Your search keyword '"Parasitic nematodes"' showing total 547 results

1. Genome assembly variation and its implications for gene discovery in nematodes

Author

Mariene, Grace M. and Wasmuth, James D.

Published

2025

2. Nematodes exposed to furfural acetone exhibit a species-specific vacuolar H+-ATPase response

Author

Cheng, Wanli, Dai, Wei, Chen, Wen, Xue, Hua, Zhao, Zhengzheng, Jiang, Zhengbing, Li, Huanan, Liu, Jiashu, Huang, Feng, Cai, Minmin, Zheng, Longyu, Yu, Ziniu, Peng, Donghai, and Zhang, Jibin

Published

2024

3. Possibilities of using nested PCR-RFLP for taxonomic identification of L3 larvae of the family Trichostrongylidae, Leiper, 1912

Author

I. A. Pimenov, I. M. Odoevskaya, A. M. Plieva, and A. I. Varlamova

Subjects

teladorsagia circumcincta, haemonchus contortus, trichostrongylus colubriformis, parasitic nematodes, trichostrongylidae, pcr-rflp, restriction enzyme, Biology (General), QH301-705.5

Abstract

The purpose of the research is to apply molecular genetic research methods to identify the taxonomic affiliation of gastrointestinal parasitic sheep nematodes of the family Trichostrongylidae using nested PCR followed by the restriction fragment length polymorphism (RFLP) analysis.Materials and methods. Parasitic nematodes, L3 Strongylata larvae obtained from incubated fecal samples of sheep. The genomic DNA was isolated using a commercial kit for DNA extraction from micro-quantities of tissues (Synthol, Moscow) as per the manufacturer’s guidelines. For DNA amplification, a T-100 Bio-Rad thermal cycler and a commercial Eurogen Master Mix reagent kit were used. The PCR regime was performed according to the WAAVP guidelines, 2006. The restriction endonuclease Rsa I of amplified Trichostrongylidae fragments was performed according to guidelines of the enzyme manufacturer (Sibenzyme, Novosibirsk).Results and discussion. To determine the taxonomic affiliation of Strongylata larvae isolated after incubation of feces from sheep, molecular genetic studies were performed using nested PCR followed by the restriction fragment length polymorphism (RFLP) analysis. This method makes it possible to identify, with the least effort, the genotypes of three species of Strongylata Haemonchus contortus, Trichostrongylus colubriformis, and Teladorsagia circumcincta at the larval stage.

Published

2024

4. The Role of Helminthophagous Fungi in the Biological Control of Human and Zoonotic Intestinal Helminths.

Author

Araújo, Jackson Victor de, Fonseca, Júlia dos Santos, Barbosa, Beatriz Bacelar, Valverde, Helbert Ananias, Santos, Huarrisson Azevedo, and Braga, Fabio Ribeiro

Subjects

INTESTINAL parasites, SOIL pollution, TREMATODA, ENTEROBIUS, ANCYLOSTOMA, HELMINTHS

Abstract

Nematophagous, or helminthophagous fungi of the genera Duddingtonia, Arthrobotrys, Monacrosporium, Pochonia, Paecilomyces, and Mucor, have been used over the years in in vitro and in vivo experiments to control helminth parasites that are potentially zoonotic. These fungi have shown efficacy against the following helminth genera: Ancylostoma, Toxocara, Enterobius, Strongyloides, Angiostrongylus, Taenia, Fasciola, and Schistosoma. The results obtained from these experiments, together with studies on soil contamination, suggest the viability of their use as a sustainable and effective strategy to reduce environmental contamination by these zoonotic parasites. Therefore, the aim of this review was to address the role of helminthophagous fungi in the biological control of potentially zoonotic helminths. To this end, we describe (1) a brief history of helminthophagous fungi; (2) a discussion of some potentially zoonotic intestinal parasites; (3) the importance of helminthophagous fungi in the control of nematodes, cestodes, and trematodes; and (4) the potential of helminthophagous fungi as a practical and sustainable strategy. [ABSTRACT FROM AUTHOR]

Published

2024

5. Phytoparasitic Nematodes of Musa spp. with Emphasis on Sources of Genetic Resistance: A Systematic Review.

Author

Sousa, Amanda Bahiano Passos, Rocha, Anelita de Jesus, Oliveira, Wanderley Diaciso dos Santos, Rocha, Leandro de Souza, and Amorim, Edson Perito

Subjects

BANANAS, PLANTAIN banana, NEMATODES, BANANA growing, PRATYLENCHUS, ROOT-knot nematodes

Abstract

Bananas are a staple food that considerably contributes to both food security and income generation, especially in countries of Africa, Asia, and Central and South America. The banana plant (Musa spp.) is affected by various pathogens, of main concern being the plant-parasitic nematodes associated with the rhizosphere, the most important of which are Radopholus similis (burrowing nematode), Helicotylenchus sp. (spiral nematode), Pratylenchus sp. (root lesion nematode), and Meloidogyne sp. (gall nematode). Infected plants reduce their ability to absorb water and nutrients, which can lead to delayed flowering, fewer bunches, and lower fruit mass. Obtaining nematode-resistant banana cultivars through genetic improvement is an effective and sustainable option compared with chemical control with nematicides. Here, we provide the first systematic review of existing banana sources of resistance to nematodes to aid the management and control of nematodes in banana and plantain crops. Articles selected from different databases were evaluated, and searches were conducted using pre-established inclusion and exclusion criteria. We found 69 studies dealing with genetic improvement for nematode resistance in banana cultivation. Our findings revealed that sources of resistance are currently under investigation to combat the diseases caused by different nematode species in banana plants. [ABSTRACT FROM AUTHOR]

Published

2024

6. Soil moisture conditions alter behavior of entomopathogenic nematodes.

Author

Frankenstein, Dana, Luu, Macawan S, Luna‐Ayala, Jennifer, Willett, Denis S, and Filgueiras, Camila S

Subjects

*INSECT nematodes, *SOIL moisture, *BIOLOGICAL pest control agents, *SUSTAINABLE agriculture, *AGRICULTURAL development, *PEST control

Abstract

BACKGROUND: A variety of environmental factors can disrupt biotic interactions between plants, insects and soil microorganisms with consequences for agricultural management and production. Many of these belowground interactions are mediated by volatile organic compounds (VOCs) which can be used for communication under appropriate environmental conditions. Behavioral responses to these compounds may likewise be dependent on varying soil conditions which are influenced by a changing climate. To determine how changing environmental conditions may affect VOC‐mediated biotic interactions, we used a belowground system where entomopathogenic nematodes (EPNs) – tiny roundworm parasitoids of soil‐borne insects – respond to VOCs by moving through the soil pore matrix. Specifically, we used two genera of EPNs – Heterorhabditis and Steinernema – that are known to respond to four specific terpenes – α‐pinene, linalool, d‐limonene and pregeijerene – released by the roots of plants in the presence of herbivores. We assessed the response of these nematodes to these terpenes under three moisture regimes to determine whether drier conditions or inundated conditions may influence the response behavior of these nematodes. RESULTS: Our results illustrate that the recovery rate of EPNs is positively associated with soil moisture concentration. As soil moisture concentration increases from 6% to 18%, substantially more nematodes are recovered from bioassays. In addition, we find that soil moisture influences EPN preference for VOCs, as illustrated in the variable response rates. Certain compounds shifted from acting as a repellent to acting as an attractant and vice versa depending on the soil moisture concentration. CONCLUSION: On a broad scale, we demonstrate that soil moisture has a significant effect on EPN host‐seeking behavior. EPN efficacy as biological control agents could be affected by climate change projections that predict varying soil moisture concentrations. We recommend that maintaining nematodes as biological control agents is essential for sustainable agriculture development, as they significantly contribute not only to soil health but also to efficient pest management. © 2024 The Authors. Journal of The Science of Food and Agriculture published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024

7. Parasitic nematodes: dietary habits and their implications.

Author

Lin, Ching-Jung and Siddique, Shahid

Subjects

*FOOD habits, *PANTOTHENIC acid, *NUTRITIONAL requirements, *NEMATODES, *NEMATOCIDES, *OPEN-ended questions, *COEVOLUTION

Abstract

Parasitic nematodes rely on host tissues for energy and nutrition, yet there remains a lack of detailed knowledge regarding their specific nutrient preferences. Recent advances have provided critical insights into their nutritional needs and metabolic dependencies, such as the intriguing discovery of cross-kingdom compartmentalization in vitamin B5 biosynthesis within certain parasitic nematodes. Leveraging these newfound insights into their nutritional vulnerabilities provides a promising avenue for developing effective management and control strategies, addressing the substantial challenges posed by these nematodes to both agriculture and public health. Nematodes, a diverse group of roundworms, exhibit a wide range of dietary habits, including parasitism of animals and plants. These parasites cause substantial economic losses in agriculture and pose significant health challenges to humans and animals. This review explores the unique adaptations of parasitic nematodes, emphasizing their nutritional requirements and metabolic dependencies. Recent research has identified cross-kingdom compartmentalization of vitamin B5 biosynthesis in some parasitic nematodes, shedding light on coevolutionary dynamics and potential targets for control strategies. Several open questions remain regarding the complexity of nematode nutrition, host manipulation, evolutionary adaptations, and the influence of environmental factors on their metabolic processes. Understanding these aspects offers promising avenues for targeted interventions to manage and control these economically and medically important parasites. [ABSTRACT FROM AUTHOR]

Published

2024

8. Using newly optimized genetic tools to probe Strongyloides sensory behaviors

Author

Mendez, Patricia, Walsh, Breanna, and Hallem, Elissa A

Subjects

Biomedical and Clinical Sciences, Neurosciences, Infectious Diseases, Genetics, Behavioral and Social Science, Biotechnology, Animals, Humans, Life Cycle Stages, Nematoda, Strongyloides stercoralis, Strongyloidiasis, Symbiosis, Parasitic nematodes, Strongyloides, Chemosensation, Thermosensation, Sensory behavior, Host-seeking behavior, Biological Sciences, Agricultural and Veterinary Sciences, Medical and Health Sciences, Mycology & Parasitology, Biochemistry and cell biology, Microbiology, Medical microbiology

Abstract

The oft-neglected human-parasitic threadworm, Strongyloides stercoralis, infects roughly eight percent of the global population, placing disproportionate medical and economic burden upon marginalized communities. While current chemotherapies treat strongyloidiasis, disease recrudescence and the looming threat of anthelminthic resistance necessitate novel strategies for nematode control. Throughout its life cycle, S. stercoralis relies upon sensory cues to aid in environmental navigation and coordinate developmental progression. Odorants, tastants, gases, and temperature have been shown to shape parasite behaviors that drive host seeking and infectivity; however, many of these sensory behaviors remain poorly understood, and their underlying molecular and neural mechanisms are largely uncharacterized. Disruption of sensory circuits essential to parasitism presents a promising strategy for future interventions. In this review, we describe our current understanding of sensory behaviors - namely olfactory, gustatory, gas sensing, and thermosensory behaviors - in Strongyloides spp. We also highlight the ever-growing cache of genetic tools optimized for use in Strongyloides that have facilitated these findings, including transgenesis, CRISPR/Cas9-mediated mutagenesis, RNAi, chemogenetic neuronal silencing, and the use of fluorescent biosensors to measure neuronal activity. Bolstered by these tools, we are poised to enter an era of rapid discovery in Strongyloides sensory neurobiology, which has the potential to shape pioneering advances in the prevention and treatment of strongyloidiasis.

Published

2022

9. Deciphering the Dual Role of Heligmosomoides polygyrus Antigens in Macrophage Modulation and Breast Cancer Cell Growth.

Author

Firmanty, Patryk, Doligalska, Maria, Krol, Magdalena, and Taciak, Bartlomiej

Subjects

CANCER cell growth, TUMOR necrosis factors, TOLL-like receptors, ANTIGENS, BREAST cancer, MACROPHAGES

Abstract

Simple Summary: Our research focuses on how parasitic worms, specifically Heligmosomoides polygyrus, can change the body's immune response. These parasites can lower the body's defense mechanisms, but exactly how they do this is not fully understood. We believe that a type of immune cell, called macrophages, might be involved. Changes in these cells could potentially help tumors grow. In our study, we looked at how substances produced by H. polygyrus affect these immune cells and, in turn, how they influence the growth of breast cancer cells in the lab. We discovered that these substances from H. polygyrus increase the activity of certain genes in the immune cells. These genes are responsible for both promoting and reducing inflammation. Additionally, these substances change the surface features of the immune cells. Our findings show that these changes in immune cells caused by H. polygyrus could lead to increased growth of breast cancer cells in a laboratory setting. This research helps us understand more about how changes in the immune system can affect tumor growth, which is important for developing new cancer treatments. In our study, we explored how parasitic nematodes, specifically Heligmosomoides polygyrus, influence the immune response, focusing on their potential role in tumor growth. The study aimed to understand the mechanisms by which these parasites modify immune cell activation, particularly in macrophages, and how this might create an environment conducive to tumor growth. Our methods involved analyzing the effects of H. polygyrus excretory-secretory antigens on macrophage activation and their subsequent impact on breast cancer cell lines EMT6 and 4T1. We observed that these antigens significantly increased the expression of genes associated with both pro-inflammatory and anti-inflammatory molecules, such as inducible nitric oxide synthase, TNF-α, (Tumor Necrosis Factor) Il-6 (Interleukin), and arginase. Additionally, we observed changes in the expression of macrophage surface receptors like CD11b, F4/80, and TLR4 (Toll-like receptor 4). Our findings indicate that the antigens from H. polygyrus markedly alter macrophage behavior and increase the proliferation of breast cancer cells in a laboratory setting. This study contributes to a deeper understanding of the complex interactions between parasitic infections and cancer development, highlighting the need for further research in this area to develop potential new strategies for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

10. Mitogenomic phylogenies suggest the resurrection of the subfamily Porrocaecinae and provide insights into the systematics of the superfamily Ascaridoidea (Nematoda: Ascaridomorpha), with the description of a new species of Porrocaecum

Author

Xiao-Hong Gu, Ning Guo, Hui-Xia Chen, Jiljí Sitko, Lin-Wei Li, Bing-Qian Guo, and Liang Li

Subjects

Parasitic nematodes, Ascaridomorpha, Birds, Integrated taxonomy, Mitochondrial genome, Phylogeny, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The family Toxocaridae is a group of zooparasitic nematodes of veterinary, medical and economic significance. However, the evolutionary relationship of Porrocaecum and Toxocara, both genera currently classified in Toxocaridae, and the monophyly of the Toxocaridae remain under debate. Moreover, the validity of the subgenus Laymanicaecum in the genus Porrocaecum is open to question. Due to the scarcity of an available genetic database, molecular identification of Porrocaecum nematodes is still in its infancy. Methods A number of Porrocaecum nematodes collected from the Eurasian marsh harrier Circus aeruginosus (Linnaeus) (Falconiformes: Accipitridae) in the Czech Republic were identified using integrated morphological methods (light and scanning electron microscopy) and molecular techniques (sequencing and analyzing the nuclear 18S, 28S and ITS regions). The complete mitochondrial genomes of the collected nematode specimens and of Porrocaecum (Laymanicaecum) reticulatum (Linstow, 1899) were sequenced and annotated for the first time. Phylogenetic analyses of ascaridoid nematodes based on the amino acid sequences of 12 protein-coding genes of mitochondrial genomes were performed using maximum likelihood and Bayesian inference. Results A new species of Porrocaecum, named P. moraveci n. sp., is described based on the morphological and genetic evidence. The mitogenomes of P. moraveci n. sp. and P. reticulatum both contain 36 genes and are 14,517 and 14,210 bp in length, respectively. Comparative mitogenomics revealed that P. moraveci n. sp. represents the first known species with three non-coding regions and that P. reticulatum has the lowest overall A + T content in the mitogenomes of ascaridoid nematodes tested to date. Phylogenetic analyses showed the representatives of Toxocara clustered together with species of the family Ascarididae rather than with Porrocaecum and that P. moraveci n. sp. is a sister to P. reticulatum. Conclusions The characterization of the complete mitochondrial genomes of P. moraveci n. sp. and P. reticulatum is reported for the first time. Mitogenomic phylogeny analyses indicated that the family Toxocaridae is non-monophyletic and that the genera Porrocaecum and Toxocara do not have an affinity. The validity of the subgenus Laymanicaecum in Porrocaecum was also rejected. Our results suggest that: (i) Toxocaridae should be degraded to a subfamily of the Ascarididae that includes only the genus Toxocara; and (ii) the subfamily Porrocaecinae should be resurrected to include only the genus Porrocaecum. The present study enriches the database of ascaridoid mitogenomes and provides a new insight into the systematics of the superfamily Ascaridoidea. Graphical Abstract

Published

2023

11. Body-weight gains in Blaberus craniifer cockroaches and the intensity of their infection with gregarines and nematodes

Author

O. V. Parhomenko, O. T. Lagutenko, N. V. Lebedynets, and V. V. Brygadyrenko

Subjects

blattodea, thelastomatidae, eugregarinorida, parasitic nematodes, gregarines of insects, body-weight gain, effects of parasite on its host., Science

Abstract

Intestinal parasites are considered to be able to hinder growth of the host animals, reducing the extent of food metabolism, damaging the intestines’ integrity by filling it with products of their metabolism. However, a long co-evolution can mitigate the negative impact of a parasite on the host organism. To study how parasites – nematodes Cranifera cranifera (Chitwood, 1932) Kloss, 1960 (Oxyurida, Thelastomatidae) and gregarines Protomagalhaensia granulosae Peregrine, 1970 and Blabericola cubensis (Peregrine, 1970) Clopton, 2009 (Eugregarinorida, Blabericolidae) – afffect the growth rates of cockroaches, we performed an experiment on 200 larvae of Blaberus craniifer Burmeister, 1838 (Blattodea, Blaberidae), varying in weight and age. We monitored changes in their body weight, intensity of food consumption, and after the experiment we counted gregarines in the midgut and nematodes in the hindgut. As a result, we found that 100% of the cockroaches were infected with two species of gregarines and one species of nematodes. The intestines of small cockroach larvae (weighing 300–400 mg) contained 16–18 specimens of gregarines on average. Large larvae had a weak tendency towards increase in the intensity of gregarine infestation. Similarly, there occurred changes in the intensity of nematode invasion: young larvae were infected on average by 8–10 specimens of nematodes and large larvae had an average of 12–14 nematodes. At the level of tendency, nematodes were observed to enhance the cockroaches’ growth rates following increase in intensity of the parasitic infection. We found that the two groups of parasites had no effect on one another: the number of gregarines had no effect on the number of specimens of nematodes and vice-versa, the number of nematodes had no effect on the number of gregarine specimens. Perhaps, this is related to different localizations of the parasites: gregarines for most of their life feed in the small intestine, while nematodes feed in the large intestine. Therefore, growth rates of the cockroaches in our experiment have not changed due to the parasites. This indicates minimization of negative effects of gregarines in the midgut and nematodes in the hindgut on the host’s life cycle, developed over long co-evolution.

Published

2023

12. Strongyloides RNA-seq Browser: a web-based software platform for on-demand bioinformatics analyses of Strongyloides species.

Author

Bryant, Astra, DeMarco, Stephanie, and Hallem, Elissa

Subjects

Strongyloides, differential gene expression, functional enrichment, parasitic nematodes, Animals, Computational Biology, Internet, RNA-Seq, Software, Strongyloides

Abstract

Soil-transmitted gastrointestinal parasitic nematodes infect approximately 1 billion people worldwide, predominantly in low-resource communities. Skin-penetrating gastrointestinal nematodes in the genus Strongyloides are emerging as model systems for mechanistic studies of soil-transmitted helminths due to the growing availability of functional genomics tools for these species. To facilitate future genomics studies of Strongyloides species, we have designed a web-based application, the Strongyloides RNA-seq Browser, that provides an open source, user-friendly portal for accessing and analyzing Strongyloides genomic expression data. Specifically, the Strongyloides RNA-seq Browser takes advantage of alignment-free read mapping tools and R-based transcriptomics tools to re-analyze publicly available RNA sequencing datasets from four Strongyloides species: Strongyloides stercoralis, Strongyloides ratti, Strongyloides papillosus, and Strongyloides venezuelensis. This application permits on-demand exploration and quantification of gene expression across life stages without requiring previous coding experience. Here, we describe this interactive application and demonstrate how it may be used by nematode researchers to conduct a standard set of bioinformatics queries.

Published

2021

13. The Role of Helminthophagous Fungi in the Biological Control of Human and Zoonotic Intestinal Helminths

Author

Jackson Victor de Araújo, Júlia dos Santos Fonseca, Beatriz Bacelar Barbosa, Helbert Ananias Valverde, Huarrisson Azevedo Santos, and Fabio Ribeiro Braga

Subjects

helminthosis, helminthophagous fungi, humans, One Health, parasitic nematodes, public health, Medicine

Abstract

Nematophagous, or helminthophagous fungi of the genera Duddingtonia, Arthrobotrys, Monacrosporium, Pochonia, Paecilomyces, and Mucor, have been used over the years in in vitro and in vivo experiments to control helminth parasites that are potentially zoonotic. These fungi have shown efficacy against the following helminth genera: Ancylostoma, Toxocara, Enterobius, Strongyloides, Angiostrongylus, Taenia, Fasciola, and Schistosoma. The results obtained from these experiments, together with studies on soil contamination, suggest the viability of their use as a sustainable and effective strategy to reduce environmental contamination by these zoonotic parasites. Therefore, the aim of this review was to address the role of helminthophagous fungi in the biological control of potentially zoonotic helminths. To this end, we describe (1) a brief history of helminthophagous fungi; (2) a discussion of some potentially zoonotic intestinal parasites; (3) the importance of helminthophagous fungi in the control of nematodes, cestodes, and trematodes; and (4) the potential of helminthophagous fungi as a practical and sustainable strategy.

Published

2024

14. An Integrated Approach to Identify New Anti-Filarial Leads to Treat River Blindness, a Neglected Tropical Disease.

Author

Tyagi, Rahul, Bulman, Christina A, Cho-Ngwa, Fidelis, Fischer, Chelsea, Marcellino, Chris, Arkin, Michelle R, McKerrow, James H, McNamara, Case W, Mahoney, Matthew, Tricoche, Nancy, Jawahar, Shabnam, Janetka, James W, Lustigman, Sara, Sakanari, Judy, and Mitreva, Makedonka

Subjects

anthelmintics, filarial nematodes, in vitro, macrofilaricides, parasitic nematodes, target class repurposing, whole worm assay, Immunology, Medical Microbiology

Abstract

Filarial worms cause multiple debilitating diseases in millions of people worldwide, including river blindness. Currently available drugs reduce transmission by killing larvae (microfilariae), but there are no effective cures targeting the adult parasites (macrofilaricides) which survive and reproduce in the host for very long periods. To identify effective macrofilaricides, we carried out phenotypic screening of a library of 2121 approved drugs for clinical use against adult Brugia pahangi and prioritized the hits for further studies by integrating those results with a computational prioritization of drugs and associated targets. This resulted in the identification of 18 hits with anti-macrofilaricidal activity, of which two classes, azoles and aspartic protease inhibitors, were further expanded upon. Follow up screening against Onchocerca spp. (adult Onchocerca ochengi and pre-adult O. volvulus) confirmed activity for 13 drugs (the majority having IC50 < 10 μM), and a counter screen of a subset against L. loa microfilariae showed the potential to identify selective drugs that prevent adverse events when co-infected individuals are treated. Stage specific activity was also observed. Many of these drugs are amenable to structural optimization, and also have known canonical targets, making them promising candidates for further optimization that can lead to identifying and characterizing novel anti-macrofilarial drugs.

Published

2021

15. Mitogenomic phylogenies suggest the resurrection of the subfamily Porrocaecinae and provide insights into the systematics of the superfamily Ascaridoidea (Nematoda: Ascaridomorpha), with the description of a new species of Porrocaecum.

Author

Gu, Xiao-Hong, Guo, Ning, Chen, Hui-Xia, Sitko, Jiljí, Li, Lin-Wei, Guo, Bing-Qian, and Li, Liang

Subjects

GENETIC databases, NEMATODES, AMINO acid sequence, SPECIES, TOXOCARA, TAPEWORMS, IDENTIFICATION, MOLECULAR switches

Abstract

Background: The family Toxocaridae is a group of zooparasitic nematodes of veterinary, medical and economic significance. However, the evolutionary relationship of Porrocaecum and Toxocara, both genera currently classified in Toxocaridae, and the monophyly of the Toxocaridae remain under debate. Moreover, the validity of the subgenus Laymanicaecum in the genus Porrocaecum is open to question. Due to the scarcity of an available genetic database, molecular identification of Porrocaecum nematodes is still in its infancy. Methods: A number of Porrocaecum nematodes collected from the Eurasian marsh harrier Circus aeruginosus (Linnaeus) (Falconiformes: Accipitridae) in the Czech Republic were identified using integrated morphological methods (light and scanning electron microscopy) and molecular techniques (sequencing and analyzing the nuclear 18S, 28S and ITS regions). The complete mitochondrial genomes of the collected nematode specimens and of Porrocaecum (Laymanicaecum) reticulatum (Linstow, 1899) were sequenced and annotated for the first time. Phylogenetic analyses of ascaridoid nematodes based on the amino acid sequences of 12 protein-coding genes of mitochondrial genomes were performed using maximum likelihood and Bayesian inference. Results: A new species of Porrocaecum, named P. moraveci n. sp., is described based on the morphological and genetic evidence. The mitogenomes of P. moraveci n. sp. and P. reticulatum both contain 36 genes and are 14,517 and 14,210 bp in length, respectively. Comparative mitogenomics revealed that P.moraveci n. sp. represents the first known species with three non-coding regions and that P. reticulatum has the lowest overall A + T content in the mitogenomes of ascaridoid nematodes tested to date. Phylogenetic analyses showed the representatives of Toxocara clustered together with species of the family Ascarididae rather than with Porrocaecum and that P. moraveci n. sp. is a sister to P. reticulatum. Conclusions: The characterization of the complete mitochondrial genomes of P. moraveci n. sp. and P. reticulatum is reported for the first time. Mitogenomic phylogeny analyses indicated that the family Toxocaridae is non-monophyletic and that the genera Porrocaecum and Toxocara do not have an affinity. The validity of the subgenus Laymanicaecum in Porrocaecum was also rejected. Our results suggest that: (i) Toxocaridae should be degraded to a subfamily of the Ascarididae that includes only the genus Toxocara; and (ii) the subfamily Porrocaecinae should be resurrected to include only the genus Porrocaecum. The present study enriches the database of ascaridoid mitogenomes and provides a new insight into the systematics of the superfamily Ascaridoidea. [ABSTRACT FROM AUTHOR]

Published

2023

16. The role of carbon dioxide in nematode behaviour and physiology

Author

Banerjee, Navonil and Hallem, Elissa A

Subjects

Biological Sciences, Ecology, Infectious Diseases, Underpinning research, 1.1 Normal biological development and functioning, Neurological, Ancylostomatoidea, Animals, Behavior, Caenorhabditis elegans, Carbon Dioxide, Chemotaxis, Host-Parasite Interactions, Humans, Life Cycle Stages, Nematoda, Strongyloides, Carbon dioxide, chemotaxis, C, elegans, hookworms, nematodes, parasitic nematodes, sensory behaviour, C. elegans, Veterinary Sciences, Mycology & Parasitology, Veterinary sciences, Microbiology

Abstract

Carbon dioxide (CO2) is an important sensory cue for many animals, including both parasitic and free-living nematodes. Many nematodes show context-dependent, experience-dependent and/or life-stage-dependent behavioural responses to CO2, suggesting that CO2 plays crucial roles throughout the nematode life cycle in multiple ethological contexts. Nematodes also show a wide range of physiological responses to CO2. Here, we review the diverse responses of parasitic and free-living nematodes to CO2. We also discuss the molecular, cellular and neural circuit mechanisms that mediate CO2 detection in nematodes, and that drive context-dependent and experience-dependent responses of nematodes to CO2.

Published

2020

17. Functional Characterization of ShK Domains from Steinernema carpocapsae

Author

Lima, Aklima Khanam

Subjects

Biochemistry, Parasitology, Molecular biology, EPNs, ESPs, Host-parasite, Parasitic nematodes, Protein, ShK domain

Abstract

Parasitic nematodes inflict detrimental effects on a wide range of hosts, including animals, plants, and insects. Entomopathogenic nematodes (EPNs) are insect parasitic nematodes. Along with the symbiotic bacteria, EPNs quickly kill their insect hosts by infection. EPN Steinernema carpocapsae releases a cocktail of venom proteins as excretory/secretory products (ESPs) during infection. These ESPs contain various toxic or immunomodulatory protein families, enzymes, and small molecules. Despite the lethal effects of ESPs on various insects, very little is known about the mechanisms behind these interactions. This work focuses on one of the protein families abundantly found in the ESPs of S. carpocapsae, ShK domain-containing protein, and explores the protein’s role in host-parasite interactions. ShK domain-containing proteins are characterized by single or multiple ShK domains, known for diverse biological functions, including neurotoxic, paralytic, immunosuppressive, and hemolytic effects. Many are known to inhibit voltage-gated K+ channels. This work identifies and characterizes two ShK proteins from the ESPs of S. carpocapsae, Sc-ShK-1 (containing four ShK domains) and Sc-ShK-2 (containing three ShK domains). Using the Drosophila melanogaster (fruit flies) model organism, it was revealed that Sc-ShK-1 protein exhibits toxicity to the flies under high-stress conditions e.g. starvation and desiccation. Behavioral assays on flies showed that Sc-ShK-1 protein negatively impacts the health of fruit flies. Additionally, Sc-ShK-1 protein contributes to host immunomodulation during Streptococcus pneumoniae bacterial co-infections. Sc-ShK-1 protein decreases fly resistance to bacterial infection leading to decreased survival and increased bacterial growth. Investigation into a single ShK domain from another ShK protein, the Sc-ShK-2 protein (referred to as Sc-ShK-2-K1), demonstrated high toxicity to fruit flies even at very low injectable doses. Furthermore, the K+ channel blocking activity of Sc-ShK-2-K1 was assessed by whole-cell patch clamp analysis. Overall studying the role of the nematode ShK domain-containing proteins enhances our understanding of how nematodes manipulate host immunity during infection, shedding light on potential avenues for controlling parasitic nematode infections.

Published

2024

18. Importance of ABC Transporters in the Survival of Parasitic Nematodes and the Prospect for the Development of Novel Control Strategies.

Author

Raza, Ali, Williams, Andrew R., and Abeer, Muhammad Mustafa

Subjects

PLANT nematodes, CARRIER proteins, NEMATODES, MEMBRANE proteins, BIOLOGICAL transport, ATP-binding cassette transporters, CELL membranes

Abstract

ABC transporters, a family of ATP-dependent transmembrane proteins, are responsible for the active transport of a wide range of molecules across cell membranes, including drugs, toxins, and nutrients. Nematodes possess a great diversity of ABC transporters; however, only P-glycoproteins have been well-characterized compared to other classes. The ABC transport proteins have been implicated in developing resistance to various classes of anthelmintic drugs in parasitic nematodes; their role in plant and human parasitic nematodes still needs further investigation. Therefore, ABC transport proteins offer a potential opportunity to develop nematode control strategies. Multidrug resistance inhibitors are becoming more attractive for controlling nematodes due to their potential to increase drug efficacy in two ways: (i) by limiting drug efflux from nematodes, thereby increasing the amount of drug that reaches its target site, and (ii) by reducing drug excretion by host animals, thereby enhancing drug bioavailability. This article reviews the role of ABC transporters in the survival of parasitic nematodes, including the genes involved, their regulation and physiological roles, as well as recent developments in their characterization. It also discusses the association of ABC transporters with anthelmintic resistance and the possibility of targeting them with next-generation inhibitors or nutraceuticals (e.g., polyphenols) to control parasitic infections. [ABSTRACT FROM AUTHOR]

Published

2023

19. Phytoparasitic Nematodes of Musa spp. with Emphasis on Sources of Genetic Resistance: A Systematic Review

Author

Amanda Bahiano Passos Sousa, Anelita de Jesus Rocha, Wanderley Diaciso dos Santos Oliveira, Leandro de Souza Rocha, and Edson Perito Amorim

Subjects

Musa spp., genetic resistance, parasitic nematodes, phytonematodes, Botany, QK1-989

Abstract

Bananas are a staple food that considerably contributes to both food security and income generation, especially in countries of Africa, Asia, and Central and South America. The banana plant (Musa spp.) is affected by various pathogens, of main concern being the plant-parasitic nematodes associated with the rhizosphere, the most important of which are Radopholus similis (burrowing nematode), Helicotylenchus sp. (spiral nematode), Pratylenchus sp. (root lesion nematode), and Meloidogyne sp. (gall nematode). Infected plants reduce their ability to absorb water and nutrients, which can lead to delayed flowering, fewer bunches, and lower fruit mass. Obtaining nematode-resistant banana cultivars through genetic improvement is an effective and sustainable option compared with chemical control with nematicides. Here, we provide the first systematic review of existing banana sources of resistance to nematodes to aid the management and control of nematodes in banana and plantain crops. Articles selected from different databases were evaluated, and searches were conducted using pre-established inclusion and exclusion criteria. We found 69 studies dealing with genetic improvement for nematode resistance in banana cultivation. Our findings revealed that sources of resistance are currently under investigation to combat the diseases caused by different nematode species in banana plants.

Published

2024

20. Resolving the origins of secretory products and anthelmintic responses in a human parasitic nematode at single-cell resolution

Author

Clair R Henthorn, Paul M Airs, Emma K Neumann, and Mostafa Zamanian

Subjects

filarial nematodes, parasitic nematodes, single-cell, anthelmintics, antigens, secretion, Medicine, Science, Biology (General), QH301-705.5

Abstract

Nematode excretory-secretory (ES) products are essential for the establishment and maintenance of infections in mammals and are valued as therapeutic and diagnostic targets. While parasite effector proteins contribute to host immune evasion and anthelmintics have been shown to modulate secretory behaviors, little is known about the cellular origins of ES products or the tissue distributions of drug targets. We leveraged single-cell approaches in the human parasite Brugia malayi to generate an annotated cell expression atlas of microfilariae. We show that prominent antigens are transcriptionally derived from both secretory and non-secretory cell and tissue types, and anthelmintic targets display distinct expression patterns across neuronal, muscular, and other cell types. While the major classes of anthelmintics do not affect the viability of isolated cells at pharmacological concentrations, we observe cell-specific transcriptional shifts in response to ivermectin. Finally, we introduce a microfilariae cell culture model to enable future functional studies of parasitic nematode cells. We expect these methods to be readily adaptable to other parasitic nematode species and stages.

Published

2023

21. Recent Advances in Life History Transition with Nematode-Trapping Fungus Arthrobotrys oligospora and Its Application in Sustainable Agriculture.

Author

Wang, Da, Ma, Nan, Rao, Wanqin, and Zhang, Ying

Subjects

NEMATODE-destroying fungi, BIOLOGICAL pest control agents, GENETIC transformation, PREDATION, SUSTAINABLE agriculture, PLANT nematodes, BIOLOGICAL models, NEMATODES

Abstract

Parasitic nematodes cause great annual loss in the agricultural industry globally. Arthrobotrys oligospora is the most prevalent and common nematode-trapping fungus (NTF) in the environment and the candidate for the control of plant- and animal-parasitic nematodes. A. oligospora is also the first recognized and intensively studied NTF species. This review highlights the recent research advances of A. oligospora as a model to study the biological signals of the switch from saprophytism to predation and their sophisticated mechanisms for interacting with their invertebrate hosts, which is of vital importance for improving the engineering of this species as an effective biocontrol fungus. The application of A. oligospora in industry and agriculture, especially as biological control agents for sustainable purposes, was summarized, and we discussed the increasing role of A. oligospora in studying its sexual morph and genetic transformation in complementing biological control research. [ABSTRACT FROM AUTHOR]

Published

2023

22. Secondary compounds from Cyrtocarpa procera bark inhibits the biological cycle of Haemonchus contortus: in vitro ovicidal and larvicidal studies.

Author

De Jesús-Martínez, Xochitl, Olmedo-Juárez, Agustín, Olivares-Pérez, Jaime, Rivero-Pérez, Nallely, González-Cortazar, Manases, Zaragoza-Bastida, Adrián, Villa-Mancera, Abel, López-Arellano, María Eugenia, Mendoza-de Gives, Pedro, and Cortes-Morales, Jorge

Subjects

*HAEMONCHUS contortus, *HIGH performance liquid chromatography, *GALLIC acid, *BIOLOGICAL rhythms, *ORGANIC compounds

Abstract

Cyrtocarpa procera is a tree from the Anacardiaceae family that has various biological properties such as antioxidant, antibacterial and anthelmintic. In this research, the in vitro ovicidal and larvicidal effect of a hydroalcoholic extract (HA-E) and two of its fractions (organic: EtAcO-F and aqueous: Aq-F) from dehydrated bark of C. procera on Haemonchus contortus , were evaluated. Additionaly, the extract and fractions were analyzed phytochemically by high-performance liquid chromatography (HPLC) for identification of major compounds. The HA extract showed a 100 % ovicidal effect with the maximum concentration evaluated (100 mg/mL), while the EtAcO fraction exhibited an ovicidal effect close to 100 % starting at 2.50 mg/mL, with the Aq fraction a lower ovicidal effect was obtained. In the larval stage, a greater larvicidal effect was observed in the EtAcO fraction compared to that observed in HA-E and Aq-F did not affect larval viability. The major compounds were gallic acid and two galloyl derivatives. It is concluded that the bark of the C. procera tree contains secondary compounds that affect the eggs and larvae of H. contortus ; however, it is also concluded that to enhance the effect, the fractionation of HA-E is necessary to obtain a more phytochemically concentrated organic fraction, and with it develop in vivo research. [Display omitted] • Bioactive compounds from Cyrtocarpa procera bark on Haemonchus contortus was obtained. • The organic fraction (EtOAc-F) was obtained from a hydroalcoholic extract of C. procera. • Gallic acid was a major compound identified in the organic fraction (EtOAc-F). • The EtOAc-F showed the best in vitro anthelmintic effect on Haemonchus contortus. [ABSTRACT FROM AUTHOR]

Published

2024

23. In vitro Antihelminthic Activities of Artocarpus heterophyllus (Jackfruit) and Artocarpus camansi (Breadnut) Leaf Extracts on the Model Nematode, Caenorhabditis elegans.

Author

Tacbas, Estrelle Anne, Sumaya, Neil Pep Dave, and Sumaya, Nanette Hope

Subjects

PLANT nematodes, JACKFRUIT, PLANT extracts, PHYTOCHEMICALS, CAENORHABDITIS elegans, YOUNG adults

Abstract

Caenorhabditis elegans can represent a model organism for herbal medication against parasitic nematodes in determining the anthelmintic potential for the following concentrations of Artocarpus heterophyllus and Artocarpus camansi, 10000 ppm, 7500 ppm, 5000 ppm. The phytochemical results revealed the presence of alkaloids, flavonoids, saponins, steroids, and tannins in both plant crude extracts. Different developmental stages of C. elegans (i.e., 1st to 4th larval stages (L1-L4), young adult (YA) and adult nematodes) were used for in vitro anthelmintic assay, mortality, development of life stages, and reproduction of the nematode. Both plant extracts caused high mortality in the L4 stage for their LC50 and LC90 values. Notably, the crude extracts of both plants delayed the development of L4 for almost 48 hours. Thus, the results suggest that the extracts of A. heterophyllus and A. camansi can be a potential alternative for anthelmintic treatment or with further research, can be utilized as a natural source and active ingredient for a bio-based antihelmintic pharmaceutical drug. [ABSTRACT FROM AUTHOR]

Published

2024

24. Deciphering the Dual Role of Heligmosomoides polygyrus Antigens in Macrophage Modulation and Breast Cancer Cell Growth

Author

Patryk Firmanty, Maria Doligalska, Magdalena Krol, and Bartlomiej Taciak

Subjects

parasitic nematodes, immune response modulation, macrophage activation, breast cancer cell proliferation, Veterinary medicine, SF600-1100

Abstract

In our study, we explored how parasitic nematodes, specifically Heligmosomoides polygyrus, influence the immune response, focusing on their potential role in tumor growth. The study aimed to understand the mechanisms by which these parasites modify immune cell activation, particularly in macrophages, and how this might create an environment conducive to tumor growth. Our methods involved analyzing the effects of H. polygyrus excretory-secretory antigens on macrophage activation and their subsequent impact on breast cancer cell lines EMT6 and 4T1. We observed that these antigens significantly increased the expression of genes associated with both pro-inflammatory and anti-inflammatory molecules, such as inducible nitric oxide synthase, TNF-α, (Tumor Necrosis Factor) Il-6 (Interleukin), and arginase. Additionally, we observed changes in the expression of macrophage surface receptors like CD11b, F4/80, and TLR4 (Toll-like receptor 4). Our findings indicate that the antigens from H. polygyrus markedly alter macrophage behavior and increase the proliferation of breast cancer cells in a laboratory setting. This study contributes to a deeper understanding of the complex interactions between parasitic infections and cancer development, highlighting the need for further research in this area to develop potential new strategies for cancer treatment.

Published

2024

25. A Critical Role for Thermosensation in Host Seeking by Skin-Penetrating Nematodes

Author

Bryant, Astra S, Ruiz, Felicitas, Gang, Spencer S, Castelletto, Michelle L, Lopez, Jacqueline B, and Hallem, Elissa A

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Psychology, Infectious Diseases, Digestive Diseases, Biotechnology, Ancylostoma, Ancylostomiasis, Animals, Host-Seeking Behavior, Humans, Larva, Strongyloides stercoralis, Strongyloidiasis, Taxis Response, Thermosensing, Ancylostoma ceylanicum, heat seeking, host-seeking behavior, parasitic helminths, parasitic nematodes, skin-penetrating nematodes, thermosensation, thermotaxis, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Skin-penetrating parasitic nematodes infect approximately one billion people worldwide and are a major source of neglected tropical disease [1-6]. Their life cycle includes an infective third-larval (iL3) stage that searches for hosts to infect in a poorly understood process that involves both thermal and olfactory cues. Here, we investigate the temperature-driven behaviors of skin-penetrating iL3s, including the human-parasitic threadworm Strongyloides stercoralis and the human-parasitic hookworm Ancylostoma ceylanicum. We show that human-parasitic iL3s respond robustly to thermal gradients. Like the free-living nematode Caenorhabditis elegans, human-parasitic iL3s show both positive and negative thermotaxis, and the switch between them is regulated by recent cultivation temperature [7]. When engaging in positive thermotaxis, iL3s migrate toward temperatures approximating mammalian body temperature. Exposing iL3s to a new cultivation temperature alters the thermal switch point between positive and negative thermotaxis within hours, similar to the timescale of thermal plasticity in C. elegans [7]. Thermal plasticity in iL3s may enable them to optimize host finding on a diurnal temperature cycle. We show that temperature-driven responses can be dominant in multisensory contexts such that, when thermal drive is strong, iL3s preferentially engage in temperature-driven behaviors despite the presence of an attractive host odorant. Finally, targeted mutagenesis of the S. stercoralis tax-4 homolog abolishes heat seeking, providing the first evidence that parasitic host-seeking behaviors are generated through an adaptation of sensory cascades that drive environmental navigation in C. elegans [7-10]. Together, our results provide insight into the behavioral strategies and molecular mechanisms that allow skin-penetrating nematodes to target humans.

Published

2018

26. Bacillus thuringiensis: a gift for nematode management.

Author

Shi J and Sun M

Abstract

Nematodes attacking plants and animals pose a global threat to agricultural industry and public health. Chemicals as long preferred tools for nematode management are facing challenges such as pest resistance and policy restrictions. Recent findings show that Bacillus thuringiensis (Bt) produces rich components with excellent nematicidal competence and is a precious nonchemical resource for controlling a broad range of nematode parasites. Transgenic plants, microbial products, and nanoparticles efficiently deliver and protect Bt nematicidal activities. The combination of nematicidal elements with distinct modes of action can enhance the efficacy and sustainability of Bt-derived nematicidal products. Here we outline these advances, emphasize the promise of Bt in managing nematodes, and discuss issues concerning the optimization of field deployments of Bt-based nematode management., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2025 Elsevier Ltd. All rights reserved.)

Published

2025

27. Targeting the nervous system of the parasitic worm, Haemonchus contortus with quercetin

Author

Vanshita Goel, Sunidhi Sharma, Neloy Kumar Chakroborty, Lachhman Das Singla, and Diptiman Choudhury

Subjects

Haemonchus contortus, Quercetin, ROS, Nervous system, Parasitic nematodes, Catalase, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Prevalence of infection, limited choice of drugs, and emerging resistance against contemporary medications lead to a pressing need to develop new anthelmintic drugs and drug targets. However, little understanding of worms' physiology has substantially delayed the process. Here, we are reporting the tissue morphology of Haemonchus contortus, intestinal parasitic helminths found in small ruminants, and targeting its nervous system with quercetin, a naturally occurring flavonoid. Quercetin showed anthelmintic activity against all of the developmental stages of H. contortus. Further, histological analysis demonstrated damage to various body parts, including isthmus, brut, pseudocoele, and other organs. Mechanistic studies revealed the generation of oxidative stress and alterations in the activities of the stress response enzymes, such as catalase, superoxide dismutase, and glutathione peroxidase. Moreover, the time-dependent imaging of reactive oxygen species (ROS) generated due to quercetin treatment disclosed neuropils as the primary targets of quercetin in adult worms, which eventually lead to the paralysis and death of the worms. Thus, this work demonstrates that the nervous system of the parasitic helminth, H. contortus, is a novel target of the drug quercetin.

Published

2023

28. Elucidating The Role of a Nematode Secreted PLA2 and Lipid Signaling in Immunomodulation of Drosophila melanogaster

Author

Okakpu, Ogadinma Kingsley

Subjects

Immunology, Biochemistry, Molecular biology, fatty acids, hemocyte, Immunomodulation, Lipid Signaling, Parasitic Nematodes, sPLA2

Abstract

Parasitic nematodes are a global health concern and can infect a variety of organisms such as insects and mammals. As a result of infection, they can cause significant morbidity and mortality. Upon successful infection they can release excreted/ secreted proteins (ESPs) into the host, which enables them to evade or suppress host immunity and cause toxicity. Despite some characterization of ESPs in certain parasitic nematode species, very little is known about the mechanisms behind these interactions. Parasitic nematodes that infect insects called entomopathogenic nematodes (EPNs), have been employed to better understand molecular mechanism. Research with EPNs utilize insect model systems which enables circumvention of logistic and technical challenges encountered with using mammals. EPNs also have high homology with vertebrate parasitic nematodes which leads to the application of translational research. This work focuses on an ESP released by the EPN Steinernema carpocapsae, that displayed immunomodulatory effects in the model host Drosophila melanogaster. The ESP is a secreted phospholipase A2 (sPLA2) enzyme that I named Sc-sPLA2 and displayed immunosuppressive effects by reducing the number of hemocytes in the host, and likely by increasing circulation of an anti-inflammatory lipid. The sPLA2 operates enzymatically by cleaving fatty acids directly from the membrane which resulted in immunosuppressive effects on the humoral and cellular response. Analysis of fly hemolymph post injection of Sc-sPLA2 showed increase of eicosanoid and oxylipin precursors, and the increase of an anti-inflammatory fatty acid. In addition, the analysis of fly hemolymph post infection revealed several lipids that are depleted with the ability to rescue immunity upon treatment. This work also attempted to characterize endogenous lipid signaling mechanisms by identifying lipids, prostaglandins and endogenous sPLA2 enzymes that significantly improve the outcome of infection. Thus far this work has been able to establish that an eicosanoid precursor was able to stimulate the cellular response, furthering our understanding of how lipid signaling is immunomodulatory in D. melanogaster.

Published

2023

29. Diverse factors and biochemical mechanisms that regulate skin-penetration behavior in skin-penetrating parasitic nematodes

Author

McClure, Courtney Rena

Subjects

Public health, Molecular biology, Genetics, astacins, parasitic nematodes, skin penetration, strongyloides

Abstract

Strongyloides stercoralis is a human-parasitic gastrointestinal nematode that infects up to 610 million people worldwide. S. stercoralis infective third-stage larvae (iL3s) actively search for hosts to infect, and then invade hosts by penetrating directly through host skin. While the host-seeking behaviors of iL3s are becoming increasingly well-understood, remarkably little is known about skin-penetration behavior. We do not yet know what host- or parasitic-specific factors regulate skin penetration and its composite behaviors, nor do we know what biochemical mechanisms are responsible. We found that S. ratti iL3s progressively penetrate the skin of a rat host within 10 minutes. S. stercoralis iL3s also progressively penetrate rat (non-host) skin over the course of 10 minutes, but with reduced efficiency. Comparing skin-penetration behavior on skin from different rodents revealed that S. ratti iL3s engage in preferential penetration of rat (host) skin. We observed no changes in the efficiency of skin-penetration behavior depending on the sex of the host or the time during the infection cycle when the iL3s emerged from the host; however, younger iL3s penetrate more efficiently than older iL3s. In addition, we found that S. stercoralis and S. ratti iL3s engage in complex behavioral sequences during skin-penetration. We observed cycles of puncture, extrication, completion, and re-emergence events, with re-emergence events occurring specifically on non-host skin. We also performed a bioinformatics analysis of a family of genes that has previously been implicated in the process of skin penetration, the astacin metalloprotease genes. By analyzing publicly available RNA-sequencing data and performing a phylogenetic analysis of the astacin genes, we identified astacin genes that are highly expressed in iL3s and differentially expressed in iL3s relative to other life stages. A phylogenetic comparison of the astacin genes of S. ratti, S. stercoralis, and the free-living nematode Caenorhabditis elegans revealed that these genes are found in parasite-specific expansions of the astacin gene families. We found that some astacin genes are expressed in the iL3 pharynx, suggesting that they may be secreted through the pharynx during skin penetration. Together, our results identify behavioral and biochemical mechanisms that drive skin-penetration behavior.

Published

2023

30. Oxalis tetraphylla (Class: Magnoliopsidae) Possess Flavonoid Phytoconstituents with Nematocidal Activity against Haemonchus contortus.

Author

Ocampo-Gutiérrez, Ana Yuridia, Hernández-Velázquez, Víctor Manuel, Zamilpa, Alejandro, López-Arellano, María Eugenia, Olmedo-Juárez, Agustín, Higuera-Piedrahita, Rosa Isabel, Delgado-Núñez, Edgar Jesús, González-Cortázar, Manasés, and Mendoza-de Gives, Pedro

Abstract

The nematocidal activity of an Oxalis tetraphylla hydroalcoholic extract against the nematode Haemonchus contortus (Hc) was assessed in vitro and the major compounds associated with nematocidal activity were identified. One hydroalcoholic extract was obtained from O. tetraphylla stems and leaves (Ot HE-SLE). The in vitro lethal concentrations (LC50 and LC90) against both eggs and exsheathed Hc infective larvae (L3) were assessed. Ot HE-SLE showed a potent ovicidal activity (LC50 = 0.213 mg/mL; LC90 = 0.71 mg/mL) and larvicidal effect (LC50 = 28.01 mg/mL; LC90 = 69.3 mg/mL). Later on, the extract was bipartitioned to obtain an ethyl acetate phase (EtOAc-Ph) and an aqueous phase (Aq-Ph). Both phases were assessed against Hc eggs at 0.25 and 1.0 mg/mL concentrations. The results with EtOAc-Ph showed 93.6% ovicidal activity, while 96.6% was recorded with Aq-Ph at 48 h post-confrontation (PC). In the case of larvicidal activity, both phases were assessed at 28 mg/mL; Aq-Ph showed >80% larvicidal activity 24 and 72 h PC, while EtOAc-Ph did not show important activity. HPLC analysis showed the presence of coumaric acid and flavonols. Flavonol compounds were the major compounds and were associated with the nematocidal activity. Additionally, the Aq-Ph that showed the highest activity was purified, and the fraction F3 showed the highest nematocidal activity. [ABSTRACT FROM AUTHOR]

Published

2022

31. Implications of tannin containing plants for productivity and health in small ruminant animals: A review

Author

Atiba, Emmanuel M., Laban, Rutto K., Zewei, Sun, Qingzhang, Zhong, and Aschalew, Natnael D.

Published

2021

32. Specifics of the morphological identification of the pathogen of passaluariasis of rabbits

Author

A. Khorolskyi, V. Yevstafieva, S. Kravchenko, M. Pishchalenko, Y. Vakulenko, and B. Gutyj

Subjects

passalurus ambiguus, parasitic nematodes, diagnostics, differential characters., Science

Abstract

Passalurus ambiguus (Nematoda, Oxyuroidae) is one of the most common parasites of digestive tract of domestic and wild rabbits and rodents. Passalurus spp. are cosmopolitan, and the mature nematodes are localized in the appendages and large intestine of animals. The passaluariasis infections remain quite relevant in modern rabbit breeding, because the disease is highly contagious, with the possibility of unlimited spread inducing significant economic losses. The aim of the study was to determine the identifying morphological species characteristics of P. ambiguus nematodes, which were isolated from the colon of domestic rabbits (Oryctolagus cuniculus domesticus). The identifying characters of Passalurus include morphological features, namely the presence of a spherical bulb in the esophagus, and the presence of three teeth in the oral capsule. Males of P. ambiguus have a characteristic structure of the tail end, namely the presence of papillary protrusions and a massive narrowed part with a spicule handle, and five papillae around the cloaca. Twenty-eight metric indicators are proposed that characterize the size of the body, oral capsule, esophagus in different parts of it, the tail end, spicules, the location of the cloaca. Two different morphotypes of mature females of P. ambiguus were revealed – short-tailed and long-tailed, which were larger by 19 indicators (by 3.2–43.6%). The morphotypes of P. ambiguus females are characterized; the length of the tail, body length and width in different areas, depth of the oral capsule, esophageal size and its structural elements, the location of the vulva and nerve ring, the width of the caudal process. At the same time, the parameters of esophageal bulb length and caudal process in short-tailed females were higher (by 13.9% and 11.9%, respectively) than in the long-tailed females. A total of 25 morphometric parameters were proposed for the identification of P. ambiguus females. The obtained data indicate the feasibility of further research on the causes of occurrence of such morphotypes in P. ambiguus females and the need to take into account the existence of such forms of females for their differential diagnosis taking into account their proposed morphometric parameters.

Published

2021

33. On the role of dauer in the adaptation of nematodes to a parasitic lifestyle

Author

Lieke E. Vlaar, Andre Bertran, Mehran Rahimi, Lemeng Dong, Jan E. Kammenga, Johannes Helder, Aska Goverse, and Harro J. Bouwmeester

Subjects

Dauer, Parasitic nematodes, Clade 12, Quiescence, Globodera, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Nematodes are presumably the most abundant Metazoa on Earth, and can even be found in some of the most hostile environments of our planet. Various types of hypobiosis evolved to adapt their life cycles to such harsh environmental conditions. The five most distal major clades of the phylum Nematoda (Clades 8–12), formerly referred to as the Secernentea, contain many economically relevant parasitic nematodes. In this group, a special type of hypobiosis, dauer, has evolved. The dauer signalling pathway, which culminates in the biosynthesis of dafachronic acid (DA), is intensively studied in the free-living nematode Caenorhabditis elegans, and it has been hypothesized that the dauer stage may have been a prerequisite for the evolution of a wide range of parasitic lifestyles among other nematode species. Biosynthesis of DA is not specific for hypobiosis, but if it results in exit of the hypobiotic state, it is one of the main criteria to define certain behaviour as dauer. Within Clades 9 and 10, the involvement of DA has been validated experimentally, and dauer is therefore generally accepted to occur in those clades. However, for other clades, such as Clade 12, this has hardly been explored. In this review, we provide clarity on the nomenclature associated with hypobiosis and dauer across different nematological subfields. We discuss evidence for dauer-like stages in Clades 8 to 12 and support this with a meta-analysis of available genomic data. Furthermore, we discuss indications for a simplified dauer signalling pathway in parasitic nematodes. Finally, we zoom in on the host cues that induce exit from the hypobiotic stage and introduce two hypotheses on how these signals might feed into the dauer signalling pathway for plant-parasitic nematodes. With this work, we contribute to the deeper understanding of the molecular mechanisms underlying hypobiosis in parasitic nematodes. Based on this, novel strategies for the control of parasitic nematodes can be developed.

Published

2021

34. Parasites rather than phoronts: Teratorhabditis synpapillata nematodes reduce lifespan of their Rhynchophorus ferrugineus host in a life stage‐dependent manner

Author

Manel Ibrahim, Ameni Loulou, Anissa Brouk, Arthur Muller, Ricardo A. R. Machado, and Sadreddine Kallel

Subjects

ecological interactions, insect pests, insect–nematode interaction, parasitic nematodes, phoresy, red palm weevils, Ecology, QH540-549.5

Abstract

Abstract Rhynchophorus ferrugineus Olivier (Coleoptera: Curculionidae) red palm weevils are often reported in association with different organisms including nematodes. The significance of this interaction and whether nematodes can influence their life‐history traits is unclear. We collected Rhynchophorus ferrugineus red palm weevils at different developmental stages and locations in Tunisia, observed and dissected them in search for nematodes and other interacting organisms, established laboratory colonies and identified the nematodes associated with them, and conducted nematode–insect interaction assays to determine the capacity of the nematodes to influence their life‐history traits. We observed Beauveria bassiana fungi in larvae, nymph, and adults; Centrouropoda and Uroobovella acari associated with the adults, and Teratorhabditis synpapillata nematodes associated with larvae and adults. Nematode–insect interaction bioassays revealed that T. synpapillata nematodes reduce the lifespan of the insect larvae in a population‐dependent manner, but do not influence the lifespan of adults. Our study uncovers an important factor that may determine population dynamics of this important palm pests and provides evidence to conclude that these organisms establish a parasitic relationship, rather than a phoretic relationship.

Published

2021

35. Olfactory Preferences of the Parasitic Nematode Howardula aoronymphium and its Insect Host Drosophila falleni

Author

Cevallos, James A, Okubo, Ryo P, Perlman, Steve J, and Hallem, Elissa A

Subjects

Biological Sciences, Environmental Sciences, Chemical Sciences, Vector-Borne Diseases, Behavioral and Social Science, Infectious Diseases, Basic Behavioral and Social Science, Neurosciences, Infection, Animals, Carbon Dioxide, Chemotaxis, Drosophila, Environment, Host-Parasite Interactions, Larva, Odorants, Smell, Tylenchida, Parasitic nematodes, Mushroom Drosophila, Olfaction, Drosophila falleni, Howardula aoronymphium, Entomology, Biological sciences, Chemical sciences, Environmental sciences

Abstract

Many parasitic nematodes have an environmental infective stage that searches for hosts. Olfaction plays an important role in this process, with nematodes navigating their environment using host-emitted and environmental olfactory cues. The interactions between parasitic nematodes and their hosts are also influenced by the olfactory behaviors of the host, since host olfactory preferences drive behaviors that may facilitate or impede parasitic infection. However, how olfaction shapes parasite-host interactions is poorly understood. Here we investigated this question using the insect-parasitic nematode Howardula aoronymphium and its host, the mushroom fly Drosophila falleni. We found that both H. aoronymphium and D. falleni are attracted to mushroom odor and a subset of mushroom-derived odorants, but they have divergent olfactory preferences that are tuned to different mushroom odorants despite their shared mushroom environment. H. aoronymphium and D. falleni respond more narrowly to odorants than Caenorhabditis elegans and Drosophila melanogaster, consistent with their more specialized niches. Infection of D. falleni with H. aoronymphium alters its olfactory preferences, rendering it more narrowly tuned to mushroom odor. Our results establish H. aoronymphium-D. falleni as a model system for studying olfaction in the context of parasite-host interactions.

Published

2017

36. The Role of the Shikimate and the Phenylpropanoid Pathways in Root-Knot Nematode Infection

Author

Hamamouch, Noureddine, Adil, Essarioui, Lüttge, Ulrich, Series Editor, Cánovas, Francisco M., Series Editor, Pretzsch, Hans, Series Editor, Risueño, María-Carmen, Series Editor, and Leuschner, Christoph, Series Editor

Published

2020

37. Investigating the Inhibitory Effect of Some Plant Crude Extracts against Root-Knot Nematode (Meloidogyne javanica) in Cucumber Plant.

Author

Gholamnezhad, J. and Naserinasab, F.

Subjects

*NEEM, *JAVANESE root-knot nematode, *PLANT extracts, *ROOT-knot nematodes, *SOUTHERN root-knot nematode, *ROOT-knot, *POLYPHENOL oxidase, *CUCUMBERS

Abstract

Some plant extracts contain elicitors for inducing systemic resistances in treated plants like the lavender extract, whose protective effects against pathogen proved to be by activating the SAR systemic defense pathway. In this study, plant crude extracts including Azadirachta indica (neem), Tagetes erecta (marigold), Thymus daenensis (thymus), and Carum carvi (caraway) were used to control Root-Knot Nematode (RNK) Meloidogyne javanica in cucumber. First, the effect of these extracts on egg hatching and juvenile mortality was investigated, then, the effect of plant extracts on characters such as numbers of egg masses, nematode galls, and eggs per plant root was evaluated under greenhouse conditions. In the third part of this study, the effect of plant extracts on Polyphenol Oxidase (PPO), Peroxidase (POX), Catalase (CAT), Phenylalanine AmmoniaLyase (PAL) and P(1,3) Glucanase (P-1, 3-Glu) enzyme activities was studied. Finally, the expression level of three stress enzymes genes including CAT, PPO, and P-1, 3-Glu P-1, 3-glu was evaluated by Real-time RT-PCR method. Results showed that, on the second day after treatment, 500 and 2,500 ppm concentrations of aqueous neem extract inhibited 64.79 and 73.48% of eggs hatching, respectively. In the greenhouse conditions, the four studied plant extracts (neem, marigold, Thymus, and caraway) at 1,500 ppm concentration significantly suppressed the development and reproduction of M. javanica terms of eggs/plant root, egg-masses, numbers of galls, nematode population in soil and, consequently, enhanced growth of the plants. In addition to the activity of the enzymes, the expression levels of these defense enzymes were also increased by the use of plant extracts. [ABSTRACT FROM AUTHOR]

Published

2022

38. Nematophagous fungi, an extraordinary tool for controlling ruminant parasitic nematodes and other biotechnological applications.

Author

Mendoza-de Gives, Pedro, Braga, Fabio Ribeiro, and Araújo, Jackson Victor de

Subjects

*NEMATODE-destroying fungi, *NEMATODES, *RUMINANTS, *LIVESTOCK losses, *ANTHELMINTICS, *PLANT nematodes

Abstract

Ruminant parasitic nematodes (RPN) severely damage both the health and productivity of animals, followed by important economic losses in livestock production systems. The use of chemical anthelmintic drugs (AD) is a common practice of control; however, the development of anthelmintic resistance (AR) in the parasites has become a growing problem. Additionally, animals treated with AD eliminate drug residues to the soil through faeces where affect beneficial organisms. Nematophagous fungi (NF) inhabit the soil, where they closely coexist with a wide variety of individuals of many populations. Such a relationship has triggered an extraordinary adaptation process, and different eco-biological associations with other microorganisms have been established. In this context, NF have become one of the most important natural antagonists of nematodes (NAN). This natural behaviour has led researchers in many countries to search for potential tools to control RPN and plant-parasitic nematodes. Beyond that, many important scientific findings have been recently made. In this review, a general view of the problem caused by RPN and their economic impact, including AR, as well as different sustainable alternatives of control, including the use of NAN, is addressed. A brief overview of general aspects of NF including classification, morphology and their use in the control of plague nematodes affecting ruminants and economically important crops, the indirect benefit of using NF in the ecosystem as well as other areas of opportunity; i.e. in the control of breast cancer and other biological activities attributed to secondary metabolites produced by NF, are also briefly addressed. [ABSTRACT FROM AUTHOR]

Published

2022

39. Efficacy of a Fungal Formulation with the Nematophagous Fungus Pochonia chlamydosporia in the Biological Control of Bovine Nematodiosis.

Author

Fonseca, Júlia dos Santos, Ferreira, Vinícius Monteiro, Freitas, Samuel Galvão de, Vieira, Ítalo Stoupa, and Araújo, Jackson Victor de

Subjects

NEMATODE-destroying fungi, BOS, TREMATODA, NEMATODES, INSECT nematodes, WORMS

Abstract

In the control of bovine worms, biological control by nematophagous fungi stands out, especially Pochoniachlamydosporia which causes the destruction of helminth eggs. This study aims to test the effectiveness of a formulation containing the nematophagous fungus Pochonia chlamydosporia isolated for the biological control of bovine nematodiosis. Twelve cattle were divided into two groups: control group (GC) and the group that received the formulation (GT). Feces and pasture samples were collected for the research of gastrointestinal nematodes. Lung worms and trematodes were investigated. The animals were weighed monthly. The averages of temperature and rainfall were recorded. The supply of the fungus Pochonia chlamydosporia was not effective in reducing the eggs per gram of feces of gastrointestinal nematodes (EPG) of the animals, not differing statistically (p > 0.05) between the groups. The mean values of larvae recovered in the pasture did not differ significantly (p > 0.05). The genus Haemonchus sp. was the most prevalent. There was no correlation between the number of larvae with temperature and rainfall (p > 0.05). There was a statistically significant difference (p < 0.05) in the penultimate weighing of the experiment. The formulation containing Pochonia chlamydosporia was not efficient in the biological control of bovine gastrointestinal nematodes. [ABSTRACT FROM AUTHOR]

Published

2022

40. Parasitic nematodes of wild and cultivated subtropical fruit plants in Central Asia

Author

Sh. Kh. Khurramov and A. S. Bekmuradov

Subjects

parasitic nematodes, fruit plants, root-knot nematodes, solarization method, susceptibility, resistance to nematodes, Biology (General), QH301-705.5

Abstract

The purpose of the research is studying the species composition and control measures against parasitic nematodes of wild and cultivated subtropical fruit plants of Central Asia.Materials and methods. We studied subtropical fruit crops in 198 farms and 1985 household plots located in various soil and climatic zones of over 20,675 hectares in Central Asia. The materials were collected in the autumn (September-October), spring (April-May) and summer (June-August) months in 1970–1990 by the route method. Study subjects were plant parasitic nematodes of 8 species of wild and cultivated subtropical fruit plants in the Central Asian republics. A modified Baermann funnel method was used to isolate plant nematodes from plants and soil near roots. In total, we collected and analyzed more than 5,400 plant and soil samples. To identify the species of plant parasitic nematodes, we used the Atlas of plant parasitic nematodes compiled at the Institute of Parasitology of the Russian Academy of Sciences, as well as morphometric indicators obtained according to the generally accepted De Mann formulae.Results and discussion. More than 129,000 specimens of plant parasites of 98 species were found in the studied wild and cultivated subtropical fruit crops and soil near their roots. In many farms of the Central Asian republics, we found southern root-knot nematodes, peanut root-knot nematodes, javanese root-knot nematodes, and cotton root-knot nematodes in mixed populations. In Uzbekistan, the prevalence in these crops was from 8 to 61.3%, in Tajikistan – from 78 to 98%, in Turkmenistan – from 6 to 98%, and in Kyrgyzstan – 33%. In addition to root-knot nematodes, representatives of ecto- and endoparasites of the genera Tylenchorhynchus, Merlinius, Quinisulcius, Rotylenchus, Helicotylenchus, Pratylenchus, Paratylenchus, Macroposthonia, Labocriconema and Xiphinema were parasitizing in the above subtropical cultures. Under production conditions, we tested Furadan at a dose of 40 kg/ha, Heterophos at a dose of 60 and 120 kg/ha, and Aldicarb at a dose of 40 kg/ha to control root-knot and other parasitic nematodes. Their efficacy ranged from 89 to 100%. We also used the soil solarization method developed by us, the efficacy of which was 95–98%.

Published

2021

41. Temperature-dependent changes in the host-seeking behaviors of parasitic nematodes

Author

Lee, Joon Ha, Dillman, Adler R, and Hallem, Elissa A

Subjects

Biological Sciences, Infectious Diseases, Vector-Borne Diseases, Animals, Carbon Dioxide, Chemotaxis, Host-Parasite Interactions, Host-Seeking Behavior, Insecta, Odorants, Pest Control, Biological, Rats, Rhabditida, Strongyloides ratti, Temperature, Parasitic nematodes, Entomopathogenic nematodes, Host-seeking behavior, Olfaction, Olfactory plasticity, Developmental Biology, Biological sciences

Abstract

BackgroundEntomopathogenic nematodes (EPNs) are lethal parasites of insects that are of interest as biocontrol agents for insect pests and disease vectors. Although EPNs have been successfully commercialized for pest control, their efficacy in the field is often inconsistent for reasons that remain elusive. EPN infective juveniles (IJs) actively search for hosts to infect using a diverse array of host-emitted odorants. Here we investigate whether their host-seeking behavior is subject to context-dependent modulation.ResultsWe find that EPN IJs exhibit extreme plasticity of olfactory behavior as a function of cultivation temperature. Many odorants that are attractive for IJs grown at lower temperatures are repulsive for IJs grown at higher temperatures and vice versa. Temperature-induced changes in olfactory preferences occur gradually over the course of days to weeks and are reversible. Similar changes in olfactory behavior occur in some EPNs as a function of IJ age. EPNs also show temperature-dependent changes in their host-seeking strategy: IJs cultured at lower temperatures appear to more actively cruise for hosts than IJs cultured at higher temperatures. Furthermore, we find that the skin-penetrating rat parasite Strongyloides ratti also shows temperature-dependent changes in olfactory behavior, demonstrating that such changes occur in mammalian-parasitic nematodes.ConclusionsIJs are developmentally arrested and long-lived, often surviving in the environment through multiple seasonal temperature changes. Temperature-dependent modulation of behavior may enable IJs to optimize host seeking in response to changing environmental conditions, and may play a previously unrecognized role in shaping the interactions of both beneficial and harmful parasitic nematodes with their hosts.

Published

2016

42. Mechanisms of host seeking by parasitic nematodes

Author

Gang, Spencer S and Hallem, Elissa A

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Microbiology, Medical Microbiology, Vector-Borne Diseases, Infectious Diseases, Behavioral and Social Science, Infection, Good Health and Well Being, Animals, Host-Seeking Behavior, Humans, Nematoda, Plants, Parasitic nematodes, Parasitic helminths, Host-seeking behavior, Olfactory behavior, Skin-penetrating nematodes, Entomopathogenic nematodes, Agricultural and Veterinary Sciences, Medical and Health Sciences, Mycology & Parasitology, Biochemistry and cell biology, Medical microbiology

Abstract

The phylum Nematoda comprises a diverse group of roundworms that includes parasites of vertebrates, invertebrates, and plants. Human-parasitic nematodes infect more than one billion people worldwide and cause some of the most common neglected tropical diseases, particularly in low-resource countries [1]. Parasitic nematodes of livestock and crops result in billions of dollars in losses each year [1]. Many nematode infections are treatable with low-cost anthelmintic drugs, but repeated infections are common in endemic areas and drug resistance is a growing concern with increasing therapeutic and agricultural administration [1]. Many parasitic nematodes have an environmental infective larval stage that engages in host seeking, a process whereby the infective larvae use sensory cues to search for hosts. Host seeking is a complex behavior that involves multiple sensory modalities, including olfaction, gustation, thermosensation, and humidity sensation. As the initial step of the parasite-host interaction, host seeking could be a powerful target for preventative intervention. However, host-seeking behavior remains poorly understood. Here we review what is currently known about the host-seeking behaviors of different parasitic nematodes, including insect-parasitic nematodes, mammalian-parasitic nematodes, and plant-parasitic nematodes. We also discuss the neural bases of these behaviors.

Published

2016

43. MORPHOLOGICAL CHARACTERISTICS OF PARASITIC NEMATODES TRICHURIS SYLVILAGI (NEMATODA, TRICHURIDAE).

Author

Yevstafieva, V., Stybel, V., Melnychuk, V., Nagorna, L., Dmitrenko, N., Titarenko, O., Dubova, O., Makarets, S., Filonenko, S., Pishchalenko, M., Kone, M., and Ilchenko, A.

Subjects

MORPHOLOGY, NEMATODES, WHIPWORMS, PARASITIC nematodes in mammals, SPICULE (Anatomy)

Abstract

Morphometric parameters are analyzed and systematized of parasitic nematodes of the species Trichuris sylvilagi Tiner, 1950, obtained from Lepus europaeus (Pallas, 1778). The following parameters are suggested for the exact identification of female T. sylvilagi nematodes: the sizes of body, its anterior and posterior parts, width of body at the connection of esophagus and intestine, specific location of vesicular cuticular protrusions and vulva. Five metric parameters are established for the nematode eggs. The egg shell thickness, length and width of egg plug are suggested for use in addition to the length and width of eggs. Males of T. sylvilagi had strongly curved tail end, long spicule, and transparent spicule sheath which bears spines, and a bulbous inflation in its proximal part. The thirteen metric parameters, which we found to be of identification value for males, include sizes of body, length and width of its anterior and posterior parts, width of body at the connection of esophagus and intestine, sizes of spicule at various areas, and location of the vesicular cuticular protrusions. Obtained data on the metric studies of T. sylvilagi nematodes are compared with the published data. [ABSTRACT FROM AUTHOR]

Published

2022

44. Biological control: An effective approach against nematodes using black pepper plants (Piper nigrum L.).

Author

Saad, Ahmed M., Salem, Heba M., El-Tahan, Amira M., El-Saadony, Mohamed T., Alotaibi, Saqer S., El-Shehawi, Ahmed M., Abd El-Mageed, Taia A., Taha, Ayman E., Alkahtani, Mohammed A., Ezzat Ahmed, Ahmed, and Swelum, Ayman A.

Abstract

[Display omitted] Black pepper (Piper nigrum L.) is one of the oldest spices in the world, additionally, it is highly demanded. Several biotic and abiotic variables pose black pepper production worldwide. Plant-parasitic nematodes play a key role among biotic factors, causing considerable economic losses and affecting the production. Different synthetic nematicides were used for controlling plant nematodes, however the majority of pesticides have been pulled from the market due to substantial non-target effects and environmental risks. As a result, the search for alternative eco-friendly agents for controlling plant-parasitic nematodes populations. Microbial agents are a precious option. In this review the bacterial and fungal agents used as an alternative nematicides, they were studied and confirmed as essential anti-microbial agents against plant nematodes which infected Piper nigrum L. This work examines the most common plant nematodes infected Piper nigrum L., with a focus on root knot and burrowing nematodes, in addition, how to control plant parasitic nematodes using microorganisms. [ABSTRACT FROM AUTHOR]

Published

2022

45. Climate change is likely to increase the development rate of anthelmintic resistance in equine cyathostomins in New Zealand

Author

Christian W. Sauermann, Dave M. Leathwick, Mark Lieffering, and Martin K. Nielsen

Subjects

Climate, Climate change, Anthelmintic resistance, Drug resistance, Cyathostomin, Parasitic nematodes, Infectious and parasitic diseases, RC109-216

Abstract

Climate change is likely to influence livestock production by increasing the prevalence of diseases, including parasites. The traditional practice of controlling nematodes in livestock by the application of anthelmintics is, however, increasingly compromised by the development of resistance to these drugs in parasite populations. This study used a previously developed simulation model of the entire equine cyathostomin lifecycle to investigate the effect a changing climate would have on the development of anthelmintic resistance. Climate data from six General Circulation Models based on four different Representative Concentration Pathways was available for three New Zealand locations. These projections were used to estimate the time resistance will take to develop in the middle (2040–49) and by the end (2090–99) of the century in relation to current (2006–15) conditions under two treatment scenarios of either two or six yearly whole-herd anthelmintic treatments. To facilitate comparison, a scenario without any treatments was included as a baseline. In addition, the size of the infective and parasitic stage nematode population during the third simulation year were estimated. The development of resistance varied between locations, time periods and anthelmintic treatment strategies. In general, the simulations indicated a more rapid development of resistance under future climates coinciding with an increase in the numbers of infective larvae on pasture and encysted parasitic stages. This was especially obvious when climate changes resulted in a longer period suitable for development of free-living parasite stages. A longer period suitable for larval development resulted in an increase in the average size of the parasite population with a larger contribution from eggs passed by resistant worms surviving the anthelmintic treatments. It is projected that climate change will decrease the ability to control livestock parasites by means of anthelmintic treatments and non-drug related strategies will become increasingly important for sustainable parasite control.

Published

2020

46. Quarantine nematode species and pathotypes potentially dangerous for domestic potato production: populations diversity and the genetics of potato resistance

Author

N. V. Mironenko, T. A. Gavrilenko, A. V. Khiutti, and O. S. Afanasenko

Subjects

potato, parasitic nematodes, globodera, ditylenchus, nacobbus, meloidogyne, pathotypes, population variability, resistance cultivars, resistance genes, qtl, Genetics, QH426-470

Abstract

The review considers quarantine species and nematode pathotypes potentially dangerous for domestic potato production. Potatoes are affected by more than 30 types of parasitic nematodes, but the review focuses on the most harmful representatives of genera that cause great damage to potato production: Globodera, Ditylenchus, Nacob bus and Meloidogyne. Phytopathological and molecular methods of identification of species and pathotypes and the main achievements in studying the population variability of parasitic potato nematodes were analyzed. It was shown that due to the peculiarities of the life cycle of nematodes and lability of their genomes, the genetic variability of these organisms is very high, which creates a threat of forming new pathogenic genotypes of the parasites. The information about the intra- and interpopulation variability of nematodes is important for studying the ways of introduction and distribution of separate species, as well as for searching for the correlations of molecular markers with the pathotype. Phylogenetic studies based on modern data on genetic variability of populations have allowed to reveal species complexes in Globodera pallida (Stone) Behrens and Nacobbus aberrans (Thorne) Thorne & Allen (sensu lato), including cryptic species. The main components of successful protection preventing a wide distribution of parasitic nematodes are quarantine measures, agricultural techniques, biological methods of protection and cultivation of resistant cultivars. Special attention in the review is paid to the breeding of potato cultivars with durable resistance to various nematode pathotypes, because the cultivation of such varieties is the most ecologically safe and economically advantageous way to prevent epiphytoties. Currently, significant progress has been made in the genetic protection of potato cultivars, especially against cyst-forming nematodes. The review provides data on sources of potato resistance to parasitic nematodes identified in collections of wild and cultivated species. Data on identified R-gens and QTL of resistance that have been introduced into breeding varieties using different methods and approaches are analyzed. The literature data on the study of structural and functional organization of genes for resistance to potato cyst nematodes are given. The results of molecular research on revealing the polymorphisms of loci involved in the control of resistance to cyst and gall nematodes, the development of molecular markers of certain genes and their use in marker-assisted selection for developing of new resistant cultivars, including those with group resistance, are considered.

Published

2020

47. Comparative genomics and community curation further improve gene annotations in the nematode Pristionchus pacificus

Author

Marina Athanasouli, Hanh Witte, Christian Weiler, Tobias Loschko, Gabi Eberhardt, Ralf J. Sommer, and Christian Rödelsperger

Subjects

Genome, Evolution, Caenorhabditis elegans, Parasitic nematodes, Orphan genes, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Nematode model organisms such as Caenorhabditis elegans and Pristionchus pacificus are powerful systems for studying the evolution of gene function at a mechanistic level. However, the identification of P. pacificus orthologs of candidate genes known from C. elegans is complicated by the discrepancy in the quality of gene annotations, a common problem in nematode and invertebrate genomics. Results Here, we combine comparative genomic screens for suspicious gene models with community-based curation to further improve the quality of gene annotations in P. pacificus. We extend previous curations of one-to-one orthologs to larger gene families and also orphan genes. Cross-species comparisons of protein lengths, screens for atypical domain combinations and species-specific orphan genes resulted in 4311 candidate genes that were subject to community-based curation. Corrections for 2946 gene models were implemented in a new version of the P. pacificus gene annotations. The new set of gene annotations contains 28,896 genes and has a single copy ortholog completeness level of 97.6%. Conclusions Our work demonstrates the effectiveness of comparative genomic screens to identify suspicious gene models and the scalability of community-based approaches to improve the quality of thousands of gene models. Similar community-based approaches can help to improve the quality of gene annotations in other invertebrate species, including parasitic nematodes.

Published

2020

48. Molecular analysis of polymorphic species of the genus Marshallagia (Nematoda: Ostertagiinae)

Author

Abdurakhim Kuchboev, Khanifakhon Sobirova, Rokhatoy Karimova, Oybek Amirov, Georg von Samson-Himmelstjerna, and Jürgen Krücken

Subjects

Marshallagia, Polymorphic species, Parasitic nematodes, Ruminants, Barcoding gap, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The genus Marshallagia (Family Haemonchidae, subfamily Ostertagiinae) contains multiple species of nematodes parasitising the abomasum (or duodenum) of ruminants, in particular of Caprinae. Male specimens have been described to be polymorphic with the frequent/major morphotype initially described in the genus Marshallagia while the minor/rare morphotype was initially often placed in the genus Grossospicularia. Due to common morphological features, certain pairs of morphotypes were suggested to belong to the same species such as Marshallagia marshalli/M. occidentalis. However, molecular evidence to confirm these pairs of morphotypes belonging to the same species is missing. Methods In the present study, Marshallagia sp. were collected from domestic sheep in Uzbekistan. Male specimens were morphologically described with particular emphasis on the structure of the bursa copulatrix. After DNA isolation from morphologically identified specimens, PCRs targeting the ribosomal internal transcribed spacer 2 (ITS2) and mitochondrial cytochrome c oxidase subunit 1 (cox1) regions were conducted. After Sanger sequencing, maximum likelihood phylogenetic analyses and pairwise identities between sequences were calculated. Results The major morphotypes of M. marshalli, M. schumakovitschi and M. uzbekistanica and the minor morphotypes M. occidentalis, M. trifida and M. sogdiana were identified and their morphology was documented in detail. ITS2 sequences showed little variation and did not allow diagnosing species. In contrast, phylogenetic analysis of cox1 sequences identified highly supported clusters and verified that M. marshalli, M. occidentalis and M. uzbekistanica are different morphotypes of the species M. marshalli while M. schumakovitschi and M. trifida represent distinct morphotypes of M. trifida. For M. sogdiana no corresponding major morphotype could be identified in the present study. Due to a large barcoding gap, comparison of cox1 sequences in terms of percent identity was sufficient to reliably assign the sequences to a particular species without phylogenetic analysis. Conclusions The data presented here create a framework that will allow the classification of other members of the genus in the future and underline that parallel morphological and molecular analysis of specimens is crucial to improve the taxonomy of polymorphic species.

Published

2020

49. Мethodical Recommendations for sampling and Preserving of gastrointestinal Nematodes of Ruminants

Author

D. N. Kuznetsov

Subjects

parasitic nematodes, digestive tract, ruminants, helminthological necropsy, Biology (General), QH301-705.5

Abstract

The purpose of the research is improving the accuracy of studies of nematodes parasitizing in the digestive tract of ruminants. Materials and methods. The literature data and own research results concerning sampling and preserving of nematodes parasitizing various parts of gastrointestinal tract of domestic and wild ruminants have been analyzed. The possibility of using the samples of nematodes, both in morphological and molecular studies, has been taken into account. Results and discussion. The methods for sampling and preserving of gastrointestinal nematodes of ruminants are described in detail. The features of sampling nematodes parasitizing in various parts of the digestive tract are considered. The ways for minimizing of losses of nematode samples during helminthological necropsy are proposed. Using of 96% ethanol as a preserving liquid is recommended and allows the DNA study of samples.

Published

2020

50. Morphological Characteristics of Parasitic Nematodes Trichuris sylvilagi (Nematoda, Trichuridae)

Author

V. Yevstafieva, V. Stybel, V. Melnychuk, L. Nagorna, O. Titarenko, O. Dubova, S. Makarets, S. Filonenko, M. Pishchalenko, M. Kone, and A. Ilchenko

Subjects

trichuris sylvilagi, lepus europaeus, parasitic nematodes, morphological features, metric parameters, Zoology, QL1-991

Abstract

Morphometric parameters are analyzed and systematized of parasitic nematodes of the species Trichuris sylvilagi (Nematoda, Trichuridae), obtained from Lepus europaeus. The following parameters are suggested for the exact identification of female T. sylvilagi nematodes: the sizes of body, its anterior and posterior parts, width of body at the connection of esophagus and intestine, specific location of vesicular cuticular protrusions and vulva. Five metric parameters are established for the nematode eggs. The egg shell thickness, length and width of egg plug are suggested for use in addition to the length and width of eggs. Males of T. sylvilagi had strongly curved tail end, long spicule, and transparent spicule sheath which bears spines, and a bulbous inflation in its proximal part. The thirteen metric parameters, which we found to be of identification value for males, include sizes of body, length and width of its anterior and posterior parts, width of body at the connection of esophagus and intestine, sizes of spicule at various areas, and location of the vesicular cuticular protrusions. Obtained data on the metric studies of T. sylvilagi nematodes are compared with the published data.

Published

2022