respiration rate of quiescent thymocytes by 35%. Addition of more than 0.15 mg MP/10⁷ cells to ConA-stimulated cells reversed this respiratory stimulation; in addition, higher concentrations of MP caused a similar progressive decrease in the rate of respiration of both quiescent and ConA-stimulated cells. Similarly, the stimulation of respiration by ConA was greatly reduced in MP-treated cells. MP addition lowered cytoplasmic [Ca²⁺] and, at high concentrations, abolished the ability of ConA to increase [Ca²⁺]. Thus MP both reverses and prevents the immediate stimulation of thymocytes by ConA.In quiescent thymocytes, MP strongly inhibited that part of the oxygen consumption used to drive the cycle of Na⁺ influx across the plasma membrane and Na⁺ efflux on the Na⁺K⁺-ATPase, but did not inhibit oxygen consumption used to drive protein synthesis. In ConA-stimulated thymocytes MP had the same effects and also strongly inhibited oxygen consumption dependent on the cycle of Ca²⁺ influx across the plasma membrane and Ca²⁺ efflux on the Ca²⁺-ATPase, but had little effect on oxygen consumption used to drive RNA and DNA synthesis.These results show that MP prevents cation cycling in thymocytes (either by preventing cation influx or by inhibiting cation pumps) and prevents mitogenic stimulation of the cells. The high MP concentration required and the speed of onset of the effect (lless than 30s) provide strong evidence that these effects of MP are not mediated by glucocorticoid receptors and subsequent activation of gene expression. They may be caused by direct effects of MP on the properties of the plasma membrane. These effects are considered to be, at least partially, responsible for the beneficial results that currently have been obtained using MP megadoses in various clinical situations.     

The influence of Methylprednisolone on the energy metabolism of Ehrlich ascites tumour cells

Using Ehrlich ascites tumour cells, the short-term effects of the therapeutic glucocorticoid Methylprednisolone (MP) on the cellular energy metabolism were studied. ATP-consuming processes involved in the rapid MP effects were identified indirectly from the effects of MP on cellular oxygen consumption related to the inhibition of respiration by selective inhibitors of Ca²⁺-ATPase and protein synthesis. The effects of MP on plasma membrane permeability for Ca²⁺ ions and phospholipid turnover were studied directly by using confocal laser scanning microscopy and tracerkinetic measurements, respectively. MP inhibited cellular oxygen consumption, suppressed the inhibitory effect of lanthanum but not that of cycloheximide on oxygen consumption, blocked the [Ca²⁺]_i rise in response to calcium ionophore A 23187, and decreased phospholipid turnover. MP acted instantly in a dose-dependent manner.The observed effects of MP are discussed in relation to the hypothesis that the drug has direct membrane effect affecting plasma membrane permeability and function.     

Identification of extracellular haemoglobin as the major high molecular weight cadmium-binding protein of the polychaete annelid Nereis diversicolor

1. A high molecular weight cadmium-binding protein called MP I was isolated from Nereis diversicolor exposed to 20 ppm of cadmium (CdCl₂) for 4 days via sea water.2. The protein had a molecular weight comprising between 20 × 10⁶ and 1.5 × 10⁶ Da. It shows high absorptions at 280 and 415 nm and contained iron in addition to cadmium.3. Two dimensional SDS-PAGE of unreduced and reduced MP I revealed a dissociation pattern similar to that of extracellular haemoglobins of polychaetes and oligochaetes.4. Furthermore, negatively stained MP I molecules examined by conventional transmission electron microscopy showed the common appearance of extracellular haemoglobins of annelids.5. Evidence of the extracellular haemoglobin nature for the MP I was found by the identical Chromatographie behaviour of MP I with the main Nereis blood component and, by the labelling of blood vessel content with ¹⁰⁹Cd visualized by autoradiography on paraffin-embedded sections of exposed Nereis.     

THE IN VIVO PROTEIN SYNTHETIC ACTIVITIES OF FREE VERSUS MEMBRANE-BOUND RIBONUCLEOPROTEIN IN A PLASMA-CELL TUMOR OF THE MOUSE

Cytoplasmic extracts of the transplantable RPC-20 plasma-cell tumor were fractionated by sucrose density gradient centrifugation. Four major fractions were distinguished: (a) microsomes and mitochondria; (b) membrane-free polyribosomes; (c) free monomeric ribosomes; and (d) soluble fraction. The fractions were analyzed for RNA and lipid phosphorus, and their particulate components were characterized by electron microscopy. Particular attention was paid to the problem of membrane contamination of the free polyribosome fraction. It was shown that this contamination was small in relation with the total content of ribosomes in the fraction, and that it consisted primarily of smooth-surfaced membranes which were not physically associated with the polyribosomes themselves. In vivo incorporation studies were carried out by injecting tumor-bearing animals intravenously with leucine-C¹⁴, removing the tumors at various times thereafter, and determining the distribution of protein radioactivity among the gradient-separated cytoplasmic fractions. The free polyribosome and the microsome-mitochondria fractions constituted active centers for protein synthesis. It was shown that nascent protein of the free polyribosome fractions was not associated significantly with the contaminating membranes. The kinetics of labeling during incorporation times up to 11 min suggested that protein synthesized on the free polyribosomes was rapidly transferred in vivo to the soluble fraction of the cell, while protein synthesized by the microsomes and mitochondria remained localized within these elements. It was estimated that the free polyribosome fraction and the microsome-mitochondria fraction accounted for approximately equal proportions of the total cytoplasmic protein synthesis in vivo.     

LIPOPROTEIN INHIBITOR OF BQNE MARROW CELLS IN TUMOR-BEARING RATS

The role of a plasma inhibitor of erythropoiesis is evaluated in rats with Walker-256 carcinoma (W-256). Plasma from tumor-bearing rats was treated by gel filtration chromatography (Sephadex G-150) and fractions were combined into four pools on the basis of mol. wt. Inhibitory activity was assayed by adding an aliquot of the plasma fractions to normal rat marrow cells which were cultured for 24 hr with and without erythropoietin. ⁵⁹Fe-heme synthesis, [³H]thymidine DNA synthesis, and ¹⁴C-leucine protein synthesis were studied. The results indicated that cultures containing the high mol. wt. pool (>400,000 daltons) had significantly decreased heme, DNA and protein synthesis. This inhibitor also diminished the response to erythropoietin in polycythemic mice. The lower mol. wt. pool stimulated heme synthesis in vitro. To identify the inhibitor further, plasma lipo-protein classes were isolated by density gradient ultracentrifugation. The very low density lipoprotein (VLDL) and chylomicron fractions markedly inhibited DNA, protein and heme synthesis. Low density and high density lipoprotein fractions were inactive. A lipoprotein inhibitor of erythropoiesis was also identified in cancerous ascitic fluid, and to a lesser degree, in normal rat plasma. We suggest that this VLDL inhibitor of marrow erythropoiesis is a contributing factor in the anaemia of cancer.     

Human heat shock gene expression and the modulation of plasma membrane Na+, K+-ATPase activity

Benzodiazepine receptor solubilized from bovine cortical membranes was bound to a new benzodiazepine affinity column, the synthesis of which is described. Bio-specific elution with the benzodiazepine compound chlorazepate resulted in the elution of fractions highly enriched in specific binding for the GABA receptor agonist muscimol. Specific activity for [³H]muscimol binding was >1.3 nmol/mg protein. It is shown that [³H]flunitrazepam binding activity can be recovered by removal of chlorazepate from the purified fraction. These results strongly support a model which suggests that the 2 binding sites reside on the same physical entity.     

Biosynthesis of thyroglobulin. Incorporation of [1-14C]galactose, [1-14C]mannose and [4,5-3H2]leucine into soluble proteins by rat thyroids in vitro

1. Rat thyroid lobes were incubated for various periods of time in Krebs–Ringer bicarbonate containing [³H]leucine and either [1-¹⁴C]galactose or [1-¹⁴C]mannose. Radioactivity in soluble proteins was determined after their separation by sucrose-gradient centrifugation. 2. The time-course of incorporation of label from [¹⁴C]-mannose into soluble thyroid proteins was parallel to that observed for [³H]leucine. There was a lag of at least 30min. before either label appeared in non-iodinated thyroglobulin (protein 17–18s). During this time both labels were detected in two fractions known to contain subunit precursors of thyroglobulin (fractions 12s and 3–8s). Radioactivity from double-labelled fractions 12s and 3–8s was transferred to protein 17–18s during subsequent incubation in an unlabelled medium. 3. In contrast, most of the [¹⁴C]galactose was immediately incorporated into protein 17–18s. 4. During the first hour of incubation, puromycin almost completely inhibited the incorporation of label from [³H]leucine and [¹⁴C]mannose into all protein fractions, but had little effect on the incorporation of [¹⁴C]galactose into protein 17–18s. 5. These results indicate that mannose is incorporated into the carbohydrate groups of protein 17–18s at an earlier stage in its formation than galactose. It is suggested that the synthesis of the carbohydrate groups of ghyroglobulin begins soon after formation of the polypeptide components, more than 30min. before these are aggregated to protein 17–18s; carbohydrate synthesis then proceeds in a stepwise manner, galactose being incorporated at about the time of aggregation of subunits to protein 17–18s. Most, if not all, the carbohydrate is added to thyroglobulin before it is iodinated.     

Synthesis of protein and RNA for initiation and growth of the protonema during germination of bracken fern spore

Cycloheximide inhibited initiation and elongation of the protonemal cell during germination of the spores of bracken fern. Incorporation of ¹⁴C-leucine into protein was also profoundly affected by the drug. Concentration of actinomycin D sufficient to inhibit incorporation of ³Huridine into heavy RNA fractions of spores did not prevent initiation of the protonema, but inhibited its subsequent elongation. Protein synthesis during initiation and growth of protonema was not appreciably sensitive to actinomycin D. As in the case of rhizoid initiation, protein synthesis necessary for initiation of protonema during germination appears to involve preformed messenger RNA.     

Studies on Protein Synthesis by Senescing and Kinetin-treated Barley Leaves

Using sterile conditions, changes in total protein synthesis were followed. over an 8 day incubation period, in detached first seedling leaves of barley from 8 day old plants during senescence and after kinetin treatment. In senescing leaves, total ¹⁴C-alanine incorporation was enhanced by nearly 20% within 6 h of leaf detachment and by about 30 % after 24 h. Kinetin treatment stimulated protein synthesis even more, for total incorporation was promoted ca. 50 % after 6 h and by ca. 60 % after 24 h incubation. The leaf supernatant (30,000 ×g for 30 min) proteins were separated on DEAE-Sephadex (A-50) columns into approximately 14 fractions and changes in ¹⁴C labelling of these fractions were studied following leaf detachment and on incubation on water or kinetin for 6 days. In senescing leaves, ¹⁴C-incorporation into supernatant proteins was sustained, even as protein levels declined rapidly The varied stabilities of the different leaf proteins was suggested by the characteristically changing specific activities of the different protein fractions. Although kinetin greatly promoted incorporation into all protein fractions, no evidence was surmised of specific effects on individual leaf proteins. Studies of changes in total protein synthesis in attached senescing first seedling leaves taken from plants aged 7 to 27 days revealed a relatively small increase in ¹⁴C-incorporation. However, incorporation could be greatly increased in leaves up to 15 days old by detaching and preincubating such leaves for up to 2 days on water, prior to measurement. The promotion of ¹⁴C-incorporation into protcins follwing leaf excision could result from early changes in permeability and precursor pool size.     

Phospholipid composition and acyltransferase activity of lamellar bodies isolated from rat lung.

The role of the lamellar body of the type II pneumocyte in the synthesis and storage of the phospholipids of the surfactant lipoprotein lining the alveolar surface has been investigated. Electron microscopy has been used to establish the purity of the isolated lamellar body, microsomal, and mitochondrial fractions. Additional proof of lamellar body purity was obtained by enzyme marker studies. The phospholipid:protein ratio of each of the above fractions was determined as well as that of surfactant lipoprotein isolated from rat lung. Lamellar body phospholipid:protein ratio was highest, 3.7 μmol of lipid phosphorus/mg of lung protein. The phospholipid composition of the lamellar body fraction was found to be similar to that of the isolated surfactant lipoprotein. Lamellar body phosphatidylcholine and phosphatidylglycerol each contained over 90% saturated fatty acids. The lamellar body fraction was found to possess significant acyltransferase activity between [1-¹⁴C]palmitoyl-CoA and phosphatidylcholine. This activity was somewhat higher than in the microsomal fraction and much greater than in the mitochondrial fraction. The activity in all fractions was stimulated by Ca²⁺ and Mg²⁺. [1-¹⁴C]oleoyl-CoA did not serve as an effective acyl donor. When 1-palmitoyl-2-lysophosphatidylcholine was used as the acceptor molecule and [1-¹⁴C]palmitoyl-CoA the donor, acyltransferase activity was increased over that found with phosphatidylcholine as donor in all fractions. The microsomal fraction had the greatest activity and the lamellar body fraction the least. The data obtained support the hypothesis that the lamellar body is involved in the synthesis and storage of the phospholipids of the surfactant lipoprotein complex.     

Changes in the pattern of protein synthesis induced by 3-indolylacetic Acid

Experiments have been performed to investigate whether indoleacetic acid changes the balance between the rates of synthesis of different kinds of proteins. Sub-apical sections of etiolated peas were incubated with ¹⁴C- or ³H-labeled amino acid, and combined to give dual-labeled tissue. Cell fractions were prepared by differential centrifugation, and the dual-labeled protein of each fraction analyzed by gel-filtration. When 2 × 10⁻⁵ m indoleacetic acid was included with ¹⁴C-labeled amino acid, but not with the ³H-labeled amino acid, pronounced changes occurred in the pattern of incorporation of the ¹⁴C label into protein. These changes were greatest in the proteins of the particulate fraction which included nuclear material. Although the pattern of incorporation of lysine was shown to be different from that of leucine, the changes induced by indoleacetic acid were quantitatively similar whichever amino acid was used as a precursor. Dual-labeled protein was further fractionated using column chromatography on DEAE-cellulose. The results suggested that the effect of indoleacetic acid may not be completely general, and that the pattern of synthesis of many proteins may be unaltered by indoleacetic acid. When tissue was preincubated with 10 μg/ml actinomycin D for 30 minutes, incorporation of amino acid into protein was reduced but not abolished. Actinomycin D did, however, prevent the changes in the pattern of protein synthesis which were induced by indoleacetic acid.     

Protein synthesis in neuronal perikarya isolated from cerebral cortex of the immature rat

Abstract— Homogenates of neuronal perikarya isolated from the cerebral cortex of the 8-day-old rat were incubated with [³H]leucine, and the characteristics of the protein synthetic process were studied. Incorporation of leucine into protein was linear up to 90 min, proceeded optimally at pH 7.6 and was stimulated by K⁺ and NH₄⁺, unaffected by Li⁺ and inhibited by Na⁺. Puromycin, cycloheximide, RNAse, sulphhydryl blocking agents and phospholipase A exerted a pronounced inhibition, whereas chloramphenicol and phospholipase C had no effect. About 42 per cent of the total radioactive protein formed in the optimally fortified in uitro system was recovered in non-sedimentable form. Incorporation into the subcellular fractions of the neuronal perikarya increased steadily with increasing time of incubation. The microsomal fraction acquired the highest specific radioactivity (d.p.m./mg of protein), followed by the mitochondrial and the nuclear + cell debris fractions. The high-speed soluble fraction exhibited the lowest specific radioactivity. Although the addition of L-methionine to a suitably fortified incubation medium inhibited neuronal protein synthesis by about 80 per cent, the addition of D-methionhe, α-methyl-DL-methionine or L-tryptophan was relatively ineffective by comparison.     

Effects of cycloheximide,d-threo-chloramphenicol,erythromycin and actinomycin D on De-novo synthesis of cytoplasmic and mitochondrial proteins in the cotyledons of germinating pea seeds

Summary Inhibitors of, and radioactive substrates for, protein synthesis were introduced into germinating pea (Pisum sativum L.) seeds, and protein synthesis was allowed to proceed in vivo. Subsequent analyses of subcellular fractions showed the following: Cycloheximide strongly inhibited the incorporation of [¹⁴C]leucine into both mitochondrial and cytoplasmic proteins. d-Threo-chloramphenicol and erythromycin did not affect cytoplasmic protein synthesis, but partially inhibited mitochondrial protein synthesis. These results suggest that most of the new mitochondrial proteins were originally synthesized in the cytoplasm. Actinomycin D did not appreciably affect the initial incorporation of [¹⁴C]leucine into either mitochondrial or cytoplasmic proteins, suggesting that information (mRNA) concerning the initially synthesized proteins may be present in the quiescent seeds. The lack of appreciable incorporation of [³H]thymidine into mitochondrial DNA supported our previons report that mitochondria may not be synthesized de novo in pea cotyledons.     

Inhibitors of cytoplasmic protein synthesis purified from rat liver mitochondria

Summary Purified mitochondria from rat liver were found to contain protein synthesis inhibitors, that could be extracted by disruption of mitochondrial membranes and fractionated by gel filtration into two fractions of low and high molecular weight. Small size inhibitors were also released from the latter peak by high ionic strength followed by gel filtration. Both types of factors inhibit incorporation of radioactive amino acids into protein by liver cytoplasmic polysomes programmed with endogenous mRNA or poly U, and by rabbit reticulocyte lysates programmed with added globin mRNA and by incubations of Walker carcinoma cells. They decrease to the same level the cytoplasmic synthesis of proteins for the mitochondrial and extra-mitochondrial compartments in intact cells, but do not appear to inhibit substantially endogenous mitochondrial protein synthesis. Inhibitors were purified by paper chromatography and reverse phase high performance liquid chromatography into fractions which block with the same kinetics the incorporation of [¹⁴]leucine and [³⁵]methionine into protein in systems able to initiate protein synthesis, such as reticulocyte lysates or intact cells, but differ in this respect in incubations of liver ribosomes where re-binding of mRNA is a limiting step. Some of these factors behave as oligopeptides that are assumed to inhibit in vitro primarily the initiation stage but whose function in vivo is still undetermined.     

Movement of ribosomes over messenger RNA in polysomes of rel + and rel - Escherichia coli strains

The in vitro movement of ribosomes over messenger RNA was studied in both the presence and the absence of protein synthesis. For this purpose, labeled polysomes were extracted from rel⁺ and rel^? strains of Escherichia coli grown in the presence of radioactive uracil and incubated in a cell-free system containing tRNA, amino acids, soluble enzymes and a source of energy. The gradual conversion of the labeled polysomes into monosomes and ribosomal subunits was followed by subjecting the reaction mixture to sucrose gradient sedimentation after various incubation times and measuring the radioactivity present in the three relevant ribosomal fractions.It was found that when the conditions of incubation allow protein synthesis to occur, polysomes extracted from rel⁺ and rel^? cells are converted mainly into free monosomes, which can be made to dissociate into subunits by high-sodium or low-magnesium ion concentrations. Under conditions in which protein synthesis cannot occur because a mutant aminoacyl-tRNA synthetase has been rendered inactive, polysome conversion still occurs, though to a reduced extent. When the products of such residual run-off are examined, however, a difference is manifest between polysomes extracted from rel⁺ and from rel^? strains: whereas the polysomes from the rel^? strain are still converted into free monosomes even in the absence of protein synthesis, the polysomes from the rel⁺ strain are now converted mainly into subunits. It can be inferred, therefore, that ribosomes from rel^? bacteria, but not those from rel⁺ bacteria, continue movement over messenger RNA in the absence of protein synthesis.Studies of mixed extracts from rel^? and rel⁺ bacteria have shown that the character of the run-off process does not depend on the source of tRNA and soluble enzymes; the proportions of monosomes and subunits among the run-off products formed in the absence of protein synthesis depend only on the source of the polysomes. It is suggested that the mutation of the rel gene alters the functional architecture of ribosomes.     

Characterization of poly(A+)RNA in free messenger ribonucleoprotein and polysomes of mouse Taper ascites cells

Cytoplasmic extracts of mouse Taper ascites cells were centrifuged on sucrose gradients to give 0–80 S, monosome, and polysome fractions. CsCl equilibrium density centrifugation of formaldehyde-fixed material from the 0–80 S fraction demonstrated that the messenger RNA in the 0–80 S fraction was in the form of free ribonucleoprotein. The size of the poly(A⁺)RNA and the size of the poly(A) segments of these molecules were shown to be very similar in both the free mRNP² and polysome fractions. The labeling kinetics of the free mRNP poly(A⁺)RNA was similar to that of the polysomal poly(A⁺)RNA.The free mRNP poly(A⁺)RNA efficiently stimulated protein synthesis in the wheat germ cell-free system, supporting the view that it was mRNA. Two-dimensional gel electrophoresis was used to analyze the proteins whose synthesis was directed by free mRNP and polysomal poly(A⁺)RNA. The free mRNP poly(A⁺)RNA directed the synthesis of a simpler set of abundant protein products than did the polysomal poly(A⁺)RNA. Most of the free mRNP abundant protein products were also present in the polysomal products, though obvious quantitative differences were evident, indicating that each individual mRNA had its own characteristic distribution between polysomes and the translationally inactive RNP form.     

Differences in the subcellular localization of the stimulatory effects of glucose and pyruvate on protein synthesis in rat thymus cells in vitro

Thymocytes incubated as cell suspensions in vitro are known to be markedly dependent upon added glucose for maintenance of maximal rates of incorporation of radiolabelled amino acids into protein. This requirement is only partially satisfied by other added substrates, such as pyruvate. Evidence is presented that incorporation of amino acids into protein associated with the nuclear fraction isolated from these cells is more dependent upon added glucose than is labelling of protein found in the rest of the cell. The dependence of the labelling of nuclear protein upon glucose is shown by comparing the ability of glucose and pyruvate to stimulate the incorporation of [¹⁴C-L] valine into the protein of nuclear and cytoplasmic fractions of thymus cells. The fractions are isolated on sucrose gradients after incubating suspensions of cells in substrate-free medium for two hours, adding carbohydrates and labelled L-valine for 30 min and then stopping the incubation by breaking the cells with hypotonic shock. When the protein-synthetic stimulatory effects of glucose and pyruvate are compared, glucose is almost equally capable (90%) at stimulating rates of protein synthesis in nuclear compared to cytoplasmic fractions. Pyruvate is much less effective in nuclear than in cytoplasmic fractions (30%). Evidence is also presented from pulse-chase experiments that the glucosedependent labelling of protein associated with the nuclear fraction occurs within that fraction, as opposed to migration to the nuclear fraction after being synthesized elsewhere. It is suggested from these and other data that a unique ability of glucose to provide non-mitochondrial ATP to the nucleus may be central to the dependence of the labelling of nuclear protein on this substrate.     

Dose- and time-dependent synthesis of 20-hydroxyecdysone modulated polypeptides in the epidermis of Tenebrio molitor

Cellular (non-cuticular) polypeptides were isolated from mid-instar larval epidermis incubated in the presence or absence of 20-hydroxyecdysone (20HE) for 14–16 h in vitro. Polypeptides synthesized during the last few hours of incubation were labelled with [³⁵S]methionine, separated in cell lysates by two-dimensional polyacrylamide gel electrophoresis and detected fluorographically. Cells incubated with hormone incorporated 28% more label into polypeptide. The synthesis of over 250 polypeptides was detected in total cell lysates. Of these, 54 showed an altered level of synthesis in response to 20HE treatment. The synthesis of most (33) was depressed. The relative synthetic rate of most “down-regulated” 20HE-sensitive polypeptides began to drop at 10⁻³ μg/ml whereas that of most “up-regulated” polypeptides increased only at concentrations above 10⁻¹ μg/ml. An early response to 20HE, involving the de novo synthesis of a 43 kDa polypeptide, was first detectable after 2 h of exposure to hormone, and peaked after 4 h. The synthesis of this 43 kDa polypeptide was selectively enhanced by the addition of 10⁻² μg/ml cycloheximide to medium containing 20HE. The long-term effect (12–16 h) of 20HE on polypeptide synthesis in subcellular fractions of the epidermis was also examined. Polypeptide synthesis found in the nuclear, mitochondrial-lysosomal, microsomal and soluble fractions changed in response to 20HE. It appears that 20HE influences epidermal behaviour predominantly through its ability to modulate the synthetic rate of many cellular polypeptides, rather than by turning off the synthesis of a few pre-existing ones and switching on that of a few new ones.     

Deletion of the carboxyl‐terminal residue disrupts the amino‐terminal folding,self‐association,and thermal stability of an amphipathic antimicrobial peptide

Understanding the complex relationship between amino acid sequence and protein behaviors, such as folding and self‐association, is a major goal of protein research. In the present work, we examined the effects of deleting a C‐terminal residue on the intrinsic properties of an amphapathic α‐helix of mastoparan‐B (MP‐B), an antimicrobial peptide with the sequence LKLKSIVSWAKKVL‐NH2. We used circular dichroism and nuclear magnetic resonance to demonstrate that the peptide MP‐B^[1‐13] displayed significant unwinding at the N‐terminal helix compared with the parent peptide of MP‐B, as the temperature increased when the residue at position 14 was deleted. Pulsed‐field gradient nuclear magnetic resonance data revealed that MP‐B forms a larger diffusion unit than MP‐B^[1‐13] at all experimental temperatures and continuously dissociates as the temperature increases. In contrast, the size of the diffusion unit of MP‐B^[1‐13] is almost independent of temperature. These findings suggest that deleting the flexible, hydrophobic amino acid from the C‐terminus of MP‐B is sufficient to change the intrinsic helical thermal stability and self‐association. This effect is most likely because of the modulation of enthalpic interactions and conformational freedom that are specified by this residue. Our results implicate terminal residues in the biological function of an antimicrobial peptide. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.