Persistence of synchronization of the daily rhythms of body temperature and sleep‐wake in college students

Abstract

Bedtime, risetime, and body temperature of college students exposed to a regular 24‐h life schedule were recorded for 22–25 consecutive days. Average bedtime was 1:37 am, average risetime was 8:53 am, and average temperature acrophase was 5:01 pm. There was no evidence of desynchronization of the body temperature and activity rhythms.     

Internal Desynchronization of Circadian Rhythms and Tolerance to Shift Work

Intolerance to shift work may result from individual susceptibility to an internal desynchronization. Some shift workers (SW) who show desynchronization of their circadian rhythms (e.g., sleep‐wake, body temperature, and grip strength of both hands) exhibit symptoms of SW intolerance, such as sleep alteration, persistent fatigue, sleep medication dependence, and mood disturbances, including depression. Existing time series data previously collected from 48 male Caucasian French SW were reanalyzed specifically to test the hypothesis that internal synchronization of circadian rhythms is associated with SW intolerance and symptoms. The entry of the subjects into the study was randomized. Three groups were formed thereafter: SW with good tolerance (n=14); SW with poor tolerance, as evident by medical complaints for at least one year (n=19); and former SW (n=15) with very poor tolerance and who had been discharged from night work for at 1.5 yr span but who were symptom‐free at the time of the study. Individual and longitudinal time series of selected variables (self‐recorded sleep‐wake data using a sleep log, self‐measured grip strength of both hands using a Colin Gentile dynamometer, and oral temperature using a clinical thermometer) were gathered for at least 15 days, including during one or two night shifts. Measurements were performed 4–5 times/24 h. Power spectra that quantify the prominent period (τ) and t‐test, chi square, and correlation coefficient were used as statistical tools. The mean (±SEM) age of SW with good tolerance was greater than that of SW with poor tolerance (44.9±2.1 yrs vs. 40.1±2.6 yrs, p<.001) and of former SW discharged from night work (very poor tolerance; 33.4±1.7, p<.001). The shift-work duration (yrs) was longer in SW with good than poor tolerance (19.9±2.2 yrs vs. 15.7±2.2; p<0.002) and former SW (10.7±1.2; p<.0001). The correlation between subject age and shift-work duration was stronger in tolerant SW (r=0.97, p<.0001) than in non‐tolerant SW (r=0.80, p<0.001) and greater than that of former SW (r=0.72, p<.01). The mean sleep‐wake rhythm τ was 24 h for all 48 subjects. The number of desynchronized circadian rhythms (τ differing from 24 h) was greater in non‐tolerant than in tolerant SW (chi square=38.9, p<.0001). In Former SW (i.e., 15 individuals assessed in follow‐up studies done 1.5 to 20 yrs after return to day work), both symptoms of intolerance and internal desynchronization were reduced or absent. The results suggest that non‐tolerant SW are particularly sensitive to the internal desynchronization of their circadian time organization.     

Antitumor‐Promoting Effects and Cytotoxic Activities of Dammar Resin Triterpenoids and Their Derivatives

Nineteen known triterpenoids, 1 – 19 , and one known sesquiterpenoid, 20 , were isolated from dammar resin obtained from Shorea javanica K. & V. (Dipterocarpaceae). One of the acidic triterpenoids, dammarenolic acid ( 1 ), was converted to fourteen derivatives, namely, an alcohol, 21 , an aldehyde, 22 , and twelve L ‐amino acid conjugates, 23 – 34 . Compounds 1 – 34 were examined for their inhibitory effects on the induction of Epstein–Barr virus early antigen (EBV‐EA) by 12‐O‐tetradecanoylphorbol 13‐acetate (TPA) in Raji cells, a known primary screening test for antitumor promoters. All of the compounds tested, except for compounds 4, 5, 12 – 14, 16 , and 17 , showed inhibitory effects against EBV‐EA activation with potencies either comparable with or stronger than that of β‐carotene, a known natural antitumor promoter. In addition, (20S)‐20‐hydroxy‐3,4‐secodammara‐4(28),24‐dien‐3‐al ( 22 ) exhibited inhibitory effects on skin tumor promotion in an in vivo two‐stage mouse skin carcinogenesis test based on 7,12‐dimethylbenz[a]anthracene (DMBA) as initiator, and with TPA as promoter. Furthermore, evaluation of the cytotoxic activities of compounds 1 – 34 against human cancer cell lines showed that reduction (i.e., 21 and 22 ) or conjugation with L ‐amino acids (i.e., 23 – 34 ) of compound 1 enhanced the cytotoxicity against human melanoma cell line CRL1579.     

Synthesis of chiral pyrazolo[4,3-e][1,2,4]triazine sulfonamides with tyrosinase and urease inhibitory activity

A new series of sulfonamide derivatives of pyrazolo[4,3-e][1,2,4]triazine with chiral amino group has been synthesized and characterized. The compounds were tested for their tyrosinase and urease inhibitory activity. Evaluation of prepared derivatives demonstrated that compounds (8b) and (8j) are most potent mushroom tyrosinase inhibitors whereas all of the obtained compounds showed higher urease inhibitory activity than the standard thiourea. The compounds (8a), (8f) and (8i) exhibited excellent enzyme inhibitory activity with IC₅₀ 0.037, 0.044 and 0.042?μM, respectively, while IC₅₀ of thiourea is 20.9?μM.     

Identification of a cell wall peroxidase in red calli of Prunus incisa Thunb.

Red calli occur frequently in callus cultures of Prunus incisa Thunb. Calli that become red in color stop growing and turn brown while calli that remain green continue to grow. This study was carried out to compare the accumulation of antioxidant activity in red and green calli. The anthocyanin content, peroxidase isoforms and peroxidase activity were different in red and green calli. Red calli contained higher levels of anthocyanins, cell wall peroxidase activity and lower soluble peroxidase activity than green calli. A basic cell wall peroxidase (pI 10.0) was present only in red calli. Two acidic peroxidases (pI 6.0 and 6.8) had higher accumulation in green calli than in red calli. In the cell wall fraction of red calli, a peroxidase isoform with an apparent molecular mass of 30 kDa was found. MALDI -TOF mass spectrometry and internal amino acid sequence analysis indicate that this protein has a very high similarity with the cell wall peroxidase of Beta vulgarisL .     

鹿茸多肽对缺铁性贫血大鼠的治疗作用及机制研究

摘要 目的：研究鹿茸多肽（PAP）对缺铁性贫血（IDA）大鼠的治疗作用并探讨其可能机制。方法：使用缺铁饲料诱导IDA大鼠模型,将40只IDA大鼠随机分为模型组（灌胃等体积的生理盐水）,Low-PAP组、Medium-PAP组和High-PAP组（分别灌胃30、60和120 mg/kg的PAP）,每组10只,另选取10只正常饲料喂养的同龄健康大鼠作为对照组（灌胃等体积的生理盐水）。每天灌胃1次,疗程为4周。末次给药24 h后,测量各组大鼠的体重、肝脏和脾脏指数,对肝脏和脾脏组织进行苏木素伊红（HE）染色。通过ELISA法检测血红蛋白（Hb）和促红细胞生成素（EPO）含量,通过比色法检测血清铁（SI）含量,通过透射电子显微镜观察肝脏和脾脏线粒体超微结构。使用相应试剂盒检测血清氧化应激指标水平。通过Western blot检测骨髓转铁蛋白受体（TFR）蛋白表达水平。结果：与模型组相比,Low-PAP组、Medium-PAP组和High-PAP组大鼠体重均升高,肝脏和脾脏指数均降低（P<0.05）,且大鼠的肝脏和脾脏形态和线粒体超微结构明显改善,Hb、EPO和SI水平均升高（P<0.05）。与模型组相比,Low-PAP组、Medium-PAP组和High-PAP组大鼠的血清超氧化物歧化酶（SOD）、过氧化氢酶（CAT）和谷胱甘肽过氧化物酶（GSH-PX）水平均升高,而丙二醛（MDA）降低（P<0.05）。与模型组相比,Low-PAP组、Medium-PAP组和High-PAP组大鼠的骨髓TFR蛋白相对表达量降低（P<0.05）。结论：本研究表明PAP可有效减轻IDA大鼠的临床症状,促进红细胞生成,增强造血功能,改善铁代谢,提高抗氧化能力,促进线粒体合成。     

The structure and peroxidase activity of a 33‐kDa catalase‐related protein from Mycobacterium avium ssp. paratuberculosis

True catalases are tyrosine‐liganded, usually tetrameric, hemoproteins with subunit sizes of ～55–84 kDa. Recently characterized hemoproteins with a catalase‐related structure, yet lacking in catalatic activity, include the 40–43 kDa allene oxide synthases of marine invertebrates and cyanobacteria. Herein, we describe the 1.8 Å X‐ray crystal structure of a 33 kDa subunit hemoprotein from Mycobacterium avium ssp. paratuberculosis (annotated as MAP‐2744c), that retains the core elements of the catalase fold and exhibits an organic peroxide‐dependent peroxidase activity. MAP‐2744c exhibits negligible catalatic activity, weak peroxidatic activity using hydrogen peroxide (20/s) and strong peroxidase activity (～300/s) using organic hydroperoxides as co‐substrate. Key amino acid differences significantly impact prosthetic group conformation and placement and confer a distinct activity to this prototypical member of a group of conserved bacterial “minicatalases”. Its structural features and the result of the enzyme assays support a role for MAP‐2744c and its close homologues in mitigating challenge by a variety of reactive oxygen species.     

The function of free carboxyl groups in the action of peroxidase and indole-3-acetic acid oxidase

The extracellular peroxidase from cultures of Inonotus radiatus and of peanut (Arachis hypogeaL.) cells as well as the mycelial peroxidase from Trametes versicolor were used for studies of immobilizing this protein either by its free amino or its carboxyl groups. The immobilization process was carried out either on keratin proteins derived from feathers or on polyamide coated over silica gel. Coupling was established either through the free amino or carboxyl groups. In general the indolyl-3-acetic acid oxidase activity of fungal peroxidases exceeds that of peanut peroxidase. When the peroxidase of the three sources was immobilized on the matrices by the free amino groups, little if any effect on the IAA oxidase activity could be measured. However, immobilization through the carboxyl groups resulted in a drastic reduction of indole-3-acetic acid oxidase activity. Since identical amounts of peroxidase were linked in all cases, the loss of indolyl-3-acetic acid oxidase activity implies that the carboxyl group is essential for the active site.     

Euchronism,Allochronism, and Dyschronism: Is Internal Desynchronization of Human Circadian Rhythms a Sign of Illness?

The authors define a subject as euchronic when the circadian parameters—tau (τ=period), Ø (acrophse or peak time), A (amplitude), and M (MESOR=24 h rhythm‐adjusted mean)—of a set of circadian variables are within the confidence limits of appropriate reference values of healthy subjects (HS). We define internal desynchronization as a state in which the circadian τ of a set of rhythms differs from 24 h and when the τ of a given variable differs from that of other variables. Such a state was first observed in singly isolated HS without access to time cues and clues. Herein, data and analyses are presented demonstrating that internal desynchronization appears to be a rather common phenomenon in HS dwelling in their natural environment (i.e., in the presence of usual zeitgebers). This has been documented by longitudinal studies (n?15 days) of the circadian rhythm in sleep‐wakefulness, body temperature, right‐ and left‐hand‐grip strength, and reaction time involving a total of 246 HS and 134 shift workers (SW), with 45.5% showing good and 54.5% poor SW tolerance. The presence of internal desynchronization observed in SW was associated SW intolerance, with symptoms being sleep alteration/disturbances, sleeping‐pill dependence, persisting fatigue (asthenia), mood alteration, and digestive complaints. Internal desynchronization was also documented in groups of HS and tolerant SW, though it was almost the rule among the intolerant SW. The authors introduce two new terms: allochronism to describe the time organization of those SW who evidence internal desynchronization without detectable clinical symptoms, and dyschronism to describe the time organization of those SW who exhibit internal desynchrobization plus the symptoms of SW intolerance or medical illness. The condition of allochronism is not restricted only to SW tolerance, as it was detected in 112 HS without medical complains when exposed to various experimental conditions, including medications and placebos, sojourn in the high Arctic summer, intensive sport training, and task‐loaded cognitive performance testing. Dyschronism in SW who are sleep‐deprived is associated with persisting fatigue. An unpublished Gallup survey found that 47% of 2478 respondents experienced a state of asthenia during the previous 12 months, with symptoms mimicking those of SW intolerance. In one‐third of the cases, the origin of the asthenia was undetermined. Taking into account the high incidence of internal desynchronization found in past investigations and the clinical observation that sleep deprivation is a consequence of many acute and chronic medical conditions (nocturnal pain, nocturnal asthma, etc.), it is suggested that dyschronism may be responsible for the asthenia of unknown origin, at least for some persons. The interindividual (including sex‐related) variability in the propensity to exhibit an altered temporal organization, whether it be transient or persistent (i.e., reversible or non‐reversible) suggests the involvement of genetic factors. The Dian‐Circadian genetic model previously proposed by the authors seems pertinent to conceptualize and explain the various levels and output of internal desynchronization.     

Structure-activity relationships of chalcone analogs as potential inhibitors of ADP- and collagen-induced platelet aggregation

In an effort to develop potent antiplatelet agents, 12 O-prenylated (2–13) and 10 O-allylated (14–23) chalcones were synthesized and screened for in vitro inhibitory effects on aggregation of washed rabbit platelets induced by ADP (20 μM) and collagen (10 μg/mL). In addition, the platelet aggregation activity of previously synthesized Mannich bases of heterocyclic chalcones (MBHC) (24–62) was evaluated. The preliminary structure–activity relationships suggested that the antiplatelet activity was governed to a great extent by the presence of a pyridyl ring-B and a hydroxy group at position C-3′ in ring-A of the MBHC templates.     

Characterization and functional study of a Cecropin‐like peptide from the Chinese oak silkworm,Antheraea pernyi

In present study, a Cecropin‐like peptide from Antheraea pernyi (ApCec) was cloned and characterized. The full‐length ApCec cDNA encoded a protein with 64 amino acids including a putative 22‐amino‐acid signal peptide, a 4‐amino‐acid propeptide, and a 38‐amino‐acid mature peptide. ApCec gene was highly expressed in Malpighian tubules of A. pernyi after induction for 24 h by Escherichia coli in PBS. Pro‐ApCec (including propeptide and mature peptide) and M‐ApCec (just mature peptide) were synthesized chemically and analyzed by HPLC and mass spectroscopy. The antibacterial activity of M‐ApCec is more potent than pro‐ApCec against E. coli K12 or B. subtilus in both minimum inhibitory concentration and inhibition zone assays. Hemolytic assay results showed M‐ApCec possessed a low cytotoxicity to mammalian cells. The secondary structure of M‐ApCec forms α‐helical structure, shown by circular dichroism spectroscopy. Transmission electron microscopy analysis suggested that M‐ApCec killed bacteria by disrupting bacterial cell membrane integrity. Our results indicate ApCec may play an important role in defending from pathogenic bacteria in A. pernyi, and it may be as a potential candidate for applications in antibacterial drug development and agriculture.     

The effect of mono‐amino acids on larval settlement of the barnacle,Balanus amphitrite Darwin

Settlement of barnacle larvae is believed to be induced by the chemical cues present in their surrounding environment. Here, an investigation was carried out on the effects of sixteen different mono‐amino acids with acidic, basic, uncharged polar and nonpolar side chains, and GABA on larval settlement of the barnacle, Balanus amphitrite. Settlement inducing activity by nine mono‐amino acids, viz. asparagine, glutamine, tyrosine, serine, glycine, tryptophan, leucine, isoleucine and valine (but not phenylalanine) with uncharged polar and nonpolar side chains was observed. Of these, the most active mono‐amino acids were serine, leucine and isoleucine, which were effective at a threshhold of 1.0 × 10^‐7 M. On the other hand, aspartic acid, glutamic acid, GABA, and the basic mono‐amino acids lysine, arginine and histidine did not have any inducing effect. These results suggest that uncharged polar and non‐polar end group of the amino acid chain play an important role in inducing the settlement process in cyprids.     

Potent inhibitors of human matriptase‐1 based on the scaffold of sunflower trypsin inhibitor

Sunflower trypsin inhibitor‐1 (SFTI‐1), a bicyclic tetradecapeptide, has become a versatile tool as a scaffold for the development of the inhibitors of therapeutically relevant serine proteases, among them matriptase and kallikreins. Herein, we report the rational design of potent monocyclic and bicyclic inhibitors of human matriptase‐1. We found that the presence of positive charge and lack of bulky residues at the peptide N‐terminus is required for the maintenance of inhibitory activity. Replacement of the N‐terminal glycine residue by lysine allowed for the chemical conjugation with a fluorophor via the ε‐amino group without significant loss of inhibitory activity. Head‐to‐tail and side‐chain‐to‐tail cyclization resulted in potent inhibitors with comparable activities against matriptase‐1. The most potent synthetic bicyclic inhibitor found in this study (K_i = 2.6 nM at pH 7.6) is a truncated version of SFTI‐1 (cyclo‐KRCTKSIPPRCH) lacking a C‐terminal proline and aspartate residue. It combines an internal disulfide bond with a peptide macrocycle that is formed through side‐chain‐to‐tail cyclization of the ε‐amino group of an N‐terminal lysine and a C‐terminal proline. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Protective role of zinc in liver damage in experimental diabetes demonstrated via different biochemical parameters

Diabetes mellitus is a serious worldwide metabolic disease, which is accompanied by hyperglycaemia and affects all organs and body system. Zinc (Zn) is a basic cofactor for many enzymes, which also plays an important role in stabilising the structure of insulin. Liver is the most important target organ after pancreas in diabetic complications. In this study, we aimed to investigate the protective role of Zn in liver damage in streptozotocin (STZ)‐induced diabetes mellitus. There are four experimental groups of female Swiss albino rats: group I: control; group II: control + ZnSO₄; group III: STZ‐induced diabetic animals and group IV: STZ‐diabetic + ZnSO₄. To induce diabetes, STZ was injected intraperitoneally (65 mg/kg). ZnSO₄ (100 mg/kg) was given daily to groups II and IV by gavage for 60 days. At the end of the experiment, rats were killed under anaesthesia and liver tissues were collected. In the diabetic group, hexose, hexosamine, fucose, sialic acid levels, arginase, adenosine deaminase, tissue factor activities and protein carbonyl levels increased, whereas catalase, superoxide dismutase, glutathione‐S‐transferase, glutathione peroxidase, glutathione reductase and Na⁺/K⁺‐ATPase activities decreased. The administration of Zn to the diabetic group reversed all the negative effects/activities. According to these results, we can suggest that Zn has a protective role against STZ‐induced diabetic liver damage.     

Synthesis,Antimicrobial Activities,and Molecular Docking Studies of Dihydrotriazine Derivatives Bearing a Quinoline Moiety

In this article, three series of dihydrotriazine derivatives bearing a quinoline moiety ( 5a , 5b , 8a – 8c , and 9a – 9m ) have been designed, synthesized, and evaluated as antibacterial agents. Compounds 8a – 8c were found to be the most potent of all of the compounds tested with an MIC value of 1 μg/mL against several Gram‐positive (S. aureus 4220 and MRSA CCARM 3506) and Gram‐negative (E. coli 1924) strains of bacteria. In addition, 3‐[4‐amino‐6‐(phenethylamino)‐2,5‐dihydro‐1,3,5‐triazin‐2‐yl)‐6‐[(3‐chlorobenzyl)oxy]quinolin‐2‐ol ( 8a ) showed potent inhibitory activity (MIC=2 μg/mL) against Pseudomonas aeruginosa 2742, indicating that its antibacterial spectrum is similar to those of the positive controls gatifloxacin and moxifloxacin. Structure‐activity relationships (SAR) analyses and docking studies implicated the dihydrotriazine group in increasing the antimicrobial potency of the quinoline compounds. In vitro enzyme study implied that compound 8a also displayed DHFR inhibition.     

Synthesis,In Vitro Anticancer Evaluation,and Interference with Cell Cycle Progression of N‐Phosphoamino Acid Esters of Zidovudine and Stavudine

A series of N‐diisopropylphosphoryl (DIPP) l‐amino acid ester prodrugs of zidovudine (AZT) (3a–3e) and stavudine (d4T) (4a–4e) has been prepared. The activity of these compounds against MCF‐7 cells (human pleural effusion breast adenocarcinoma cell line) and K562 cells (human chronic myeloid leukemia (CML) cell line) was evaluated. In difference from that of AZT amino acid phosphoramidates, the alophatic amino acid esters of AZT were found to be more cytotoxic than the aromatic analogues toward MCF‐7 cell. Two DIPP‐l‐amino acid esters of d4T 4b (CC₅₀ = 83 µM) and 4c (CC₅₀ = 182 µM) were found to be more cytotoxic than the parent drug toward K562 cells. MCF‐7 and K562 cell cycle disturbance was investigated showing detectable blockade in the S phase when exposed to biologically active AZT, 3a, 3b, 3c, 4b and 4c, indicating that they inhibit cell growth by blocking cell cycle progression. Together with previous reports, present findings suggest that anti‐breast cancer activity of AZT may be due to hamper DNA synthesis.     

Batatasin‐III and the allelopathic capacity of Empetrum nigrum

Batatasin‐III (3,3‐dihydroxy‐5‐methoxybibenzyl) is a phenolic compound associated with the allelopathic effect of the evergreen dwarf shrub Empetrum nigrum, and has been referred to as the causal factor for the species being successful in dominating extensive ecosystems. Yet, only a few plant species have been tested for their response to batatasin‐III, and little is known about whether environmental factors modify this allelopathic effect. In this study, we tested the inhibitory effect of purified batatasin‐III through bioassays on 24 vascular plant species and, for certain species, we tested if this effect depended on growth substrate (mineral vs organic substrate), pH, and fertilization. Moreover, we tested if batatasin‐III predicted the allelopathic effect of E. nigrum by analyzing the inhibitory effect of E. nigrum leaves and humus in relation to their batatasin‐III content. Our results confirmed batatasin‐III as a stable compound capable of inhibiting germination and/or mean root elongation in all of the tested species, but this effect was modified by growth substrate. Surprisingly, the measured batatasin‐III content of E. nigrum leaves (mean value 19.7 ± 10.8 (SE) mg g^?1) and humus (mean value of 1 ± 1.5 (SE) μg g^?1) did not predict the inhibitory effect on mean root elongation. Although batatasin‐III was found to be phytotoxic to all the tested species, we conclude that this substance alone should not be used as a proxy for the allelopathic effect of E. nigrum.     

Peptidomic Analysis of ACE Inhibitory Peptides Extracted from Fermented Goat Milk

Angiotensin converting enzyme (ACE) is considered as main causative agent in growing hypertension and other cardiovascular disorders. Inhibition of ACE by producing and purifying bioactive peptides of fermented goat milk is aimed in this study. Protein extracted from goat milk was hydrolyzed with proteolytic enzymes of LH (Lactobacillus helveticus-cicc22171). ACE inhibitory peptides were purified from fermented samples of goat milk protein by optimizing incubation time to 8 h (S-8), 16 h (S-16), 24 h (S-24) and 36 h (S-36), via ultrafiltration. S-8 was used as control to compare the ACE inhibition trend. Molecular weight cut-off; 10000 Da (PM-10) and Ultracel 3K membrane was used to perform ultrafiltration. Sample with 24 h incubation time was considered as best hydrolyzed as compared to others, by applying Nin-Hydrin reaction and SDS-PAGE analysis. ACE inhibitory assay validated the authenticity of S-24 in inhibiting ACE, in vitro. Furthermore, Q executive hybrid quadrupole-orbitrap mass spectrometry was used to determine molecular structure and amino acid sequence of ACE inhibitory peptides. Three peptides, VLPVPQKAVPQ, VLPVPQKVVPQ and TQTPVVVPPFLQPEIMGVPKVKE containing functional amino acid structure, has been identified with highest ACE inhibitory activity on the basis of intensity, size and higher concentration of hydrophobic amino acids as shown in figure as graphical abstract. Fermented goat milk containing these novel bioactive peptides, can be used as nutraceuticals to inhibit ACE and control hypertension in future.

Graphical Abstract

     

Indole carboxamides inhibit bovine testes hyaluronidase at pH 7.0 and indole acetamides activate the enzyme at pH 3.5 by different mechanisms

Hyaluronidases are enzymes controlling many crucial physiological processes. Imbalanced enzymatic activity is connected with severe diseases. Because there is limited availability of drugs modulating hyaluronidase activity, the search for hyaluronidase interacting compounds is getting more and more important. A series of fifteen indole carboxamides and acetamides were synthesized and tested on inhibition of bovine testes hyaluronidase. In vitro assays were performed using stains-all at pH 7 and the Morgan-Elson reaction at pH 3.5. At neutral pH, the most active inhibitory compound was N-(Pyridin-4yl)-[5-bromo-1-(4-fluorobenzyl)indole-3-yl]carboxamide (20) with an IC₅₀ value of 46 μM. Surprisingly, inhibition of all compounds was completely abolished by a decrease in pH. At pH 3.5 the activity of the enzyme was increased up to 134% by compound N-(4,6-Dimethylpyridin-2yl)-(1-ethylindole-3-yl)acetamide (24) at a concentration of 100 μM. The known activating effect of bovine serum albumine (BSA) on hyaluronidase activity was verified in the assay and compared to the effect of compound 24. Structure-activity relationships are discussed and a model is proposed, which explains the increase in activity at pH 3.5 by bonding of the protonated form of N-(4,6-Dimethylpyridin-2yl)-(1-ethylindole-3-yl)acetamide (24) to hyaluronic acid. The bonding results in an elongated form of the substrate with easier enzymatic access.     

Design,synthesis and preliminary structure–activity relationship investigation of nitrogen-containing chalcone derivatives as acetylcholinesterase and butyrylcholinesterase inhibitors: a further study based on Flavokawain B Mannich base derivatives

In order to study the structure–activity relationship of Flavokawain B Mannich-based derivatives as acetylcholinesterase (AChE) inhibitors in our recent investigation, 20 new nitrogen-containing chalcone derivatives (4?a–8d) were designed, synthesized, and evaluated for AChE inhibitory activity in vitro. The results suggested that amino alkyl side chain of chalcone dramatically influenced the inhibitory activity against AChE. Among them, compound 6c revealed the strongest AChE inhibitory activity (IC₅₀ value: 0.85?μmol/L) and the highest selectivity against AChE over BuChE (ratio: 35.79). Enzyme kinetic study showed that the inhibition mechanism of compound 6c against AChE was a mixed-type inhibition. The molecular docking assay showed that this compound can both bind with the catalytic site and the peripheral site of AChE.