Your search keyword '"Endotoxins pharmacology"' showing total 6,682 results

1. Carry-over effects of Bacillus thuringiensis on tolerant Aedes albopictus mosquitoes.

Author

Bahrami R, Quaranta S, Perdomo HD, Bonizzoni M, and Khorramnejad A

Subjects

Animals, Female, Gastrointestinal Microbiome drug effects, Insecticide Resistance genetics, Mosquito Vectors microbiology, Mosquito Vectors drug effects, Pest Control, Biological methods, Endotoxins pharmacology, Aedes drug effects, Aedes microbiology, Bacillus thuringiensis physiology, Larva microbiology, Mosquito Control methods

Abstract

Background: The biological larvicide Bacillus thuringiensis subsp. israelensis (Bti) represents a safe and effective alternative to chemical insecticides for mosquito control. Efficient control of mosquitoes implicates continuous and extensive application of Bti. This massive use of Bti imposes strong selective pressure, but the complex mode of action of the numerous synergistic Bti endotoxins lower the risk of the emergence of resistance. Although resistance to Bti has not been identified at the population level in nature, some larvae can survive Bti exposure, suggesting tolerance mechanisms. Here we investigated whether Bti-tolerant Aedes albopictus larvae experience any fitness costs. We also studied how this tolerance affects different aspects of the phenotype of the emerging adults that could be relevant for arboviral transmission., Methods: We exposed Ae. albopictus larvae to lethal concentration of Bti and studied the fitness and gut microbiota of tolerant larvae and their adult counterparts. We further compared the transcript abundance of nine key immunity genes in the gut of Bti-tolerant larvae and their emerging adults versus those not exposed to Bti., Results: Our results showed that Bti exposure has multifaceted impacts on Ae. albopictus mosquitoes during both larval and adult stages. The carry-over effect of Bti exposure on tolerant larvae manifested in reduced adult emergence rate, shorter lifespan, and decreased fecundity. Bti also alters the gut microbiota of both larvae and adults. We observed higher microbial diversity in Bti-tolerant larvae and changes in the richness of core microbiota. Bti infection and the altered microbiota triggered immune responses in the larval and adult guts., Conclusions: The observed reduction in mosquito fitness and changes in the composition of the microbiota of adults emerging from tolerant larvae could negatively influence mosquito vectorial capacity. Understanding these impacts is crucial for evaluating the broader implications of Bti-based insecticides in mosquito control programs., (© 2024. The Author(s).)

Published

2024

2. Downregulation of APN1 and ABCC2 mutation in Bt Cry1Ac-resistant Trichoplusia ni are genetically independent.

Author

Cotto-Rivera RO, Joya N, Hernández-Martínez P, Ferré J, and Wang P

Subjects

Animals, Larva genetics, Larva growth & development, Multidrug Resistance-Associated Protein 2, Down-Regulation, Insecticides pharmacology, Insect Proteins genetics, Insect Proteins metabolism, Bacillus thuringiensis Toxins, Bacterial Proteins genetics, Bacterial Proteins metabolism, Endotoxins genetics, Endotoxins metabolism, Endotoxins pharmacology, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Insecticide Resistance genetics, Multidrug Resistance-Associated Proteins genetics, Multidrug Resistance-Associated Proteins metabolism, Bacillus thuringiensis genetics, Moths genetics, Mutation, CD13 Antigens genetics, CD13 Antigens metabolism

Abstract

The resistance to the insecticidal protein Cry1Ac from the bacterium Bacillus thuringiensis (Bt) in the cabbage looper, Trichoplusia ni , has previously been identified to be associated with a frameshift mutation in the ABC transporter ABCC2 gene and with altered expression of the aminopeptidase N (APN) genes APN1 and APN6 , shown as missing of the 110-kDa APN1 (phenotype APN1¯) in larval midgut brush border membrane vesicles (BBMV). In this study, genetic linkage analysis identified that the APN1¯ phenotype and the ABCC2 mutation in Cry1Ac-resistant T. ni segregated independently, although they were always associated under Cry1Ac selection. The ABCC2 mutation and APN1¯ phenotype were separated into two T. ni strains respectively. Bioassays of the T. ni strains with Cry1Ac determined that the T. ni with the APN1¯ phenotype showed a low level resistance to Cry1Ac (3.5-fold), and the associated resistance is incompletely dominant in the background of the ABCC2 mutation. Whereas the ABCC2 mutation-associated resistance to Cry1Ac is at a moderate level, and the resistance is incompletely recessive in the genetic background of downregulated APN1. Analysis of Cry1Ac binding to larval midgut BBMV indicated that the midgut in larvae with the APN1¯ phenotype had reduced binding affinity for Cry1Ac, but the number of binding sites remained unchanged, and the midgut in larvae with the ABCC2 mutation had both reduced binding affinity and reduced number of binding sites for Cry1Ac. The reduced Cry1Ac binding to BBMV from larvae with the ABCC2 mutation or APN1¯ phenotype correlated with the lower levels of resistance.IMPORTANCEThe soil bacterium Bacillus thuringiensis (Bt) is an important insect pathogen used as a bioinsecticide for pest control. Bt genes coding for insecticidal proteins are the primary transgenes engineered into transgenic crops (Bt crops) to confer insect resistance. However, the evolution of resistance to Bt proteins in insect populations in response to exposure to Bt threatens the sustainable application of Bt biotechnology. Cry1Ac is a major insecticidal toxin utilized for insect control. Genetic mechanisms of insect resistance to Cry1Ac are complex and require to be better understood. The resistance to Cry1Ac in Trichoplusia ni is associated with a mutation in the ABCC2 gene and also associated with the APN expression phenotype APN1¯. This study identified the genetic independence of the APN1¯ phenotype from the ABCC2 mutation and isolated and analyzed the ABCC2 mutation-associated and APN1¯ phenotype-associated resistance traits in T. ni to provide new insights into the genetic mechanisms of Cry1Ac resistance in insects., Competing Interests: The authors declare no conflict of interest.

Published

2024

3. Development of resistance monitoring for Helicoverpa armigera (Lepidoptera: Noctuidae) resistance to pyramided Bt cotton in China.

Author

Ruan J, Yang Y, Carrière Y, and Wu Y

Subjects

Animals, China, Bacillus thuringiensis, Insecticides pharmacology, Pest Control, Biological, Helicoverpa armigera, Moths drug effects, Moths growth & development, Moths genetics, Gossypium, Bacillus thuringiensis Toxins, Endotoxins pharmacology, Insecticide Resistance, Hemolysin Proteins pharmacology, Bacterial Proteins, Plants, Genetically Modified, Larva growth & development

Abstract

The cotton bollworm, Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae), is a significant cotton pest worldwide. Bacillus thuringiensis (Bt) cotton producing Cry1Ac has been used since 1997 for the control of this pest in China and a significant increase in H. armigera resistance to Cry1Ac has occurred in northern China. To mitigate resistance evolution, it is necessary to develop and plant pyramided 2- and 3-toxin Bt cotton to replace Cry1Ac cotton. For sustainable use of pyramided Bt cotton, we used diet overlay bioassays to measure the baseline susceptibility of H. armigera to Cry2Ab in 33 populations collected in 2017, 2018, and 2021 in 12 locations from major cotton-producing areas of China. The lethal concentration killing 50% (LC50) or 99% (LC99) of individuals from the populations ranged from 0.030 to 0.138 µg/cm2 and 0.365 to 2.964 µg/cm2, respectively. The ratio of the LC50 for the most resistant and susceptible population was 4.6, indicating moderate among-population variability in resistance. The susceptibility of H. armigera to Cry2Ab did not vary significantly over years. A diagnostic concentration of 2 µg/cm2 was calculated as twice the LC99 from an analysis of pooled data for the field-collected populations. This concentration discriminated well between susceptible and resistant individuals, as it killed all larvae from a susceptible laboratory strain and 0%, 0%, and 23% of larvae from 3 laboratory strains with > 100-fold resistance to Cry2Ab. These baseline susceptibility data and diagnostic concentration for Cry2Ab will be useful for monitoring the evolution of H. armigera resistance to pyramided Bt cotton in China., (© The Author(s) 2024. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

4. A transient brain endothelial translatome response to endotoxin is associated with mild cognitive changes post-shock in young mice.

Author

Lu S, Di John Portela I, Martino N, Bossardi Ramos R, Salinero AE, Smith RM, Zuloaga KL, and Adam AP

Subjects

Animals, Male, Female, Mice, Sepsis-Associated Encephalopathy metabolism, Endothelium metabolism, Endothelium drug effects, Endotoxins pharmacology, Endotoxins toxicity, Brain metabolism, Brain drug effects, Cognitive Dysfunction metabolism, Lipopolysaccharides pharmacology, Mice, Inbred C57BL

Abstract

Sepsis-associated encephalopathy (SAE) is associated with increased risk of long-term cognitive impairment. SAE is driven, at least in part, by brain endothelial dysfunction in response to systemic cytokine signaling. However, the mechanisms driving SAE and its consequences remain largely unknown. Here, we performed translating ribosome affinity purification and RNA-sequencing (TRAP-seq) from the brain endothelium to determine the transcriptional changes after an acute endotoxemic (LPS) challenge. LPS induced a strong acute transcriptional response in the brain endothelium that partially correlates with the whole brain transcriptional response and suggested an endothelial-specific hypoxia response. Consistent with a crucial role for IL-6, loss of the main regulator of this pathway, SOCS3, leads to a broadening of the population of genes responsive to LPS, suggesting that an overactivation of the IL-6/JAK/STAT3 pathway leads to an increased transcriptional response that could explain our prior findings of severe brain injury in these mice. To identify any potential sequelae of this acute response, we performed brain TRAP-seq following a battery of behavioral tests in mice after apparent recovery. We found that the transcriptional response returns to baseline within days post-challenge, but reductions in gene expression regulating protein translation and respiratory electron transport remained. We observed that mice that recovered from the endotoxemic shock showed mild, sex-dependent cognitive impairment, suggesting that the acute brain injury led to sustained effects. A better understanding of the transcriptional and non-transcriptional changes in response to shock is needed in order to prevent and/or revert the devastating consequences of septic shock., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 International Brain Research Organization (IBRO). Published by Elsevier Inc. All rights reserved.)

Published

2024

5. Synergism of Cry1 Toxins by a Fusion Protein Derived from a Cadherin Fragment and an Antibody Peptide.

Author

Gao M, Zhong J, Lu L, Li Y, and Zhang Z

Subjects

Animals, Peptides chemistry, Peptides immunology, Peptides pharmacology, Antibodies immunology, Antibodies chemistry, Bacillus thuringiensis chemistry, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism, Insecticides chemistry, Insecticides pharmacology, Pest Control, Biological, Cadherins genetics, Cadherins metabolism, Cadherins immunology, Cadherins chemistry, Hemolysin Proteins chemistry, Hemolysin Proteins pharmacology, Hemolysin Proteins immunology, Hemolysin Proteins genetics, Endotoxins immunology, Endotoxins chemistry, Endotoxins pharmacology, Endotoxins metabolism, Endotoxins genetics, Bacillus thuringiensis Toxins chemistry, Bacillus thuringiensis Toxins pharmacology, Moths drug effects, Bacterial Proteins chemistry, Bacterial Proteins genetics, Bacterial Proteins immunology, Bacterial Proteins metabolism, Bacterial Proteins pharmacology, Recombinant Fusion Proteins chemistry, Recombinant Fusion Proteins pharmacology, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins immunology, Recombinant Fusion Proteins metabolism, Insect Proteins immunology, Insect Proteins chemistry, Insect Proteins genetics, Insect Proteins metabolism, Larva growth & development

Abstract

Synergistic factors can enhance the toxicity of Bt toxins and delay the development of Bt resistance. Previous research has demonstrated that a Helicoverpa armigera cadherin fragment (HaCad-TBR) increased the toxicity of Cry1Ac in Plutella xylostella larvae but did not have a synergistic effect on Cry1B, Cry1C, and Cry1F toxins. In this study, a fusion protein (HaCad-TBR-2D3 V L ) derived from HaCad-TBR and a Bt Cry1-specific antibody peptide was expressed in Escherichia coli . The HaCad-TBR-2D3 V L enhanced Cry1Ac toxicity more efficiently in insects and Sf9 cells than HaCad-TBR and also significantly increased the toxicity of Cry1B, Cry1C, and Cry1F toxins in insects. Further investigation indicated that the improved stability in insect midguts and higher binding capacity with Bt toxins contributed to the enhanced synergism of HaCad-TBR-2D3 V L over HaCad-TBR. This study suggested that Bt antibody fragments can potentially broaden the synergistic range of Bt receptor fragments, providing a theoretical foundation for developing broad-spectrum synergists for other biopesticides.

Published

2024

6. The role of aquaporins in osmotic cell lysis induced by Bacillus thuringiensis Cry1Ac toxin in Helicoverpa armigera.

Author

Cai Y, Hou B, Fabrick JA, Yang Y, and Wu Y

Subjects

Animals, Insect Proteins metabolism, Insect Proteins genetics, Bacillus thuringiensis metabolism, Bacillus thuringiensis genetics, Xenopus laevis, Oocytes metabolism, Oocytes drug effects, Insecticides toxicity, Insecticides pharmacology, Osmosis, Helicoverpa armigera, Bacillus thuringiensis Toxins toxicity, Hemolysin Proteins toxicity, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Endotoxins toxicity, Endotoxins pharmacology, Bacterial Proteins metabolism, Bacterial Proteins genetics, Moths drug effects, Moths metabolism, Moths genetics, Larva drug effects, Larva metabolism, Aquaporins metabolism, Aquaporins genetics

Abstract

The insecticidal crystalline (Cry) and vegetative insecticidal (Vip) proteins derived from Bacillus thuringiensis (Bt) are used globally to manage insect pests, including the cotton bollworm, Helicoverpa armigera, one of the world's most damaging agricultural pests. Cry proteins bind to the ATP-binding cassette transporter C2 (ABCC2) receptor on the membrane surface of larval midgut cells, resulting in Cry toxin pores, and ultimately leading to cell swelling and/or lysis. Insect aquaporin (AQP) proteins within the membranes of larval midgut cells are proposed to allow the rapid influx of water into enterocytes following the osmotic imbalance triggered by the formation of Cry toxin pores. Here, we examined the involvement of H. armigera AQPs in Cry1Ac-induced osmotic cell swelling. We identified and characterized eight H. armigera AQPs and demonstrated that five are functional water channel proteins. Three of these (HaDrip1, HaPrip, and HaEglp1) were found to be expressed in the larval midgut. Xenopus laevis oocytes co-expressing the known Cry1Ac receptor HaABCC2 and each of the three HaAQPs displayed abnormal morphology and were lysed following exposure to Cry1Ac, suggesting a rapid influx of water was induced after Cry1Ac pore formation. In contrast, oocytes producing either HaABCC2 or HaAQP alone failed to swell or lyse after treatment with Cry1Ac, implying that both Cry1Ac pore formation and HaAQP function are needed for osmotic cell swelling. However, CRISPR/Cas9-mediated knockout of any one of the three HaAQP genes failed to cause significant changes in susceptibility to the Bt toxins Cry1Ac, Cry2Ab, or Vip3Aa. Our findings suggest that the multiple HaAQPs produced in larval midgut cells compensate for each other in allowing for the rapid influx of water in H. armigera midgut cells following Cry toxin pore formation, and that mutations affecting a single HaAQP are unlikely to confer resistance to Bt proteins., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

7. piggyBac-based transgenic Helicoverpa armigera expressing the T92C allele of the tetraspanin gene HaTSPAN1 confers dominant resistance to Bacillus thuringiensis toxin Cry1Ac.

Author

Li L, Pang X, Wang C, Yang Y, and Wu Y

Subjects

Animals, Alleles, Plants, Genetically Modified genetics, Insect Proteins genetics, Insect Proteins metabolism, Bacillus thuringiensis genetics, Insecticides pharmacology, Insecticides toxicity, Helicoverpa armigera, Endotoxins genetics, Endotoxins pharmacology, Bacillus thuringiensis Toxins pharmacology, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins toxicity, Moths drug effects, Moths genetics, Insecticide Resistance genetics, Bacterial Proteins genetics

Abstract

Transgenic crops producing insecticidal proteins from Bacillus thuringiensis (Bt) have revolutionized pest control. However, the evolution of resistance by target pests poses a significant threat to the long-term success of Bt crops. Understanding the genetics and mechanisms underlying Bt resistance is crucial for developing resistance detection methods and management tactics. The T92C mutation in a tetraspanin gene (HaTSPAN1), resulting in the L31S substitution, is associated with dominant resistance to Cry1Ac in a major pest, Helicoverpa armigera. Previous studies using CRISPR/Cas9 technique have demonstrated that knockin of the HaTSPAN1 T92C mutation confers a 125-fold resistance to Cry1Ac in the susceptible SCD strain of H. armigera. In this study, we employed the piggyBac transposon system to create two transgenic H. armigera strains based on SCD: one expressing the wild-type HaTSPAN1 gene (SCD-TSPANwt) and another expressing the T92C mutant form of HaTSPAN1 (SCD-TSPANmt). The SCD-TSPANmt strain exhibited an 82-fold resistance to Cry1Ac compared to the recipient SCD strain, while the SCD-TSPANwt strain remained susceptible. The Cry1Ac resistance followed an autosomal dominant inheritance mode and was genetically linked with the transgene locus in the SCD-TSPANmt strain of H. armigera. Our results further confirm the causal association between the T92C mutation of HaTSPAN1 and dominant resistance to Cry1Ac in H. armigera. Additionally, they suggest that the piggyBac-mediated transformation system we used in H. armigera is promising for functional investigations of candidate Bt resistance genes from other lepidopteran pests., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

8. Differential susceptibility of Spodoptera frugiperda (Lepidoptera: Noctuidae) to single versus pyramided Bt traits in Brazilian soybean: what doesn't kill you makes you stronger?

Author

Stirle JL, Matias JEF, Mendes GR, Moscardini VF, Maia JB, Michaud JP, and Gontijo PC

Subjects

Animals, Brazil, Bacterial Proteins genetics, Bacillus thuringiensis genetics, Pest Control, Biological, Glycine max, Spodoptera growth & development, Spodoptera drug effects, Spodoptera physiology, Bacillus thuringiensis Toxins, Hemolysin Proteins pharmacology, Larva growth & development, Endotoxins pharmacology, Plants, Genetically Modified genetics

Abstract

Background: Lepidopteran pest control in agriculture has become heavily dependent on cultivars that express Bacillus thuringiensis (Bt) toxins as 'plant-incorporated protectants'. However, populations of Spodoptera frugiperda (Smith) in Brazil appear resistant to the Bt traits currently available in commercial soybean cultivars., Results: This study evaluated S. frugiperda life history when feeding on three different Bt soybean cultivars. Cultivars expressing Cry1Ac + Cry1F and Cry1A.105 + Cry2Ab2 + Cry1Ac Bt toxins caused 100% larval mortality in S. frugiperda. Both non-Bt and Cry1Ac-expressing soybean induced transgenerational effects that increased the survival of subsequent generations. A Cry1Ac soybean diet reduced the generation time (T) of S. frugiperda relative to non-Bt soybean, resulting in shorter generation time and more rapid population growth., Conclusion: The implications of these results revealed how diet can alter aspects of insect life history and biology, and have important implications for sustainable management of S. frugiperda on soybean. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

9. Larval density-dependent mortality of western corn rootworm (Coleoptera: Chrysomelidae) in Bt and non-Bt maize and implications on dose calculations † .

Author

McCulloch JB and Gassmann AJ

Subjects

Animals, Bacillus thuringiensis genetics, Pest Control, Biological, Bacillus thuringiensis Toxins, Bacterial Proteins genetics, Hemolysin Proteins pharmacology, Insecticide Resistance genetics, Zea mays genetics, Coleoptera drug effects, Coleoptera growth & development, Coleoptera genetics, Larva growth & development, Larva drug effects, Plants, Genetically Modified genetics, Population Density, Endotoxins genetics, Endotoxins pharmacology

Abstract

Background: Transgenic crops producing insecticidal toxins from the bacterium Bacillus thuringiensis (Bt) have been used to manage insect pests for nearly 30 years. Dose of a Bt crop is key to assessing the risk of resistance evolution because it affects the heritability of resistance traits. Western corn rootworm (Diabrotica virgifera virgifera, LeConte), a major pest of maize, has evolved resistance to all commercially available Bt traits targeting it, and threatens resistance to future transgenic traits. Past research shows the dose of Bt maize targeting western corn rootworm can be confounded by larval density-dependent mortality. We conducted a 2-year field study at two locations to quantify larval density-dependent mortality in Bt and non-Bt maize. We used these results to calculate dose for our method and compared it to three previously published methods. Additionally, adult emergence and root injury were analyzed for predicting initial egg density., Results: Increased pest density caused greater proportions of larvae to die in Bt maize than in non-Bt maize. All methods for calculating dose produced values less than high-dose, and stochastic variation had the greatest impact on dose at high and low pest densities. Our method for calculating dose did not produce values positively correlated with pest density while the three other methods did., Conclusion: To achieve the most accurate calculation of dose for transgenic maize targeting western corn rootworm, density-dependent mortality should be taken into account for both transgenic and non-transgenic maize and assessed at moderate pest densities. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

10. Exploratory comparative transcriptomic analysis reveals potential gene targets associated with Cry1A.105 and Cry2Ab2 resistance in fall armyworm (Spodoptera frugiperda).

Author

Castellane TCL, Fernandes CC, Pinheiro DG, Lemos MVF, and Varani AM

Subjects

Animals, Plants, Genetically Modified genetics, Plants, Genetically Modified parasitology, Zea mays genetics, Zea mays parasitology, Gene Expression Profiling, Spodoptera drug effects, Spodoptera genetics, Endotoxins genetics, Endotoxins pharmacology, Bacillus thuringiensis Toxins, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Bacterial Proteins genetics, Bacterial Proteins metabolism, Insecticide Resistance genetics, Transcriptome

Abstract

Genetically modified (GM) crops, expressing Bacillus thuringiensis (Bt) insecticidal toxins, have substantially transformed agriculture. Despite rapid adoption, their environmental and economic benefits face scrutiny due to unsustainable agricultural practices and the emergence of resistant pests like Spodoptera frugiperda, known as the fall armyworm (FAW). FAW's adaptation to Bt technology in corn and cotton compromises the long-term efficacy of Bt crops. To advance the understanding of the genetic foundations of resistance mechanisms, we conducted an exploratory comparative transcriptomic analysis of two divergent FAW populations. One population exhibited practical resistance to the Bt insecticidal proteins Cry1A.105 and Cry2Ab2, expressed in the genetically engineered MON-89Ø34 - 3 maize, while the other population remained susceptible to these proteins. Differential expression analysis supported that Cry1A.105 and Cry2Ab2 significantly affect the FAW physiology. A total of 247 and 254 differentially expressed genes were identified in the Cry-resistant and susceptible populations, respectively. By integrating our findings with established literature and databases, we underscored 53 gene targets potentially involved in FAW's resistance to Cry1A.105 and Cry2Ab2. In particular, we considered and discussed the potential roles of the differentially expressed genes encoding ABC transporters, G protein-coupled receptors, the P450 enzymatic system, and other Bt-related detoxification genes. Based on these findings, we emphasize the importance of exploratory transcriptomic analyses to uncover potential gene targets involved with Bt insecticidal proteins resistance, and to support the advantages of GM crops in the face of emerging challenges., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

11. Silence of Aminopeptidase N 2 gene reveals the trade-offs for acquiring Cry1Ac resistance in Plutella xylostella.

Author

Lv Z, Yu S, Zhao Y, and Yang Z

Subjects

Animals, Female, Endotoxins pharmacology, Larva growth & development, Larva genetics, RNA Interference, Bacillus thuringiensis Toxins, Bacterial Proteins genetics, Bacterial Proteins metabolism, CD13 Antigens metabolism, CD13 Antigens genetics, Hemolysin Proteins pharmacology, Insect Proteins genetics, Insect Proteins metabolism, Insecticide Resistance genetics, Moths genetics, Moths growth & development, Moths enzymology

Abstract

Bacillus thuringiensis (Bt) is widely used as a biopesticide worldwide. To date, at least eight pest species have been found to be resistant to Bt in the field. As the first pest that was reported having resistance to Bt in the field, considerable research has been done on the mechanisms of Bt resistance in Plutella xylostella. However, whether the acquisition of Bt resistance by P. xylostella comes at a fitness cost is also a valuable question. In this study, Aminopeptidase-N 2 (APN2), a Cry toxin receptor gene of P. xylostella, was knocked down by RNA interference, resulting in improved resistance to Cry1Ac. It was also found that larval mortality of APN2 knockdown P. xylostella was significantly higher than that of the control, while the pupation rate, pupal weight, eclosion rate, fecundity (egg/female), hatchability, and female adult longevity were significantly lower in APN2 knockdown P. xylostella than in the control. These results illustrate that if Cry1Ac resistance was obtained only through the reduction of APN2 expression, P. xylostella would need to incur some fitness costs for it., (© 2024 Wiley Periodicals LLC.)

Published

2024

12. Mutation in PgABCC2 confers low-level resistance to Cry1Ac in pink bollworm.

Author

Wang L, Xu M, He L, Wei W, Xu D, Cong S, Liu K, and Wan P

Subjects

Animals, Larva genetics, Larva growth & development, Larva drug effects, Insect Proteins genetics, Insect Proteins metabolism, ATP-Binding Cassette Transporters genetics, ATP-Binding Cassette Transporters metabolism, Insecticides pharmacology, Bacillus thuringiensis Toxins pharmacology, Insecticide Resistance genetics, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Bacterial Proteins metabolism, Endotoxins pharmacology, Endotoxins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins genetics, Moths genetics, Moths drug effects, Moths growth & development, Mutation

Abstract

Background: With the increasing incidence of pest resistance to transgenic crops producing Bacillus thuringiensis (Bt) proteins in the field, elucidating the molecular basis of resistance is important for monitoring, delaying and countering pest resistance. Previous work revealed that mutation or down-regulated expression of the cadherin gene (PgCad1) is associated with pink bollworm (Pectinophora gossypiella) resistance to Cry1Ac, and 20 mutant PgCad1 alleles (r1-r20) were characterized. Here, we tested the hypothesis that the ABC transporter PgABCC2 is a functional receptor for the Bt toxin Cry1Ac and that a mutation is associated with resistance., Results: We identified and characterized the first resistance allele (r C2 ) of PgABCC2 in the laboratory-selected Cry1Ac-resistant strain AQ-C2 of pink bollworm. The r C2 allele had a one-base deletion in exon20, resulting in a frameshift and the introduction of a premature stop codon. This resulting PgABCC2 protein had a truncated C-terminus, including the loss of the NBD2 domain. AQ-C2 exhibited 20.2-fold greater resistance to Cry1Ac than the susceptible strain, and its inheritance of Cry1Ac resistance was recessive and genetically linked to PgABCC2. When produced in cultured insect cells, recombinant wild-type and r C2 mutant PgABCC2 proteins localized within the cell plasma membrane, although substantial cytoplasmic retention was also observed for the mutant protein, while the mutant PgABCC2 caused a 13.9-fold decrease in Cry1Ac toxicity versus the wild-type PgABCC2., Conclusions: PgABCC2 is a functional receptor of Cry1Ac and the loss of its carboxyl terminus (including its NBD2 domain) confers low-level resistance to Cry1Ac in both larvae and in cultured cells. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

13. Fall armyworm (Lepidoptera: Noctuidae): practical resistance of 2 Brazilian populations to Cry1A.105 + Cry2Ab and Cry1F Bt maize.

Author

Orozco-Restrepo SM, Santos-Amaya OF, Miranda MS, Tavares CS, and Pereira EJG

Subjects

Animals, Brazil, Female, Moths growth & development, Moths genetics, Moths drug effects, Insecticides pharmacology, Male, Zea mays genetics, Endotoxins pharmacology, Hemolysin Proteins pharmacology, Bacillus thuringiensis Toxins, Bacterial Proteins, Insecticide Resistance genetics, Plants, Genetically Modified, Larva growth & development, Spodoptera growth & development, Spodoptera drug effects, Spodoptera genetics

Abstract

In the Americas, transgenic crops producing insecticidal proteins from Bacillus thuringiensis Berliner (Bt, Bacillales: Bacillaceae) have been used widely to manage fall armyworm (FAW, Spodoptera frugiperda [J.E. Smith]). As resistance to Cry1 single-gene Bt maize (Zea mays L.) rapidly evolved in some FAW populations, pyramided Bt maize hybrids producing Cry1, Cry2, or Vip3Aa proteins were introduced in the 2010s. We examined field-evolved resistance to single- and dual-protein Bt maize hybrids in 2 locations in southeastern Brazil, where plant damage by FAW larvae far exceeded the economic threshold in 2017. We collected late-instar larvae in Cry1A.105 + Cry2Ab and Cry1F maize fields and established 2 FAW populations in the laboratory. The F1 offspring reared on the foliage of Bt and non-Bt maize plants (Cry1A.105 + Cry2Ab and Cry1F) showed neonate-to-adult survival rates as high as 70% for both populations. There was no significant difference in the life-table parameters of armyworms reared on non-Bt and Bt maize foliage, indicating complete resistance to Cry1A.105 + Cry2Ab maize. Larval survival rates of reciprocal crosses of a susceptible laboratory strain and the field-collected populations indicated nonrecessive resistance to Cry1F and a recessive resistance to Cry1A.105 + Cry2Ab maize. When relaxing the selection pressure, the armyworm fitness varied on Cry1A.105 + Cry2Ab and non-Bt maize; the resistance was somewhat stable across 12 generations, without strong fitness costs, although one of the lines died confounded by a depleted-quality, artificial rearing diet. To our knowledge, this is the first report documenting the practical resistance of FAW to a pyramided Bt crop. We discuss the implications for resistance management., (© The Author(s) 2024. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

14. Nitric oxide and tumor necrosis factor-⍺ levels are negatively correlated in endotoxin tolerance recovery in vitro.

Author

Chang YY, Chao YH, Jean WH, Lin TY, and Lu CW

Subjects

Animals, Mice, RAW 264.7 Cells, Interleukin-6 metabolism, Endotoxins pharmacology, Macrophages drug effects, Macrophages metabolism, Nitric Oxide metabolism, Lipopolysaccharides pharmacology, Tumor Necrosis Factor-alpha metabolism, Nitric Oxide Synthase Type II metabolism

Abstract

Endotoxin tolerance (ET) is the hyporesponsiveness to lipopolysaccharide (LPS) after prior exposure. It is characterized by the downregulation of pro-inflammatory cytokine levels. Although ET protects against inflammation, its abolishment or recovery is critical for immunity. Nitric oxide (NO) plays various roles in the development of ET; however, its specific role in ET recovery remains unknown. To induce ET, RAW264.7 cells (a murine macrophage cell line) were pre-exposed to LPS (LPS 1 , 100 ng/mL for 24 h) and subsequently re-stimulated with LPS (LPS 2 , 100 ng/mL for 24 h). Expression of cytokines, NO, nitrite and inducible NO synthase (iNOS) were measured after 0, 12, 24, and 36 h of resting after LPS 1 treatment with or without the iNOS-specific inhibitor, 1400W. LPS 2 -induced tumor necrosis factor-⍺ (TNF-⍺) and interleukin-6 (IL-6) were downregulated after LPS 1 treatment, confirming the development of ET. Notably, TNF-⍺ and IL-6 levels spontaneously rebounded after 12-24 h of resting following LPS 1 treatment. In contrast, levles of NO, nitrite and iNOS increased during ET development and decreased during ET recovery. Moreover, 1400W inhibited ET development and blocked the early production of NO (<12 h) during ET recovery. Our findings suggest a negative correlation between iNOS-induced NO and cytokine levels in the abolishment of ET., Competing Interests: Declaration of competing interest The authors have no conflicts of interest to declare., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

15. The nematode (Ascaris suum) intestine is a location of synergistic anthelmintic effects of Cry5B and levamisole.

Author

Williams PDE, Brewer MT, Aroian RV, Robertson AP, and Martin RJ

Subjects

Animals, Anthelmintics pharmacology, Intestines drug effects, Intestines parasitology, Drug Synergism, Antinematodal Agents pharmacology, Bacillus thuringiensis drug effects, Levamisole pharmacology, Bacillus thuringiensis Toxins pharmacology, Endotoxins pharmacology, Endotoxins metabolism, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Bacterial Proteins metabolism, Ascaris suum drug effects

Abstract

A novel group of biocidal compounds are the Crystal 3D (Cry) and Cytolytic (Cyt) proteins produced by Bacillus thuringiensis (Bt). Some Bt Cry proteins have a selective nematocidal activity, with Cry5B being the most studied. Cry5B kills nematode parasites by binding selectively to membrane glycosphingolipids, then forming pores in the cell membranes of the intestine leading to damage. Cry5B selectively targets multiple species of nematodes from different clades and has no effect against mammalian hosts. Levamisole is a cholinergic anthelmintic that acts by selectively opening L-subtype nicotinic acetylcholine receptor ion-channels (L-AChRs) that have been found on muscles of nematodes. A synergistic nematocidal interaction between levamisole and Cry5B at the whole-worm level has been described previously, but the location, mechanism and time-course of this synergism is not known. In this study we follow the timeline of the effects of levamisole and Cry5B on the Ca2+ levels in enterocyte cells in the intestine of Ascaris suum using fluorescence imaging. The peak Ca2+ responses to levamisole were observed after approximately 10 minutes while the peak responses to activated Cry5B were observed after approximately 80 minutes. When levamisole and Cry5B were applied simultaneously, we observed that the responses to Cry5B were bigger and occurred sooner than when it was applied by itself. It is proposed that the synergism is due to the cytoplasmic Ca2+ overload that is induced by the combination of levamisole opening Ca2+ permeable L-subtype nAChRs and the Ca2+ permeable Cry5B toxin pores produced in the enterocyte plasma membranes. The effect of levamisole potentiates and speeds the actions of Cry5B that gives rise to bigger Ca2+ overloads that accelerates cell-death of the enterocytes., Competing Interests: The authors declare no competing interests., (Copyright: © 2024 Williams et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

16. Characterization of the mode of action of eCry1Gb.1Ig, a fall armyworm (Spodoptera frugiperda) active protein, with a novel site of action.

Author

Zwack PJ, Wu Y, Leininger C, Williams J, Richards EE, Wood C, Wong S, and Bramlett M

Subjects

Animals, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Hemolysin Proteins genetics, Endotoxins pharmacology, Endotoxins metabolism, Bacillus thuringiensis Toxins pharmacology, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism, Insecticides pharmacology, Plants, Genetically Modified, Pest Control, Biological methods, Spodoptera, Bacterial Proteins metabolism, Bacterial Proteins genetics

Abstract

Insect pests cause immense agronomic losses worldwide. One of the most destructive of major crops is the Fall Armyworm (Spodoptera frugiperda, FAW). The ability to migrate long distances, a prodigious appetite, and a demonstrated ability to develop resistance to insecticides, make it a difficult target to control. Insecticidal proteins, for example those produced by the bacterium Bacillus thuringiensis, are among the safest and most effective insect control agents. Genetically modified (GM) crops expressing such proteins are a key part of a successful integrated pest management (IPM) program for FAW. However, due to the development of populations resistant to commercialized GM products, new GM traits are desperately needed. Herein, we describe a further characterization of the newly engineered trait protein eCry1Gb.1Ig. Similar to other well characterized Cry proteins, eCry1Gb.1Ig is shown to bind FAW midgut cells and induce cell-death. Binding competition assays using trait proteins from other FAW-active events show a lack of competition when binding FAW brush border membrane vesicles (BBMVs) and when utilizing non-pore-forming versions as competitors in in vivo bioassays. Similarly, insect cell lines expressing SfABCC2 and SfABCC3 (well characterized receptors of existing commercial Cry proteins) are insensitive to eCry1Gb.1Ig. These findings are consistent with results from our previous work showing that eCry1Gb.1Ig is effective in controlling insects with resistance to existing traits. This underscores the value of eCry1Gb.1Ig as a new GM trait protein with a unique site-of-action and its potential positive impact to global food production., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2024

17. A novel insecticide, isocycloseram, shows promise as an alternative to chlorpyrifos against a direct pest of peanut, Diabrotica undecimpunctata howardi (Coleoptera: Chrysomelidae).

Author

Bekelja KM, Malone S, Mascarenhas V, and Taylor S

Subjects

Animals, Arachis, Cicatrix, Larva physiology, Soil, Zea mays physiology, Plants, Genetically Modified, Endotoxins pharmacology, Coleoptera physiology, Insecticides pharmacology, Chlorpyrifos

Abstract

Larvae of the southern corn rootworm (SCR) Diabrotica undecimpunctata howardi Barber (Coleoptera: Chrysomelidae) are primary pests of peanut in the Virginia-Carolina region of the United States, and are relatively sporadic pests in southern states such as Georgia, Alabama, and Florida. Peanuts have strict quality standards which, when they are not met, can diminish crop value by more than 65%. Management of direct pests like SCR is therefore crucial to maintaining the economic viability of the crop. The soil-dwelling nature of SCR larvae complicates management due to difficulties associated with monitoring and predicting infestations. Nonchemical management options are limited in this system; preventative insecticide applications are the most reliable management strategy for at-risk fields. Chlorpyrifos was the standard product for larval SCR management in peanut until its registration was revoked in 2022, leaving no effective chemical management option for larvae. We tested a novel insecticide, isocycloseram, for its ability to reduce pod scarring, pod penetration, and non-SCR pod damage in field studies conducted in Suffolk, Virginia in 2020-2022. Overall injury was low in 2020 and 2022, and in 2022 there was not a significant effect of treatment. In 2021, 2 simulated chemigation applications of isocycloseram in July significantly reduced pod scarring and overall pod injury relative to chlorpyrifos and the untreated control. Our results suggest that isocycloseram may become an effective option for managing SCR in peanut, although more work is needed to understand the mechanisms by which it is effective as a soil-applied insecticide., (© The Author(s) 2024. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2024

18. Urea Cycle of Bacillus thuringiensis Affects Its Survival under UV Stress.

Author

Zhang Y, Chen C, Du X, Yu Z, Min Q, Chen C, Wu H, Tan W, Guan X, and Zhang L

Subjects

Urea, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Endotoxins pharmacology, Bacillus thuringiensis genetics

Abstract

Bacillus thuringiensis (Bt) is widely used to produce biological pesticides. However, its persistence is limited because of ultraviolet (UV) rays. In our previous study, we found that exogenous intermediates of the urea cycle were beneficial to Bt for survival under UV stress. To further explore the effect of the urea cycle on the resistance mechanism of Bt, the rocF / argG gene, encoding arginase and argininosuccinate synthase, respectively, were knocked out and recovered in this study. After the target genes were removed, respectively, the urea cycle in the tested Bt was inhibited to varying degrees. The UV stress test showed that the urea cycle disorder could reduce the resistance of Bt under UV stress. Meanwhile, the antioxidant enzyme activities of Bt were also decreased to varying degrees due to the knockout of the target genes. All of these results revealed that the urea cycle can metabolically regulate the stress resistance of Bt.

Published

2024

19. Clinical use of progesterone in human sperm preparation media for increasing IVF success.

Author

McPherson NO, Nottle M, McIlfatrick S, Saini A, Hamilton H, Bowman E, Tully CA, Pacella-Ince L, Zander-Fox D, and Bakos HW

Subjects

Humans, Male, Female, Animals, Mice, Swine, Fertilization in Vitro methods, Neurotensin metabolism, Neurotensin pharmacology, Hyaluronic Acid pharmacology, Cohort Studies, Semen, Spermatozoa metabolism, Tyrosine metabolism, Endotoxins metabolism, Endotoxins pharmacology, Progesterone pharmacology, Progesterone metabolism, Infertility metabolism

Abstract

Research Question: Can the addition of progesterone and neurotensin, molecular agents found in the female reproductive tract, after sperm washing increase the fertilization potential of human spermatozoa?, Design: (i) Cohort study of 24 men. Spermatozoa selected by swim-up were incubated in either progesterone or neurotensin (0.1-100 µM) for 1-4 h, and hyperactive motility and binding to hyaluronan (0.1-100 µM) were assessed. The effect of progesterone 10 µM on sperm function was assessed in a blinded manner, including: hyperactive motility, binding to hyaluronan, tyrosine phosphorylation, acrosome reaction and oxidative DNA damage. (i) Embryo safety testing [one-cell mouse embryo assay (MEA), endotoxin and sterility counts (n = 3)] in preclinical embryo models of IVF (murine and porcine, n = 7 each model) and a small preliminary human study (n = 4) of couples undergoing standard IVF with oocytes inseminated with spermatozoa ± 10 µM progesterone., Results: Progesterone 10 µM increased sperm binding to hyaluronan, hyperactive motility and tyrosine phosphorylation (all P < 0.05). Neurotensin had no effect (P > 0.05). Progesterone 10 µM in human embryo culture media passed embryo safety testing (MEA, endotoxin concentration and sterility plate count). In preclinical models of IVF, the exposure of spermatozoa to progesterone 10 µM and oocytes to progesterone 1 µM was not detrimental, and increased the fertilization rate in mice and the blastocyst cell number in mice and pigs (all P ≤ 0.03). In humans, every transferred blastocyst that had been produced from spermatozoa exposed to progesterone resulted in a live birth., Conclusion: The addition of progesterone to sperm preparation media shows promise as an adjunct to current methods for increasing fertilization potential. Randomized controlled trials are required to determine the clinical utility of progesterone for improving IVF outcomes., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

20. Cell wall-localized Bt protein endows rice high resistance to Lepidoptera pests.

Author

Li H, Deng L, Weng L, Li J, Hu W, Yu J, Xiao Y, and Xiao G

Subjects

Animals, Endotoxins pharmacology, Bacillus thuringiensis Toxins metabolism, Bacillus thuringiensis Toxins pharmacology, Bacterial Proteins pharmacology, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Pest Control, Biological methods, Lepidoptera genetics, Oryza genetics, Oryza metabolism, Moths, Bacillus thuringiensis genetics

Abstract

Background: The commercialized Bt (Bacillus thuringiensis) crops accumulate Bt protein within cells, but the intracellular interactions of foreign protein with endogenous protein inevitably result in large or small unintended effects. In this study, the Bt gene Cry1Ca was linked with the sequences of extracellular secretion signal peptide and carbohydrate binding module 11 to constitute a fusion gene SP-Cry1Ca-CBM11, and the fusion gene driven by constitutive promoters was used for secreting and anchoring onto the cell wall to minimize unintended effects., Results: The transient expression in tobacco leaves demonstrated that the fusion protein was anchored on cell walls. The Cry1Ca contents of five homozygous rice transformants of single-copy insertion were different and descended in the order leaf > root > stem. The maximum content of Cry1Ca was 17.55 μg g -1 in leaves of transformant 21H037. The bioassay results revealed that the transformants exhibited high resistance to lepidopteran pests. The corrected mortality of pink stem borer (Sesamia inferens) and striped stem borer (Chilo suppressalis) ranged from 96.33% to 100%, and from 83.32% to 100%, respectively, and the corrected mortality of rice leaf roller (Cnaphalocrocis medinalis) was 92.53%. Besides, the agronomic traits of the five transformants were normal and similar to that of the recipient, and the transformants were highly resistant to glyphosate at the germination and seedling stages., Conclusion: The fusion Bt protein was accumulated on cell walls and endowed the rice with high resistance to lepidopteran pests without unintended effects in agronomic traits. © 2023 Society of Chemical Industry., (© 2023 Society of Chemical Industry.)

Published

2024

21. The neutralizing effect of heparin on blood-derived antimicrobial compounds: impact on antibacterial activity and inflammatory response.

Author

Cont D, Harm S, Schildböck C, Kolm C, Kirschner AKT, Farnleitner AH, Pilecky M, Zottl J, Hartmann J, and Weber V

Subjects

Escherichia coli, Anti-Bacterial Agents pharmacology, Endotoxins pharmacology, Klebsiella pneumoniae, Heparin pharmacology, Anti-Infective Agents pharmacology

Abstract

Acting through a combination of direct and indirect pathogen clearance mechanisms, blood-derived antimicrobial compounds (AMCs) play a pivotal role in innate immunity, safeguarding the host against invading microorganisms. Besides their antimicrobial activity, some AMCs can neutralize endotoxins, preventing their interaction with immune cells and avoiding an excessive inflammatory response. In this study, we aimed to investigate the influence of unfractionated heparin, a polyanionic drug clinically used as anticoagulant, on the endotoxin-neutralizing and antibacterial activity of blood-derived AMCs. Serum samples from healthy donors were pre-incubated with increasing concentrations of heparin for different time periods and tested against pathogenic bacteria ( Acinetobacter baumannii , Enterococcus faecium , Escherichia coli , Klebsiella pneumoniae , Pseudomonas aeruginosa , Staphylococcus aureus ) and endotoxins from E. coli , K. pneumonia e, and P. aeruginosa . Heparin dose-dependently decreased the activity of blood-derived AMCs. Consequently, pre-incubation with heparin led to increased activity of LPS and higher values of the pro-inflammatory cytokines tumor necrosis factor α (TNF-α) and interleukin 6 (IL-6). Accordingly, higher concentrations of A. baumannii , E. coli , K. pneumoniae , and P. aeruginosa were observed as well. These findings underscore the neutralizing effect of unfractionated heparin on blood-derived AMCs in vitro and may lead to alternative affinity techniques for isolating and characterizing novel AMCs with the potential for clinical translation., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Cont, Harm, Schildböck, Kolm, Kirschner, Farnleitner, Pilecky, Zottl, Hartmann and Weber.)

Published

2024

22. Peritrophins are involved in the defense against Bacillus thuringiensis and nucleopolyhedrovirus formulations in Spodoptera littoralis (Lepidoptera: Noctuidae).

Author

Güney G, Cedden D, Hänniger S, Hegedus DD, Heckel DG, and Toprak U

Subjects

Animals, Spodoptera metabolism, Larva metabolism, Endotoxins pharmacology, Chitin metabolism, Bacterial Proteins pharmacology, Hemolysin Proteins pharmacology, Bacillus thuringiensis metabolism, Nucleopolyhedroviruses metabolism, Moths metabolism

Abstract

The peritrophic matrix (or peritrophic membrane, PM) is present in most insects where it acts as a barrier to mechanical insults and pathogens, as well as a facilitator of digestive processes. The PM is formed by the binding of structural PM proteins, referred to as peritrophins, to chitin fibrils and spans the entire midgut in lepidopterans. To investigate the role of peritrophins in a highly polyphagous lepidopteran pest, namely the cotton leafworm (Spodoptera littoralis), we generated Insect Intestinal Mucin (IIM - ) and non-mucin Peritrophin (PER - ) mutant strains via CRISPR/Cas9 mutagenesis. Both strains exhibited deformed PMs and retarded developmental rates. Bioassays conducted with Bacillus thuringiensis (Bt) and nucleopolyhedrovirus (SpliNPV) formulations showed that both the IIM - and PER - mutant larvae were more susceptible to these bioinsecticides compared to the wild-type (WT) larvae with intact PM. Interestingly, the provision of chitin-binding agent Calcofluor (CF) in the diet lowered the toxicity of Bt formulations in both WT and IIM - larvae and the protective effect of CF was significantly lower in PER - larvae. This suggested that the interaction of CF with PER is responsible for Bt resistance mediated by CF. In contrast, the provision of CF caused increased susceptibility to SpliNPV in both mutants and WT larvae. The study showed the importance of peritrophins in the defense against pathogens in S. littoralis and revealed novel insights into CF-mediated resistance to Cry toxin., Competing Interests: Declaration of competing interest The authors have no relevant financial or non-financial interests to disclose., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

23. RNA m 6 A Methylation Suppresses Insect Juvenile Hormone Degradation to Minimize Fitness Costs in Response to A Pathogenic Attack.

Author

Guo Z, Bai Y, Zhang X, Guo L, Zhu L, Sun D, Sun K, Xu X, Yang X, Xie W, Wang S, Wu Q, Crickmore N, Zhou X, and Zhang Y

Subjects

Animals, RNA metabolism, Epigenesis, Genetic genetics, Endotoxins genetics, Endotoxins metabolism, Endotoxins pharmacology, Bacillus thuringiensis Toxins metabolism, Insecta, Juvenile Hormones metabolism, Methylation, Moths genetics, Moths metabolism, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism

Abstract

Bioinsecticides and transgenic crops based on the bacterial pathogen Bacillus thuringiensis (Bt) can effectively control diverse agricultural insect pests, nevertheless, the evolution of resistance without obvious fitness costs has seriously eroded the sustainable use of these Bt products. Recently, it has been discovered that an increased titer of juvenile hormone (JH) favors an insect host (Plutella xylostella) to enhance fitness whilst resisting the Bt pathogen, however, the underlying regulatory mechanisms of the increased JH titer are obscure. Here, the involvement of N 6 -methyladenosine (m 6 A) RNA modification in modulating the availability of JH in this process is defined. Specifically, it is found that two m 6 A methyltransferase subunit genes, PxMettl3 and PxMettl14, repress the expression of a key JH-degrading enzyme JH esterase (JHE) to induce an increased JH titer, mitigating the fitness costs associated with a robust defense against the Bt pathogen. This study identifies an as-yet uncharacterized m 6 A-mediated epigenetic regulator of insect hormones for maintaining fitness during pathogen defense and unveils an emerging Bt resistance-related m 6 A methylation atlas in insects, which further expands the functional landscape of m 6 A modification and showcases the pivotal role of epigenetic regulation in host-pathogen interactions., (© 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.)

Published

2024

24. MiR-2b-3p Downregulated PxTrypsin-9 Expression in the Larval Midgut to Decrease Cry1Ac Susceptibility of the Diamondback Moth, Plutella xylostella (L.).

Author

Zhang J, Liu M, Wen L, Hua Y, Zhang R, Li S, Zafar J, Pang R, Xu H, Xu X, and Jin F

Subjects

Animals, Larva genetics, Larva metabolism, Trypsin genetics, Trypsin metabolism, Endotoxins genetics, Endotoxins pharmacology, Endotoxins metabolism, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Insecticide Resistance genetics, Moths genetics, Moths metabolism, Insecticides pharmacology, Insecticides metabolism, Bacillus thuringiensis chemistry, MicroRNAs genetics, MicroRNAs metabolism

Abstract

Crystal (Cry) toxins, produced by Bacillus thuringiensis , are widely used as effective biological pesticides in agricultural production. However, insects always quickly evolve adaptations against Cry toxins within a few generations. In this study, we focused on the Cry1Ac protoxin activated by protease. Our results identified PxTrypsin-9 as a trypsin gene that plays a key role in Cry1Ac virulence in Plutella xylostella larvae. In addition, P. xylostella miR-2b-3p, a member of the micoRNA-2 (miR-2) family, was significantly upregulated by Cry1Ac protoxin and targeted to PxTrypsin-9 downregulated its expression. The mRNA level of PxTrypsin-9, regulated by miR-2b-3p, revealed an increased tolerance of P. xylostella larvae to Cry1Ac at the post-transcriptional level. Considering that miR-2b and trypsin genes are widely distributed in various pest species, our study provides the basis for further investigation of the roles of miRNAs in the regulation of the resistance to Cry1Ac and other insecticides.

Published

2024

25. Radiation-Detoxified Form of Endotoxin Effectively Activates Th 1 Responses and Attenuates Ragweed-Induced Th 2 -Type Airway Inflammation in Mice.

Author

Bácsi A, Ágics B, Pázmándi K, Kocsis B, Sándor V, Bertók L, Bruckner G, and Sipka S

Subjects

Mice, Humans, Animals, Lipopolysaccharides pharmacology, Ambrosia, Th2 Cells, Inflammation, Mice, Inbred BALB C, Ovalbumin pharmacology, Dendritic Cells, Endotoxins pharmacology, Hypersensitivity

Abstract

Urbanization with reduced microbial exposure is associated with an increased burden of asthma and atopic symptoms. Conversely, environmental exposure to endotoxins in childhood can protect against the development of allergies. Our study aimed to investigate whether the renaturation of the indoor environment with aerosolized radiation-detoxified lipopolysaccharide (RD-LPS) has a preventative effect against the development of ragweed-induced Th 2 -type airway inflammation. To explore this, cages of six-week-old BALB/c mice were treated daily with aerosolized native LPS (N-LPS) or RD-LPS. After a 10-week treatment period, mice were sensitized and challenged with ragweed pollen extract, and inflammatory cell infiltration into the airways was observed. As dendritic cells (DCs) play a crucial role in the polarization of T-cell responses, in our in vitro experiments, the effects of N-LPS and RD-LPS were compared on human monocyte-derived DCs (moDCs). Mice in RD-LPS-rich milieu developed significantly less allergic airway inflammation than mice in N-LPS-rich or common environments. The results of our in vitro experiments demonstrate that RD-LPS-exposed moDCs have a higher Th 1 -polarizing capacity than moDCs exposed to N-LPS. Consequently, we suppose that the aerosolized, non-toxic RD-LPS applied in early life for the renaturation of urban indoors may be suitable for the prevention of Th 2 -mediated allergies in childhood.

Published

2024

26. The effect of repeated lipopolysaccharide endotoxin challenge on immune response of breeding ewes and subsequent lamb performance.

Author

Austin MM, Castro B, Ochoa L, Dominguez Arellanes JF, Luna KL, Salas YA, Gurule SC, Soto-Navarro S, Gifford CA, and Hernandez Gifford JA

Subjects

Animals, Female, Sheep, Reproduction drug effects, Endotoxins pharmacology, RNA, Messenger metabolism, RNA, Messenger genetics, Male, Lipopolysaccharides pharmacology, Lipopolysaccharides administration & dosage

Abstract

Infectious disease caused by exposure to Gram-negative bacterial endotoxin lipopolysaccharide (LPS) is recognized to suppress female fertility. However, the effect of varying low-dose endotoxin exposure during distinct stages of follicle development on immune response, reproductive performance, and lamb performance has yet to be elucidated. Therefore, the objective of this study was to evaluate acute phase response, mRNA abundance of inflammatory markers, reproductive performance and lamb growth characteristics of ewes challenged with subclinical doses of LPS. Rambouillet ewes (n = 36; 68.2 ± 1.1 kg; age 3 to 7 yr) stratified by body weight (BW) and age were assigned to treatment groups. Ewes received subcutaneous injections of saline (CON, n = 12), 1.5 µg/kg BW LPS (LOW, n = 12), or 3.0 µg/kg BW LPS (HIGH, n = 12) on days 5, 10, and 15 of a synchronized follicular wave. Ewes were subsequently placed with a raddle-painted ram on day 16 for a 35-d breeding season. On treatment days 5 and 15, blood samples, peripheral blood leukocytes, and rectal temperature were collected before and at regular intervals for 12 h after LPS challenge. Immune response to LPS was confirmed by increased temperature and serum cortisol concentrations on days 5 and 15. Endotoxin increased circulating plasma concentration of the acute phase protein, haptoglobin by greater than 15%, in both LPS-treated groups on days 5 and 15 at 12 h compared with control (P≤ 0.05). Pro- and anti-inflammatory mRNA gene expression demonstrated no differences in expression for tumor necrosis factor-α or peroxisome proliferator-activated receptor gamma among treatment groups (P > 0.10). Likewise, Toll-like receptor 4 (TLR4), interleukin-8 (IL-8), and superoxide dismutase 2 (SOD2) expression was similar among treatment groups on day 5. However, ewes challenged with LPS on day 15 displayed greater mRNA expression for TLR4 from 2 to 6 h (P < 0.05), a 7-fold increase for IL-8 from 1.5 to 2.5 h (P < 0.05), and 8-fold induction for SOD2 from 2 to 6 h (P < 0.05) as compared with controls. First service conception rates were 90% for control ewes and 75% for both treated groups (P  = 0.84). Treated ewes demonstrated a reduction in lamb birth weight compared with controls (P ≤ 0.05) and a tendency for reduction of 60-d adjusted weaning weight (P = 0.09). Data suggest that subacute endotoxin exposure aligning with key follicle and oocyte maturation events results in detrimental growth performance of the subsequent lamb., (© The Author(s) 2024. Published by Oxford University Press on behalf of the American Society of Animal Science. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

27. The immune response to systemically administered endotoxin in the murine intestinal microcirculation under pentobarbital versus isoflurane anesthesia.

Author

Neira Agonh D, Scott C, Trivedi P, Dickson K, White H, Zhou J, and Lehmann C

Subjects

Animals, Mice, Female, Leukocytes drug effects, Anesthetics, Inhalation pharmacology, Leukocyte Rolling drug effects, Cell Adhesion drug effects, Anesthesia methods, Isoflurane pharmacology, Microcirculation drug effects, Endotoxins pharmacology, Pentobarbital pharmacology, Mice, Inbred BALB C, Intestines blood supply, Intestines drug effects

Abstract

Background: Pentobarbital and isoflurane are commonly used veterinary anesthetics. Due to the dangers of overdose by repeat-bolus regimen of pentobarbital, isoflurane has been recommended. However, literature suggests isoflurane-induced inhibition of cytokine and adhesion molecule release, impacting leukocyte adhesion., Objective: This study aims to characterize the impacts of pentobarbital versus isoflurane on leukocyte interactions within the intestinal microcirculation with and without endotoxin challenge., Methods: Female BALB/c mice were subjected to pentobarbital or isoflurane (N = 20) and challenged with endotoxin or saline by intraperitoneal injection. The mice were kept under anesthesia for 2 hours. Fluorochromes, rhodamine-6 G and fluorescein isothiocyanate, were injected intravenously. To visualize leukocyte adhesion within the intestinal microcirculation, laparotomy and intravital microscopy was performed. Leukocyte rolling and adhesion was quantified offline in a blinded fashion., Results: Within collecting venules, leukocyte rolling and adhesion showed no significant differences between pentobarbital and isoflurane anesthesia under basal conditions. Endotoxin challenge caused a similar response in both anesthetic groups. Within postcapillary venules, no statistical differences between the two anesthetics were found for adhering leukocytes under basal conditions or following endotoxin challenge either. However, leukocyte rolling after LPS-challenge was significantly decreased in postcapillary venules during isoflurane anesthesia compared to pentobarbital anesthesia., Conclusions: Isoflurane anesthesia showed only minor differences in the immune response to endotoxin within the intestinal microcirculation compared to pentobarbital anesthesia. Due to the superior safety profile of volatile anesthetics, immunological studies may choose isoflurane over pentobarbital as the veterinary anesthetic of choice.

Published

2024

28. Reduced expression of the P-glycoprotein gene HaABCB1 is linked to resistance to Bacillus thuringiensis Cry1Ac toxin but not Cry2Ab toxin in Helicoverpa armigera.

Author

Tang J, Lu J, Zhang C, Zhang D, Yu S, Fang F, Naing ZL, Soe ET, Ding Z, and Liang G

Subjects

Animals, Endotoxins genetics, Endotoxins pharmacology, Endotoxins metabolism, Bacillus thuringiensis Toxins metabolism, Insecticide Resistance genetics, Larva genetics, Larva metabolism, ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily B metabolism, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Bacterial Proteins metabolism, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Gossypium metabolism, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism, Moths genetics, Moths metabolism

Abstract

Rapid evolution of pest resistance to Bt insecticidal proteins presents a serious threat to the sustainable use of Bt crops. The cotton bollworm has been extensively exposed to Bt cotton worldwide and has evolved resistance in laboratory and field. Previous studies have highlighted the significant roles played by the ABC transporter proteins in Bt resistance. In this study, the ORF of HaABCB1 was cloned and analyzed. The expression of HaABCB1 was detected in all developmental stages and tissues, with the highest expression in third instar larvae stage and hindgut tissue. Compared with susceptible strain, a remarkable decrease of HaABCB1 expression in Cry1Ac resistant strain while no significant change in Cry2Ab resistant strain were found. The HaABCB1 expression reduced after susceptible larvae induced by Cry1Ac, but no obvious expression changes after Cry2Ab exposure. RNAi-mediated down-regulation of HaABCB1 could lead to a significant reduction in larval susceptibility to Cry1Ac, but not to Cry2Ab, in susceptible strain. Genetic linkage analysis confirmed that decreased expression of the HaABCB1 mediates resistance to Cry1Ac, but not Cry2Ab resistance. This knowledge contributes to better understanding of the complex molecular mechanisms underlying Bt resistance and provide theoretical foundation for the development of new strategies for pest resistance management., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

29. Effects of previous infestation with Bemisia tabaci MEAM1 on the resistance to Chrysodeixis includens in Bt and non-Bt soybean plants.

Author

Costa EN, Fernandes MG, Reis LC, Foresti AC, Martins LO, and Scalon SPQ

Subjects

Animals, Endotoxins pharmacology, Bacillus thuringiensis Toxins pharmacology, Pest Control, Biological, Plants, Genetically Modified, Carotenoids pharmacology, Chlorophyll, Glycine max, Moths

Abstract

Transgenic Bt soybean plants have been developed to control insect pests, such as Anticarsia gemmatalis and Chrysodeixis includens. This objective has been achieved successfully; however, recently, some authors claimed that Bt soybean plants have been more susceptible than non-Bt soybean to Bemisia tabaci MEAM1. In addition, it is unknown whether Bt soybean plants infested by B. tabaci become less resistant to target pests. Therefore, this study aimed to evaluate: (i) whether the previous infestation with B. tabaci can compromise Bt and non-Bt soybean resistance to C. includens; (ii) the effects of B. tabaci infestations on Bt and non-Bt soybean plant growth; and (iii) whether B. tabaci feeding reduces contents of chlorophyll and carotenoids of soybean plants. Bt and non-Bt soybean plants pre-infested with B. tabaci showed no changes in resistance to C. includens. Bt soybean plants infested with B. tabaci showed a lower plant height than uninfested plants. Differently, non-Bt soybean plants exhibited no reduction in plant growth due to B. tabaci feeding. Bt soybean plants suffered a reduction in dry matter only under double infestation (B. tabaci and C. includens), while non-Bt soybean plants experienced reduction in dry matter when infested with B. tabaci and C. includens or by C. includens only. B. tabaci feeding did not alter contents of chlorophyll and carotenoids, and perhaps the reduction in plant growth was related to salivary toxins. Concluding, both Bt and non-Bt soybean plants were susceptible to B. tabaci feeding, evidencing necessity of developing soybean cultivars resistant to B. tabaci.

Published

2023

30. A soybean trypsin inhibitor reduces the resistance to transgenic maize in a population of Spodoptera frugiperda (Lepidoptera: Noctuidae).

Author

Fonseca SS, Santos ALZ, Pinto CPG, Marques L, Santos AC, Bing J, Nowatzki T, Sethi A, and Rossi GD

Subjects

Animals, Spodoptera, Zea mays, Trypsin Inhibitors pharmacology, Glycine max genetics, Endotoxins pharmacology, Escherichia coli metabolism, Bacillus thuringiensis Toxins, Insecticide Resistance, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Hemolysin Proteins pharmacology, Hemolysin Proteins genetics, Larva physiology, Plants, Genetically Modified genetics, Insecticides pharmacology, Bacillus thuringiensis genetics

Abstract

Lepidopteran pests have been successfully managed by the adoption of insect resistant transgenic plants expressing Cry and/or Vip insecticidal proteins derived from Bacillus thuringiensis (Bt plants). Among such pests, Spodoptera frugiperda (Smith, 1797) (Lepidoptera: Noctuidae) is highlighted for its destructive potential in maize crops and for cases of field-evolved resistance to Bt plants. Cry insecticidal proteins expressed in Bt plants are known for their interaction with insect midgut receptors and subsequent midgut cell disruption that leads to target pest death. In the midgut of lepidopteran larval pests such as S. frugiperda, serine proteases are important in dietary protein digestion and activation or degradation of insecticidal proteins. This work was conducted to evaluate if the use of a soybean trypsin inhibitor (SBTI) could disrupt the development of a Bt-susceptible and a Bt-resistant population of S. frugiperda ingesting Bt (expressing Cry1F, Cry1A.105, and Cry2Ab2 Cry proteins) and non-Bt maize plants. The SBTI was produced and purified using recombinant expression in E. coli followed by purification in Ni-Sepharose. Bioassays using non-Bt maize leaves indicated that the development of susceptible and resistant populations of S. frugiperda was not influenced by the ingestion of SBTI. However, when the resistant population consumed Bt maize plants amended with SBTI, high mortality along with a reduction in larval weight and reduced activity of digestive trypsins were observed. Although the mode of action was not elucidated, it is possible that the consumption of SBTI increased susceptibility to Bt maize in the resistant population of S. frugiperda., (© The Author(s) 2023. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2023

31. Helicoverpa armigera ATP-binding cassette transporter ABCA2 is a functional receptor of Bacillus thuringiensis Cry2Ab toxin.

Author

Gan C, Zhang Z, Jin Z, Wang F, Fabrick JA, and Wu Y

Subjects

Animals, Helicoverpa armigera, Endotoxins genetics, Endotoxins pharmacology, Endotoxins metabolism, ATP-Binding Cassette Transporters genetics, Bacillus thuringiensis Toxins metabolism, Insecticide Resistance genetics, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Bacterial Proteins metabolism, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Gossypium metabolism, Larva genetics, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism, Moths genetics, Moths metabolism

Abstract

Crystalline (Cry) proteins from the bacterium Bacillus thuringiensis (Bt) are widely used in transgenic crops to control important insect pests. Bt crops have many benefits compared with traditional broad-spectrum insecticides, including improved pest control with reduced negative impacts on off-target organisms and fewer environmental consequences. Transgenic corn and cotton producing Cry2Ab Bt toxin are used globally to control several major lepidopteran pests, including the cotton bollworm, Helicoverpa armigera. Resistance to the Cry2Ab toxin and to Bt crops producing Cry2Ab is associated with mutations in the midgut ATP-binding cassette transporter ABCA2 gene in several lepidopterans. Gene-editing knockout has further shown that ABCA2 plays an important functional role in Cry2Ab intoxication. However, the precise role of ABCA2 in the mode of action of Cry2Ab has yet to be reported. Here, we used two in vitro expression systems to study the roles of the H. armigera ABCA2 (HaABCA2) protein in Cry2Ab intoxication. Cry2Ab bound to cultured Sf9 insect cells producing HaABCA2, resulting in specific and dose-dependent susceptibility to Cry2Ab. In contrast, Sf9 cells expressing recombinant mutant proteins missing at least one of the extracellular loop regions 1, 3, 4, and 6 or the intracellular loop containing nucleotide-binding domain 1 lost susceptibility to Cry2Ab, indicating these regions are important for receptor function. Consistent with these results, Xenopus laevis oocytes expressing recombinant HaABCA2 showed strong ion membrane flux in the presence of Cry2Ab, suggesting that HaABCA2 is involved in promoting pore formation during Cry2Ab intoxication. Together with previously published data, our results support HaABCA2 being an important receptor of Cry2Ab where it functions to promote intoxication in H. armigera., Competing Interests: Declaration of Competing Interest J.A.F. is coauthor of a patent “Cadherin Receptor Peptide for Potentiating Bt Biopesticides” (patent numbers: US20090175974A1, US8354371, WO2009067487A2, WO2009067487A3)., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

32. Cross-resistance and redundant killing of Vip3Aa resistant populations of Helicoverpa zea on purified Bt proteins and pyramided Bt crops.

Author

Kennedy H, Kerns DL, Head GP, and Yang F

Subjects

Animals, United States, Zea mays genetics, Zea mays metabolism, Endotoxins genetics, Endotoxins pharmacology, Endotoxins metabolism, Insecticide Resistance genetics, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Bacterial Proteins metabolism, Hemolysin Proteins genetics, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Crops, Agricultural genetics, Crops, Agricultural metabolism, Transcription Factors metabolism, Moths, Bacillus thuringiensis genetics

Abstract

Background: Pyramiding Bt proteins is a key strategy to delay insect resistance development. However, the durability of pyramided Bt crops for controlling insect pests is threatened by cross-resistance among Bt proteins, which can ultimately contribute to resistance development. The corn earworm, Helicoverpa zea, is a major agricultural pest of pyramided Bt crops. Previous studies have examined cross-resistance and redundant killing of Cry resistance in H. zea, but such information is lacking for Vip3Aa resistance in this pest. Here, we evaluated cross-resistance and redundant killing of Vip3Aa-resistant H. zea to purified Bt proteins, as well as Bt corn and Bt cotton., Results: Diet bioassays demonstrated high susceptibility of Vip3Aa-resistant H. zea to Cry1Ac, Cry1A.105, and Cry2Ab2 purified proteins. No Vip3Aa-susceptible, -heterozygous, or -resistant H. zea could survive on pyramided Bt corn containing Cry1 and/or Cry2 proteins. Complete redundant killing was observed in pyramided Bt corn containing Cry1 and/or Cry2 proteins against Vip3Aa resistance in H. zea. Vip3Aa-susceptible, -heterozygous, and -resistant H. zea exhibited survival rates ranging from 0.0% to 22.5% on pyramided Bt cotton with Cry1 and/or Cry2 proteins. Incomplete to complete redundant killing was observed for Vip3Aa-resistant H. zea on pyramided Bt cotton containing Cry1 and/or Cry2 proteins., Conclusion: Our findings indicate that Vip3Aa-resistant H. zea does not exhibit positive cross-resistance to Cry1 or Cry2 proteins. In addition, most pyramided Bt crops showed complete or nearly complete redundant killing of Vip3Aa-resistant H. zea. These results indicate that a pyramiding strategy would often be effective for managing Vip3Aa resistance in regions of the United States where H. zea has not evolved resistance to Cry1 and Cry2 toxins. © 2023 Society of Chemical Industry., (© 2023 Society of Chemical Industry.)

Published

2023

33. Oxidative Mechanisms and Cardiovascular Abnormalities of Cirrhosis and Portal Hypertension.

Author

Liu H, Nguyen HH, Hwang SY, and Lee SS

Subjects

Humans, Reactive Oxygen Species pharmacology, Gastrointestinal Hemorrhage, Liver Cirrhosis therapy, Oxidative Stress, Inflammation complications, Endotoxins pharmacology, Esophageal and Gastric Varices complications, Hepatorenal Syndrome complications, Endotoxemia complications, Hypertension, Portal complications, Cardiomyopathies complications, Cardiovascular Abnormalities complications

Abstract

In patients with portal hypertension, there are many complications including cardiovascular abnormalities, hepatorenal syndrome, ascites, variceal bleeding, and hepatic encephalopathy. The underlying mechanisms are not yet completely clarified. It is well known that portal hypertension causes mesenteric congestion which produces reactive oxygen species (ROS). ROS has been associated with intestinal mucosal injury, increased intestinal permeability, enhanced gut bacterial overgrowth, and translocation; all these changes result in increased endotoxin and inflammation. Portal hypertension also results in the development of collateral circulation and reduces liver mass resulting in an overall increase in endotoxin/bacteria bypassing detoxication and immune clearance in the liver. Endotoxemia can in turn aggravate oxidative stress and inflammation, leading to a cycle of gut barrier dysfunction → endotoxemia → organ injury. The phenotype of cardiovascular abnormalities includes hyperdynamic circulation and cirrhotic cardiomyopathy. Oxidative stress is often accompanied by inflammation; thus, blocking oxidative stress can minimize the systemic inflammatory response and alleviate the severity of cardiovascular diseases. The present review aims to elucidate the role of oxidative stress in cirrhosis-associated cardiovascular abnormalities and discusses possible therapeutic effects of antioxidants on cardiovascular complications of cirrhosis including hyperdynamic circulation, cirrhotic cardiomyopathy, and hepatorenal syndrome.

Published

2023

34. Cry9A and Vip3A protein-induced transcriptional changes correspond to their synergistic damage to the midgut of Chilo suppressalis.

Author

Wang Z, Yang W, Yin C, Ma W, Liao M, Li F, and Zhang J

Subjects

Animals, Larva, Endotoxins pharmacology, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Bacterial Proteins metabolism, Bacillus thuringiensis Toxins metabolism, Bacillus thuringiensis Toxins pharmacology, Hemolysin Proteins toxicity, Hemolysin Proteins metabolism, Moths, Insecticides toxicity, Insecticides metabolism, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism

Abstract

Cry and Vip3 proteins are both pore-forming toxins produced by Bacillus thuringiensis that show synergistic insecticidal activity against different insect pests. However, the synergistic effect of Cry and Vip3 proteins on the midgut in target insects is still unclear. In this study, faster and more serious damage was observed after treatment with both Cry9A and Vip3A proteins in the Chilo suppressalis midgut compared to single-protein treatment. Through RNA sequencing, midgut transcriptomic comparison was performed between dual- and single-protein treatments according to midgut injury. After 6 h, 609 differentially expressed genes were found with the combined Cry9A and Vip3A treatments, which was much more than that in the single treatment, corresponding to faster and more serious damage. These genes were mainly enriched in similar pathways, such as lipid metabolic, oxidation-reduction and carbohydrate metabolic process, peptide secretion and cell-cell adhesion; however, the number and expression level of differentially expressed genes are increased. For specific genes significantly regulated by induction of Cry9A and Vip3A, lipases, phospholipid scramblase, probable tape measure protein and arylsulfatase J were significantly downregulated after 6 h treatment. In addition, regular genes related to the activation and receptor binding of B. thuringiensis toxins were differentially regulated, such as ATP-binding cassette subfamily G member 1 and serine protease. Validation with RT-qPCR showed agreement with the sequencing results. Overall, our results support that stronger and faster midgut responses at the cellular and transcriptional levels are induced by the synergistic toxicity of Cry9A and Vip3A in C. suppressalis., Competing Interests: Declaration of Competing Interest The authors declare that they have no conflicts of interest., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

35. Downregulation of a transcription factor associated with resistance to Bt toxin Vip3Aa in the invasive fall armyworm.

Author

Jin M, Shan Y, Peng Y, Wang W, Zhang H, Liu K, Heckel DG, Wu K, Tabashnik BE, and Xiao Y

Subjects

Animals, Spodoptera genetics, Bacillus thuringiensis Toxins metabolism, Down-Regulation, Transcription Factors metabolism, Genome-Wide Association Study, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Bacterial Proteins metabolism, Crops, Agricultural genetics, Endotoxins genetics, Endotoxins pharmacology, Endotoxins metabolism, Hemolysin Proteins metabolism, Insecticide Resistance genetics, Larva metabolism, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Bacillus thuringiensis genetics, Insecticides pharmacology

Abstract

Transgenic crops producing insecticidal proteins from Bacillus thuringiensis (Bt) have revolutionized control of some major pests. However, more than 25 cases of field-evolved practical resistance have reduced the efficacy of transgenic crops producing crystalline (Cry) Bt proteins, spurring adoption of alternatives including crops producing the Bt vegetative insecticidal protein Vip3Aa. Although practical resistance to Vip3Aa has not been reported yet, better understanding of the genetic basis of resistance to Vip3Aa is urgently needed to proactively monitor, delay, and counter pest resistance. This is especially important for fall armyworm ( Spodoptera frugiperda ), which has evolved practical resistance to Cry proteins and is one of the world's most damaging pests. Here, we report the identification of an association between downregulation of the transcription factor gene SfMyb and resistance to Vip3Aa in S. frugiperda . Results from a genome-wide association study, fine-scale mapping, and RNA-Seq identified this gene as a compelling candidate for contributing to the 206-fold resistance to Vip3Aa in a laboratory-selected strain. Experimental reduction of SfMyb expression in a susceptible strain using RNA interference (RNAi) or CRISPR/Cas9 gene editing decreased susceptibility to Vip3Aa, confirming that reduced expression of this gene can cause resistance to Vip3Aa. Relative to the wild-type promoter for SfMyb , the promoter in the resistant strain has deletions and lower activity. Data from yeast one-hybrid assays, genomics, RNA-Seq, RNAi, and proteomics identified genes that are strong candidates for mediating the effects of SfMyb on Vip3Aa resistance. The results reported here may facilitate progress in understanding and managing pest resistance to Vip3Aa.

Published

2023

36. Development of a bioassay method to test activity of cry insecticidal proteins against Diatraea spp. (Lepidoptera: Crambidae) sugarcane stem borers.

Author

Ángel-Salazar JS, Echeverri-Rubiano C, Rodríguez-Chalarca J, López-Gerena J, Dos Santos RF, Jurat-Fuentes JL, Revynthi AM, and Vargas G

Subjects

Animals, Endotoxins pharmacology, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Hemolysin Proteins genetics, Zea mays genetics, Plants, Genetically Modified genetics, Biological Assay, Larva, Insecticides pharmacology, Saccharum, Moths genetics, Bacillus thuringiensis genetics

Abstract

The genus Diatraea (Lepidoptera: Crambidae) includes stem borers representing the most critical sugarcane pests in the Americas. Colombia's most widely distributed and damaging Diatraea species include Diatraea saccharalis, D. indigenella, D. busckella, and D. tabernella. The reduced efficacy of biological tools commonly used in controlling several species highlights the importance of evaluating alternative management strategies, such as transgenic plants expressing insecticidal proteins from the bacterium Bacillus thuringiensis (Bt). The selection of optimal Bt insecticidal proteins for Diatraea control depends on bioassays with purified Bt proteins. Because there is no described artificial diet for borer species other than D. saccharalis and availability of most purified Bt toxins is restricted, this study aimed at developing a bioassay method using fresh corn tissue and providing proof of concept by testing susceptibility to the Cry1Ac insecticidal protein from Bt. Toxicity was evaluated with a single Cry1Ac dose applied directly to corn discs. Stem borer mortality after seven days was higher than 90% for all four tested Diatraea species, while control mortality was below 8%. In addition, we observed that Cry1Ac caused more than 90% weight inhibition in all survivors and delayed development. These results validate the use of this method to determine mortality and growth inhibition due to the consumption of the Cry1Ac protein in each of the Diatraea species. Furthermore, this method could be used to assess other entomopathogenic substances to control these insect pests., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2023 Ángel-Salazar et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

37. Inheritance and fitness cost of laboratory-selected resistance to Vip3Aa in Helicoverpa zea (Lepidoptera: Noctuidae).

Author

Carrière Y, Degain B, Unnithan GC, and Tabashnik BE

Subjects

Animals, United States, Zea mays genetics, Endotoxins pharmacology, Insecticide Resistance genetics, Bacillus thuringiensis Toxins, Hemolysin Proteins pharmacology, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Plants, Genetically Modified genetics, Lepidoptera, Moths genetics, Bacillus thuringiensis genetics

Abstract

The polyphagous pest Helicoverpa zea (Lepidoptera: Noctuidae) has evolved practical resistance to transgenic corn and cotton producing Cry1 and Cry2 crystal proteins from Bacillus thuringiensis (Bt) in several regions of the United States. However, the Bt vegetative insecticidal protein Vip3Aa produced by Bt corn and cotton remains effective against this pest. To advance knowledge of resistance to Vip3Aa, we selected a strain of H. zea for resistance to Vip3Aa in the laboratory. After 28 generations of continuous selection, the resistance ratio was 267 for the selected strain (GA-R3) relative to a strain not selected with Vip3Aa (GA). Resistance was autosomal and almost completely recessive at a concentration killing all individuals from GA. Declines in resistance in heterogeneous strains containing a mixture of susceptible and resistant individuals reared in the absence of Vip3Aa indicate a fitness cost was associated with resistance. Previously reported cases of laboratory-selected resistance to Vip3Aa in lepidopteran pests often show partially or completely recessive resistance at high concentrations and fitness costs. Abundant refuges of non-Bt host plants can maximize the benefits of such costs for sustaining the efficacy of Vip3Aa against target pests., (© The Author(s) 2023. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

38. Diversity of transgenes in sustainable management of insect pests.

Author

Rakesh V, Kalia VK, and Ghosh A

Subjects

Animals, Humans, Insecta genetics, Transgenes, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Protease Inhibitors metabolism, Protease Inhibitors pharmacology, Lectins genetics, Bacterial Proteins metabolism, Endotoxins pharmacology, Hemolysin Proteins genetics, Pest Control, Biological, Insecticides metabolism, Bacillus thuringiensis genetics, Bacillus thuringiensis metabolism, Chitinases genetics

Abstract

Insecticidal transgenes, when incorporated and expressed in plants, confer resistance against insects by producing several products having insecticidal properties. Protease inhibitors, lectins, amylase inhibitors, and chitinase genes are associated with the natural defenses developed by plants to counter insect attacks. Several toxin genes are also derived from spiders and scorpions for protection against insects. Bacillus thuringiensis Berliner is a microbial source of insecticidal toxins. Several methods have facilitated the large-scale production of transgenic plants. Bt-derived cry, cyt, vip, and sip genes, plant-derived genes such as lectins, protease inhibitors, and alpha-amylase inhibitors, insect cell wall-degrading enzymes like chitinase and some proteins like arcelins, plant defensins, and ribosome-inactivating proteins have been successfully utilized to impart resistance to insects. Besides, transgenic plants expressing double-stranded RNA have been developed with enhanced resistance. However, the long-term effects of transgenes on insect resistance, the environment, and human health must be thoroughly investigated before they are made available for commercial planting. In this chapter, the present status, prospects, and future scope of transgenes for insect pest management have been summarized and discussed., (© 2023. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2023

39. Impact of seed blend and structured maize refuge on Helicoverpa zea (Lepidoptera: Noctuidae) potential phenological resistance development parameters in pupae and adults.

Author

Pezzini DT, Reisig DD, Buntin GD, Del Pozo-Valdivia AI, Gould F, Paula-Moraes SV, and Reay-Jones FP

Subjects

Animals, United States, Zea mays genetics, Pupa, Larva, Endotoxins pharmacology, Plants, Genetically Modified genetics, Bacterial Proteins pharmacology, Bacterial Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins genetics, Bacillus thuringiensis Toxins pharmacology, Seeds, Insecticide Resistance, Moths, Bacillus thuringiensis genetics

Abstract

Background: Helicoverpa zea, an economic pest in the south-eastern United States, has evolved practical resistance to Bacillus thuringiensis (Bt) Cry toxins in maize and cotton. Insect resistance management (IRM) programs have historically required planting of structured non-Bt maize, but because of its low adoption, the use of seed blends has been considered. To generate knowledge on target pest biology and ecology to help improve IRM strategies, nine field trials were conducted in 2019 and 2020 in Florida, Georgia, North Carolina, and South Carolina to evaluate the impact of Bt (Cry1Ab + Cry1F or Cry1Ab + Cry1F + Vip3A) and non-Bt maize plants in blended and structured refuge treatments on H. zea pupal survival, weight, soil pupation depth, adult flight parameters, and adult time to eclosion., Results: From a very large sample size and geography, we found a significant difference in pupal mortality and weight among treatments in seed blends with Vip3A, implying that cross-pollination occurred between Bt and non-Bt maize ears. There was no treatment effect for pupation depth, adult flight distance, and eclosion time., Conclusion: Results of this study demonstrate the potential impact of different refuge strategies on phenological development and survival of an important pest species of regulatory concern. © 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry., (© 2023 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.)

Published

2023

40. Comparing the Influences of Metformin and Berberine on the Intestinal Microbiota of Rats With Nonalcoholic Steatohepatitis.

Author

Chen D, Xiong J, Chen G, Zhang Z, Liu Y, Xu J, and Xu H

Subjects

Humans, Rats, Male, Animals, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 16S metabolism, Rats, Sprague-Dawley, Diet, High-Fat adverse effects, Endotoxins metabolism, Endotoxins pharmacology, Liver pathology, Disease Models, Animal, Non-alcoholic Fatty Liver Disease drug therapy, Non-alcoholic Fatty Liver Disease etiology, Non-alcoholic Fatty Liver Disease metabolism, Berberine pharmacology, Berberine metabolism, Gastrointestinal Microbiome, Metformin pharmacology

Abstract

Background/aim: High-fat diets induce shifts in the gut microbial community structure in patients or animals with non-alcoholic steatohepatitis (NASH). The objective of this study was to investigate the influence of metformin (MET) and berberine (BER) on the intestinal microbiota of rats with NASH., Materials and Methods: Forty specific pathogen-free male Sprague-Dawley rats were randomized into 4 groups. Model rats were fed high-fat diets to create NASH models. MET or BER rats were administrated MET or BER, respectively, at the onset of induction of NASH. Serum alanine aminotransferase (ALT), aspartate aminotransferase (AST), cholesterol, and triglycerides were examined. Plasma endotoxin levels were measured using the turbidimetric endotoxin assay. The incidence of bacterial translocation describes the passage of bacteria of the gastrointestinal tract through the intestinal mucosa barrier to mesenteric lymph nodes and other organs. Hematoxylin and eosin and oil red O staining were used for histopathological analysis. High throughput 16S rRNA sequencing was carried out for analyzing the composition of intestinal microbiota., Results: High-fat diets caused NASH after 16-week induction. Administration of MET and BER ameliorated NASH by attenuating hepatic steatosis and inflammation and decreasing the plasma levels of endotoxin. MET and BER restored the composition of the intestinal microbiota disrupted by NASH. Both MET and BER altered the abundance of Atopobiaceae, Brevibacterium, Christensenellaceae, Coriobacteriales, Papillibacter, Pygmaiobacter, and Rikenellaceae RC9 in rats with NASH. The screened intestinal microbiota may be responsible for the improvement in fat accumulation and glucose metabolism., Conclusion: MET and BER demonstrated beneficial effects on the intestinal microbiota, which was disturbed in NASH. This finding may explain the functional mechanism of MET and BER in NASH., (Copyright © 2023, International Institute of Anticancer Research (Dr. George J. Delinasios), All rights reserved.)

Published

2023

41. Sex-dependent deficits in associative learning across multiple LPS doses.

Author

Patel RK, Pirozzi NT, Hoefler TG, Connolly MG, Singleton LG, and Kohman RA

Subjects

Female, Mice, Male, Animals, Mice, Inbred C57BL, Learning, Conditioning, Classical, Hippocampus, Lipopolysaccharides pharmacology, Endotoxins pharmacology

Abstract

Activation of the immune system by administration of the bacterial endotoxin lipopolysaccharide (LPS) impairs cognitive and neural plasticity processes. For instance, acute LPS exposure has been reported to impair memory consolidation, spatial learning and memory, and associative learning. However, the inclusion of both males and females in basic research is limited. Whether LPS-induced cognitive deficits are comparable in males and females is currently unclear. Therefore, the present study evaluated sex differences in associative learning following administration of LPS at a dose (i.e., 0.25 mg/kg) that impairs learning in males and higher LPS doses (i.e., 0.325 - 1 mg/kg) across multiple experiments. Adult male and female C57BL/6J mice were trained in a two-way active avoidance conditioning task following their respective treatments. Results showed that LPS had sex-dependent effects on associative learning. The 0.25 mg/kg LPS dose impaired learning in males, consistent with prior work. However, LPS, at any of the doses employed across three experiments, did not disrupt associative learning in females. Female mice were resistant to learning deficits despite showing heightened levels of select proinflammatory cytokines in response to LPS. Collectively, these findings demonstrate that the learning impairments resulting from acute LPS exposure are sex-dependent., Competing Interests: Declaration of Competing Interest None, (Published by Elsevier Inc.)

Published

2023

42. Monitoring reduced accumulation and risk evaluation of Cry1Ca during food chain transfer from genetically engineered plant to endoparasitoid.

Author

Wen D, Li M, Dong X, Han K, Yu J, Cai Y, and Hua H

Subjects

Animals, Larva, Plants, Genetically Modified genetics, Plants, Genetically Modified chemistry, Food Chain, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Endotoxins genetics, Endotoxins pharmacology, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Moths genetics, Insecticides pharmacology, Bacillus thuringiensis genetics, Oryza genetics, Oryza chemistry

Abstract

Background: The potential risk of insecticidal proteins produced by genetically engineered (GE) plants to nontarget organisms have long been an ecotoxicological concern. Apanteles chilonis, an important endoparasitoid of rice pest Chilo suppressalis, potentially is exposed to Bacillus thuringiensis (Bt) endotoxins through a food chain of transgenic Bt rice - C. suppressalis - A. chilonis, and thus, a rigorous risk assessment is urgently needed. Here, we combined a tri-trophic bioassay system with high-dose exposure approach using C. suppressalis hemolymph as the carrier of insecticidal protein to evaluate the biosafety of Cry1Ca to A. chilonis., Results: Cry1Ca protein could be transmitted and retained along the food chain and remains bioactive in the hemolymph of C. suppressalis during the pre-adult duration of A. chilonis. No significant differences in pre-adult period, male and female longevity, adult fecundity and weight, emergence rate nor sex ratio were observed when A. chilonis parasitized C. suppressalis feeding on cry1Ca rice compared with control treatment. However, the pupal period and weight were significantly prolonged and decreased. When A. chilonis parasitized C. suppressalis injected with a high dosage of Cry1Ca protein, no adverse effects on the life-history parameters, peroxidase (POD), superoxide dismutase (SOD) or glutathione reductase (GR) of A. chilonis were observed, demonstrating that the host quality mediates adverse effects during the food chain., Conclusions: We confirmed that Cry1Ca posed no ecological risk to the nontarget endoparasitoid A. chilonis. This study may serve as an example for future risk assessment of transgenic crops to nontarget endoparasitoids. © 2023 Society of Chemical Industry., (© 2023 Society of Chemical Industry.)

Published

2023

43. 5-Methoxytryptophan ameliorates endotoxin-induced acute lung injury in vivo and in vitro by inhibiting NLRP3 inflammasome-mediated pyroptosis through the Nrf2/HO-1 signaling pathway.

Author

Ma Y, Wang Z, Wu X, Ma Z, Shi J, He S, Li S, Li X, Li X, Li Y, and Yu J

Subjects

Mice, Animals, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, NF-E2-Related Factor 2 metabolism, Tryptophan adverse effects, Endotoxins pharmacology, Lipopolysaccharides pharmacology, Pyroptosis, Mice, Inbred C57BL, Signal Transduction, Inflammasomes metabolism, Acute Lung Injury chemically induced, Acute Lung Injury drug therapy, Acute Lung Injury metabolism

Abstract

Background and Aim: Endotoxin-induced acute lung injury (ALI) is a complicated and fatal condition with no specific or efficient clinical treatments. 5-Methoxytryptophan (5-MTP), an endogenous metabolite of tryptophan, was revealed to block systemic inflammation. However, the specific mechanism by which 5-MTP affects ALI still needs to be clarified. The purpose of this study was to determine whether 5-MTP protected the lung by inhibiting NLRP3 inflammasome-mediated pyroptosis through the Nrf2/HO-1 signaling pathway., Methods and Results: We used lipopolysaccharide (LPS)-stimulated C57BL/6 J mice and MH-S alveolar macrophages to create models of ALI, and 5-MTP (100 mg/kg) administration attenuated pathological lung damage in LPS-exposed mice, which was associated with decreased inflammatory cytokines and oxidative stress levels, upregulated protein expression of Nrf2 and HO-1, and suppressed Caspase-1 activation and NLRP3-mediated pyroptosis protein levels. Moreover, Nrf2-deficient mice or MH-S cells were treated with 5-MTP to further confirm the protective effect of the Nrf2/HO-1 pathway on lung damage. We found that Nrf2 deficiency partially eliminated the beneficial effect of 5-MTP on reducing oxidative stress levels and inflammatory responses and abrogating the inhibition of NLRP3-mediated pyroptosis induced by LPS., Conclusion: These findings suggested that 5-MTP could effectively ameliorate ALI by inhibiting NLRP3-mediated pyroptosis via the Nrf2/HO-1 signaling pathway., (© 2023. The Author(s), under exclusive licence to Springer Nature Switzerland AG.)

Published

2023

44. A novel Cry1A resistance allele of fall armyworm in the new invaded region.

Author

Jin M, Shan Y, Li Q, Peng Y, and Xiao Y

Subjects

Animals, Spodoptera genetics, Alleles, Bacterial Proteins genetics, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Plants, Genetically Modified genetics, Zea mays genetics, Crops, Agricultural genetics, Larva, Endotoxins genetics, Endotoxins pharmacology, Bacillus thuringiensis genetics

Abstract

The fall armyworm, Spodoptera frugiperda, is a devastating pest in its native range Western Hemisphere and has become a major invasive pest around the globe. Transgenic crops producing Bt toxins have been widely used to control S. frugiperda. However, the evolution of resistance threatens the sustainability of Bt crops. Field-evolved S. frugiperda resistance to Bt crops was observed in America, whereas, no case of field-resistance was reported in its newly invaded East Hemisphere. Here we investigated the molecular mechanism of a Cry1Ab-resistant LZ-R strain of S. frugiperda, which selected 27-generations using Cry1Ab after being collected in corn fields from China. Complementation tests between LZ-R strain and SfABCC2-KO strain, which have been knockout SfABCC2 gene and confer 174-fold resistance to Cry1Ab, showed a similar level of resistance in the F 1 -progeny as their parent stains, indicating that a common locus of SfABCC2 mutation in LZ-R stain. Sequencing of the full length of SfABCC2 cDNA from LZ-R strain, we characterize a novel mutation allele of SfABCC2. Cross-resistance results showed that Cry1Ab-resistance strain also confers >260-fold resistance to Cry1F, with no cross-resistance to Vip3A. These results provided evidence of a novel SfABCC2 mutation allele in the newly invaded East Hemisphere of S. frugiperda., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

45. Effects of SmartStax® and SmartStax® PRO maize on western corn rootworm (Diabrotica virgifera virgifera LeConte) larval feeding injury and adult life history parameters.

Author

Reinders JD, Moar WJ, Head GP, Hassan S, and Meinke LJ

Subjects

Animals, Larva genetics, Zea mays genetics, Insecticide Resistance genetics, Bacterial Proteins genetics, Endotoxins pharmacology, Plants, Genetically Modified, Pest Control, Biological, Coleoptera physiology, Bacillus thuringiensis genetics

Abstract

Field-evolved resistance of the western corn rootworm (WCR), Diabrotica virgifera virgifera LeConte, to Bacillus thuringiensis Berliner (Bt) proteins Cry3Bb1 and Cry34/35Ab1 (now classified as Gpp34Ab1/Tpp35Ab1) expressed in the pyramid SmartStax® has been documented in areas of the United States (U.S.) Corn Belt. SmartStax® PRO is a recently registered rootworm-active pyramid containing the same Bt proteins expressed in SmartStax® plus DvSnf7 dsRNA. Little to no published data is available comparing efficacy of the technologies or potential effects of dietary exposure on adult WCR fitness. Therefore, experiments were conducted to compare effects of adult WCR dietary exposure to SmartStax® and SmartStax® PRO on life history parameters and efficacy of the technologies in the field with both Bt-susceptible and Bt-resistant WCR populations. WCR life history parameters evaluated included adult longevity, head capsule width, egg production, and egg viability. Results of small-plot field trials indicated that both technologies provided a high level of root protection when a Bt-susceptible WCR population was present. Root protection was reduced on SmartStax® but maintained on SmartStax® PRO when WCR Bt resistance occurred. Lifetime egg production was the key life history parameter that was significantly reduced when either Bt-susceptible or Bt-resistant adult WCR were fed SmartStax® or SmartStax® PRO diet. A potential fitness advantage was apparent as egg production was significantly higher in the Bt-resistant than Bt-susceptible population. The similar response by the Bt-susceptible WCR population to SmartStax® and SmartStax® PRO indicates that results were caused by sublethal dietary exposure to Bt proteins. Adult size (males < females) and egg viability (high: >95%) were not significantly different among treatments but longevity results were inconsistent between years. Collectively, the field efficacy and life history parameter data expand existing knowledge of SmartStax® and SmartStax® PRO technologies, which will inform practical WCR resistance management programs., Competing Interests: The authors have declared that no competing interests exist. JDR and LJM developed the research concept/study design and conducted the project to increase our understanding of SmartStax® and SmartStax® PRO field efficacy and effects of adult exposure on life history parameters. LJM wrote/submitted proposal to Monsanto Company (now Bayer). Industry authors provided materials, information integral to the project, and review of the initial manuscript draft. This does not alter our adherence to PLOS ONE policies on sharing data and materials., (Copyright: © 2023 Reinders et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2023

46. The NF-κB factor Relish is essential for the epithelial defenses protecting against δ-endotoxin dependent effects of Bacillus thuringiensis israelensis infection in the Drosophila model.

Author

Mouawad C, Awad MK, Liegeois S, Ferrandon D, Sanchis-Borja V, and El Chamy L

Subjects

Animals, Humans, NF-kappa B metabolism, Drosophila metabolism, Drosophila melanogaster metabolism, Bacillus thuringiensis Toxins metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Hemolysin Proteins metabolism, Hemolysin Proteins pharmacology, Endotoxins genetics, Endotoxins metabolism, Endotoxins pharmacology, Bacillus thuringiensis genetics

Abstract

Bacillus thuringiensis israelensis is largely regarded as the most selective, safe and ecofriendly biopesticide used for the control of insect vectors of human diseases. Bti enthomopathogenicity relies on the Cry and Cyt δ-endotoxins, produced as crystalline inclusions during sporulation. Insecticidal selectivity of Bti is mainly ascribed to the binding of the Cry toxins to receptors in the gut of target insects. However, the contribution of epithelial defenses in limiting Bti side effects in non-target species remains largely unexplored. Here, taking advantage of the genetically tractable Drosophila melanogaster model and its amenability for deciphering highly conserved innate immune defenses, we unravel a central role of the NF-κB factor Relish in the protection against the effects of ingested Bti spores in a non-susceptible host. Intriguingly, our data indicate that the Bti-induced Relish response is independent of its canonical activation downstream of peptidoglycan sensing and does not involve its longstanding role in the regulation of antimicrobial peptides encoding genes. In contrast, our data highlight a novel enterocyte specific function of Relish that is essential for preventing general septicemia following Bti oral infections strictly when producing δ-endotoxins. Altogether, our data provide novel insights into Bti-hosts interactions of prominent interest for the optimization and sustainability of insects' biocontrol strategies., Competing Interests: Declaration of competing interest The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Institut Pasteur. Published by Elsevier Masson SAS. All rights reserved.)

Published

2023

47. Sildenafil in endotoxin-induced pulmonary hypertension: an experimental study.

Author

Kemper DAG, Otsuki DA, Maia DBRR, Mossoco CO, Marcasso RRA, Cunha LCCM, Auler JOVC Jr, and Fantoni DT

Subjects

Animals, Swine, Sildenafil Citrate pharmacology, Endotoxins pharmacology, Lipopolysaccharides pharmacology, Hemodynamics, Hypertension, Pulmonary chemically induced, Hypertension, Pulmonary drug therapy, Endotoxemia

Abstract

Background: Sepsis and septic shock still represent great challenges in critical care medicine. Sildenafil has been largely used in the treatment of pulmonary arterial hypertension, but its effects in sepsis are unknown. The aim of this study was to investigate the hypothesis that sildenafil can attenuate endotoxin-induced pulmonary hypertension in a porcine model of endotoxemia., Methods: Twenty pigs were randomly assigned to Control group (n.ß=.ß10), which received saline solution; or to Sildenafil group (n.ß=.ß10), which received sildenafil orally (100.ßmg). After 30.ßminutes, both groups were submitted to endotoxemia with intravenous bacterial lipopolysaccharide endotoxin (LPS) infusion (4.ß..g.kg -1 .h -1 ) for 180.ßminutes. We evaluated hemodynamic and oxygenation functions, and also lung histology and plasma cytokine (TNF.., IL-1.., IL6, and IL10) and troponin I response., Results: Significant hemodynamic alterations were observed after 30.ßminutes of LPS continuous infusion, mainly in pulmonary arterial pressure (from Baseline 19.ß...ß2.ßmmHg to LPS30 52.ß...ß4.ßmmHg, p.ß<.ß0.05). There was also a significant decrease in PaO 2 /FiO 2 (from Baseline 411.ß...ß29 to LPS180 334.ß...ß49, p.ß<.ß0.05). Pulmonary arterial pressure was significantly lower in the Sildenafil group (35.ß...ß4.ßmmHg at LPS30, p.ß<.ß0.05). The Sildenafil group also presented lower values of systemic arterial pressure. Sildenafil maintained oxygenation with higher PaO 2 /FiO 2 and lower oxygen extraction rate than Control group but had no effect on intrapulmonary shunt. All cytokines and troponin increased after LPS infusion in both groups similarly., Conclusion: Sildenafil attenuated endotoxin-induced pulmonary hypertension preserving the correct heart function without improving lung lesions or inflammation., (Copyright © 2021. Published by Elsevier España, S.L.U.)

Published

2023

48. Monitoring resistance of Ostrinia nubilalis (Lepidoptera: Crambidae) in Canada to Cry toxins produced by Bt corn.

Author

Smith JL and Farhan Y

Subjects

Animals, Bacillus thuringiensis Toxins, Zea mays genetics, Bacterial Proteins genetics, Bacterial Proteins pharmacology, Endotoxins pharmacology, Hemolysin Proteins pharmacology, Hemolysin Proteins genetics, Canada, Plants, Genetically Modified genetics, Insecticide Resistance, Bacillus thuringiensis genetics, Moths genetics

Abstract

The first case of field-evolved resistance in European corn borer, Ostrinia nubilalis (Hübner) (Lepidoptera: Crambidae) to transgenic corn (Zea mays L.) producing a Bacillus thuringiensis (Bt) Berliner toxin was discovered in Nova Scotia, Canada in 2018. This case involved resistance to Bt corn producing Cry1Fa toxin. As a mitigation response, Bt corn hybrids producing only Cry1Fa were replaced in that region with hybrids producing two or three Bt toxins targeting O. nubilalis. In this study, we collected O. nubilalis in several corn-growing regions of Canada during 2018 to 2020 and tested their progeny for susceptibility to four Bt toxins produced by currently available Bt corn that targets O. nubilalis: Cry1Fa, Cry1Ab, Cry1A.105, and Cry2Ab. Based on toxin concentrations killing 50% of larvae from 23 field-derived strains relative to two susceptible laboratory strains, the resistance ratio was at least 10 for Cry1Fa for 12 strains (52% of strains) consisting of 10 strains from Nova Scotia, as well as strains from near Montreal, Quebec and Roseisle, Manitoba. We found low but statistically significant resistance relative to at least one of two susceptible strains for Cry1Ab (23% of strains), Cry1A.105 (45% of strains), and Cry2Ab (14% of strains), with maximum resistance ratios of 3.9, 5.8, and 2.0, respectively. These results provide key information for addressing O. nubilalis resistance to Bt corn in Canada., (© The Author(s) 2023. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

49. Transgenic Drosophila to Functionally Validate Fall Armyworm ABCC2 Mutations Conferring Bt Resistance.

Author

Panteleri R, Anthousi A, Denecke S, Boaventura D, Nauen R, and Vontas J

Subjects

Animals, Spodoptera physiology, Bacillus thuringiensis Toxins metabolism, Drosophila genetics, Drosophila metabolism, Drosophila melanogaster genetics, Drosophila melanogaster metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Animals, Genetically Modified, Endotoxins genetics, Endotoxins pharmacology, Endotoxins metabolism, Hemolysin Proteins genetics, Hemolysin Proteins pharmacology, Hemolysin Proteins metabolism, Mutation, Insecticide Resistance genetics, Plants, Genetically Modified metabolism, Larva genetics, Insecticides pharmacology, Bacillus thuringiensis genetics

Abstract

The fall armyworm (FAW), Spodoptera frugiperda (J.E. Smith; Lepidoptera: Noctuidae) is an invasive agricultural pest with a global distribution, causing major crop losses annually. Its control strategies largely rely on chemical insecticides and transgenic crops expressing Bacillus thuringiensis insecticidal proteins (Cry and Vip toxins); however, the development of high resistance poses a significant issue. The ATP-binding cassette transporter C2 (ABCC2) has been linked to Cry toxin pore formation, acting as a receptor of some Cry toxins. Recently detected mutations in the SfABCC2 gene in extracellular loop 4 (ECL4) have been associated with Bt toxin resistance in FAW. In the present study, we expressed the SfABCC2 gene in Drosophila melanogaster , a species normally unaffected by the Bt toxins. We demonstrate that susceptibility can be introduced by the ectopic and tissue-specific expression of wildtype SfABCC2. Next, we introduced mutations into ECL4-both individually and in combination-that have been recently described in Brazilian FAW and functionally validated by toxicity bioassays against the foliar Bt product Xentari. Our results provide an efficient demonstration of the suitability of transgenic Drosophila for validating FAW ABCC2 resistance mutations in ECL4 against Bt toxins, and potential cross-resistance issues between closely related proteins that use ABCC2.

Published

2023

50. In vivo and in silico comparison analyses of Cry toxin activities toward the sugarcane giant borer.

Author

Fonseca FCA, Antonino JD, de Moura SM, Rodrigues-Silva PL, Macedo LLP, Gomes Júnior JE, Lourenço-Tessuti IT, Lucena WA, Morgante CV, Ribeiro TP, Monnerat RG, Rodrigues MA, Cuccovia IM, Mattar Silva MC, and Grossi-de-Sa MF

Subjects

Animals, Endotoxins pharmacology, Endotoxins toxicity, Bacillus thuringiensis Toxins metabolism, Bacillus thuringiensis Toxins pharmacology, Hemolysin Proteins chemistry, Hemolysin Proteins metabolism, Hemolysin Proteins toxicity, Larva, Bacterial Proteins chemistry, Bacterial Proteins metabolism, Bacterial Proteins pharmacology, Saccharum, Bacillus thuringiensis chemistry

Abstract

The sugarcane giant borer, Telchin licus licus , is an insect pest that causes significant losses in sugarcane crops and in the sugar-alcohol sector. Chemical and manual control methods are not effective. As an alternative, in the current study, we have screened Bacillus thuringiensis ( Bt ) Cry toxins with high toxicity against this insect. Bioassays were conducted to determine the activity of four Cry toxins (Cry1A (a, b, and c) and Cry2Aa) against neonate T. licus licus larvae. Notably, the Cry1A family toxins had the lowest LC 50 values, in which Cry1Ac presented 2.1-fold higher activity than Cry1Aa, 1.7-fold larger than Cry1Ab, and 9.7-fold larger than Cry2Aa toxins. In silico analyses were performed as a perspective to understand putative interactions between T. licus licus receptors and Cry1A toxins. The molecular dynamics and docking analyses for three putative aminopeptidase N (APN) receptors (TlAPN1, TlAPN3, and TlAPN4) revealed evidence for the amino acids that may be involved in the toxin-receptor interactions. Notably, the properties of Cry1Ac point to an interaction site that increases the toxin's affinity for the receptor and likely potentiate toxicity. The interacting amino acid residues predicted for Cry1Ac in this work are probably those shared by the other Cry1A toxins for the same region of APNs. Thus, the presented data extend the existing knowledge of the effects of Cry toxins on T. licus licus and should be considered in further development of transgenic sugarcane plants resistant to this major occurring insect pest in sugarcane fields.

Published

2023