Potential of the bean α‐amylase inhibitor αAI‐1 to inhibit α‐amylase activity in true bugs (Hemiptera)

True bugs (Hemiptera) are an important pest complex not controlled by Bt‐transgenic crops. An alternative source of resistance includes inhibitors of digestive enzymes, such as protease or amylase inhibitors. αAI‐1, an α‐amylase inhibitor from the common bean, inhibits gut‐associated α‐amylases of bruchid pests of grain legumes. Here we quantify the in vitro activity of α‐amylases of 12 hemipteran species from different taxonomic and functional groups and the in vitro inhibition of those α‐amylases by αAI‐1. α‐Amylase activity was detected in all species tested. However, susceptibility to αAI‐1 varied among the different groups. α‐Amylases of species in the Lygaeidae, Miridae and Nabidae were highly susceptible, whereas those in the Auchenorrhyncha (Cicadellidae, Membracidae) had a moderate susceptibility, and those in the Pentatomidae seemed to be tolerant to αAI‐1. The species with αAI‐1 susceptible α‐amylases represented families which include both important pest species but also predatory species. These findings suggest that αAI‐1‐expressing crops have potential to control true bugs in vivo.     

A novel cysteine‐free venom peptide with strong antimicrobial activity against antibiotics‐resistant pathogens from the scorpion Opistophthalmus glabrifrons

Antibiotic‐resistant bacteria, such as methicillin‐resistant Staphylococcus aureus and vancomycin‐resistant Enterococcus, pose serious threat to human health. The outbreak of antibiotic‐resistant pathogens in recent years emphasizes once again the urgent need for the development of new antimicrobial agents. Here, we discovered a novel antimicrobial peptide from the scorpion Opistophthalmus glabrifrons, which was referred to as Opisin. Opisin consists of 19 amino acid residues without disulfide bridges. It is a cationic, amphipathic, and α‐helical molecule. Protein sequence homology search revealed that Opisin shares 42.1–5.3% sequence identities to the 17/18‐mer antimicrobial peptides from scorpions. Antimicrobial assay showed that Opisin is able to potently inhibit the growth of the tested Gram‐positive bacteria with the minimal inhibitory concentration (MIC) values of 4.0–10.0 μM; in contrast, it possesses much lower activity against the tested Gram‐negative bacteria and a fungus. It is interesting to see that Opisin is able to strongly inhibit the growth of methicillin‐ and vancomycin‐resistant pathogens with the MICs ranging from 2.0 to 4.0 μM and from 4.0 to 6.0 μM, respectively. We found that at a concentration of 5 × MIC, Opisin completely killed all the cultured methicillin‐resistant Staphylococcus aureus. These results suggest that Opisin is a promising therapeutic candidate for the treatment of the antibiotic‐resistant bacterial infections. Copyright © 2015 European Peptide Society and John Wiley & Sons, Ltd.     

Antimicrobial activities of Saudi honey against Pseudomonas aeruginosa

Five types of imported and local honey were screened for both their bacteriocidal/bacteriostatic activities against both Imipenem resistant and sensitive Pseudomonas aeruginosa in both Brain Heart infusion broth and Mueller–Hinton agar. The results indicated that the effect was concentration and type of honey dependant. All types of honey tested exerted a full inhibition of bacterial growth at the highest concentration tested of 50% at 24 h of contact. The inhibitory effect of honey on bacterial growth was clear with concentrations of 20% and 10% and this effect was most evident in the case of Manuka honey as compared to Nigella sativa honey and Seder honey. Manuka honey UMF +20 showed a bacteriocidal activity on both Imipenem resistant and sensitive P. aeruginosa, while Seder honey and N. sativa honey exerted only a bacteriostatic effect. Manuka honey UMF +10 showed most effect on antimicrobial resistance. Manuka honey UMF +10 had an effect on modulation of Imipenem resistant P. aeruginosa. Conclusion: The results indicated that various types of honey affected the test organisms differently. Modulation of antimicrobial resistance was seen in the case Manuka honey UMF +10.     

Light and Electron Microscopy Studies on the Infection of a Wild‐type and Metalaxyl‐resistant Isolate of Phytophthora sojae in Soybean Hypocotyls

Resistance of soybean cultivars, depending on single dominant genes to Phytophthora sojae, may easily be overcome by emerging new virulent races. Light microscopy (LM) and electron microscopy (EM) were used to study the infection process of the wild‐type isolate Ps411 and metalaxyl‐resistant mutant Ps411‐M of P. sojae in hypocotyls of soybean seedlings grown from untreated and metalaxyl‐treated seeds. The isolate Ps411‐M of P. sojae exhibited a high degree of resistance to metalaxyl compared to Ps411. The pathogenic fitness of Ps411‐M in hypocotyls of soybean seedlings was lower compared to Ps411. LM observations showed distinct differences in the infection process of both isolates in hypocotyls of treated soybean seedlings. EM studies revealed differences in the prepenetration stage between Ps411 and Ps411‐M on hypocotyls grown from seeds treated with 0.02% metalaxyl until the whole seed surface coated. The number of infection sites was markedly reduced and few hyphae continued to spread. Numerous ultrastructural alterations in hyphae were observed in treated hypocotyls infected with Ps411, including pronounced thickening of hyphal cell walls and encasement of haustorium‐like bodies; electron‐dense material was deposited in host cell walls in contact with hyphal cells. Neither the prepenetration process nor penetration or spread of hyphae in the hypocotyls of the resistant isolate was affected in treated compared to non‐treated tissue. While in treated hypocotyls infected with the wild‐type isolate, host defence reactions were induced, no such reactions were detected in treated hypocotyls infected with the resistant isolate. Hypocotyls from metalaxyl‐treated seeds infected with the wild‐type isolate resembled an incompatible interaction, whereas during infection with the metalaxyl‐resistant mutant, the compatible interaction was not changed.     

Novel second generation analogs of eribulin. Part I: Compounds containing a lipophilic C32 side chain overcome P-glycoprotein susceptibility

Eribulin mesylate (Halaven™), a totally synthetic analog of the marine polyether macrolide halichondrin B, has recently been approved in the United States as a treatment for breast cancer. It is also currently under regulatory review in Japan and the European Union. Our continuing medicinal chemistry efforts on this scaffold have focused on oral bioavailability, brain penetration and efficacy against multidrug resistant (MDR) tumors by lowering the susceptibility of these compounds to P-glycoprotein (P-gp)-mediated drug efflux. Replacement of the 1,2-amino alcohol C32 side chain of eribulin with fragments neutral at physiologic pH led to the identification of analogs with significantly lower P-gp susceptibility. The analogs maintained low- to sub-nM potency in vitro against both sensitive and MDR cell lines. Within this series, increasing lipophilicity generally led to decreased P-gp susceptibility. In addition to potency in cell culture, these compounds showed in vivo activity in mouse xenograft models.     

4-Aminothiazolyl analogs of GE2270 A: design, synthesis and evaluation of imidazole analogs

Imidazole analogs of the antibiotic natural product GE2270 A (1) were designed, synthesized, and evaluated for Gram positive bacteria growth inhibition. A recently reported, copper-mediated synthesis was exploited to prepare 4-thiazolyl imidazole analogs of 1. The synthesis described represents a structurally complex, natural product-based application of this recently reported synthetic methodology. In addition, the biological evaluation of the imidazole-based analogs further define the SAR of the 4-aminothiazolyl-based antibacterial template.     

2010年宜昌市铜绿假单胞菌的耐药性分析

了解宜昌市铜绿假单胞菌（Pseudomonas aeruginosa）临床分离株的耐药现状。宜昌市城区5所医院临床分离的铜绿假单胞菌菌株,用K-B法作药敏试验,并根据统计其耐药情况及耐药表型（模式）分析可能存在的耐药机制。临床分离的铜绿假单胞菌共1 575株,耐药率依次为阿米卡星7.1%、美罗培南17.2%、头孢吡肟20.4%、头孢哌酮/舒巴坦21.0%、哌拉西林/他唑巴坦22.5%、环丙沙星23.1%、庆大霉素23.4%、头孢他啶25.0%、亚胺培南25.2%、哌拉西林30.4%、氨曲南34.5%、复方新诺明59.0%、米诺环素75.6%。多重耐药（MDR）和泛耐药（PDR）株分别占41.5%和0.17%。对各种抗假单胞菌药物分别耐药的菌株仍有13%～25.7%对阿米卡星敏感,提示在严重铜绿假单胞菌感染患者的治疗中,β内酰胺类抗假单胞菌药加氨基糖苷类仍是一个很好的联合用药组合。细菌耐药性仍呈增长趋势,临床上感染多重耐药和泛耐药的铜绿假单胞菌的治疗仍很棘手,应合理使用抗生素,尽量延缓耐药菌株的出现。     

多药耐药鲍曼不动杆菌老年患者分离株发现ADC型β-内酰胺酶基因新的变异型

目的调查多药耐药鲍曼不动杆菌老年患者分离株(MDR-ABA-5077)β-内酰胺酶基因分布情况。方法 MDR-ABA-5077株分离自宁波市医疗中心李惠利医院2009年7月住院老年患者,采用聚合酶联反应(PCR)及序列分析的方法分析21种β-内酰胺酶基因。结果本株MDR-ABA共检出3种β-内酰胺酶基因:TEM、SHV、ADC,其余18种β-内酰胺酶基因未检出。ADC阳性基因测得序列经BLAST比对与已在GenBank登录的ADC型AmpC均不相同,经与GenBank登录的ADC型序列分子进化分析,确认为ADC型β-内酰胺酶新的变异型。结论本株MDR-ABA多种β-内酰胺类药物耐药与产TEM、SHV、ADC等3种β-内酰胺酶相关。