Design,recombinant expression,and antibacterial activity of a novel hybrid magainin–thanatin antimicrobial peptide

Antimicrobial peptides are small molecule polypeptides with biological activity, which can avoid the drug resistance. Magainin and thanatin are antimicrobial peptides with a broad spectrum of inhibitory microbes, and the core sequence of magainin is linked to a core sequence of thanatin. Here, the hybrid magainin–thanatin (MT) antimicrobial peptide was designed through bioinformatics analysis. The recombinant MT antimicrobial peptide was successfully expressed and purified in Escherichia coli BL21 (DE3). The molecular weight of the hybrid MT antimicrobial peptide was about 3.35?kDa. Moreover, the target protein indeed has an inhibitory effect on Staphylococcus aureus, E. coli DH5α, and Bacillus subtilis, with the minimum inhibitory concentrations 16.5, 20, and 9?μM, respectively. The rational designed hybrid MT antimicrobial peptide will hopefully provide large-scale fermentable antimicrobial peptides in the industrial production in the future.     

Design and synthesis of novel hybrid benzamide–peptide histone deacetylase inhibitors

We designed and synthesized a series of novel hybrid histone deacetylase inhibitors based on conjugation of benzamide-type inhibitors with either linear or cyclic peptides. Linear tetrapeptides (compounds 13 and 14), cyclic tetrapeptides (compounds 1 and 11), and heptanediamide–peptide conjugates (compounds 10, 12, 15 and 16) were synthesized through on-resin solid-phase peptide synthesis (SPPS). All compounds were found to be moderate HDAC1 and HDAC3 inhibitors, with IC₅₀ values ranging from 1.3 μM to 532 μM. Interestingly, compound 15 showed 19-fold selectivity for HDAC3 versus HDAC1.     

Synthesis,characterization, and wound healing properties of α/γ hybrid peptides

The present work describes the synthesis, characterization, and wound healing properties of α/γ hybrid peptides: Boc-Phe-γ⁴-Phe-Val-OMe ( S1 ), Boc-^DPhe-γ⁴-Phe-Val-OMe ( S2 ), Boc-Ala-γ⁴-Phe-Val-OMe ( S3 ), Boc-^DAla-γ⁴-Phe-Val-OMe ( S4 ), Boc-Leu-γ⁴-Phe-Val-OMe ( S5 ), and Boc-^DLeu-γ⁴-Phe-Val-OMe ( S6 ). Peptides S1–S6 were screened against human keratinocytes (HaCaT) and RAW 264.7 cells. Among all, S1 - and S2 -treated cells exhibited high cell viability; S1 and S2 induced keratinocyte migration and inhibited the production of the cytokines IL-6 and TNF-α. In vivo results demonstrated that the hybrid peptides S1 and S2 accelerate wound healing in Wistar rats with 83% and 88% at 50 μg/ml, and 74% and 76% at 25 μg/ml, respectively.     

Design,synthesis, antimicrobial activity and anti-HIV activity evaluation of novel hybrid quinazoline–triazine derivatives

Abstract

A series of novel hybrid quinazoline–triazine derivatives was designed and synthesized from cyanuric chloride and anthranilic acid through sequential reactions, which contain different pharmacophores like quinazoline and substituted diaryl triazine (DATA) linked with ethylene diamine. All the newly synthesized compounds were characterized by infrared, ¹H-NMR, ¹³C-NMR, MS and elemental analysis. Further, we evaluated the in vitro anti-HIV activity of the newly synthesized compounds against HIV-1 (III_B) and HIV-2 (ROD) viral strains and as well as in vitro antimicrobial activity against four bacteria (Staphylococcus aureus, Bacillus cereus, Pseudomonas aeruginosa, Klebsiella pneumoniae) and two fungi (Aspergillus clavatus, Candida albicans) using the paper agar streak dilution method. The bioassay results indicate that four compounds namely 7d, 7n, 7r and 7s could be considered as possible potential agents.     

Cloning,expression, and biochemical characterization of a novel GH16 β-agarase AgaG1 from Alteromonas sp. GNUM-1

Alteromonas sp. GNUM-1 is known to degrade agar, the main cell wall component of red macroalgae, for their growth. A putative agarase gene (agaG1) was identified from the mini-library of GNUM-1, when extracellular agarase activity was detected in a bacterial transformant. The nucleotide sequence revealed that AgaG1 had significant homology to GH16 agarases. agaG1 encodes a primary translation product (34.7 kDa) of 301 amino acids, including a 19-amino-acid signal peptide. For intracellular expression, a gene fragment encoding only the mature form (282 amino acids) was cloned into pGEX-5X-1 in Escherichia coli, where AgaG1 was expressed as a fusion protein with GST attached to its N-terminal (GST-AgaG1). GST-AgaG1 purified on a glutathione sepharose column had an apparent molecular weight of 59 kDa on SDS-PAGE, and this weight matched with the estimated molecular weight (58.7 kDa). The agarase activity of the purified protein was confirmed by the zymogram assay. GST-AgaG1 could hydrolyze the artificial chromogenic substrate, p-nitrophenyl-β-d-galactopyranoside but not p-nitrophenyl-α-d-galactopyranoside. The optimum pH and temperature for GST-AgaG1 activity were identified as 7.0 and 40 °C, respectively. GST-AgaG1 was stable up to 40 °C (100 %), and it retained more than 70 % of its initial activity at 45 °C after heat treatment for 30 min. The K _m and V _max for agarose were 3.74 mg/ml and 23.8 U/mg, respectively. GST-AgaG1 did not require metal ions for its activity. Thin layer chromatography analysis, mass spectrometry, and ¹³C-nuclear magnetic resonance spectrometry of the GST-AgaG1 hydrolysis products revealed that GST-AgaG1 is an endo-type β-agarase that hydrolyzes agarose and neoagarotetraose into neoagarobiose.     

Preparation and characterization of a novel polymorph of indiplon, Form α

A new polymorph α of indiplon was discovered, initially prepared by two methods, and further characterized by various means including single-crystal X-ray diffraction (SCXRD), powder X-ray diffraction (PXRD), variable temperature powder X-ray diffraction (VT-PXRD), differential scanning calorimetry (DSC), thermogravimetry analysis (TGA), Fourier transform Raman (FT-Raman) spectroscopy and solubility determination. The crystal structure of Form α as analyzed by SCXRD differ from the three previously reported polymorphs, Form I, II, and III. In addition, PXRD and solubility measurements could clearly distinguish between Form α and Form I. Slight differences between the two forms were also detected by FT-Raman. No differences between Form α and I were observed by DSC, which was explained by VT-PXRD results showing a solid-solid phase change from Form α to Form I during the heating process. Solubility measurements at various temperatures showed that the two polymorphs were mutually monotropic and that Form I was the relatively thermodynamically stable crystal form.     

Synthesis,characterization, and in vitro and in vivo evaluation of a novel pectin–adriamycin conjugate

Adriamycin (ADM) has been widely used in the treatment of many types of solid malignant tumor. However, cardiotoxicity, multidrug resistance and a short half-life in vivo are significant problems that limit its clinical application. To resolve these problems, a novel pectin–adriamycin conjugate (PAC) was synthesized by attaching ADM to low-methoxylated pectin via an amide linkage. The ADM content and weight-average molecular weight (Mw) of PAC were greater than 25% (w/w) and 50,360 g/mol, respectively. PAC was highly stable in plasma, but 33.2% of ADM was released from PAC after incubation for 30 h with lysosomes derived from rat liver. PAC was distributed uniformly in the cytoplasm of most A549 cells and accumulated in the nucleus of a few A549 cells after incubation for 30 h. At concentrations equivalent to 0.125–1.000 μg of ADM/mL, PAC did not inhibit the growth of either A594 or B16 cells to the same extent as free ADM or a mixture of ADM and pectin. Interestingly, at all concentrations, PAC inhibited the growth of 2780cp cells in vitro significantly more effectively than ADM or the mixture of ADM and pectin. The anticancer effect of PAC in vivo was evaluated with C57BL/6 mice bearing pulmonary metastases of B16 cells. Compared with ADM and the mixture of ADM and pectin, PAC suppressed tumor growth significantly and prolonged the mean survival time of the B16-inoculated mice. PAC has great potential for development as a tumor targeting polymer-drug.     

Design,synthesis and interaction of BRC4 analogous peptides with RAD51(241–260)

Amino Acids - Breast cancer susceptibility gene 2 (BRCA2) is an important tumor suppressor, which is participated in repair of damaged DNA by its highly conserved BRC repeat motifs regulating RAD51...     

Design,synthesis and SAR analysis of novel selective σ1 ligands (Part 2)

In order to investigate the molecular features involved in sigma receptors (σ-Rs) binding, new compounds based on arylalkylaminoalcoholic, arylalkenyl- and arylalkylaminic scaffolds were synthesized and their affinity towards σ₁- and σ₂-Rs subtypes was evaluated. The most promising compounds were also screened for their affinity at μ-opioid, δ-opioid and κ-opioid receptors. Biological results are herein presented and discussed.     

Molecular cloning,expression, and biochemical characterization of a novel cold-active α-amylase from Bacillus sp. dsh19-1

A novel gene (ANK58566) encoding a cold-active α-amylase was cloned from marine bacterium Bacillus sp. dsh19-1 (CCTCC AB 2015426), and the protein was expressed in Escherichia coli. The gene had a length of 1302 bp and encoded an α-amylase of 433 amino acids with an estimated molecular mass of 50.1 kDa. The recombinant α-amylase (AmyD-1) showed maximum activity at 20 °C and pH 6.0, and retained about 35.7% of activity at 4 °C. The AmyD-1 activity was stimulated by Ca²⁺ and Na⁺. However, the chelating agent, EDTA, inactivated the enzyme. Moreover, AmyD-1 displayed extreme salt tolerance, with the highest activity in the presence of 2.0 M NaCl and 60.5% of activity in 5.0 M NaCl. The K_m, V_max and k_cat of AmyD-1 in 2.0 M NaCl were 2.8 mg ml⁻¹, 21.8 mg ml⁻¹ min⁻¹ and 933.5 s⁻¹, respectively, at 20 °C and pH 6.0 with soluble starch as substrate. MALDI-TOF MS (Matrix-Assisted Laser Desorption/Ionization Time of Flight Mass Spectrometry) revealed that the end products of starch hydrolysis by AmyD-1 were glucose, maltose, maltotriose, maltotetraose, and malt oligosaccharides. Thus, AmyD-1 is one of the very few α-amylases that can tolerate low temperatures and high salt concentrations, which makes it to be a potential candidate for research in basic and applied microbiology.

     

Cloning,characterization, expression analysis and inhibition studies of a novel gene encoding Bowman–Birk type protease inhibitor from rice bean

This paper presents the first study describing the isolation, cloning and characterization of a full length gene encoding Bowman–Birk protease inhibitor (RbTI) from rice bean (Vigna umbellata). A full-length protease inhibitor gene with complete open reading frame of 327 bp encoding 109 amino acids was cloned from rice bean seeds using degenerate primer set. BlastP search revealed that the RbTI encoded amino acid of approx 13.0 kDa and shared 99% homology each with BBI from Phaseolus parvulus, Vigna trilobata and Vigna vexilata. Phylogenetic tree also showed close relationship of RbTI with BBI from other members of Leguminaceae family. RbTI gene was further confirmed as intronless (GenBank accession no. KJ159908). The secondary and 3D-structural models for the RbTI were predicted with homology modeling. qRT-PCR studies revealed the highest RbTI expression in the seeds nearing maturity, whereas the low expression of the gene was noticed in young leaves. The isolated RbTI was successfully expressed in Escherichiacoli and the highest expression was recorded after 5.5 h of induction. Study on the inhibitory activity of expressed protein against the gut proteases of Hessian fly larvae revealed 87% inhibition. The novel RbTI gene will further broaden the pool of plant defense genes and could be an ideal choice for developing transgenic crops resistant to insect pests with high economic value. In addition, it has the potential to be used as a probe for selection of insect- and pathogen-resistant genotypes.     

Design,synthesis and structure–activity relationship of novel diphenylamine derivatives

Diphenylamine derivatives have been reported with good fungicidal, insecticidal, acaricidal, rodenticidal and/or herbicidal activities. To find new lead compound of this kind, a series of novel diphenylamine derivatives were designed and synthesized by the approach of Intermediate Derivatization Methods. All compounds were identified by ¹H NMR and elemental analysis. Bioassays demonstrated that some compounds substituted at 2,4,6-positions or 2,4,5-positions of phenyl ring B exhibited excellent fungicidal activities. The optimal compounds P30 and P33 showed 80% and 85% control respectively against cucumber downy mildew at 12.5 mg L⁻¹, both 100% control against rice blast at 0.3 mg L⁻¹ and both 100% control against cucumber gray mold at 0.9 mg L⁻¹. The relationship between structure and fungicidal activities was discussed as well.     

Design,synthesis and structure–activity relationships of a novel class of sulfonylpyridine inhibitors of Interleukin-2 inducible T-cell kinase (ITK)

Starting from benzylpyrimidine 2, molecular modeling and X-ray crystallography were used to design highly potent inhibitors of Interleukin-2 inducible T-cell kinase (ITK). Sulfonylpyridine 4i showed sub-nanomolar affinity against ITK, was selective versus Lck and its activity in the Jurkat cell-based assay was greatly improved over 2.     

Design,synthesis and structure–activity relationships of some novel,highly potent anti-invasive (E)- and (Z)-stilbenes

In our ongoing exploration of the structure–activity landscape of anti-invasive chalcones, we have prepared and evaluated a number of structurally related (E)- and (Z)-stilbenes. These molecules exhibited an extraordinary high in vitro potency in the chick heart invasion assay, being active up to 10 nmol L^?1, a concentration level a 100-fold lower than the lowest effective doses that have been reported for natural analogues. Furthermore, they possess an interesting pharmacological profile in silico.     

Cloning,expression and biochemical characterization of a GH1 β-glucosidase from Cellulosimicrobium cellulans

β-Glucosidase plays an important role in the degradation of cellulose. In this study, a novel β-glucosidase ccbgl1b gene for a glycosyl hydrolase (GH) family 1 enzyme was cloned from the genome of Cellulosimicrobium cellulans and expressed in Escherichia coli BL21 cells. The sequence contained an open reading frame of 1494?bp, encoded a polypeptide of 497?amino acid residues. The recombinant protein CcBgl1B was purified by Ni sepharose fastflow affinity chromatography and had a molecular weight of 57?kDa, as judged by SDS-PAGE. The optimum β-glucosidase activity was observed at 55?°C and pH 6.0. Recombinant CcBgl1B was found to be most active against aryl-glycosides p-nitrophenyl-β-D-glucopyranoside (pNPβGlc), followed by p-nitrophenyl-β-D-galactopyranoside (pNPβGal). Using disaccharides as substrates, the enzyme efficiently cleaved β-linked glucosyl-disaccharides, including sophorose (β-1,2-), laminaribiose (β-1,3-) and cellobiose (β-1,4-). In addition, a range of cello-oligosaccharides including cellotriose, cellotetraose and cellopentaose were hydrolysed by CcBgl1B to produce glucose. The interaction mode between the enzyme and the substrates driving the reaction was modelled using a molecular docking approach. Understanding how the GH1 enzyme CcBgl1B from C. cellulans works, particularly its activity against cello-oligosaccharides, would be potentially useful for biotechnological applications of cellulose degradation.     

Design,synthesis, and structure–activity relationship of novel CCR2 antagonists

A series of novel 1-aminocyclopentyl-3-carboxyamides incorporating substituted tetrahydropyran moieties have been synthesized and subsequently evaluated for their antagonistic activity against the human CCR2 receptor. Among them analog 59 was found to posses potent antagonistic activity.     

Cloning and characterization of a novel member of human β-1, 4-galactosyltransferase gene family

By using the EST strategy for identifying novel members belonging to homologous gene families, a novel full-length cDNA encoding a protein significantly homologous to UDP-Gal: N-acetylglucosamine β-1, 4-galactosyltransferase (GAlT) was isolated from a human testis cDNA library. A nucleotide sequence of 2 173 bp long was determined to contain an open reading frame of 1032 nucleotides (344 amino acids). In view of the homology to members of the galactosyltransferase gene family and especially the closest relationship to Gallus gallus GalT type I (CK I), the predicted product of the novel cDNA was designated as human β-1, 4-galactosyltransferase homolog I (HumGT-H1). Its mRNA is present in different degrees in 16 tissues examined. Southern analysis of human genomic DNA revealed its locus on chromosome 3.     

Design,synthesis, and biological evaluation of dihydroartemisinin–fluoroquinolone conjugates as a novel type of potential antitubercular agents

Tuberculosis remains a global public health problem in recent years. To develop novel type of potential antitubercular agents, twelve novel dihydroartemisinin–fluoroquinolone (DHA–FQ) conjugates (three types of molecules) were gradually designed and conveniently synthesized. All the newly synthesized conjugates were well characterized and evaluated against different Mycobacterium tuberculosis strains in vitro. The screening results showed that five DHA–FQ conjugates were active toward M. tuberculosis H37Rv, and compound 3a exhibited the strongest inhibitory activity (MIC = 0.0625 μg/mL), which was comparable to the positive control Moxifloxacin and even stronger than Ofloxacin. Conjugates 2a and 3a also displayed comparable activities against various clinically isolated sensitive and resistant M. tuberculosis strains (MIC = 0.125–16 μg/mL) to Moxifloxacin. All target compounds possessed selective anti-M. tuberculosis ability. Preliminary structure–activity relationship demonstrated that short linker between DHA and FQ was favorable for strong antitubercular activity. This study provides a new clue for the development of novel antitubercular lead molecules.     

Design, synthesis, and evaluation of a novel class of 2,3-disubstituted-tetrahydro-β-carboline derivatives

Several novel tetrahydro-β-carboline derivatives with amino acid residues at the 2-position and a glucosamine group at the 3-position of the tetrahydro-β-carboline nucleus were synthesized from a readily available starting material, tryptophane, and were evaluated for their anti-inflammatory activity in the present study. Our results showed that all of the derivatives tested exhibited a significant inhibition of xylene-induced inflammation in mice.