Effects of polyphyllin I on growth inhibition of human non-small lung cancer cells and in xenograft

Polyphyllin I (PPI), a small molecular monomer extracted from Rhizoma of Paris polyphyllin, shows strong anticancer effects in previous study. Human lung adenocarcinoma A549 cells, human lung squamous cell carcinoma SK-MES-1 cells, and human lung large cell carcinoma H460 cells were cultured and then treated with PPI. Cell proliferation and apoptosis were measured by 3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium bromide assay, flow cytometry, western blot analysis, and DNA ladder. Athymic nude mice bearing tumors were injected with PPI, and tumor growth was recorded. Our results showed that PPI significantly inhibited the proliferation of three non-small cell lung cancer (NSCLC) cell lines, with the inhibitory concentrations (IC50) of 1.24, 2.40, and 2.33 μg/ml for A549, H460, and SK-MES-1 cells, respectively. After being treated with 2.5 μg/ml of PPI for 24 h, the apoptotic rate of A549 cells was 39.68%, which was remarkably higher than that of the control. Tumor growth was significantly inhibited in the PPI-treated group compared with the group treated with cisplatin (DDP) or PBS in the nude mice. PPI exhibits antitumor ability in NSCLC cells in vitro and in vivo, which might be related to the apoptosis induced by PPI.     

Polyethylenimine‐mediated gene delivery into human bone marrow mesenchymal stem cells from patients

Transplantation of mesenchymal stem cells (MSCs) derived from adult bone marrow has been proposed as a potential therapeutic approach for post‐infarction left ventricular (LV) dysfunction. However, age‐related functional decline of stem cells has restricted their clinical benefits after transplantation into the infarcted myocardium. The limitations imposed on patient cells could be addressed by genetic modification of stem cells. This study was designed to improve our understanding of genetic modification of human bone marrow derived mesenchymal stem cells (hMSCs) by polyethylenimine (PEI, branched with Mw 25 kD), one of non‐viral vectors that show promise in stem cell genetic modification, in the context of cardiac regeneration for patients. We optimized the PEI‐mediated reporter gene transfection into hMSCs, evaluated whether transfection efficiency is associated with gender or age of the cell donors, analysed the influence of cell cycle on transfection and investigated the transfer of therapeutic vascular endothelial growth factor gene (VEGF). hMSCs were isolated from patients with cardiovascular disease aged from 41 to 85 years. Optimization of gene delivery to hMSCs was carried out based on the particle size of the PEI/DNA complexes, N/P ratio of complexes, DNA dosage and cell viability. The highest efficiency with the cell viability near 60% was achieved at N/P ratio 2 and 6.0 μg DNA/cm². The average transfection efficiency for all tested samples, middle‐age group (<65 years), old‐age group (>65 years), female group and male group was 4.32%, 3.85%, 4.52%, 4.14% and 4.38%, respectively. The transfection efficiency did not show any correlation either with the age or the gender of the donors. Statistically, there were two subpopulations in the donors; and transfection efficiency in each subpopulation was linearly related to the cell percentage in S phase. No significant phenotypic differences were observed between these two subpopulations. Furthermore, PEI‐mediated therapeutic gene VEGF transfer could significantly enhance the expression level.     

新型阳离子基因传递载体PEI-PBLG的细胞转染研究

对新型阳离子聚合物PEI(10kD)-PBLG进行研究,重点考察其基因转染效率与细胞毒性,探讨其作为基因载体的可能性。通过粒径分析及扫描电镜(SEM)观察PEI(10kD)-PBLG与质粒pEGFP自组装形成的颗粒形态及粒径,预测其进入细胞的可能性。使用MTT比色法分析PEI(10kD)-PBLG、PEI(25kD)-PBLG、PEI(10kD)和PEI(25kD)的细胞毒性差异。选用表达增强型绿色荧光蛋白的质粒pEGFP作为报告基因模型,将其与PEI(10kD)-PBLG自组装后,分别转染真核细胞株Hela、COS-7、Vero-E6和ECV304,应用流式细胞术检测细胞转染效率,并比较了血清、缓冲液、细胞谱等多种因素对基因转染效率的影响。PEI(10kD)-PBLG可包裹质粒形成粒径100~120nm的纳米复合物,适合介导质粒进入细胞。该纳米粒复合物对转染缓冲液的敏感度较低,并能够在10%血清存在的条件下,转染全部实验用细胞株,尤其对Hela的转染效率最高,其次是COS-7、Vero-E6和ECV304;其中PEI-PBLG(10kD)/pEGFP复合物转染Hela细胞的比率为45.02%,高于PEI(10kD)/pEGFP的29.16%;PEI(10kD)-PBLG的细胞毒性作用显著低于PEI(25kD)、PEI(10kD)和PEI(25kD)-PBLG。新型阳离子多聚物PEI(10kD)-PBLG在提高PEI介导的基因转染效率的同时降低了其细胞毒性,提高了生物相容性,有望成为基因转移的有效载体。     

Polyethyleneimine-induced flocculation and flotation of cyanobacterium Anabaena flos-aquae for gas vesicle production

Gas vesicles are hollow, proteinaceous structures found in some strains of cyanobacteria. They have been used to increase the oxygen supply and improve the cultivation of shear-sensitive mammalian cells. However, the production and, especially, collection of cells and gas vesicles were laborious and ineffective. In this study we examined the use of the cationic polymer, polyethyleneimine (PEI), for improving the cell harvesting by flocculation and flotation. PEI was examined to determine the appropriate molecular weight, pH range, and dosage. The dose of 20–30 mg/l of PEI with molecular weight of 25,000 in the pH range of 6.0–8.5 was found to provide effective and efficient cell flocculation and flotation. As the PEI dose increased, the rate of flotation increased but the clearance (collection) efficacy declined slightly. The culture samples used in this study were taken from light-limiting continuous culture systems at different dilution rates (0.05–0.24 h⁻¹). Without PEI addition, the cells at dilution rates lower than 0.1 h did not float while those at higher dilution rates would float slowly. With PEI addition, the flocculated cells at the dilution rate of 0.05 h⁻¹ sank and those of higher dilution rates would float and the flotation rate increased with increasing specific growth rate. Nonetheless, PEI flocculation and flotation (or sedimentation) could be used to harvest cells at a wide range of growth states.     

棕色田鼠脑和行为不同发育阶段副嗅球和主嗅球的细胞活动

本文运用免疫组化显示Fos蛋白的方法首次研究了棕色田鼠脑和行为不同发育阶段副嗅球和主嗅球的细胞活动。当不同年龄阶段的幼鼠同时暴露于自己家庭的熟悉底物和另一家庭的陌生底物时 ,嗅闻和呆在自己熟悉底物上的时间较多 ,直到产后 15d、 2 0d和 2 5d时 ,幼鼠探究不同底物的行为显示出显著性差异。脑的大小随着日龄增加而增加 ,但从产后 1到 15d ,脑重、脑宽和嗅球大小随着日龄增加特别显著。当不同日龄幼鼠暴露于陌生底物或者暴露于自己的熟悉底物时 ,从产后 5到 15日龄 ,主嗅球僧帽细胞层、颗粒细胞层、副嗅球僧帽细胞层和颗粒细胞层Fos免疫阳性细胞随着日龄明显增加 ,但直到 15和 30日龄时 ,和对照组相比 ,陌生底物可引起幼鼠主嗅球Fos免疫阳性细胞明显增加 ,从 2 0日龄起 ,陌生底物可引起副嗅球Fos免疫阳性细胞明显增加。主嗅球颗粒细胞层Fos免疫阳性细胞随着日龄的增加从边缘到中心逐渐出现 ,而副嗅球Fos免疫阳性细胞随着日龄的增加从顶部到底部逐渐出现。以上结果说明产后第 1d到 15d左右可能是棕色田鼠脑结构发育的重要阶段 ,而从此以后棕色田鼠主嗅球和副嗅球就具有区别熟悉气味和陌生气味的能力 ,表明棕色田鼠行为、脑发育和细胞活动间有紧密关系     

High cell density transient transfection of CHO cells for TGF‐β1 expression

High cell densities for transient transfection with polyethyleneimine (PEI) can be used for rapid and maximal production of recombinant proteins. High cell densities can be obtained by different cultivation systems, such as batch or perfusion systems. Herein, densities up to 18 million cells/mL were obtained by centrifugation for transfection evaluation. PEI transfection efficiency was easily determined by transfected enhanced green fluorescence protein (EGFP) reporter plasmid DNA (pDNA). A linear correlation between fluorescence intensity and transfection efficiency was improved. The transfection efficiency of PEI was highly dependent on the transfection conditions and directly related to the level of recombinant protein. Several factors were required to optimize the transient transfection process; these factors included the media type (which is compatible with low or high cell density transfection), the preculture CHO‐K1 suspension cell density, and the pDNA to PEI level. Based on design of experiment (DoE) analyses, the optimal transfection conditions for 10 × 10⁶ cells/mL in the CHOMACS CD medium achieved 73% transfection efficiency and a cell viability of over 80%. These results were confirmed for the production of transforming growth factor‐beta 1 (TGF‐β1) in a shake flask. The purified TGF‐β1 protein concentration from 60 mL supernatant was 27 µg/mL, and the protein was biologically active.     

Sustained primary culture of lobster (Panulirus argus) olfactory receptor neurons

Appropriate conditions were developed for primary sustained culture of olfactory neurons of the spiny lobster Panulirus argus. Neurons were cultured in a modified Liebowitz L15 media supplemented with Panulirus salts, basic minimal essential (BME) vitamins, L-glutamine, low dextrose, and either fetal calf serum (FCS) or lobster haemolymph. Neurite outgrowth and cell viability was strongly affected by choice of adherent substratum, presence of serum, and length of animal captivity. Neither nerve growth factor 7s (NGF-7s), HEPES, nor preconditioned media from the target organ, the olfactory lobe, had any gross effect on either longevity or neurite outgrowth. Five morphologically distinct neuronal cell types (8-16 mum soma diameter) could be defined based on their number and type of processes. All of these cells were electrically excitable (N = 50), and many (56%) produced either inward or outward currents in response to stimulation with single odors. The proportion of cells responding to odors increased (80%) when 10 cells were sequentially presented with a series of 3-5 odors. The finding that cultured cells maintain responsiveness to odors yet are morphologically more compact than their counterparts in situ, argues for the prospect of using these dissociated cultured olfactory receptor neurons to study signal transduction in olfaction.     

Covalent layer-by-layer assembly of hyperbranched polyether and polyethyleneimine: multilayer films providing possibilities for surface functionalization and local drug delivery

A convenient and simple route to multifunctional surface coatings via the alternating covalent layer-by-layer (LBL) assembly of p-nitrophenyloxycarbonyl group-terminated hyperbranched polyether (HBPO-NO(2)) and polyethylenimine (PEI) is described. The in situ chemical reaction between HBPO-NO(2) and PEI onto aminolyzed substrates was rapid and mild. Results from ellipsometry measurements, contact angle measurements, and ATR-FTIR spectra confirmed the successful LBL assembly of the building blocks, and the surface reactivity of the multilayer films with HBPO-NO(2) as the outmost layer was demonstrated by the immobilization of an amine-functionalized fluorophore. Furthermore, a biomimetic surface was achieved by surface functionalization of the multilayer films with extracellular matrix protein collagen to promote the adhesion and growth of cells. The studies on the drug loading and in vitro release behaviors of the multilayer films demonstrated their application potentials in local delivery of hydrophilic and hydrophobic therapeutic agents.     

Novel shielded transferrin-polyethylene glycol-polyethylenimine/DNA complexes for systemic tumor-targeted gene transfer

Tumor-targeting DNA complexes which can readily be generated by the mixing of stable components and freeze-thawed would be very advantageous for their subsequent application as medical products. Complexes were generated by the mixing of plasmid DNA, linear polyethylenimine (PEI22, 22 kDa) as the main DNA condensing agent, PEG-PEI (poly(ethylene glycol)-conjugated PEI) for surface shielding, and Tf-PEG-PEI (transferrin-PEG-PEI) to provide a ligand for receptor-mediated cell uptake. Within the shielding conjugates, PEG chains of varying size (5, 20, or 40 kDa) were conjugated with either linear PEI22 (22 kDa) or branched PEI25 (25 kDa). The three polymer components were mixed together at various ratios with DNA; particle size, surface charge, in vitro transfection activity, and systemic gene delivery to tumors was investigated. In general, increasing the proportion of shielding conjugate in the complex reduced surface charge, particle size, and in vitro transfection efficiency in transferrin receptor-rich K562 cells. The particle size or surface charge of the complexes containing the PEG-PEI conjugate did not significantly change after freeze-thawing, while complexes without the shielding conjugate aggregated. Complexes containing PEG-PEI conjugate efficiently transfected K562 cells after freeze-thawing. Furthermore the systemic application of freeze-thawed complexes exhibited in vivo tumor targeted expression. For complexes containing the luciferase reporter gene the highest expression was found in tumor tissue of mice. An optimum formulation for in vivo application, PEI22/Tf-PEG-PEI/PEI22-PEG5, containing plasmid DNA encoding for the tumor necrosis factor (TNF-alpha), inhibited tumor growth in three different murine tumor models. These new DNA complexes offer simplicity and convenience, with tumor targeting activity in vivo after freeze-thawing.     

Time-course network analysis reveals TNF-α can promote G1/S transition of cell cycle in vascular endothelial cells

MOTIVATION: Tumor necrosis factor-alpha (TNF-α), a major inflammatory cytokine, is closely related to several cardiovascular pathological processes. However, its effects on the cell cycle of vascular endothelial cells (VECs) have been the subject of some controversy. To investigate the molecular mechanism underlying this process, we constructed time-course protein-protein interaction (PPI) networks of TNF-α induced regulation of cell cycle in VECs using microarray datasets and genome-wide PPI datasets. Then, we analyzed the topological properties of the responsive PPI networks and calculated the node degree and node betweenness centralization of each gene in the networks. We found that p21, p27 and cyclinD1, key genes of the G1/S checkpoint, are in the center of responsive PPI networks and their roles in PPI networks are significantly altered with induction of TNF-α. According to the following biological experiments, we proved that TNF-α can promote G(1)/S transition of cell cycle in VECs and facilitate the cell cycle activation induced by vascular endothelial growth factor. CONTACT: shaoli@mail.tsinghua.edu.cn SUPPLEMENTARY INFORMATION: Supplementary data are available at Bioinformatics online.     

Primary culture of lobster (Homarus americanus) olfactory sensory neurons

Lobster olfactory sensory neurons have contributed to a number of advances in our understanding of olfactory physiology. To facilitate further study of their function, we have developed conditions allowing primary culture of the olfactory sensory neurons in a defined medium. The most common cells in the culture were round cell bodies with diameters of 10-15 micro m that often extended fine processes, features resembling olfactory sensory neurons. We discovered that acetylcholinesterase acted as a growth factor for these cells, improving their survival in culture. We also confirmed previous evidence from spiny lobsters that poly-D-lysine was a superior substrate for olfactory cells of this size and morphology. We then identified olfactory sensory neurons in the culture in two ways. Almost half the cells tested responded to application of a complex odorant with an inward current. An even more rigorous test was made possible by the development of an antiserum to OET-07, an ionotropic glutamate receptor homolog specifically expressed by Homarus americanus olfactory sensory neurons. It labeled a majority of the round cells in the culture, unequivocally identifying them as olfactory sensory neurons.     

Enhancement of DNA uptake in FUT8‐deleted CHO cells for transient production of afucosylated antibodies

Removal of the core α1,6 fucose from the glycans in the Fc region of IgG1 antibodies has been demonstrated to improve antibody‐dependent cellular cytotoxicity (ADCC) activity. In order to produce afucosylated antibodies using transient transfection, a FUT8 knockout (FUT8KO) cell line was generated in a CHO host cell line using the zinc finger nuclease technology. Transient transfection of DNA into mammalian cells using the cationic polymer, polyethylenimine (PEI), is commonly used for rapid generation of recombinant proteins. FUT8KO cells evaluated in PEI transfections yielded lower titers than parental CHO WT cells. FACS and HPLC analyses revealed that the FUT8KO cells had lower cell surface heparan sulfate (HS) levels than CHO WT. Removal of cell surface HS resulted in reduced uptake of PEI‐transfected DNA (PEI:DNA) and lower transfection titers suggesting that PEI:DNA relies on HS for binding and cellular entry. The absence of cell surface HS did not severely impact transfections performed with cationic liposomes. We undertook two approaches to improve transient production of afucosylated antibodies. First, we evaluated transfection of FUT8KO cells with cationic liposomes, which were observed to be less dependent on HS levels for uptake. Transfection of FUT8KO cells using the cationic liposome, DMRIE‐C, produced similar titers to CHO WT in both shake flask and large‐scale 10 L bioreactors. The second approach was to engineer a cell line overexpressing exostosin‐1 (EXT1), an enzyme responsible for HS chain elongation, to increase HS content. EXT1‐FUT8KO and CHO WT cells produced comparable levels of antibody from PEI transfections. Biotechnol. Bioeng. 2010;106: 751–763. © 2010 Wiley Periodicals, Inc.     

Use of an anti‐apoptotic CHO cell line for transient gene expression

Transient gene expression in mammalian cells allows for rapid production of recombinant proteins for research and preclinical studies. Here, we describe the development of a polyethylenimine (PEI) transient transfection system using an anti‐apoptotic host cell line. The host cell line, referred to as the Double Knockout (DKO), was generated by deleting two pro‐apoptotic factors, Bax and Bak, in a CHO‐K1 cell line using zinc finger nuclease mediated gene disruption. Optimized DNA and PEI volumes for DKO transfections were 50% and 30% lower than CHO‐K1, respectively. During transfection DKO cells produced relatively high levels of lactate, but this was mitigated by a temperature shift to 31°C which further enhanced productivity. DKO cells expressed ～3‐ to 4‐fold higher antibody titers than CHO‐K1 cells. As evidence of their anti‐apoptotic properties post‐transfection, DKO cells maintained higher viability and had reduced levels of active caspase‐3 compared to CHO‐K1 cells. Nuclear plasmid DNA copy numbers and message levels were significantly elevated in DKO cells. Although DNA uptake levels, as early as 40 min post‐transfection, were higher in DKO cells this was not due to differences in cell surface heparan sulfate (HS) or initial endocytosis mechanism as both cell types utilized caveolae‐ and clathrin‐mediated endocytosis to internalize DNA:PEI complexes. These results suggest that the increased transfection efficiency and titers from DKO cells are attributed to their resistance to transfection‐induced apoptosis and not differences in endocytosis mechanism. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 29:1050–1058, 2013     

Cross-linked polyethylenimine as potential DNA vector for gene delivery with high efficiency and low cytotoxicity

Polyethylenimine (PEI) has been known as an efficient gene carrier with the highest cationiccharge potential.High transfection efficiency of PEI,along with its cytotoxicity,strongly depends on itsmolecular weight.To enhance its gene delivery efficiency and minimize cytotoxicity,we have synthesizedsmall cross-linked PEI with biodegradable linkages and evaluated their transfection efficiencies in vitro.Inthis study,branched PEI with a molecular weight of 800 Da was cross-linked by small diacrylate[1,4-butanediol diacrylate or ethyleneglycol dimethacrylate (EGDMA)] for 2-6 h.The efficiencies of thecross-linked PEI in in vitro transfection of plasmid DNA containing enhanced green fluorescent protein(EGFP) reporter gene were assessed in melanoma B 16F10 cell line and other cell lines.Flow cytometrywas used to quantify the cellular entry efficiency of plasmid and the transgene expression level.Thecytotoxicities of the cross-linked PEI in these cells were evaluated by MTT assay.EGDMA-PEI 800-4h,atypical cross-linked PEI reported here,mediated a more efficient expression of reporter gene than thecommercially available 25-kDa branched PEI control,and resulted in a 9-fold increase in gene deliveryin B16F10 cells and a 16-fold increase in 293T cells,while no cytotoxicity was found at the optimizedcondition for gene delivery.Furthermore,the transfection activity of polyplexes was preserved in thepresence of serum proteins.     

Weakening effect of cell permeabilizers on gram-negative bacteria causing biodeterioration

Gram-negative bacteria play an important role in the formation and stabilization of biofilm structures on stone surfaces. Therefore, the control of growth of gram-negative bacteria offers a way to diminish biodeterioration of stone materials. The effect of potential permeabilizers on the outer membrane (OM) properties of gram-negative bacteria was investigated and further characterized. In addition, efficacy of the agents in enhancing the activity of a biocide (benzalkonium chloride) was assessed. EDTA, polyethylenimine (PEI), and succimer (meso-2,3-dimercaptosuccinic) were shown to be efficient permeabilizers of the members of Pseudomonas and Stenotrophomonas genera, as indicated by an increase in the uptake of a hydrophobic probe (1-N-phenylnaphthylamine) and sensitization to hydrophobic antibiotics. Visualization of Pseudomonas cells treated with EDTA or PEI by atomic force microscopy revealed damage in the outer membrane structure. PEI especially increased the surface area and bulges of the cells. Topographic images of EDTA-treated cells were compatible with events assigned for the effect of EDTA on outer membranes, i.e., release of lipopolysaccharide and disintegration of OM structure. In addition, the effect of EDTA treatment was visualized in phase-contrast images as large areas with varying hydrophilicity on cell surfaces. In liquid culture tests, EDTA and PEI supplementation enhanced the activity of benzalkonium chloride toward the target strains. Use of permeabilizers in biocide formulations would enable the use of decreased concentrations of the active biocide ingredient, thereby providing environmentally friendlier products.     

High‐Efficiency Polymer Homo‐Tandem Solar Cells with Carbon Quantum‐Dot‐Doped Tunnel Junction Intermediate Layer

The tunnel junction (TJ) intermediate connection layer (ICL), which is the most critical component for high‐efficient tandem solar cell, generally consists of hole conducting layer and polyethyleneimine (PEI) polyelectrolyte. However, because of the nonconducting feature of pristine PEI, photocurrent is open‐restricted in ICL even with a little thick PEI layer. Here, high‐efficiency homo‐tandem solar cells are demonstrated with enhanced efficiency by introducing carbon quantum dot (CQD)‐doped PEI on TJ–ICL. The CQD‐doped PEI provides substantial dynamic advantages in the operation of both single‐junction solar cells and homo‐tandem solar cells. The inclusion of CQDs in the PEI layer leads to improved electron extraction property in single‐junction solar cells and better series connection in tandem solar cells. The highest efficient solar cell with CQD‐doped PEI layer in between indium tin oxide (ITO) and photoactive layer exhibits a maximum power conversion efficiency (PCE) of 9.49%, which represents a value nearly 10% higher than those of solar cells with pristine PEI layer. In the case of tandem solar cells, the highest performing tandem solar cell fabricated with C‐dot‐doped PEI layer in ICL yields a PCE of 12.13%; this value represents an ≈15% increase in the efficiency compared with tandem solar cells with a pristine PEI layer.     

Reactive polymer multilayers fabricated by covalent layer-by-layer assembly: 1,4-conjugate addition-based approaches to the design of functional biointerfaces

We report on conjugate addition-based approaches to the covalent layer-by-layer assembly of thin films and the post-fabrication functionalization of biointerfaces. Our approach is based on a recently reported approach to the "reactive" assembly of covalently cross-linked polymer multilayers driven by the 1,4-conjugate addition of amine functionality in poly(ethyleneimine) (PEI) to the acrylate groups in a small-molecule pentacrylate species (5-Ac). This process results in films containing degradable β-amino ester cross-links and residual acrylate and amine functionality that can be used as reactive handles for the subsequent immobilization of new functionality. Layer-by-layer growth of films fabricated on silicon substrates occurred in a supra-linear manner to yield films ≈ 750 nm thick after the deposition of 80 PEI/5-Ac layers. Characterization by atomic force microscopy (AFM) suggested a mechanism of growth that involves the reactive deposition of nanometer-scale aggregates of PEI and 5-Ac during assembly. Infrared (IR) spectroscopy studies revealed covalent assembly to occur by 1,4-conjugate addition without formation of amide functionality. Additional experiments demonstrated that acrylate-containing films could be postfunctionalized via conjugate addition reactions with small-molecule amines that influence important biointerfacial properties, including water contact angles and the ability of film-coated surfaces to prevent or promote the attachment of cells in vitro. For example, whereas conjugation of the hydrophobic molecule decylamine resulted in films that supported cell adhesion and growth, films treated with the carbohydrate-based motif D-glucamine resisted cell attachment and growth almost completely for up to 7 days in serum-containing media. We demonstrate that this conjugate addition-based approach also provides a means of immobilizing functionality through labile ester linkages that can be used to promote the long-term, surface-mediated release of conjugated species and promote gradual changes in interfacial properties upon incubation in physiological media (e.g., over a period of at least 1 month). These covalently cross-linked films are relatively stable in biological media for prolonged periods, but they begin to physically disintegrate after ≈ 30 days, suggesting opportunities to use this covalent layer-by-layer approach to design functional biointerfaces that ultimately erode or degrade to facilitate elimination.     

Is the rapid post-mating inhibition of pheromone response triggered by ecdysteroids or other factors from the sex accessory glands in the male moth Agrotis ipsilon?

In many animals, male copulation is dependent on the detection and processing of female-produced sex pheromones, which is generally followed by a sexual refractory post-ejaculatory interval (PEI). In the male moth, Agrotis ipsilon, this PEI is characterized by a transient post-mating inhibition of behavioral and central nervous responses to sex pheromone, which prevents males from re-mating until they have refilled their reproductive tracts for a potential new ejaculate. However, the timing and possible factors inducing this rapid olfactory switch-off are still unknown. Here, we determined the initial time delay and duration of the PEI. Moreover, we tested the hypothesis that the brain, the testis and/or the sex accessory glands (SAGs) could produce a factor inducing the PEI. Lastly, we investigated the possible involvement of ecdysteroids, hormones essential for development and reproduction in insects, in this olfactory plasticity. Using brain and SAG cross-injections in virgin and newly-mated males, surgical treatments, wind tunnel behavioral experiments and EIA quantifications of ecdysteroids, we show that the PEI starts very shortly after the onset of copulation, and that SAGs contain a factor, which is produced/accumulated after copulation to induce the PEI. Moreover, SAGs were found to be the main source of ecdysteroids, whose concentration decreased after mating, whereas it increased in the haemolymph. 20-Hydroxyecdysone (20E) was identified as the major ecdysteroid in SAGs of A. ipsilon males. Finally, 20E injections did not reduce the behavioral pheromone response of virgin males. Altogether our data indicate that 20E is probably not involved in the PEI.