Design,synthesis and aphicidal activity of N-terminal modified insect kinin analogs

The insect kinins are a class of multifunctional insect neuropeptides present in a diverse variety of insects. Insect kinin analogs showed multiple bioactivities, especially, the aphicidal activity. To find a biostable and bioactive insecticide candidate with simplified structure, a series of N-terminal modified insect kinin analogs was designed and synthesized based on the lead compound [Aib]-Phe-Phe-[Aib]-Trp-Gly-NH₂. Their aphicidal activity against the soybean aphid Aphis glycines was evaluated. The results showed that all the analogs maintained the aphicidal activity. In particular, the aphicidal activity of the pentapeptide analog X Phe-Phe-[Aib]-Trp-Gly-NH₂ (LC₅₀ = 0.045 mmol/L) was similar to the lead compound (LC₅₀ = 0.048 mmol/L). This indicated that the N-terminal protective group may not play an important role in the activity and the analogs structure could be simplified to pentapeptide analogs while retaining good aphicidal activity. The core pentapeptide analog X can be used as the lead compound for further chemical modifications to discover potential insecticides.     

Differential susceptibility ofSclerotium cepivorum Berk. to some synthesized visnagin sulfonamide derivates

Twenty-five visnagin sulfonamide derivatives were testedin vitro against sclerotial germination, growth and cellulolytic activity ofSclerotium cepivorum Berk. The effectiveness of the derivatives depends on the concentration and the substituent introduced to the title compounds. The introduction of SO₂Cl₂ to C₉ of visnagin induced high toxicity than introducing SO₂NH₂. Compounds with sulfonyl piperidine or sulfonyl morpholine gave small toxicity only at 30 and 75 μg cm⁻³. Addition of N-aryl ring to visnagin-9-sulfonamide rendered the title compound to be more toxic. The substitution of the N-aryl ring bym-CH₃,m-Cl orp-Cl enhanced the toxicity, while its substitution witho-CH₃,p-CH₃,p-Br,o-OCH₃ orm-OCH₃ caused a drop in the toxicity as compared to compounds with unsubstituted aryl ring. Visnagin sulfonamide derivatives having azole rings were strongly inhibitory for sclerotial germination, growth, sclerotial formation and cellulolytic activity, even when applied at 4 μg cm⁻³. The most toxic one was that having dimethyl isoxazole. The cleavage of γ-pyrone ring led to a decline in the toxicity as compared with the other sulfonamide derivatives. Communicated by J. ŠPAK     

Melatonin analogue new indole hydrazide/hydrazone derivatives with antioxidant behavior: Synthesis and structure–activity relationships

Melatonin (MLT) is a hormone produced in the brain by the pineal gland, from the amino acid tryptophan. It is also an antioxidant hormone with a particular role in the protection of nuclear and mitochondrial DNA. In recent years, many physiological properties of MLT have been described resulting in much attention in the development of synthetic compounds possessing the indole ring. Sixteen MLT analogue indole hydrazide/hydrazone derivatives were synthesized and in vitro antioxidant activity was investigated. Most of the compounds showed significantly higher activity than MLT at 10^{? 3} M and 10^{? 4} M concentrations.     

Identification of kinin-related peptides in the disease vector, Rhodnius prolixus

We have used an in silico approach to identify a gene from the blood-gorging vector, Rhodnius prolixus, that is predicted to produce an insect kinin prepropeptide. The prepropeptide is 398 amino acids in length and can potentially produce a large number of kinin-related peptides following post-translational processing. A comparison with other insect kinin precursor sequences demonstrates greatest conservation at the C-terminal region of the kinin peptides. Multiple peptides predicted from the kinin gene are phenotypically expressed in R. prolixus, as revealed by MALDI-TOF MS MS, including 12 kinins and one kinin precursor peptide (KPP). Six of these peptides are characterized by the typical insect kinin C-terminal motif FX₁X₂WGamide and five of these are also found as truncated forms. Five peptides were identified with an atypical, though similar, FX₁X₂WAamide C-terminus. There is also peptide with a C-terminal DDNGamide motif and a number of non-amidated peptides.     

Fungal proteases and the mammalian kinin system. II. Kinin hydrolysis by brinolase.

Brinolase, a thrombolytic fungal protease capable of forming vasoactive kinins, has been shown to hydrolyze kinins after their formation. Using synthetic bradykinin as a substrate, the kinetics and mechanism of hydrolysis have been elucidated, evidently explaining the apparently low kinin formation $\text{in vivo}$, Bradykinin hydrolysis proceeded rapidly $\text{in vitro}$ with a pH optimum of 7.0–7.5, and a half-life of 5.1 min, using 250 ng/ml bradykinin and 50 μg/ml brinolase. The K_m was 3.2×10^?6 M and the V_max was 4.6 × 10^?8 mol/liter/min, using 5 μg/ml brinolase. Two-dimensional paper fractionation of the brinolase-bradykinin digest revealed the presence of free arginine amongst the five peptide fragment spots.     

cis-peptide bond mimetic tetrazole analogs of the insect kinins identify the active conformation

The insect kinin neuropeptides have been implicated in the regulation of water balance, digestive organ contraction, and energy mobilization in a number of insect species. A previous solution conformation study of an active, restricted-conformation cyclic analog, identified two possible turn conformations as the likely active conformation adopted by the insect kinins at the receptor site. These were a cisPro type VI beta-turn over C-terminal pentapeptide core residues 1-4 and a transPro type I-like beta-turn over core residues 2-5, present in a ratio of 60:40. Synthesis and evaluation of the diuretic activity of insect kinin analogs incorporating a tetrazole moiety, which mimics a cis peptide bond, identifies the active conformation as the former. The discovery of a receptor interaction model can lead to the development of potent agonist and antagonist analogs of the insect kinins. Indeed, in this study a tetrazole analog with D stereochemistry has been shown to demonstrate partial antagonism of the diuretic activity of natural insect kinins, providing a lead for more potent and effective antagonists of this critical neuropeptide family. The future development of mimetic agonists and antagonists of insect kinin neuropeptides will provide important tools to neuroendocrinologists studying the mechanisms by which they operate and to researchers developing new, environmentally friendly pest insect control strategies.     

Additive effects on the improvement of insecticidal activity: Design,synthesis, and insecticidal activity of novel pymetrozine derivatives

A series of new pymetrozine analogues containing both methyl on the imine carbon and phenoxy group at the pyridine ring were designed and synthesized. Their insecticidal activities against bean aphid (Aphis craccivora), mosquito larvae (Culex pipiens pallens), cotton bollworm (Helicoverpa armigera), corn borer (Ostrinia nubilalis) and oriental armyworm (Mythimna separata) were evaluated. The results of bioassays indicated that most of the target compounds showed good insecticidal activity against bean aphid; especially, IIIf (80%) and IIIl (80%) exhibited higher aphicidal activity than pymetrozine (30%) at 5 mg/kg, and the two compounds still showed 20% and 30% mortality at 2.5 mg/kg, respectively, whereas pymetrozine displayed no activity at the same concentration. These compounds exhibited a completely different structure–activity relationship to that of known pymetrozine derivatives, in which it is thought introducing alkyl group on the imine carbon could be detrimental to the activities. Our new result suggested that the methyl on the imine carbon and phenoxy group at the pyridine ring of phenoxy group may play additive effects on the improvement of aphicidal activity. Besides this, compound IIIs, containing an allyl at the para position of phenoxy group, exhibited excellent insecticidal activity against mosquito larvae, lepidoptera pests cotton bollworm, corn borer and oriental armyworm.     

A C-terminal aldehyde analog of the insect kinins inhibits diuresis in the housefly

The insect kinins are present in a wide variety of insects and function as potent diuretic peptides in flies. A C-terminal aldehyde insect kinin analog, Fmoc-RFFPWG-H (R-LK-CHO), demonstrates stimulation of Malpighian tubule fluid secretion in crickets, but shows inhibition of both in vitro and in vivo diuresis in the housefly. R-LK-CHO reduced the total amount of urine voided over 3 h from flies injected with 1 microL of distilled water by almost 50%. The analog not only inhibits stimulation of housefly fluid secretion by the native kinin Musdo-K, but also by thapsigargin, a SERCA inhibitor, and by ionomycin, a calcium ionophore. The activity of R-LK-CHO is selective, however, as related C-terminal aldehyde analogs do not demonstrate an inhibitory response on housefly fluid secretion. The selective inhibitory activity of R-LK-CHO on housefly tubules represents an important lead in the development of environmentally friendly insect management agents based on the insect kinins.     

Disubstituted diaryl diselenides inhibit δ-ALA-D and Na+, K+-ATPase activities in rat brain homogenates in vitro

Toxicological and pharmacological studies demonstrated that the introduction of functional groups into the aromatic ring of diphenyl diselenide alter its effect. The aim of this study was to evaluate the in vitro effect of m-trifluoromethyl-diphenyl diselenide (m-CF₃–C₆H₄Se)₂, p-chloro-diphenyl diselenide (p-Cl–C₆H₄Se)₂ and p-methoxyl-diphenyl diselenide (p-CH₃O–C₆H₄Se)₂ on δ-aminolevulinate dehydratase (δ-ALA-D) and Na⁺, K⁺-ATPase activities in rat brain homogenates. Diselenides inhibited δ-ALA-D activity (IC₅₀ 4–6 μM [concentration inhibiting 50%]), and dithiothreitol (DTT) restored the enzyme activity. ZnCl₂ (100 μM) did not restore δ-ALA-D inhibition caused by (p-Cl–C₆H₄Se)₂ and (m-CF₃–C₆H₄Se)₂. Na⁺, K⁺-ATPase activity was more sensitive to (p-Cl–C₆H₄Se)₂ and (m-CF₃–C₆H₄Se)₂ (IC₅₀ 6 μM) than (p-CH₃O–C₆H₄Se)₂ and (PhSe)₂ (IC₅₀ 45 and 31 μM, respectively). DTT restored the activity of Na⁺, K⁺-ATPase inhibited by diselenides. The effect of diselenides on Na⁺/K⁺-ATPase is dependent on their substitutions in the aromatic ring. The mechanism through which diselenides inhibit δ-ALA-D and Na⁺, K⁺-ATPase activities involves the oxidation of thiol groups.     

A C-terminal aldehyde insect kinin analog enhances inhibition of weight gain and induces significant mortality in Helicoverpa zea larvae

The first reported examples of C-terminal aldehyde analogs of an insect neuropeptide are described. They are hexapeptide insect kinin analogs Boc-VFFPWG-H and Fmoc-RFFPWG-H. Activity observed for these modified analogs in an in vitro insect diuretic assay confirms that the C-terminal aldehyde group is tolerated by an insect kinin receptor. The two analogs demonstrate greatly enhanced activity over standard C-terminal amide insect kinins in a larval weight gain inhibition assay in the corn earworm Helicoverpa zea. Treatment with Boc-VFFPWG-H led to significant increases in larval mortality at doses of 500pm (45%) and 5nm (67%). Boc-VFFPWG-H represents a lead analog in the development of novel, environmentally friendly pest insect management agents based on the insect kinin class of neuropeptides.     

On the role of basic residues of head-to-tail cyclic bradykinin analogues on rat duodenum relaxation

Summary Three linear bradykinin (BK) analogues, Lys-Lys-BK, Nle-Lys-BK and Lys-Nle-BK and their head-to-tail cyclic analogues, along with cyclo-Nle-Nle-BK and cyclo-Lys-Lys-[Trp⁵]BK, were synthesized and tested on an isolated rat duodenum preparation. All kinins, except the [Trp⁵]-analogue, cause relaxation with EC₅₀ values in the picomolar range. The most potent linear analogue (Lys-Nle-BK) is about 40 times more active than BK and the most potent cyclic kinin (cyclo-Nle-Lys-BK) is about 6 times more active. Present results suggest that the significant potency of cyclo-Lys-Lys-BK, the earlier most potent cyclic kinin which is only a little less potent than linear BK, depends on the ring size rather than on the presence of the extra basic residues.     

Synthesis and biological activity of FGLamide allatostatin analogs with Phe3 residue modifications

A FGLamide allatostatin neuropeptide mimic ( H17 ) is a potential insect growth regulator which inhibits the production of juvenile hormone by the corpora allata. To find more evidence to reveal the structure–activity relationships of the Phe³ residue in the C‐terminal conserved pentapeptide and search for novel analogs with high activity, a series of Phe³ residue‐modified analogs were designed and synthesized using H17 as the lead compound. Bioassay using juvenile hormone (JH) production by corpora allata of the cockroach Diploptera punctata indicated that analogs 4 , 11 , and 13 showed strong ability to inhibit JH production in vitro, with IC₅₀ of 38.5, 22.5, and 26 nM, respectively. As well, the activity of analog 2 (IC₅₀: 89.5 nM) proved roughly equivalent to that of H17 . Based on the primary structure–activity relationships of Phe³ residue, we suggest that for analogs containing six‐membered aromatic rings, removing the methylene group of Phe³ or an o‐halogen or p‐halogen‐substituted benzene ring could increase the ability to inhibit biosynthesis of JH. This study will be useful for the design of new allatostatin analogs for insect management. Copyright © 2016 European Peptide Society and John Wiley & Sons, Ltd.     

Comparative structure-activity analysis of insect kinin core analogs on recombinant kinin receptors from Southern cattle tick Boophilus microplus (Acari: Ixodidae) and mosquito Aedes aegypti (Diptera: Culicidae)

The systematic analysis of structure-activity relationships of insect kinins on two heterologous receptor-expressing systems is described. Previously, kinin receptors from the southern cattle tick, Boophilus microplus (Canestrini), and the dengue vector, the mosquito Aedes aegypti (L.), were functionally and stably expressed in CHO-K1 cells. In order to determine which kinin residues are critical for the peptide-receptor interaction, kinin core analogs were synthesized as an Ala-replacement series of the peptide FFSWGa and tested by a calcium bioluminescence plate assay. The amino acids Phe(1) and Trp(4) were essential for activity of the insect kinins in both receptors. It was confirmed that the pentapeptide kinin core is the minimum sequence required for activity and that the C-terminal amide is also essential. In contrast to the tick receptor, a large increase in efficacy is observed in the mosquito receptor when the C-terminal pentapeptide is N-terminally extended to a hexapeptide. The aminoisobutyric acid (Aib)-containing analog, FF[Aib]WGa, was as active as superagonist FFFSWGa on the mosquito receptor in contrast to the tick receptor where it was statistically more active than FFFSWGa by an order of magnitude. This restricted conformation Aib analog provides information on the conformation associated with the interaction of the insect kinins with these two receptors. Furthermore, the analog FF[Aib]WGa has been previously shown to resist degradation by the peptidases ACE and nephrilysin and represents an important lead in the development of biostable insect kinin analogs that ticks and mosquitoes cannot readily deactivate.     

斜纹夜蛾蜕皮激素受体与超气门蛋白的原核表达及活性检测

双酰基肼类杀虫剂模拟天然蜕皮激素作用影响幼虫蜕皮。昆虫蜕皮激素受体的高度敏感性和专一性要求必须建立新的杀虫活性检测技术, 以适应快速准确和大批量筛选的要求。本研究采用RT-PCR技术, 获取斜纹夜蛾Spodoptera litura蜕皮激素受体（EcR）与超气门蛋白（USP）功能域目的基因, 构建EcR、 USP功能区基因原核表达载体（pEHISEGFPTEV-EcR_cde和pEHISEGFPTEV-USP_cde）。载体经诱导表达和蛋白纯化, 获得EcR和USP功能区纯化蛋白。在蛋白浓度l mg/mL, ³H-PonA终浓度8 nmol/L的条件下, 采用放射性配基受体结合分析测定了4种药剂（虫酰肼、 呋喃虫酰肼、 抑食肼和灭幼脲）不同浓度下的放射性比活的变化。结果显示： 随着药剂浓度的逐渐增大, 前3种药剂的放射性比活都有不同程度的降低, 其中虫酰肼的放射性比活降低程度最大, 其次是呋喃虫酰肼和抑食肼, 灭幼脲的放射性比活基本无变化。这些结果表明相同条件下虫酰肼比呋喃虫酰肼和抑食肼有更高的杀虫活力, 本研究的方法可对双酰基肼类杀虫剂或者先导化合物进行初步筛选。     

Synthesis and Insecticidal Activities of Novel 1,3,4-Thiadiazole 5-Fluorouracil Acetamides Derivatives: An RNA Interference Insecticide

A series of novel 1,3,4-thiadiazole 5-fluorouracil acetamides derivatives were designed and synthesized. Their structures were confirmed by infrared, ¹H NMR spectroscopy, and elemental analysis. The insecticidal activities against Tetranychus cinnabarinus and Aphis craccivora of these new compounds were evaluated. The bioassay tests showed that most of these title compounds possessed a good combination of stomach toxicity as well as contact toxicity against Tetranychus cinnabarinus and Aphis craccivora. In particular, the insecticidal activity of the title compound IVe against Aphis craccivora was better than the commercialized thiacloprid and was also comparable to another commercialized product, imidacloprid. The introduction of fluorines to meta and para-position of the benzene ring was essential for high bioactivity.     

Rh and Ir dibenzo[a,e]cyclooctatetraene complexes: Chloro, hydroxo, and mixed Au oxo complexes

New and improved procedures are reported for the synthesis of [M(DBCOT)(μ-Cl)]₂ (M = Rh, Ir; DBCOT = dibenzo[a,e]cyclooctatetraene) from MCl₃(H₂O)_x or [M(COD)(μ-Cl)]₂ and DBCOT. Treatment of [M(DBCOT)(μ-Cl)]₂ with [(LAu)₃(μ-O)]BF₄(L = PPh₃, P^tBu₃) yields the mixed-metal oxo complexes [M(DBCOT)(μ⁴-O)(AuL)₂]₂(BF₄)₂. Dimeric [Rh(DBCOT)(μ-OH)]₂ is obtained from the reaction of [M(DBCOT)(μ-Cl)]₂ with KOH in EtOH/H₂O. All complexes except [Rh(DBCOT)(μ-Cl)]₂ have been structurally characterized by single crystal X-ray diffraction.     

Effect of C-terminus site-directed mutations on the toxicity and sensitivity of Bacillus thuringiensis Vip3Aa11 protein against three lepidopteran pests

The insecticidal activities and specificities of the Vip3Aa proteins derived from different Bt strains are very different, although the similarities between these proteins are higher than 95%. In this study, we hypothesised that the differences in Vip3Aa11 and Vip3Aa39 C-terminal amino acids determine their differences in insecticidal activity against three Lepidoptera insects. To find the amino acid residues associated with insecticidal activity, nine different amino acid residues of Vip3Aa11 were substituted with the corresponding amino acid residues from Vip3Aa39 by site-directed mutagenesis. The toxicity of each protein was estimated by bioassays, and the results demonstrated that the mutant Y784N lost its insecticidal activity against three insects (Agrotis ipsilon, Helicoverpa armigera, and Spodoptera exigua). The insecticidal activity of S543N, I544L, and S686R against S. exigua increased 5-fold, 2.65-fold, and 8.98-fold, while the toxicity to H. armigera and A. ipsilon slightly decreased compared with that of the Vip3Aa11 protein. These findings indicate that the amino acid residues Ser⁵⁴³, Ile⁵⁴⁴, Thr⁶⁸⁵, Ser⁶⁸⁶, Arg⁷⁰⁴, Ile⁷⁸⁰, and Tyr⁷⁸⁴ may be insecticidal activity-related residues. Additionally, the trypsin activation of the four mutants indicated that all proteins can form a 62-kDa core fragment, except Y784N. A possible association between the insecticidal activity and trypsin sensitivity of Vip3A proteins is suggested.     

Antifungal properties of Canavalia ensiformis urease and derived peptides

Ureases (EC 3.5.1.5) are metalloenzymes that hydrolyze urea into ammonia and CO₂. These proteins have insecticidal and fungicidal effects not related to their enzymatic activity. The insecticidal activity of urease is mostly dependent on the release of internal peptides after hydrolysis by insect digestive cathepsins. Jaburetox is a recombinant version of one of these peptides, expressed in Escherichia coli. The antifungal activity of ureases in filamentous fungi occurs at submicromolar doses, with damage to the cell membranes. Here we evaluated the toxic effect of Canavalia ensiformis urease (JBU) on different yeast species and carried out studies aiming to identify antifungal domain(s) of JBU. Data showed that toxicity of JBU varied according to the genus and species of yeasts, causing inhibition of proliferation, induction of morphological alterations with formation of pseudohyphae, changes in the transport of H⁺ and carbohydrate metabolism, and permeabilization of membranes, which eventually lead to cell death. Hydrolysis of JBU with papain resulted in fungitoxic peptides (∼10 kDa), which analyzed by mass spectrometry, revealed the presence of a fragment containing the N-terminal sequence of the entomotoxic peptide Jaburetox. Tests with Jaburetox on yeasts and filamentous fungi indicated a fungitoxic activity similar to ureases. Plant ureases, such as JBU, and its derived peptides, may represent a new alternative to control medically important mycoses as well as phytopathogenic fungi, especially considering their potent activity in the range of 10⁻⁶–10⁻⁷ M.     

A Calcium Bioluminescence Assay for Functional Analysis of Mosquito (Aedes aegypti) and Tick (Rhipicephalus microplus) G Protein-coupled Receptors

Arthropod hormone receptors are potential targets for novel pesticides as they regulate many essential physiological and behavioral processes. The majority of them belong to the superfamily of G protein-coupled receptors (GPCRs). We have focused on characterizing arthropod kinin receptors from the tick and mosquito. Arthropod kinins are multifunctional neuropeptides with myotropic, diuretic, and neurotransmitter function. Here, a method for systematic analyses of structure-activity relationships of insect kinins on two heterologous kinin receptor-expressing systems is described. We provide important information relevant to the development of biostable kinin analogs with the potential to disrupt the diuretic, myotropic, and/or digestive processes in ticks and mosquitoes.The kinin receptors from the southern cattle tick, Boophilus microplus (Canestrini), and the mosquito Aedes aegypti (Linnaeus), were stably expressed in the mammalian cell line CHO-K1. Functional analyses of these receptors were completed using a calcium bioluminescence plate assay that measures intracellular bioluminescence to determine cytoplasmic calcium levels upon peptide application to these recombinant cells. This method takes advantage of the aequorin protein, a photoprotein isolated from luminescent jellyfish. We transiently transfected the aequorin plasmid (mtAEQ/pcDNA1) in cell lines that stably expressed the kinin receptors. These cells were then treated with the cofactor coelenterazine, which complexes with intracellular aequorin. This bond breaks in the presence of calcium, emitting luminescence levels indicative of the calcium concentration. As the kinin receptor signals through the release of intracellular calcium, the intensity of the signal is related to the potency of the peptide.This protocol is a synthesis of several previously described protocols with modifications; it presents step-by-step instructions for the stable expression of GPCRs in a mammalian cell line through functional plate assays (Staubly et al., 2002 and Stables et al., 1997). Using this methodology, we were able to establish stable cell lines expressing the mosquito and the tick kinin receptors, compare the potency of three mosquito kinins, identify critical amino acid positions for the ligand-receptor interaction, and perform semi-throughput screening of a peptide library. Because insect kinins are susceptible to fast enzymatic degradation by endogenous peptidases, they are severely limited in use as tools for pest control or endocrinological studies. Therefore, we also tested kinin analogs containing amino isobutyric acid (Aib) to enhance their potency and biostability. This peptidase-resistant analog represents an important lead in the development of biostable insect kinin analogs and may aid in the development of neuropeptide-based arthropod control strategies.