Ketogenesis evaluation in perfused liver of diabetic rats submitted to short‐term insulin‐induced hypoglycemia

Ketogenesis, inferred by the production of acetoacetate plus ß‐hydroxybutyrate, in isolated perfused livers from 24‐h fasted diabetic rats submitted to short‐term insulin‐induced hypoglycemia (IIH) was investigated. For this purpose, alloxan‐diabetic rats that received intraperitoneal regular insulin (IIH group) or saline (COG group) injection were compared. An additional group of diabetic rats which received oral glucose (gavage) (100 mg kg^?1) 15 min after insulin administration (IIH + glucose group) was included. The studies were performed 30 min after insulin (1.0 U kg^?1) or saline injection. The ketogenesis before octanoate infusion was diminished (p < 0.05) in livers from rats which received insulin (COG vs. IIH group) or insulin plus glucose (COG vs. IIH + glucose group). However, the liver ketogenic capacity during the infusion of octanoate (0.3 mM) was maintained (COG vs. IIH group and COG vs. IIH + glucose group). In addition, the blood concentration of ketone bodies was not influenced by the administration of insulin or insulin plus glucose. Taken together, the results showed that inspite the fact that insulin and glucose inhibits ketogenesis, livers from diabetic rats submitted to short‐term IIH which received insulin or insulin plus glucose showed maintained capacity to produce acetoacetate and ß‐hydroxybutyrate from octanoate. Copyright © 2009 John Wiley & Sons, Ltd.     

ω‐Turn: A novel β‐turn mimic in globular proteins stabilized by main‐chain to side‐chain CH···O interaction

Mimicry of structural motifs is a common feature in proteins. The 10‐membered hydrogen‐bonded ring involving the main‐chain C?O in a β‐turn can be formed using a side‐chain carbonyl group leading to Asx‐turn. We show that the N? H component of hydrogen bond can be replaced by a C^γ‐H group in the side chain, culminating in a nonconventional C? H···O interaction. Because of its shape this β‐turn mimic is designated as ω‐turn, which is found to occur ～three times per 100 residues. Three residues (i to i + 2) constitute the turn with the C? H···O interaction occurring between the terminal residues, constraining the torsion angles ?_{i + 1}, ψ_{i + 1}, ?_{i + 2} and χ′_{1(i + 2)} (using the interacting C^γ atom). Based on these angles there are two types of ω‐turns, each of which can be further divided into two groups. C^β‐branched side‐chains, and Met and Gln have high propensities to occur at i + 2; for the last two residues the carbonyl oxygen may participate in an additional interaction involving the S and amino group, respectively. With Cys occupying the i + 1 position, such turns are found in the metal‐binding sites. N‐linked glycosylation occurs at the consensus pattern Asn‐Xaa‐Ser/Thr; with Thr at i + 2, the sequence can adopt the secondary structure of a ω‐turn, which may be the recognition site for protein modification. Location between two β‐strands is the most common occurrence in protein tertiary structure, and being generally exposed ω‐turn may constitute the antigenic determinant site. It is a stable scaffold and may be used in protein engineering and peptide design. Proteins 2015; 83:203–214. © 2014 Wiley Periodicals, Inc.     

Non‐invasive imaging of allogeneic transplanted skin graft by 131I‐anti‐TLR5 mAb

Although ¹⁸F‐fluorodeoxyglucose (¹⁸F‐FDG) uptake can be used for the non‐invasive detection and monitoring of allograft rejection by activated leucocytes, this non‐specific accumulation is easily impaired by immunosuppressants. Our aim was to evaluate a ¹³¹I‐radiolabelled anti‐Toll‐like receptor 5 (TLR5) mAb for non‐invasive in vivo graft visualization and quantification in allogeneic transplantation mice model, compared with the non‐specific radiotracer ¹⁸F‐FDG under using of immunosuppressant. Labelling, binding, and stability studies were performed. BALB/c mice transplanted with C57BL/6 skin grafts, with or without rapamycin treatment (named as allo‐treated group or allo‐rejection group), were injected with ¹³¹I‐anti‐TLR5 mAb, ¹⁸F‐FDG, or mouse isotype ¹³¹I‐IgG, respectively. Whole‐body phosphor‐autoradiography and ex vivo biodistribution studies were obtained. Whole‐body phosphor‐autoradiography showed ¹³¹I‐anti‐TLR5 mAb uptake into organs that were well perfused with blood at 1 hr and showed clear graft images from 12 hrs onwards. The ¹³¹I‐anti‐TLR5 mAb had significantly higher graft uptake and target‐to‐non‐target ratio in the allo‐treated group, as determined by semi‐quantification of phosphor‐autoradiography images; these results were consistent with ex vivo biodistribution studies. However, high ¹⁸F‐FDG uptake was not observed in the allo‐treated group. The highest allograft‐skin‐to‐native‐skin ratio (A:N) of ¹³¹I‐anti‐TLR5 mAb uptake was significantly higher than the ratio for ¹⁸F‐FDG (7.68 versus 1.16, respectively). ¹³¹I‐anti‐TLR5 mAb uptake in the grafts significantly correlated with TLR5 expression in the allograft area. The accumulation of ¹³¹I‐IgG was comparable in both groups. We conclude that radiolabelled anti‐TLR5 mAb is capable of detecting allograft with high target specificity after treatment with the immunosuppressive drug rapamycin.     

Synthesis and application of Nα‐Fmoc‐Nπ‐4‐methoxybenzyloxymethylhistidine in solid phase peptide synthesis

The 4‐methoxybenzyloxymethyl (MBom) group was introduced at the N^π‐position of the histidine (His) residue by using a regioselective procedure, and its utility was examined under standard conditions used for the conventional and the microwave (MW)‐assisted solid phase peptide synthesis (SPPS) with 9‐fluorenylmethyoxycarbonyl (Fmoc) chemistry. The N^π‐MBom group fulfilling the requirements for the Fmoc strategy was found to prevent side‐chain‐induced racemization during incorporation of the His residue even in the case of MW‐assisted SPPS performed at a high temperature. In particular, the MBom group proved to be a suitable protecting group for the convergent synthesis because it remains attached to the imidazole ring during detachment of the protected His‐containing peptide segments from acid‐sensitive linkers by treatment with a weak acid such as 1% trifluoroacetic acid in dichloromethane. We also demonstrated the facile synthesis of Fmoc‐His(π‐MBom)‐OH with the aid of purification procedure by crystallization to effectively remove the undesired τ‐isomer without resorting to silica gel column chromatography. This means that the present synthetic procedure can be used for large‐scale production without any obstacles. Copyright © 2012 European Peptide Society and John Wiley & Sons, Ltd.     

Permeation through Phospholipid Bilayers,Skin‐Cell Penetration,Plasma Stability,and CD Spectra of α‐ and β‐Oligoproline Derivatives

After a survey of the special role, which the amino acid proline plays in the chemistry of life, the cell‐penetrating properties of polycationic proline‐containing peptides are discussed, and the widely unknown discovery by the Giralt group (J. Am. Chem. Soc. 2002 , 124, 8876) is acknowledged, according to which fluorescein‐labeled tetradecaproline is slowly taken up by rat kidney cells (NRK‐49F). Here, we describe details of our previously mentioned (Chem. Biodiversity 2004 , 1, 1111) observation that a hexa‐β³‐Pro derivative penetrates fibroblast cells, and we present the results of an extensive investigation of oligo‐L ‐ and oligo‐D ‐α‐prolines, as well as of oligo‐β²h‐ and oligo‐β³h‐prolines without and with fluorescence labels ( 1 – 8 ; Fig. 1). Permeation through protein‐free phospholipid bilayers is detected with the nanoFAST biochip technology (Figs. 2–4). This methodology is applied for the first time for quantitative determination of translocation rates of cell‐penetrating peptides (CPPs) across lipid bilayers. Cell penetration is observed with mouse (3T3) and human foreskin fibroblasts (HFF; Figs. 5 and 6–8, resp.). The stabilities of oligoprolines in heparin‐stabilized human plasma increase with decreasing chain lengths (Figs. 9–11). Time‐ and solvent‐dependent CD spectra of most of the oligoprolines (Figs. 13 and 14) show changes that may be interpreted as arising from aggregation, and broadening of the NMR signals with time confirms this assumption.     

Synthesis,photophysics, electrochemistry,thermal stability and electroluminescent performances of a new europium complex with bis(β‐diketone) ligand containing carbazole group

We synthesized a new europium complex [Eu(ecbpd)₃(Phen)] with bis(β‐diketone) ligand containing a carbazole group, in which ecbpd and Phen are dehydro‐3,3′‐(9‐ethyl‐9H‐carbazole‐3,6‐diyl)bis(1‐phenylpropane‐1,3‐dione) and 1,10‐phenanthroline, respectively. Its UV/vis and photoluminescent spectra, quantum yield, luminescence lifetime, electrochemistry, thermal stability and electroluminescent performances were studied. This europium complex showed low efficiency luminescence, which is probably due to the mismatching energy levels of its ligand and Eu³⁺, as well as the double Eu³⁺ core resonance.     

Vitamin E and Hippophea rhamnoides L. extract reduce nicotine‐induced oxidative stress in rat heart

The effects of vitamin E and Hippophea rhamnoides L. extract (HRe‐1) on nicotine‐induced oxidative stress in rat heart were investigated. There were eight rats per group and supplementation period was 3 weeks. The groups were: nicotine [0.5 mg kg^?1day^?1, intraperitoneal (i.p.)]; nicotine plus vitamin E [75 mg kg^?1day^?1, intragastric (i.g.)]; nicotine plus HRe‐1 (250 mg kg^?1day^?1, i.g.); and the control group (receiving only vehicles). Nicotine increased the malondialdehyde level, which was prevented by both vitamin E and HRe‐1. Glutathione peroxidase (GPx) activity in nicotine plus vitamin E supplemented group was higher than the others. Glutathione S‐transferase (GST) activity in nicotine plus HRe‐1 supplemented group was increased compared with the control group. Catalase activity was higher in nicotine group compared with others. GPx activity in nicotine plus vitamin E supplemented group was elevated compared with the others. Total and non‐enzymatic superoxide scavenger activities in nicotine plus vitamin E supplemented group were lower than nicotine plus HRe‐1 supplemented group. Superoxide dismutase (SOD) activity was higher in nicotine plus HRe‐1 supplemented group compared with others. Glutathione reductase activity and nitric oxide level were not affected. Increased SOD and GST activities might have taken part in the prevention of nicotine‐induced oxidative stress in HRe‐1 supplemented group in rat heart. Flavonols such as quercetin, and isorahmnetin, tocopherols such as α‐tocopherol and β‐tocopherol and carotenoids such as α‐carotene and β‐carotene, reported to be present in H. rhamnoides L. extracts may be responsible for the antioxidant effects of this plant extract. Copyright © 2010 John Wiley & Sons, Ltd.     

Synthesis of an O‐acyl isopeptide by using native chemical ligation in an aqueous solvent system

O‐Acyl isopeptides, in which the N‐acyl linkage on the hydroxyamino acid residue (e.g. Ser and Thr) is replaced by an O‐acyl linkage, generally suppress unfavorable aggregation properties derived from the corresponding parent peptides. Here, we report the synthesis of an O‐acyl isopeptide of 34‐mer pyroGlu‐ADan (2), a component of amyloid deposits in hereditary familial Danish dementia, by using native chemical ligation. Native chemical ligation of pyroGlu¹‐ADan(1‐21)‐SCH₂CH₂SO₃^?Na⁺ (3) and Cys²²‐O‐acyl isopeptide (4), in which the amino group of the Ser²⁹ residue at the isopeptide moiety was protected by an allyloxycarbonyl group, proceeded well in an aqueous solvent to yield a ligated O‐acyl isopeptide (5). Subsequent disulfide bond formation and deprotection of the allyloxycarbonyl group followed by HPLC purification gave 2 with a reasonable overall yield. 2 was converted to the parent peptide 1 via an O‐to‐N acyl migration reaction. The sequential method, namely (i) native chemical ligation of the O‐acyl isopeptide, (ii) HPLC purification as the O‐acyl isopeptide form, and (iii) O‐to‐N acyl migration into the desired polypeptide, would be helpful to solve problems with HPLC purification of hydrophobic polypeptides in the process of chemical protein synthesis. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

REPRODUCTIVE ISOLATION BY SEX PHEROMONES IN THE CLOSTERIUM PERACEROSUM–STRIGOSUM–LITTORALE COMPLEX (ZYGNEMATALES,CHAROPHYCEAE)1

The Closterium peracerosum–strigosum–littorale (C. psl.) complex consists of unicellular algae and is known to be composed of several reproductively isolated mating groups of heterothallic strains. Group I‐E is completely isolated from mating groups II‐A and II‐B, groups II‐A and II‐B are partially isolated from each other, and only mating‐type plus (mt⁺) cells of group II‐A and mating‐type minus (mt^?) cells of group II‐B form zygotes. Based on the alignment of 1506 group I introns, significant phylogenetic relationships were observed among mating groups II‐A and II‐B, while mating group I‐E was distant from groups II‐A and II‐B. Sexual cell division in both mating‐type cells of group II‐A was stimulated in conditioned media in which cells of group II‐B had been cultured. When mt^? cells of group II‐B were stimulated in conditioned medium derived from group II‐A, mt⁺ cells of group II‐B did not respond to the conditioned medium. Conditioned media derived from group I‐E did not exhibit sexual cell division (SCD)–inducing activity against any strain except those within its own group. From the alignment of deduced amino acid sequences from orthologous protoplast‐release‐inducing protein (PR‐IP) Inducer genes, we detected a significant similarity among groups II‐A and II‐B, and mating group I‐E had low similarity to other mating groups. The existing degree of reproductive isolation can be partially explained by differences in molecular structures and physiological activities of sex pheromones of these heterothallic mating groups.     

Atp1a3‐deficient heterozygous mice show lower rank in the hierarchy and altered social behavior

Atp1a3 is the Na‐pump alpha3 subunit gene expressed mainly in neurons of the brain. Atp1a3‐deficient heterozygous mice (Atp1a3^+/?) show altered neurotransmission and deficits of motor function after stress loading. To understand the function of Atp1a3 in a social hierarchy, we evaluated social behaviors (social interaction, aggression, social approach and social dominance) of Atp1a3^+/? and compared the rank and hierarchy structure between Atp1a3^+/? and wild‐type mice within a housing cage using the round‐robin tube test and barbering observations. Formation of a hierarchy decreases social conflict and promote social stability within the group. The hierarchical rank is a reflection of social dominance within a cage, which is heritable and can be regulated by specific genes in mice. Here we report: (1) The degree of social interaction but not aggression was lower in Atp1a3^+/? than wild‐type mice, and Atp1a3^+/? approached Atp1a3^+/? mice more frequently than wild type. (2) The frequency of barbering was lower in the Atp1a3^+/? group than in the wild‐type group, while no difference was observed in the mixed‐genotype housing condition. (3) Hierarchy formation was not different between Atp1a3^+/? and wild type. (4) Atp1a3^+/? showed a lower rank in the mixed‐genotype housing condition than that in the wild type, indicating that Atp1a3 regulates social dominance. In sum, Atp1a3^+/? showed unique social behavior characteristics of lower social interaction and preference to approach the same genotype mice and a lower ranking in the hierarchy.     

Di‐2‐ethylhexyl phthalate (DEHP) exposure disturbs lipid metabolism in juvenile yellow catfish Tachysurus fulvidraco

This study was conducted to determine the mechanism by which di‐2‐ethylhexyl phthalate (DEHP) exposure influences lipid metabolism of juvenile yellow catfish Tachysurus fulvidraco. Fish were exposed to three DEHP concentrations (0, 0·1 and 0·5 mg l^?1 DEHP) for 8 weeks. Fatty acid synthase (FAS) activity significantly decreased with increasing DEHP concentrations, the highest value was in the Tween control group, whereas the lowest activities of carnitine palmitoyltransferase (CPT) and lipoprotein lipase (LPL) were in this group. The messenger (m)RNA levels of 6‐phospho‐gluconate dehydrogenase (6PGD), FAS and acetyl‐CoA carboxylase a (ACCa) significantly increased with increasing DEHP concentration, the highest values were in the 0·5 mg l^?1 DEHP group. The mRNA level of peroxisome proliferator‐activated receptor γ (PPARγ) was lower in Tween control than in fish exposed to 0·1 and 0·5 mg l^?1 DEHP. The highest mRNA level of ACCb was in the 0·1 mg l^?1 DEHP group. These results indicate that DEHP exposure can disturb lipid metabolism at the enzymatic and mRNA levels in Pelteobagrus fulvidraco.     

Two novel decarboxylase genes play a key role in the stereospecific catabolism of dehydrodiconiferyl alcohol in Sphingobium sp. strain SYK‐6

Sphingobium sp. strain SYK‐6 is able to use a phenylcoumaran‐type biaryl, dehydrodiconiferyl alcohol (DCA), as a sole source of carbon and energy. In SYK‐6 cells, the alcohol group of the B‐ring side chain of DCA was first oxidized to the carboxyl group, and then the alcohol group of the A‐ring side chain was oxidized to generate 5‐(2‐carboxyvinyl)‐2‐(4‐hydroxy‐3‐methoxyphenyl)‐7‐methoxy‐2,3‐dihydrobenzofuran‐3‐carboxylate (DCA‐CC). We identified phcF, phcG and phcH, which conferred the ability to convert DCA‐CC into 3‐(4‐hydroxy‐3‐(4‐hydroxy‐3‐methoxystyryl)‐5‐methoxyphenyl)acrylate (DCA‐S) in a host strain. These genes exhibited no significant sequence similarity with known enzyme genes, whereas phcF and phcG, which contain a DUF3237 domain of unknown function, showed 32% amino acid sequence identity with each other. The DCA‐CC conversion activities were markedly decreased by disruption of phcF and phcG, indicating that phcF and phcG play dominant roles in the conversion of DCA‐CC. Purified PhcF and PhcG catalysed the decarboxylation of the A‐ring side chain of DCA‐CC, producing DCA‐S, and showed enantiospecificity towards (+)‐ and (–)‐DCA‐CC respectively. PhcF and PhcG formed homotrimers, and their K_m for DCA‐CC were determined to be 84 μM and 103 μM, and V_max were 307 μmol?min^?1?mg^?1 and 137 μmol?min^?1?mg^?1 respectively. In conclusion, PhcF and PhcG are enantiospecific decarboxylases involved in phenylcoumaran catabolism.     

RAC1mutation is not a predictive biomarker for PI3’‐kinase‐β‐selective pathway‐targeted therapy

Mutational activation of RAC1 is detected in ~7% of cutaneous melanoma, with the most frequent mutation (RAC1^C85T) encoding for RAC1^P29S. RAC1^P29S is a fast‐cycling GTPase that leads to accumulation of RAC1^P29S‐GTP, which has potentially pleiotropic regulatory functions in melanoma cell signaling and biology. However, the precise mechanism by which mutationally activated RAC1^P29S propagates its pro‐tumorigenic effects remains unclear. RAC1‐GTP is reported to activate the beta isoform of PI3’‐kinase (PIK3CB/PI3Kβ) leading to downstream activation of PI3’‐lipid signaling. Hence, we employed both genetic and isoform‐selective pharmacological inhibitors to test if RAC1^P29S propagates its oncogenic signaling in melanoma through PI3Kβ. We observed that RAC1^P29S‐expressing melanoma cells were largely insensitive to inhibitors of PI3Kβ. Furthermore, RAC1^P29S melanoma cell lines showed variable sensitivity to pan‐class 1 (α/β/γ/δ) PI3’‐kinase inhibitors, suggesting that RAC1‐mutated melanoma cells may not rely on PI3’‐lipid signaling for their proliferation. Lastly, we observed that RAC1^P29S‐expressing cell lines also showed variable sensitivity to pharmacological inhibition of the RAC1 → PAK1 signaling pathway, questioning the relevance of inhibitors of this pathway for the treatment of patients with RAC1‐mutated melanoma.     

Dopamine for “Wanting” and Opioids for “Liking”: A Comparison of Obese Adults With and Without Binge Eating

Obesity research suffers from an overinclusion paradigm whereby all participants with a BMI beyond a certain cutoff value (e.g., 30) are typically combined in a single group and compared to those of normal weight. There has been little attempt to identify meaningful subgroups defined by their salient biobehavioral differences. In order to address this limitation, we examined genetic and psychological indicators of hedonic eating in obese adults with (n = 66) and without (n = 70) binge eating disorder (BED). Our analyses focused on dopamine (DA) and opioid genetic markers because of their conjoint association with the functioning of brain reward mechanisms. We targeted three functional polymorphisms related to the D2 receptor (DRD2) gene, as well as the functional A118G polymorphism of the mu‐opioid receptor (OPRM1) gene. We found that significantly more obese controls had the “loss‐of‐function” A1 allele of Taq1A compared to their BED counterparts, whereas the “gain‐of‐function” G allele of A118G occurred with greater frequency in the BED group. A significant gene–gene combination χ² analysis also indicated that of those participants with the gain‐gain genotype (G⁺ and A1), 80% were in the BED group whereas only 35% with the loss‐loss genotype (G^? and A1⁺) were in this group. Finally, BED subjects had significantly higher scores on a self‐report measure of hedonic eating. Our findings suggest that BED is a biologically based subtype of obesity and that the proneness to binge eating may be influenced by a hyper‐reactivity to the hedonic properties of food—a predisposition that is easily exploited in our current environment with its highly visible and easily accessible surfeit of sweet and fatty foods.     

Synthesis of Catechin‐Rare Earth Complex with Efficient and Broad‐Spectrum Anti‐Biofilm Activity

Biofilm is the crucial reason of clinical infections. Herein, green tea based polyphenol (catechin) and rare earth (RE) metal ions were employed for the preparation of catechin–RE complexes with significant anti‐biofilm properties. The complexes were characterized by FT‐IR, Raman spectroscopy, X‐ray photoelectron spectroscopy (XPS) and dynamic light scattering (DLS), which suggested that catechin coordinated with RE³⁺ through its ortho phenolic hydroxy groups. The prepared catechin‐RE showed significant effects in anti‐biofilm growth against P. aeruginosa (Gram‐negative bacteria), S. sciuri (Gram‐positive bacteria), and A. niger (fungi), which significantly exceeded the utilization of catechin or RE³⁺. Morphological observations indicated that catechin supplied cell affinity to transfer RE³⁺ and helped to damage cell membrane, which act as a carrier to exert cytotoxicity of RE³⁺ to realize anti‐biofilm. Differential gene expression analysis described gene expression changes induced by catechin‐RE, including 56, 272 and 2160 downregulated genes for P. aeruginosa, S. sciuri and A. niger, respectively, which suggested critical changes in cellular metabolism, growth and other processes. These results illustrate the outstanding superiority of catechin‐RE complexes in anti‐infection aspect, i. e., the green tea based rare earth complexes are promising candidates for anti‐biofilm applications to address serious challenges in the prevention of multiple infections.     

Triglyceride‐to‐HDL‐cholesterol Ratio and Metabolic Syndrome as Contributors to Cardiovascular Risk in Overweight Patients

Insulin resistance increases cardiovascular risk of obese patients. Triglyceride to high‐density lipoprotein cholesterol ratio (TG/HDL) ≥3.0 (in mg/dl) is a marker of insulin resistance in overweight persons. We aimed at assessing cardiovascular risk profile in 301 overweight elderly Neapolitan outpatients, according to TG/HDL ratio and metabolic syndrome (MS), diagnosed by National Cholesterol Education Program (NCEP) and International Diabetes Federation (IDF) criteria. TG/HDL ratio was ≥3.0 in 97 patients (group A) and <3.0 in 204 (group B). Overall, 93–97% of group A patients and 38–51% of group B patients had MS, depending on the diagnostic criterion. Group A patients with MS had significantly higher waist‐to‐hip ratio, total and non‐HDL cholesterol than group B patients with MS. In group B, MS and non‐MS patients had similar waist‐to‐hip ratio, blood pressure, total and non‐HDL cholesterol. Ten year coronary risk, calculated by the Framingham equations (n = 243), was 10.3 ± 5% in group B, non‐MS patients; 13.1 ± 6% in group B, MS patients; 19.9 ± 8% in group A (F = 32.8; P < 0.001). At the multiple regression analysis, TG/HDL ratio was associated with coronary risk (r² = 0.227) more closely than gender, blood pressure, waist‐to‐hip ratio, non HDL cholesterol, and MS considered as a whole. A separate regression analysis showed that the logarithmically transformed TG/HDL ratio, an index of the HDL cholesterol esterification rate, is also associated with coronary risk (r² = 0.252). Thus, TG/HDL ratio could help to characterize high‐risk overweight patients deserving a special therapeutic effort. Cardiovascular risk profile of insulin‐sensitive patients, identified by lower values of this parameter, is only moderately affected by MS.     

Formation of truncated peptide by‐products via sequence‐specific formyl group transfer from Trp(For) residues to Nα in the course of Boc‐SPPS

(N^In)‐Formyl protective group of tryptophan has been introduced as a base/nucleophile‐labile protective group. It has long been known that a free Nα‐amino group of the peptide can serve as a nucleophile: an irreversible formyl N^In → NH₂ transfer is consistently observed when deformylation is performed last on an otherwise deprotected peptide that possesses free Nα‐amino group. Obviously, this particular side reaction should be expected any time free amino group is exposed to Trp(For), but, at the best of our knowledge, has never been reported in the course of Boc‐SPPS. In the present communication, we describe a set of appropriately designed model experiments that permitted to detect the title side reaction both in solution and in solid‐phase reactions. We observed intermolecular formyl group transfer with a model compound, Trp(For)‐NH₂. Importantly, we also observed this migration on solid support with the rate roughly estimated to be up to 1% of residues per minute. We also observed that the formyl‐group transfer reaction occurred in a sequence‐dependent manner and was suppressed to a non‐detectable level using ‘in situ neutralization’ technique. Because this side reaction is sequence dependent, there might be situations when the rate of the formation of N_α‐formyl termination by‐products is significant. In other cases, the N_α‐For truncated by‐products would not contaminate the final peptide significantly but still could be a source of microheterogeneity. Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.     

Desensitization of β‐adrenergic receptors in lung injury induced by 2‐chloroethyl ethyl sulfide,a mustard analog

2‐Choloroethyl Ethyl Sulfide (CEES) exposure causes inflammatory lung diseases, including acute respiratory distress syndrome (ARDS) and pulmonary fibrosis. This may be associated with oxidative stress, which has been implicated in the desensitization of beta‐adrenergic receptors (β‐ARs). The objective of this study was to investigate whether lung injury induced by intratracheal CEES exposure (2 mg/kg body weight) causes desensitization of β‐ARs. The animals were sacrificed after 7 days and lungs were removed. Lung injury was established by measuring the leakage of iodinated‐bovine serum albumin ([¹²⁵I]‐BSA) into lung tissue. Receptor‐binding characteristics were determined by measuring the binding of [³H] dihydroalprenolol ([³H] DHA) (0.5–24 nM) to membrane fraction in the presence and absence of DLDL ‐propranolol (10 μ M). Both high‐ and low‐affinity β‐ARs were identified in the lung. Binding capacity was significantly higher in low‐affinity site in both control and experimental groups. Although CEES exposure did not change K_D and B_max at the high‐affinity site, it significantly decreased both K_D and B_max at low affinity sites. A 20% decrease in β₂‐AR mRNA level and a 60% decrease in membrane protein levels were observed in the experimental group. Furthermore, there was significantly less stimulation of adenylate cyclase activity by both cholera toxin and isoproterenol in the experimental group in comparison to the control group. Treatment of lungs with 3‐isobutyl‐1‐methylxanthine (IBMX), an inhibitor of phosphodiesterase (PDE) could not abolish the difference between the control group and the experimental group on the stimulation of the adenylate cyclase activity. Thus, our study indicates that CEES‐induced lung injury is associated with desensitization of β₂‐AR. © 2009 Wiley Periodicals, Inc. J Biochem Mol Toxicol 23:59–70, 2009; Published online in Wiley InterScience ( www.interscience.wiley.com ). DOI 10.1002/jbt.20265     

Tumor‐Targeting Salmonella typhimurium A1‐R Promotes Tumoricidal CD8+ T Cell Tumor Infiltration and Arrests Growth and Metastasis in a Syngeneic Pancreatic‐Cancer Orthotopic Mouse Model

The present study determined the effect of the tumor‐targeting strain Salmonella typhimurium A1‐R (S. typhimurium A1‐R) on CD8⁺ tumor‐infiltrating lymphocytes (TILs) in a syngeneic pancreatic‐cancer orthotopic mouse model. The effect of tumor‐targeting S. typhimurium A1‐R on CD8⁺ TILs was determined on the Pan02 murine pancreatic‐adenocarcinoma implanted orthotopically in the pancreatic tail of C57BL/6 immunocompromised mice. Three weeks after orthotopic implantation, mice were randomized as follows G1: untreated control group (n = 8); and G2: S. typhimurium A1‐R‐treatment group (n = 8, 1 × 10⁷ colony forming units [CFU]/body, iv, weekly, 3 weeks). On the 22nd day from initial treatment, all mice were sacrificed and tumors were harvested. The tumor‐volume ratio was defined as ratio of tumor volume on the 22nd day relative to the 1st day. The tumor volume ratio was significantly lower in the S. typhimurium A1‐R‐treated group (G2) (3.0 ± 2.8) than the untreated control (G1) (39.9 ± 30.7, P < 0.01). Hematoxylin and easin (H&E) staining on tumor sections was performed to evaluate tumor destruction which was classified according to the Evans grading system and found to be much greater in the S. typhimurium A1‐R‐treated mice (G2). Six mice in G1 had peritoneal dissemination, whereas no mice showed peritoneal dissemination in G2 (P < 0.01). Immunohistochemical staining with anti‐mouse CD8⁺ antibody was performed in order to detect TILs determined by calculating the average number of CD8⁺ cells in three high power fields (200×) in the treated and untreated tumors. The TIL score was significantly higher in G2 (133.5 ± 32.2) than G1 (45.1 ± 19.4, P < 0.001). The present study demonstrates that S. typhimurium A1‐R promotes CD8⁺ T cell infiltration and inhibition of tumor growth and metastasis. J. Cell. Biochem. 119: 634–639, 2018. © 2017 Wiley Periodicals, Inc.