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3. Cancers de la thyroïde

Author

Leenhardt, L., Ménégaux, F., Franc, B., Hoang, C., Salem, S., Bernier, M.-O., Dupasquier-Fédiaevsky, L., Le Marois, E., Rouxel, A., Chigot, J.-P., Chérié-Challine, L., and Aurengo, A.

Published
2005
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5. Tools for Anopheles gambiae Transgenesis

Author

Volohonsky, G, Terenzi, O, Soichot, J, Naujoks, DA, Nolan, T, Windbichler, N, Kapps, D, Smidler, AL, Vittu, A, Costa, G, Steinert, S, Levashina, EA, Blandin, SA, and Marois, E

Subjects
phage ΦC31 attP docking sites, Embryo, Nonmammalian, Microinjections, Genetic Vectors, puromycin, PHI-C31, Transposases, Genes, Insect, MALARIA VECTOR, HOMOLOGOUS RECOMBINATION, Animals, Genetically Modified, transgenesis vectors, Genes, Reporter, Animals, Transgenes, cre recombinase, Cloning, Molecular, Codon, Promoter Regions, Genetic, Ovum, Genetics & Heredity, Science & Technology, codon usage, Integrases, Mosaicism, GERMLINE TRANSFORMATION, Gene Transfer Techniques, SITE, Anopheles gambiae, Flow Cytometry, MOSQUITO, DROSOPHILA, PIGGYBAC TRANSPOSABLE ELEMENT, TARGETED GENE-EXPRESSION, Larva, DNA Transposable Elements, Life Sciences & Biomedicine, circumsporozoite protein, AEDES-AEGYPTI, phage Phi C31 attP docking sites, Plasmids
Published
2015

12. Does participation in interdisciplinary work rehabilitation programme influence return to work obstacles and predictive factors?

Author

Marois E and Durand M

Abstract

Purpose. Musculoskeletal disorders evolve into long-term work disabilities in ~10% of work-injury cases. From a prevention perspective, screening for predictive factors and obstacles associated with long-term work disability appear to offer a promising avenue for work rehabilitation. However, knowledge of the factors at play during the chronic phase remains limited. This study aims to explore the presence of a relationship between the predictive factors and obstacles identified at the time of admission to an interdisciplinary work rehabilitation programme and return to work upon completion of the programme, in individuals with a long-term work disability. Method. A descriptive correlational study involving 222 individuals assessed using the Work Disability Diagnostic Interview and who participated in the PREVICAP work rehabilitation programme. Results. The general model accurately predicts the work status of 77% of the participants. Seven to nine factors were found to be associated with return to work in each model produced (3). Those factors were mainly psychosocial and work-related in nature and differ according to gender. Unexpectedly, certain obstacles observed at the time of admission to the programme appear to have a protective effect and thus promote participants' return to work. Conclusion. The results obtained support the hypothesis that screening for predictive factors and obstacles at the time of admission of a work rehabilitation programme for individuals with a long-term work disability allows for more effective intervention regarding these factors, and in all likelihood, promotes return to work. [ABSTRACT FROM AUTHOR]

Published
2009
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13. Comparison between a rapid glycohaemoglobin (Hb) immunoassay and other indices of glycaemic control.

Author

Marois, E., Bruzzo, F., Reach, G., Guyon, F., Luo, J., Boillot, J., Slama, G., and Selam, J.

Abstract

The aims of the study were to compare glycohaemoglobin (Hb) values measured by DCA (a benchtop analyzer primarily designed for within-clinic rapid Hb determination) to a reference Hb method and home blood glucose monitoring, and to explore the possibility of an uniform expression of data. A total of 103 blood samples and the corresponding mean capillary glucose values (4.4±1.2 tests/day) of the preceding 2 months were collected from 34 insulin-dependent diabetic adults. We measured the correlations and agreements using the residual plots method and regression equations between Hb measured by DCA and high-pressure liquid chromatography (HPLC), and between DCA and capillary glucose values. A highly significant correlation ( r=0.85, P<0.001) and an acceptable agreement (97% of values within 2 SD of the mean difference of 0.9%±0.4%) was found between DCA and HPLC values. The regression equation calculated on the first half of the cases was: DCA (%)=0.72 HPLC (%)+1.38. Of DCA values expressed in HPLC terms using this equation 87% fell within a clinically acceptable confidence interval when compared with measured HPLC data. A significant correlation ( r=0.40, P<0.01) was found between DCA and capillary glucose values, and the regression equation was: DCA (%)=0.34 capillary glucose (mM)+4.44. Of glycaemic levels calculated from DCA values using this formula 82% fell within a clinically acceptable error range when compared with measured glycaemic values. We conclude that the three methods of assessment of diabetes control are well correlated and that it is possible, with a degree of precision acceptable for the clinical setting, to express all data in uniform units, e.g. mM of capillary glucose or percentage of HPLC-Hb, though a simple correspondence table based on our transfer equations may be clinically sufficient and more handy. [ABSTRACT FROM AUTHOR]

Published
1996
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14. Comparison between a rapid glycohaemoglobin (Hb A1c) immunoassay and other indices of glycaemic control

Author

Marois, E. Le, Bruzzo, F., Reach, G., Guyon, F., Luo, J., Boillot, J., Slama, G., and Selam, J. L.

Abstract

The aims of the study were to compare glycohaemoglobin (Hb A1c) values measured by DCA (a bench-top analyzer primarily designed for within-clinic rapid Hb A1c determination) to a reference Hb A1c method and home blood glucose monitoring, and to explore the possibility of an uniform expression of data. A total of 103 blood samples and the corresponding mean capillary glucose values (4.4±1.2 tests/day) of the preceding 2 months were collected from 34 insulin-dependent diabetic adults. We measured the correlations and agreements using the residual plots method and regression equations between Hb A1c measured by DCA and high-pressure liquid chromatography (HPLC), and between DCA and capillary glucose values. A highly significant correlation ( r 2=0.85, P<0.001) and an acceptable agreement (97% of values within 2 SD of the mean difference of 0.9%±0.4%) was found between DCA and HPLC values. The regression equation calculated on the first half of the cases was: DCA (%)=0.72 HPLC (%)+1.38. Of DCA values expressed in HPLC terms using this equation 87% fell within a clinically acceptable confidence interval when compared with measured HPLC data. A significant correlation ( r 2=0.40, P<0.01) was found between DCA and capillary glucose values, and the regression equation was: DCA (%)=0.34 capillary glucose (mM)+4.44. Of glycaemic levels calculated from DCA values using this formula 82% fell within a clinically acceptable error range when compared with measured glycaemic values. We conclude that the three methods of assessment of diabetes control are well correlated and that it is possible, with a degree of precision acceptable for the clinical setting, to express all data in uniform units, e.g. mM of capillary glucose or percentage of HPLC-Hb A1c, though a simple correspondence table based on our transfer equations may be clinically sufficient and more handy.

Published
1996
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15. Accumulation of salicylic acid and 4-hydroxybenzoic acid in phloem fluids of cucumber during systemic acquired resistance is preceded by a transient increase in phenylalanine ammonia-lyase activity in petioles and stems.

Author

Smith-Becker, J, Marois, E, Huguet, E J, Midland, S L, Sims, J J, and Keen, N T

Abstract

Cucumber (Cucumis sativa) leaves infiltrated with Pseudomonas syringae pv. syringae cells produced a mobile signal for systemic acquired resistance between 3 and 6 h after inoculation. The production of a mobile signal by inoculated leaves was followed by a transient increase in phenylalanine ammonia-lyase (PAL) activity in the petioles of inoculated leaves and in stems above inoculated leaves; with peaks in activity at 9 and 12 h, respectively, after inoculation. In contrast, PAL activity in inoculated leaves continued to rise slowly for at least 18 h. No increases in PAL activity were detected in healthy leaves of inoculated plants. Two benzoic acid derivatives, salicylic acid (SA) and 4-hydroxybenzoic acid (4HBA), began to accumulate in phloem fluids at about the time PAL activity began to increase, reaching maximum concentrations 15 h after inoculation. The accumulation of SA and 4HBA in phloem fluids was unaffected by the removal of all leaves 6 h after inoculation, and seedlings excised from roots prior to inoculation still accumulated high levels of SA and 4HBA. These results suggest that SA and 4HBA are synthesized de novo in stems and petioles in response to a mobile signal from the inoculated leaf.

Published
1998
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16. Targeting mosquito X-chromosomes reveals complex transmission dynamics of sex ratio distorting gene drives.

Author

Haber DA, Arien Y, Lamdan LB, Alcalay Y, Zecharia C, Krsticevic F, Yonah ES, Avraham RD, Krzywinska E, Krzywinski J, Marois E, Windbichler N, and Papathanos PA

Subjects
Animals, Male, Female, Mosquito Vectors genetics, Genes, X-Linked, CRISPR-Cas Systems, Spermatozoa metabolism, Animals, Genetically Modified, Sex Ratio, Anopheles genetics, X Chromosome genetics, Drosophila melanogaster genetics, Gene Drive Technology methods, Spermatogenesis genetics
Abstract

Engineered sex ratio distorters (SRDs) have been proposed as a powerful component of genetic control strategies designed to suppress harmful insect pests. Two types of CRISPR-based SRD mechanisms have been proposed: X-shredding, which eliminates X-bearing sperm, and X-poisoning, which eliminates females inheriting disrupted X-chromosomes. These differences can have a profound impact on the population dynamics of SRDs when linked to the Y-chromosome: an X-shredder is invasive, constituting a classical meiotic Y-drive, whereas X-poisoning is self-limiting, unable to invade but also insulated from selection. Here, we establish X-poisoning strains in the malaria vector Anopheles gambiae targeting three X-linked genes during spermatogenesis, resulting in male bias. We find that sex distortion is primarily driven by a loss of X-bearing sperm, with limited evidence for postzygotic lethality of female progeny. By leveraging a Drosophila melanogaster model, we show unambiguously that engineered SRD traits can operate differently in these two insects. Unlike X-shredding, X-poisoning could theoretically operate at early stages of spermatogenesis. We therefore explore premeiotic Cas9 expression to target the mosquito X-chromosome. We find that, by pre-empting the onset of meiotic sex chromosome inactivation, this approach may enable the development of Y-linked SRDs if mutagenesis of spermatogenesis-essential genes is functionally balanced., (© 2024. The Author(s).)

Published
2024
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17. Sorting Mosquito Larvae with a COPAS Machine.

Author

Marois E

Subjects
Animals, Entomology methods, Larva genetics, Culicidae genetics, Animals, Genetically Modified genetics
Abstract

Transgenic mosquitoes are widely used in mosquito research. To distinguish transgenic individuals from wild types, genes for fluorescent proteins are the most commonly used genetic markers in transgenic constructs, offering all the advantages of visual selection. Although manual selection under a fluorescence binocular microscope is perfect for the selection of first-generation transgenics, managing established fluorescent lines can be facilitated by complex object parametric analyzer and sorter (COPAS) sorting, which we describe in this protocol. COPAS sorting allows researchers to purify large mosquito larval populations containing only homozygous transgenic individuals, only heterozygotes, or a mix of homozygous, wild types, and heterozygotes in desired proportions. Sorting large populations of a single sex is also possible. Finally, especially when several transgenes of different fluorescence colors are inserted in the same docking site (a recombination site previously inserted in the mosquito genome, which can be used to insert new transgenes into the same locus), they can be maintained together in a single mosquito population to save insectarium space and labor. COPAS sorting can then be used to extract the desired genotype when needed and to readjust transgene frequencies every few generations in case drift is observed., (© 2024 Cold Spring Harbor Laboratory Press.)

Published
2024
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18. Selecting Transgenic Mosquito Larvae with Puromycin.

Author

Marois E

Subjects
Animals, Selection, Genetic, Puromycin pharmacology, Larva genetics, Animals, Genetically Modified genetics, Anopheles genetics
Abstract

The selection of mosquito transgenic larvae using a nonfluorescent approach can be advantageous to reserve fluorophores for downstream applications, such as immunostaining or for the study of promoter activity by cloning a fluorescence reporter gene under the control of that promoter. We previously reported that puromycin selection is efficient in transgenic Anopheles gambiae or Anopheles coluzzii larvae expressing an OpIE2-pac selection marker. A concentration of puromycin of >10 µg/mL is lethal for Anopheles larvae, unless they carry the resistance gene, conferring them resistance to puromycin concentrations of 25-80 µg/mL. A drawback of this fully dominant selection marker is that, unlike with fluorescence markers, homozygous transgenics cannot be distinguished from heterozygotes. Here, we outline the procedure for selecting puromycin-resistant transgenic Anopheles larvae., (© 2024 Cold Spring Harbor Laboratory Press.)

Published
2024
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19. Techniques for Identifying and Sorting Transgenic Mosquito Larvae.

Author

Marois E

Subjects
Animals, Flow Cytometry methods, Female, Male, Larva genetics, Animals, Genetically Modified genetics, Culicidae genetics
Abstract

Transgenic mosquitoes are used in many aspects of mosquito research. First, they can help answer biological questions to advance scientific knowledge-for example, in the fields of mosquito-pathogen interactions, insect immunity, or olfaction. Second, transgenic technologies may be used to develop much needed novel vector control strategies, such as mosquitoes that are unable to transmit disease or transgenes that sterilize mosquito females to suppress vector populations. Here, we introduce how researchers use various selection markers to screen for transgenic mosquito larvae following a transgenesis experiment. Common procedures include using a binocular fluorescence microscope for initial screening. For higher-throughput screening, a flow cytometer known as Complex Object Parametric Analyzer and Sorter (COPAS) can be used to stabilize transgenic lines through the purification of homozygous individuals or to manage transgene frequency in established transgenic lines. In particular, COPAS sorting allows the production of mosquito larval cultures composed of a mixture of genotypes (control and genetically modified larvae) with the goal of raising both groups of mosquitoes under the same environmental conditions in preparation for a controlled phenotype assessment. It can also be used to produce large populations of male mosquitoes, which should facilitate the development of mosquito control intervention strategies similar to the sterile insect technique (SIT), which aims to release large numbers of sterile males that will mate with and sterilize wild females to suppress mosquito populations. Finally, the utilization of a puromycin resistance marker cassette to screen for transgenic Anopheles larvae is also introduced., (© 2024 Cold Spring Harbor Laboratory Press.)

Published
2024
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20. Screening Mosquito Larvae Under a Fluorescence Binocular Microscope.

Author

Marois E

Subjects
Animals, Animals, Genetically Modified, Entomology methods, Larva, Microscopy, Fluorescence methods, Culicidae
Abstract

Transgenic mosquitoes are used in many aspects of mosquito research, and convenient selection markers are crucial to identifying transgenic individuals even among large numbers of wild types. Visual markers, in the form of fluorescent proteins expressed in larval and adult mosquito tissues, are the most commonly used. This requires observing large numbers of mosquitoes under the fluorescence microscope and recognizing positive individuals expressing the fluorescent genetic marker. As research models, mosquito larvae possess the following two advantages over many other insects, greatly facilitating fluorescence screening: (1) Being aquatic, they can be isolated in a drop of clear water, an ideal medium for live observations under the binocular microscope; and (2) synchronous hatching from many eggs is easily obtained, so that large populations of larvae can be screened in batches of several tens of thousands at a time. Screening at the neonate stage, when larvae are ∼1-mm-long, allows the concentration of hundreds of larvae in a drop of water that fits in the observation field of the microscope at medium magnification. Thus, many individuals can be screened rapidly. We strongly recommend screening larvae at the neonate stage and before any feeding for two reasons, as follows: (1) Food particles can be strongly autofluorescent, thereby dramatically increasing the fluorescence background noise around larvae, and (2) tissue autofluorescence increases during development, notably in the digestive tract, significantly decreasing the specific signal-to-noise ratio. In this protocol, we guide the experimenter step-by-step for a fast and efficient medium-throughput manual screening for fluorescent larvae., (© 2024 Cold Spring Harbor Laboratory Press.)

Published
2024
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21. Factors affecting patients' journey with primary healthcare services during mental health-related sick leave.

Author

Labourot J, Pinette É, Giguère N, Menear M, Cameron C, Marois E, and Vachon B

Subjects
Humans, Sick Leave, Canada, Employment, Primary Health Care, Mental Health, Mental Disorders therapy, Mental Disorders psychology
Abstract

Context: Best practice guidelines for the recovery and return to work (RTW) of people with mental disorders recommend access to the services of an interdisciplinary team combining pharmacological, psychological and work rehabilitation interventions. In the Canadian context, primary healthcare services are responsible for providing these services for people with common mental disorders, such as depressive or anxiety disorders. However, not everyone has easy access to these recommended primary healthcare services, and previous studies suggest that multiple personal, practice-related and organizational factors can influence the patient's journey. Moreover, previous studies documented that family physicians often work in silos and lack the knowledge and time needed to effectively manage by themselves patients' occupational health. Thus, the care and service trajectories of these patients are often suboptimal and can have important consequences on the person's recovery and RTW., Objective and Population Studied: Our study aimed to gain a better understanding of the patient journeys and the factors influencing their access to and experience with primary healthcare services while they were on sick leave due to a common mental disorder., Methods: A descriptive qualitative research design was used to understand and describe these factors. Conventional content analysis was used to analyze the verbatim., Results: Five themes describe the main factors that influenced the patient's journey of the 14 participants of this study: (1) the fragmented interventions provided by family physicians; (2) patients' autonomy in managing their own care; (3) the attitude and case management provided by the insurer, (4) the employer's openness and understanding and (5) the match between the person's needs and their access to psychosocial and rehabilitation services., Conclusions: Our findings highlight important gaps in the collaborative practices surrounding the management of mental health-related sick leave, the coordination of primary healthcare services and the access to work rehabilitation services. Occupational therapists and other professionals can support family physicians in managing sick leaves, strengthen interprofessional and intersectoral collaboration and ensure that patients receive needed services in a timelier manner no matter their insurance coverage or financial needs., Patients of Public Contribution: This study aimed at looking into the perspective of people who have lived or are currently experiencing a sick leave related to a mental health disorder to highlight the factors which they feel hindered their recovery and RTW. Additionally, two patient partners were involved in this study and are now engaged in the dissemination of the research results and the pursuit of our team research programme to improve services delivered to this population., (© 2024 The Authors. Health Expectations published by John Wiley & Sons Ltd.)

Published
2024
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22. Neofunctionalization driven by positive selection led to the retention of the loqs2 gene encoding an Aedes specific dsRNA binding protein.

Author

Estevez-Castro CF, Rodrigues MF, Babarit A, Ferreira FV, de Andrade EG, Marois E, Cogni R, Aguiar ERGR, Marques JT, and Olmo RP

Subjects
Animals, Carrier Proteins genetics, Mosquito Vectors genetics, RNA, Double-Stranded genetics, RNA, Double-Stranded metabolism, RNA-Binding Proteins genetics, RNA-Binding Proteins metabolism, Aedes genetics, Dengue, Zika Virus genetics, Zika Virus metabolism, Zika Virus Infection
Abstract

Background: Mosquito borne viruses, such as dengue, Zika, yellow fever and Chikungunya, cause millions of infections every year. These viruses are mostly transmitted by two urban-adapted mosquito species, Aedes aegypti and Aedes albopictus. Although mechanistic understanding remains largely unknown, Aedes mosquitoes may have unique adaptations that lower the impact of viral infection. Recently, we reported the identification of an Aedes specific double-stranded RNA binding protein (dsRBP), named Loqs2, that is involved in the control of infection by dengue and Zika viruses in mosquitoes. Preliminary analyses suggested that the loqs2 gene is a paralog of loquacious (loqs) and r2d2, two co-factors of the RNA interference (RNAi) pathway, a major antiviral mechanism in insects., Results: Here we analyzed the origin and evolution of loqs2. Our data suggest that loqs2 originated from two independent duplications of the first double-stranded RNA binding domain of loqs that occurred before the origin of the Aedes Stegomyia subgenus, around 31 million years ago. We show that the loqs2 gene is evolving under relaxed purifying selection at a faster pace than loqs, with evidence of neofunctionalization driven by positive selection. Accordingly, we observed that Loqs2 is localized mainly in the nucleus, different from R2D2 and both isoforms of Loqs that are cytoplasmic. In contrast to r2d2 and loqs, loqs2 expression is stage- and tissue-specific, restricted mostly to reproductive tissues in adult Ae. aegypti and Ae. albopictus. Transgenic mosquitoes engineered to express loqs2 ubiquitously undergo developmental arrest at larval stages that correlates with massive dysregulation of gene expression without major effects on microRNAs or other endogenous small RNAs, classically associated with RNA interference., Conclusions: Our results uncover the peculiar origin and neofunctionalization of loqs2 driven by positive selection. This study shows an example of unique adaptations in Aedes mosquitoes that could ultimately help explain their effectiveness as virus vectors., (© 2024. The Author(s).)

Published
2024
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23. A population modification gene drive targeting both Saglin and Lipophorin impairs Plasmodium transmission in Anopheles mosquitoes.

Author

Green EI, Jaouen E, Klug D, Proveti Olmo R, Gautier A, Blandin S, and Marois E

Subjects
Animals, Mice, Mosquito Vectors genetics, RNA, Guide, CRISPR-Cas Systems, Plasmodium falciparum genetics, Plasmodium berghei genetics, Anopheles genetics, Anopheles parasitology, Gene Drive Technology, Antimalarials pharmacology, Lipoproteins
Abstract

Lipophorin is an essential, highly expressed lipid transport protein that is secreted and circulates in insect hemolymph. We hijacked the Anopheles coluzzii Lipophorin gene to make it co-express a single-chain version of antibody 2A10, which binds sporozoites of the malaria parasite Plasmodium falciparum . The resulting transgenic mosquitoes show a markedly decreased ability to transmit Plasmodium berghei expressing the P. falciparum circumsporozoite protein to mice. To force the spread of this antimalarial transgene in a mosquito population, we designed and tested several CRISPR/Cas9-based gene drives. One of these is installed in, and disrupts, the pro-parasitic gene Saglin and also cleaves wild-type Lipophorin, causing the anti-malarial modified Lipophorin version to replace the wild type and hitch-hike together with the Saglin drive. Although generating drive-resistant alleles and showing instability in its gRNA-encoding multiplex array, the Saglin -based gene drive reached high levels in caged mosquito populations and efficiently promoted the simultaneous spread of the antimalarial Lipophorin::Sc2A10 allele. This combination is expected to decrease parasite transmission via two different mechanisms. This work contributes to the design of novel strategies to spread antimalarial transgenes in mosquitoes, and illustrates some expected and unexpected outcomes encountered when establishing a population modification gene drive., Competing Interests: EG, EJ, DK, RP, AG, SB, EM No competing interests declared, (© 2023, Green et al.)

Published
2023
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24. Knockout of OR39 reveals redundancy in the olfactory pathway regulating the acquisition of host seeking in Anopheles coluzzii .

Author

Hinze A, Pelletier J, Ghaninia M, Marois E, Hill SR, and Ignell R

Subjects
Animals, Female, Humans, Olfactory Pathways metabolism, Body Odor, Mosquito Vectors genetics, Odorants, Anopheles genetics, Malaria, Receptors, Odorant genetics, Receptors, Odorant metabolism
Abstract

The attraction of anthropophilic mosquitoes to human host cues, such as body odour and carbon dioxide, gradually increases during adult maturation. This acquisition of host-seeking behaviour correlates with age-dependent changes in odorant receptor (OR) transcript abundance and sensitivity of olfactory sensory neurons (OSNs). One OR gene of the human malaria vector, Anopheles coluzzii , AcolOR39 , is significantly downregulated in mature females, and a cognate ligand of AcolOR39, sulcatone, a major component of human emanations, mediates the observed behavioural inhibition of newly emerged (teneral) females to human body odour. Knockout of AcolOR39 , using CRISPR-Cas9 mutagenesis, selectively abolished sulcatone detection in OSNs, housed in trichoid sensilla. However, knockout of AcolOR39 altered neither the response rate nor the flight behaviour of teneral females in a wind tunnel, indicating the involvement of other genes, and thus a redundancy, in regulating the acquisition of host seeking in mosquitoes.

Published
2023
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25. Efficient sex separation by exploiting differential alternative splicing of a dominant marker in Aedes aegypti.

Author

Weng SC, Antoshechkin I, Marois E, and Akbari OS

Subjects
Animals, Male, Female, Humans, Animals, Genetically Modified, Larva genetics, Alternative Splicing genetics, Aedes genetics
Abstract

Only female mosquitoes consume blood giving them the opportunity to transmit deadly human pathogens. Therefore, it is critical to remove females before conducting releases for genetic biocontrol interventions. Here we describe a robust sex-sorting approach termed SEPARATOR (Sexing Element Produced by Alternative RNA-splicing of A Transgenic Observable Reporter) that exploits sex-specific alternative splicing of an innocuous reporter to ensure exclusive dominant male-specific expression. Using SEPARATOR, we demonstrate reliable sex selection from early larval and pupal stages in Aedes aegypti, and use a Complex Object Parametric Analyzer and Sorter (COPAS) to demonstrate scalable high-throughput sex-selection of first instar larvae. Additionally, we use this approach to sequence the transcriptomes of early larval males and females and find several genes that are sex-specifically expressed. SEPARATOR can simplify mass production of males for release programs and is designed to be cross-species portable and should be instrumental for genetic biocontrol interventions., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: O.S.A. and S.W. have filed a patent on this technology. O.S.A is a founder of Agragene, Inc. and Synvect, Inc. with equity interest. The terms of this arrangement have been reviewed and approved by the University of California, San Diego in accordance with its conflict of interest policies. All other authors declare no competing interests., (Copyright: © 2023 Weng et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published
2023
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26. The sex-specific factor SOA controls dosage compensation in Anopheles mosquitoes.

Author

Kalita AI, Marois E, Kozielska M, Weissing FJ, Jaouen E, Möckel MM, Rühle F, Butter F, Basilicata MF, and Keller Valsecchi CI

Subjects
Animals, Female, Male, Protein Isoforms genetics, Protein Isoforms metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Alternative Splicing, Anopheles genetics, Anopheles metabolism, Dosage Compensation, Genetic, Sex Differentiation genetics, X Chromosome genetics, Insect Proteins genetics, Insect Proteins metabolism, Sex Characteristics
Abstract

The Anopheles mosquito is one of thousands of species in which sex differences play a central part in their biology, as only females need a blood meal to produce eggs. Sex differentiation is regulated by sex chromosomes, but their presence creates a dosage imbalance between males (XY) and females (XX). Dosage compensation (DC) can re-equilibrate the expression of sex chromosomal genes. However, because DC mechanisms have only been fully characterized in a few model organisms, key questions about its evolutionary diversity and functional necessity remain unresolved 1 . Here we report the discovery of a previously uncharacterized gene (sex chromosome activation (SOA)) as a master regulator of DC in the malaria mosquito Anopheles gambiae. Sex-specific alternative splicing prevents functional SOA protein expression in females. The male isoform encodes a DNA-binding protein that binds the promoters of active X chromosomal genes. Expressing male SOA is sufficient to induce DC in female cells. Male mosquitoes lacking SOA or female mosquitoes ectopically expressing the male isoform exhibit X chromosome misregulation, which is compatible with viability but causes developmental delay. Thus, our molecular analyses of a DC master regulator in a non-model organism elucidates the evolutionary steps that lead to the establishment of a chromosome-specific fine-tuning mechanism., (© 2023. The Author(s).)

Published
2023
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27. A mosquito-specific antennal protein is critical for the attraction to human odor in the malaria vector Anopheles gambiae.

Author

Pelletier J, Dawit M, Ghaninia M, Marois E, and Ignell R

Subjects
Humans, Female, Animals, Odorants, Mosquito Vectors genetics, Smell physiology, Anopheles metabolism, Malaria, Receptors, Odorant genetics, Receptors, Odorant metabolism
Abstract

Mosquitoes rely mainly on the sense of smell to decipher their environment and locate suitable food sources, hosts for blood feeding and oviposition sites. The molecular bases of olfaction involve multigenic families of olfactory proteins that have evolved to interact with a narrow set of odorants that are critical for survival. Understanding the complex interplay between diversified repertoires of olfactory proteins and ecologically-relevant odorant signals, which elicit important behaviors, is fundamental for the design of novel control strategies targeting the sense of smell of disease vector mosquitoes. Previously, large multigene families of odorant receptor and ionotropic receptor proteins, as well as a subset of odorant-binding proteins have been shown to mediate the selectivity and sensitivity of the mosquito olfactory system. In this study, we identify a mosquito-specific antennal protein (MSAP) gene as a novel molecular actor of odorant reception. MSAP is highly conserved across mosquito species and is transcribed at an extremely high level in female antennae. In order to understand its role in the mosquito olfactory system, we generated knockout mutant lines in Anopheles gambiae, and performed comparative analysis of behavioral and physiological responses to human-associated odorants. We found that MSAP promotes female mosquito attraction to human odor and enhances the sensitivity of the antennae to a variety of odorants. These findings suggest that MSAP is an important component of the mosquito olfactory system, which until now has gone completely unnoticed., Competing Interests: Declaration of competing interest None., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2023
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28. The virome of the invasive Asian bush mosquito Aedes japonicus in Europe.

Author

Abbo SR, de Almeida JPP, Olmo RP, Balvers C, Griep JS, Linthout C, Koenraadt CJM, Silva BM, Fros JJ, Aguiar ERGR, Marois E, Pijlman GP, and Marques JT

Abstract

The Asian bush mosquito Aedes japonicus is rapidly invading North America and Europe. Due to its potential to transmit multiple pathogenic arthropod-borne (arbo)viruses including Zika virus, West Nile virus, and chikungunya virus, it is important to understand the biology of this vector mosquito in more detail. In addition to arboviruses, mosquitoes can also carry insect-specific viruses that are receiving increasing attention due to their potential effects on host physiology and arbovirus transmission. In this study, we characterized the collection of viruses, referred to as the virome, circulating in Ae. japonicus populations in the Netherlands and France. Applying a small RNA-based metagenomic approach to Ae. japonicus , we uncovered a distinct group of viruses present in samples from both the Netherlands and France. These included one known virus, Ae. japonicus narnavirus 1 (AejapNV1), and three new virus species that we named Ae. japonicus totivirus 1 (AejapTV1), Ae. japonicus anphevirus 1 (AejapAV1) and Ae. japonicus bunyavirus 1 (AejapBV1). We also discovered sequences that were presumably derived from two additional novel viruses: Ae. japonicus bunyavirus 2 (AejapBV2) and Ae. japonicus rhabdovirus 1 (AejapRV1). All six viruses induced strong RNA interference responses, including the production of twenty-one nucleotide-sized small interfering RNAs, a signature of active replication in the host. Notably, AejapBV1 and AejapBV2 belong to different viral families; however, no RNA-dependent RNA polymerase sequence has been found for AejapBV2. Intriguingly, our small RNA-based approach identified an ∼1-kb long ambigrammatic RNA that is associated with AejapNV1 as a secondary segment but showed no similarity to any sequence in public databases. We confirmed the presence of AejapNV1 primary and secondary segments, AejapTV1, AejapAV1, and AejapBV1 by reverse transcriptase polymerase chain reaction (PCR) in wild-caught Ae. japonicus mosquitoes. AejapNV1 and AejapTV1 were found at high prevalence (87-100 per cent) in adult females, adult males, and larvae. Using a small RNA-based, sequence-independent metagenomic strategy, we uncovered a conserved and prevalent virome among Ae. japonicus mosquito populations. The high prevalence of AejapNV1 and AejapTV1 across all tested mosquito life stages suggests that these viruses are intimately associated with Ae. japonicus ., Competing Interests: None declared., (© The Author(s) 2023. Published by Oxford University Press.)

Published
2023
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29. Combining two genetic sexing strains allows sorting of non-transgenic males for Aedes genetic control.

Author

Lutrat C, Burckbuchler M, Olmo RP, Beugnon R, Fontaine A, Akbari OS, Argilés-Herrero R, Baldet T, Bouyer J, and Marois E

Subjects
Animals, Male, Female, Animals, Genetically Modified, Larva genetics, Mosquito Vectors genetics, Insecticide Resistance, Aedes genetics
Abstract

Chemical control of disease vectoring mosquitoes Aedes albopictus and Aedes aegypti is costly, unsustainable, and increasingly ineffective due to the spread of insecticide resistance. The Sterile Insect Technique is a valuable alternative but is limited by slow, error-prone, and wasteful sex-separation methods. Here, we present four Genetic Sexing Strains (two for each Aedes species) based on fluorescence markers linked to the m and M sex loci, allowing for the isolation of transgenic males. Furthermore, we demonstrate how combining these sexing strains enables the production of non-transgenic males. In a mass-rearing facility, 100,000 first instar male larvae could be sorted in under 1.5 h with an estimated 0.01-0.1% female contamination on a single machine. Cost-efficiency analyses revealed that using these strains could result in important savings while setting up and running a mass-rearing facility. Altogether, these Genetic Sexing Strains should enable a major upscaling in control programmes against these important vectors., (© 2023. The Author(s).)

Published
2023
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30. The salivary protein Saglin facilitates efficient midgut colonization of Anopheles mosquitoes by malaria parasites.

Author

Klug D, Gautier A, Calvo E, Marois E, and Blandin SA

Subjects
Animals, Humans, Female, Mosquito Vectors, Sporozoites, Salivary Proteins and Peptides, Anopheles parasitology, Parasites, Plasmodium, Malaria parasitology
Abstract

Malaria is caused by the unicellular parasite Plasmodium which is transmitted to humans through the bite of infected female Anopheles mosquitoes. To initiate sexual reproduction and to infect the midgut of the mosquito, Plasmodium gametocytes are able to recognize the intestinal environment after being ingested during blood feeding. A shift in temperature, pH change and the presence of the insect-specific compound xanthurenic acid have been shown to be important stimuli perceived by gametocytes to become activated and proceed to sexual reproduction. Here we report that the salivary protein Saglin, previously proposed to be a receptor for the recognition of salivary glands by sporozoites, facilitates Plasmodium colonization of the mosquito midgut, but does not contribute to salivary gland invasion. In mosquito mutants lacking Saglin, Plasmodium infection of Anopheles females is reduced, resulting in impaired transmission of sporozoites at low infection densities. Interestingly, Saglin can be detected in high amounts in the midgut of mosquitoes after blood ingestion, possibly indicating a previously unknown host-pathogen interaction between Saglin and midgut stages of Plasmodium. Furthermore, we were able to show that saglin deletion has no fitness cost in laboratory conditions, suggesting this gene would be an interesting target for gene drive approaches., Competing Interests: The authors have declared that no competing interests exist., (Copyright: This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 public domain dedication.)

Published
2023
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31. Mosquito vector competence for dengue is modulated by insect-specific viruses.

Author

Olmo RP, Todjro YMH, Aguiar ERGR, de Almeida JPP, Ferreira FV, Armache JN, de Faria IJS, Ferreira AGA, Amadou SCG, Silva ATS, de Souza KPR, Vilela APP, Babarit A, Tan CH, Diallo M, Gaye A, Paupy C, Obame-Nkoghe J, Visser TM, Koenraadt CJM, Wongsokarijo MA, Cruz ALC, Prieto MT, Parra MCP, Nogueira ML, Avelino-Silva V, Mota RN, Borges MAZ, Drumond BP, Kroon EG, Recker M, Sedda L, Marois E, Imler JL, and Marques JT

Subjects
Animals, Humans, Mosquito Vectors, Zika Virus genetics, Insect Viruses physiology, Dengue Virus genetics, Zika Virus Infection, Arboviruses genetics, RNA Viruses, Aedes, Dengue
Abstract

Aedes aegypti and A. albopictus mosquitoes are the main vectors for dengue virus (DENV) and other arboviruses, including Zika virus (ZIKV). Understanding the factors that affect transmission of arboviruses from mosquitoes to humans is a priority because it could inform public health and targeted interventions. Reasoning that interactions among viruses in the vector insect might affect transmission, we analysed the viromes of 815 urban Aedes mosquitoes collected from 12 countries worldwide. Two mosquito-specific viruses, Phasi Charoen-like virus (PCLV) and Humaita Tubiacanga virus (HTV), were the most abundant in A. aegypti worldwide. Spatiotemporal analyses of virus circulation in an endemic urban area revealed a 200% increase in chances of having DENV in wild A. aegypti mosquitoes when both HTV and PCLV were present. Using a mouse model in the laboratory, we showed that the presence of HTV and PCLV increased the ability of mosquitoes to transmit DENV and ZIKV to a vertebrate host. By transcriptomic analysis, we found that in DENV-infected mosquitoes, HTV and PCLV block the downregulation of histone H4, which we identify as an important proviral host factor in vivo., (© 2023. The Author(s), under exclusive licence to Springer Nature Limited.)

Published
2023
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32. A toolbox of engineered mosquito lines to study salivary gland biology and malaria transmission.

Author

Klug D, Arnold K, Mela-Lopez R, Marois E, and Blandin SA

Subjects
Animals, Biology, Fluorescent Dyes, Mosquito Vectors genetics, Mosquito Vectors parasitology, Salivary Glands parasitology, Sporozoites, Anopheles genetics, Anopheles parasitology, Malaria parasitology, Plasmodium
Abstract

Mosquito saliva is a vehicle for the transmission of vector borne pathogens such as Plasmodium parasites and different arboviruses. Despite the key role of the salivary glands in the process of disease transmission, knowledge of host-pathogen interactions taking place within this organ is very limited. To improve the experimental tractability of the salivary glands, we have generated fluorescent reporter lines in the African malaria mosquito Anopheles coluzzii using the salivary gland-specific promoters of the anopheline antiplatelet protein (AAPP), the triple functional domain protein (TRIO) and saglin (SAG) coding genes. Promoter activity was specifically observed in the distal-lateral lobes or in the median lobe of the salivary glands. Besides a comparison of the expression patterns of the selected promoters, the fluorescent probes allowed us to evaluate the inducibility of the selected promoters upon blood feeding and to measure intracellular redox changes. We also combined the aapp-DsRed fluorescent reporter line with a pigmentation-deficient yellow(-) mosquito mutant to assess the feasibility of in vivo microscopy of parasitized salivary glands. This combination allowed locating the salivary gland through the cuticle and imaging of individual sporozoites in vivo, which facilitates live imaging studies of salivary gland colonization by Plasmodium sporozoites., Competing Interests: The authors declare that they have no conflict of interest.

Published
2022
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33. Transgenic expression of Nix converts genetic females into males and allows automated sex sorting in Aedes albopictus.

Author

Lutrat C, Olmo RP, Baldet T, Bouyer J, and Marois E

Subjects
Animals, Animals, Genetically Modified, Female, Humans, Male, Mosquito Control methods, Mosquito Vectors genetics, Aedes genetics
Abstract

Aedes albopictus is a major vector of arboviruses. Better understanding of its sex determination is crucial for developing mosquito control tools, especially genetic sexing strains. In Aedes aegypti, Nix is the primary gene responsible for masculinization and Nix-expressing genetic females develop into fertile, albeit flightless, males. In Ae. albopictus, Nix has also been implicated in masculinization but its role remains to be further characterized. In this work, we establish Ae. albopictus transgenic lines ectopically expressing Nix. Several are composed exclusively of genetic females, with transgenic individuals being phenotypic and functional males due to the expression of the Nix transgene. Their reproductive fitness is marginally impaired, while their flight performance is similar to controls. Overall, our results show that Nix is sufficient for full masculinization in Ae. albopictus. Moreover, the transgene construct contains a fluorescence marker allowing efficient automated sex sorting. Consequently, such strains constitute valuable sexing strains for genetic control., (© 2022. The Author(s).)

Published
2022
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34. Distinct mechanisms mediate X chromosome dosage compensation in Anopheles and Drosophila .

Author

Keller Valsecchi CI, Marois E, Basilicata MF, Georgiev P, and Akhtar A

Subjects
Amino Acid Sequence, Animals, DNA-Binding Proteins chemistry, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Drosophila Proteins chemistry, Drosophila Proteins genetics, Drosophila Proteins metabolism, Evolution, Molecular, Female, Gene Expression, Gene Expression Profiling, Gene Expression Regulation, Gene Knockdown Techniques, Genome-Wide Association Study, Histone Acetyltransferases chemistry, Histone Acetyltransferases genetics, Histone Acetyltransferases metabolism, Male, Multiprotein Complexes metabolism, Organ Specificity, Phenotype, Transcription Factors chemistry, Transcription Factors genetics, Transcription Factors metabolism, Transcriptome, Anopheles genetics, Chromosomes, Insect genetics, Dosage Compensation, Genetic, Drosophila genetics, X Chromosome genetics
Abstract

Sex chromosomes induce potentially deleterious gene expression imbalances that are frequently corrected by dosage compensation (DC). Three distinct molecular strategies to achieve DC have been previously described in nematodes, fruit flies, and mammals. Is this a consequence of distinct genomes, functional or ecological constraints, or random initial commitment to an evolutionary trajectory? Here, we study DC in the malaria mosquito Anopheles gambiae The Anopheles and Drosophila X chromosomes evolved independently but share a high degree of homology. We find that Anopheles achieves DC by a mechanism distinct from the Drosophila MSL complex-histone H4 lysine 16 acetylation pathway. CRISPR knockout of Anopheles msl-2 leads to embryonic lethality in both sexes. Transcriptome analyses indicate that this phenotype is not a consequence of defective X chromosome DC. By immunofluorescence and ChIP, H4K16ac does not preferentially enrich on the male X. Instead, the mosquito MSL pathway regulates conserved developmental genes. We conclude that a novel mechanism confers X chromosome up-regulation in Anopheles Our findings highlight the pluralism of gene-dosage buffering mechanisms even under similar genomic and functional constraints., (© 2021 Keller Valsecchi et al.)

Published
2021
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35. Hemocyte-targeted gene expression in the female malaria mosquito using the hemolectin promoter from Drosophila.

Author

Pondeville E, Puchot N, Parvy JP, Carissimo G, Poidevin M, Waterhouse RM, Marois E, and Bourgouin C

Subjects
Animals, Anopheles metabolism, Cell Line, Female, Anopheles genetics, Drosophila Proteins pharmacology, Drosophila melanogaster chemistry, Gene Expression, Hemocytes metabolism, Lectins pharmacology
Abstract

Hemocytes, the immune cells in mosquitoes, participate in immune defenses against pathogens including malaria parasites. Mosquito hemocytes can also be infected by arthropod-borne viruses but the pro- or anti-viral nature of this interaction is unknown. Although there has been progress on hemocyte characterization during pathogen infection in mosquitoes, the specific contribution of hemocytes to immune responses and the hemocyte-specific functions of immune genes and pathways remain unresolved due to the lack of genetic tools to manipulate gene expression in these cells specifically. Here, we used the Gal4-UAS system to characterize the activity of the Drosophila hemocyte-specific hemolectin promoter in the adults of Anopheles gambiae, the malaria mosquito. We established an hml-Gal4 driver line that we further crossed to a fluorescent UAS responder line, and examined the expression pattern in the adult progeny driven by the hml promoter. We show that the hml regulatory region drives hemocyte-specific transgene expression in a subset of hemocytes, and that transgene expression is triggered after a blood meal. The hml promoter drives transgene expression in differentiating prohemocytes as well as in differentiated granulocytes. Analysis of different immune markers in hemocytes in which the hml promoter drives transgene expression revealed that this regulatory region could be used to study phagocytosis as well as melanization. Finally, the hml promoter drives transgene expression in hemocytes in which o'nyong-nyong virus replicates. Altogether, the Drosophila hml promoter constitutes a good tool to drive transgene expression in hemocyte only and to analyze the function of these cells and the genes they express during pathogen infection in Anopheles gambiae., Competing Interests: Declaration of competing interest None., (Copyright © 2020 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published
2020
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36. Logic models for the Therapeutic Return-to-Work Program as adapted for common mental disorders: A guide for health professionals.

Author

Marois E, Durand MJ, and Coutu MF

Subjects
Humans, Logic, Return to Work, Workplace, Mental Disorders therapy, Musculoskeletal Diseases
Abstract

Background: Workplace interventions are recommended for workers with common mental disorders, but knowledge of their action mechanisms and operationalization remains limited. The Therapeutic Return-to-Work Program, developed for workers with musculoskeletal disorders, is recommended for common mental disorders., Objective: Our objective was to adapt this program's logic models to common mental disorders., Methods: A program logic analysis was conducted using a literature review and a two-phase group consensus method. We submitted a preliminary adapted version of the program's logic models and two questionnaires to health professional experts who participated in two group sessions, ultimately to produce the final version of the models., Results: We consulted 86 publications. The health professional experts (N = 7) had overall mean agreement scores of respectively 4.10/5 and 3.89/5 for questions on the program's theoretical and operational models. The final version of the logic models adapted for common mental disorders included four specific and 15 intermediate objectives, three main components, one optional component, four key processes, and 44 tasks., Conclusion: The adapted logic models for the Therapeutic Return-to-Work Program show the relevance of the original objectives and components for common mental disorders. The next step will involve evaluating its feasibility with other stakeholders (insurers, employers, unions, workers).

Published
2020
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37. Feasibility evaluation of a return-to-work program for workers with common mental disorders: Stakeholders' perspectives.

Author

Marois E, Coutu MF, and Durand MJ

Subjects
Feasibility Studies, Humans, Program Evaluation, Qualitative Research, Sick Leave, Surveys and Questionnaires, Mental Disorders therapy, Return to Work
Abstract

Objective: This study aimed to evaluate the feasibility of a newly developed return-to-work program for workers with common mental disorders from the perspective of stakeholders (insurers, employers, unions, and workers)., Methods: We used a sequential mixed design. First, we conducted a survey to evaluate the levels of stakeholder agreement with the program's feasibility. Second, we conducted a number of independent, homogeneous-group discussions or individual interviews to deepen stakeholders' reflections and allow co-construction of a shared perspective of the program's feasibility., Results: Overall, the stakeholders (insurers (n = 6), employers (n = 7), unions (n = 8), and workers (n = 3)), agreed partly to totally with the feasibility of the specific/intermediate objectives, components/tasks, and duration of the components. They identified obstacles that could hinder program implementation. These obstacles pertained mainly to employers' contexts, e.g., difficulty/impossibility of offering job accommodations. They also proposed facilitators to counteract most of these obstacles. Diverging views were found regarding both the role of union representatives and health professionals in the program, and for the duration of the components., Conclusion: Overall, the program was perceived as feasible to implement, provided that the potential factors discussed are taken into account. The next step will be to evaluate its implementation in real practice settings.

Published
2020
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38. Sex Sorting for Pest Control: It's Raining Men!

Author

Lutrat C, Giesbrecht D, Marois E, Whyard S, Baldet T, and Bouyer J

Subjects
Animals, Entomology trends, Female, Infertility, Male, Male, Sex Factors, Diptera, Entomology methods, Insect Control methods, Insect Vectors physiology
Abstract

In the pursuit of better pest- and vector-control strategies, attention returns to an old proven technology, the sterile insect technique (SIT) and related insect population-suppression methods. A major obstacle for any of these approaches that involves the release of sterile males is the separation of males from females during the mass rearing stage, in order to improve the cost-efficiency of these methods and to prevent the release of biting and disease-vectoring females. This review describes recent sex-sorting developments in dipteran flies with an emphasis on assessing the suitability of these methods for large-scale rearing of male vectors for mass release., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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40. Alternative strategies for mosquito-borne arbovirus control.

Author

Achee NL, Grieco JP, Vatandoost H, Seixas G, Pinto J, Ching-Ng L, Martins AJ, Juntarajumnong W, Corbel V, Gouagna C, David JP, Logan JG, Orsborne J, Marois E, Devine GJ, and Vontas J

Subjects
Animals, Arbovirus Infections transmission, Arboviruses classification, Arboviruses isolation & purification, Mosquito Vectors drug effects, Mosquito Vectors virology, Aedes drug effects, Aedes virology, Arbovirus Infections prevention & control, Biological Control Agents pharmacology, Insecticide Resistance physiology, Insecticides pharmacology, Mosquito Control methods
Abstract

Background: Mosquito-borne viruses-such as Zika, chikungunya, dengue fever, and yellow fever, among others-are of global importance. Although vaccine development for prevention of mosquito-borne arbovirus infections has been a focus, mitigation strategies continue to rely on vector control. However, vector control has failed to prevent recent epidemics and arrest expanding geographic distribution of key arboviruses, such as dengue. As a consequence, there has been increasing necessity to further optimize current strategies within integrated approaches and advance development of alternative, innovative strategies for the control of mosquito-borne arboviruses., Methods and Findings: This review, intended as a general overview, is one of a series being generated by the Worldwide Insecticide resistance Network (WIN). The alternative strategies discussed reflect those that are currently under evaluation for public health value by the World Health Organization (WHO) and represent strategies of focus by globally recognized public health stakeholders as potential insecticide resistance (IR)-mitigating strategies. Conditions where these alternative strategies could offer greatest public health value in consideration of mitigating IR will be dependent on the anticipated mechanism of action. Arguably, the most pressing need for endorsement of the strategies described here will be the epidemiological evidence of a public health impact., Conclusions: As the burden of mosquito-borne arboviruses, predominately those transmitted by Aedes aegypti and A. albopictus, continues to grow at a global scale, new vector-control tools and integrated strategies will be required to meet public health demands. Decisions regarding implementation of alternative strategies will depend on key ecoepidemiological parameters that each is intended to optimally impact toward driving down arbovirus transmission., Competing Interests: The authors have declared that no competing interests exist.

Published
2019
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41. Control of dengue virus in the midgut of Aedes aegypti by ectopic expression of the dsRNA-binding protein Loqs2.

Author

Olmo RP, Ferreira AGA, Izidoro-Toledo TC, Aguiar ERGR, de Faria IJS, de Souza KPR, Osório KP, Kuhn L, Hammann P, de Andrade EG, Todjro YM, Rocha MN, Leite THJF, Amadou SCG, Armache JN, Paro S, de Oliveira CD, Carvalho FD, Moreira LA, Marois E, Imler JL, and Marques JT

Subjects
Aedes genetics, Aedes virology, Animals, Animals, Genetically Modified, Antiviral Agents metabolism, Antiviral Agents pharmacology, Carrier Proteins genetics, DNA Replication, Dengue virology, Dengue Virus drug effects, Dengue Virus genetics, Dengue Virus pathogenicity, Drosophila Proteins, Female, Gastrointestinal Tract virology, Gene Silencing, Host-Pathogen Interactions, Mosquito Vectors virology, RNA, Viral metabolism, RNA-Binding Proteins genetics, RNA-Binding Proteins pharmacology, Virus Replication, Zika Virus metabolism, Aedes metabolism, Carrier Proteins metabolism, Dengue Virus metabolism, Ectopic Gene Expression, RNA, Double-Stranded metabolism, RNA, Small Interfering metabolism, RNA-Binding Proteins metabolism
Abstract

Dengue virus (DENV) is an arbovirus transmitted to humans by Aedes mosquitoes 1 . In the insect vector, the small interfering RNA (siRNA) pathway is an important antiviral mechanism against DENV 2-5 . However, it remains unclear when and where the siRNA pathway acts during the virus cycle. Here, we show that the siRNA pathway fails to efficiently silence DENV in the midgut of Aedes aegypti although it is essential to restrict systemic replication. Accumulation of DENV-derived siRNAs in the midgut reveals that impaired silencing results from a defect downstream of small RNA biogenesis. Notably, silencing triggered by endogenous and exogenous dsRNAs remained effective in the midgut where known components of the siRNA pathway, including the double-stranded RNA (dsRNA)-binding proteins Loquacious and r2d2, had normal expression levels. We identified an Aedes-specific paralogue of loquacious and r2d2, hereafter named loqs2, which is not expressed in the midgut. Loqs2 interacts with Loquacious and r2d2 and is required to control systemic replication of DENV and also Zika virus. Furthermore, ectopic expression of Loqs2 in the midgut of transgenic mosquitoes is sufficient to restrict DENV replication and dissemination. Together, our data reveal a mechanism of tissue-specific regulation of the mosquito siRNA pathway controlled by Loqs2.

Published
2018
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42. CRISPR/Cas9 -mediated gene knockout of Anopheles gambiae FREP1 suppresses malaria parasite infection.

Author

Dong Y, Simões ML, Marois E, and Dimopoulos G

Subjects
Animals, Anopheles immunology, Anopheles parasitology, Gene Knockout Techniques, Humans, Insect Proteins genetics, Malaria, Falciparum immunology, Malaria, Falciparum parasitology, Malaria, Falciparum transmission, Mice, Oocysts immunology, Plasmodium falciparum isolation & purification, Sporozoites immunology, Anopheles metabolism, CRISPR-Cas Systems, Insect Proteins antagonists & inhibitors, Malaria, Falciparum prevention & control, Oocysts metabolism, Plasmodium falciparum pathogenicity, Sporozoites metabolism
Abstract

Plasmodium relies on numerous agonists during its journey through the mosquito vector, and these agonists represent potent targets for transmission-blocking by either inhibiting or interfering with them pre- or post-transcriptionally. The recently developed CRISPR/Cas9-based genome editing tools for Anopheles mosquitoes provide new and promising opportunities for the study of agonist function and for developing malaria control strategies through gene deletion to achieve complete agonist inactivation. Here we have established a modified CRISPR/Cas9 gene editing procedure for the malaria vector Anopheles gambiae, and studied the effect of inactivating the fibrinogen-related protein 1 (FREP1) gene on the mosquito's susceptibility to Plasmodium and on mosquito fitness. FREP1 knockout mutants developed into adult mosquitoes that showed profound suppression of infection with both human and rodent malaria parasites at the oocyst and sporozoite stages. FREP1 inactivation, however, resulted in fitness costs including a significantly lower blood-feeding propensity, fecundity and egg hatching rate, a retarded pupation time, and reduced longevity after a blood meal.

Published
2018
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43. Natural Parasite Exposure Induces Protective Human Anti-Malarial Antibodies.

Author

Triller G, Scally SW, Costa G, Pissarev M, Kreschel C, Bosch A, Marois E, Sack BK, Murugan R, Salman AM, Janse CJ, Khan SM, Kappe SHI, Adegnika AA, Mordmüller B, Levashina EA, Julien JP, and Wardemann H

Subjects
Animals, Antibodies, Protozoan biosynthesis, Antibodies, Protozoan chemistry, Antigens, Protozoan chemistry, Antigens, Protozoan genetics, B-Lymphocytes immunology, B-Lymphocytes parasitology, Crystallography, X-Ray, Epitopes chemistry, Epitopes immunology, Female, Gene Expression, Humans, Immunoglobulin Heavy Chains biosynthesis, Immunoglobulin Heavy Chains chemistry, Immunologic Memory, Malaria immunology, Malaria parasitology, Malaria prevention & control, Malaria, Falciparum immunology, Malaria, Falciparum parasitology, Male, Mice, Models, Molecular, Plasmodium berghei immunology, Plasmodium falciparum immunology, Protein Binding, Protein Conformation, alpha-Helical, Protein Conformation, beta-Strand, Protein Interaction Domains and Motifs, Protozoan Proteins chemistry, Protozoan Proteins genetics, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Sporozoites chemistry, Sporozoites immunology, Antibodies, Protozoan immunology, Antigens, Protozoan immunology, Immunity, Humoral, Immunoglobulin Heavy Chains immunology, Malaria, Falciparum prevention & control, Protozoan Proteins immunology
Abstract

Antibodies against the NANP repeat of circumsporozoite protein (CSP), the major surface antigen of Plasmodium falciparum (Pf) sporozoites, can protect from malaria in animal models but protective humoral immunity is difficult to induce in humans. Here we cloned and characterized rare affinity-matured human NANP-reactive memory B cell antibodies elicited by natural Pf exposure that potently inhibited parasite transmission and development in vivo. We unveiled the molecular details of antibody binding to two distinct protective epitopes within the NANP repeat. NANP repeat recognition was largely mediated by germline encoded and immunoglobulin (Ig) heavy-chain complementarity determining region 3 (HCDR3) residues, whereas affinity maturation contributed predominantly to stabilizing the antigen-binding site conformation. Combined, our findings illustrate the power of exploring human anti-CSP antibody responses to develop tools for malaria control in the mammalian and the mosquito vector and provide a molecular basis for the structure-based design of next-generation CSP malaria vaccines., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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44. Transgenic Expression of the Anti-parasitic Factor TEP1 in the Malaria Mosquito Anopheles gambiae.

Author

Volohonsky G, Hopp AK, Saenger M, Soichot J, Scholze H, Boch J, Blandin SA, and Marois E

Subjects
Animals, Animals, Genetically Modified, Blotting, Western, Immunohistochemistry, Plasmodium berghei, Polymerase Chain Reaction, Anopheles genetics, Insect Proteins genetics, Insect Vectors genetics, Malaria parasitology, Pest Control, Biological methods
Abstract

Mosquitoes genetically engineered to be resistant to Plasmodium parasites represent a promising novel approach in the fight against malaria. The insect immune system itself is a source of anti-parasitic genes potentially exploitable for transgenic designs. The Anopheles gambiae thioester containing protein 1 (TEP1) is a potent anti-parasitic protein. TEP1 is secreted and circulates in the mosquito hemolymph, where its activated cleaved form binds and eliminates malaria parasites. Here we investigated whether TEP1 can be used to create malaria resistant mosquitoes. Using a GFP reporter transgene, we determined that the fat body is the main site of TEP1 expression. We generated transgenic mosquitoes that express TEP1r, a potent refractory allele of TEP1, in the fat body and examined the activity of the transgenic protein in wild-type or TEP1 mutant genetic backgrounds. Transgenic TEP1r rescued loss-of-function mutations, but did not increase parasite resistance in the presence of a wild-type susceptible allele. Consistent with previous reports, TEP1 protein expressed from the transgene in the fat body was taken up by hemocytes upon a challenge with injected bacteria. Furthermore, although maturation of transgenic TEP1 into the cleaved form was impaired in one of the TEP1 mutant lines, it was still sufficient to reduce parasite numbers and induce parasite melanization. We also report here the first use of Transcription Activator Like Effectors (TALEs) in Anopheles gambiae to stimulate expression of endogenous TEP1. We found that artificial elevation of TEP1 expression remains moderate in vivo and that enhancement of endogenous TEP1 expression did not result in increased resistance to Plasmodium. Taken together, our results reveal the difficulty of artificially influencing TEP1-mediated Plasmodium resistance, and contribute to further our understanding of the molecular mechanisms underlying mosquito resistance to Plasmodium parasites., Competing Interests: The authors have declared that no competing interests exist.

Published
2017
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45. A CRISPR-Cas9 gene drive system targeting female reproduction in the malaria mosquito vector Anopheles gambiae.

Author

Hammond A, Galizi R, Kyrou K, Simoni A, Siniscalchi C, Katsanos D, Gribble M, Baker D, Marois E, Russell S, Burt A, Windbichler N, Crisanti A, and Nolan T

Subjects
Animals, Anopheles genetics, Female, Anopheles physiology, Clustered Regularly Interspaced Short Palindromic Repeats, Insect Vectors, Malaria transmission
Abstract

Gene drive systems that enable super-Mendelian inheritance of a transgene have the potential to modify insect populations over a timeframe of a few years. We describe CRISPR-Cas9 endonuclease constructs that function as gene drive systems in Anopheles gambiae, the main vector for malaria. We identified three genes (AGAP005958, AGAP011377 and AGAP007280) that confer a recessive female-sterility phenotype upon disruption, and inserted into each locus CRISPR-Cas9 gene drive constructs designed to target and edit each gene. For each targeted locus we observed a strong gene drive at the molecular level, with transmission rates to progeny of 91.4 to 99.6%. Population modeling and cage experiments indicate that a CRISPR-Cas9 construct targeting one of these loci, AGAP007280, meets the minimum requirement for a gene drive targeting female reproduction in an insect population. These findings could expedite the development of gene drives to suppress mosquito populations to levels that do not support malaria transmission.

Published
2016
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46. Tools for Anopheles gambiae Transgenesis.

Author

Volohonsky G, Terenzi O, Soichot J, Naujoks DA, Nolan T, Windbichler N, Kapps D, Smidler AL, Vittu A, Costa G, Steinert S, Levashina EA, Blandin SA, and Marois E

Subjects
Animals, Animals, Genetically Modified, Cloning, Molecular, Codon genetics, DNA Transposable Elements genetics, Embryo, Nonmammalian metabolism, Flow Cytometry, Genes, Insect, Genes, Reporter, Genetic Vectors metabolism, Integrases metabolism, Larva genetics, Microinjections, Mosaicism, Ovum metabolism, Plasmids genetics, Promoter Regions, Genetic genetics, Transgenes, Transposases metabolism, Anopheles genetics, Gene Transfer Techniques
Abstract

Transgenesis is an essential tool to investigate gene function and to introduce desired characters in laboratory organisms. Setting-up transgenesis in non-model organisms is challenging due to the diversity of biological life traits and due to knowledge gaps in genomic information. Some procedures will be broadly applicable to many organisms, and others have to be specifically developed for the target species. Transgenesis in disease vector mosquitoes has existed since the 2000s but has remained limited by the delicate biology of these insects. Here, we report a compilation of the transgenesis tools that we have designed for the malaria vector Anopheles gambiae, including new docking strains, convenient transgenesis plasmids, a puromycin resistance selection marker, mosquitoes expressing cre recombinase, and various reporter lines defining the activity of cloned promoters. This toolbox contributed to rendering transgenesis routine in this species and is now enabling the development of increasingly refined genetic manipulations such as targeted mutagenesis. Some of the reagents and procedures reported here are easily transferable to other nonmodel species, including other disease vector or agricultural pest insects., (Copyright © 2015 Volohonsky et al.)

Published
2015
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47. Site-specific genetic engineering of the Anopheles gambiae Y chromosome.

Author

Bernardini F, Galizi R, Menichelli M, Papathanos PA, Dritsou V, Marois E, Crisanti A, and Windbichler N

Subjects
Animals, Base Sequence, Chromosomes, Artificial, Bacterial, DNA Primers genetics, Flow Cytometry, Fluorescence, Gene Knock-In Techniques, In Situ Hybridization, Fluorescence, Male, Molecular Sequence Data, Sequence Analysis, RNA, Spermatogenesis physiology, Transgenes genetics, Anopheles genetics, Chromosomes, Insect genetics, Gene Transfer Techniques, Genetic Engineering methods, Y Chromosome genetics
Abstract

Despite its function in sex determination and its role in driving genome evolution, the Y chromosome remains poorly understood in most species. Y chromosomes are gene-poor, repeat-rich and largely heterochromatic and therefore represent a difficult target for genetic engineering. The Y chromosome of the human malaria vector Anopheles gambiae appears to be involved in sex determination although very little is known about both its structure and function. Here, we characterize a transgenic strain of this mosquito species, obtained by transposon-mediated integration of a transgene construct onto the Y chromosome. Using meganuclease-induced homologous repair we introduce a site-specific recombination signal onto the Y chromosome and show that the resulting docking line can be used for secondary integration. To demonstrate its utility, we study the activity of a germ-line-specific promoter when located on the Y chromosome. We also show that Y-linked fluorescent transgenes allow automated sex separation of this important vector species, providing the means to generate large single-sex populations. Our findings will aid studies of sex chromosome function and enable the development of male-exclusive genetic traits for vector control.

Published
2014
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48. Targeted mutagenesis in the malaria mosquito using TALE nucleases.

Author

Smidler AL, Terenzi O, Soichot J, Levashina EA, and Marois E

Subjects
Amino Acid Sequence, Animals, Base Sequence, Genes, Insect, Humans, Insect Proteins chemistry, Insect Proteins genetics, Molecular Sequence Data, Mutant Proteins chemistry, Mutant Proteins genetics, Mutation genetics, Plasmodium berghei physiology, Anopheles genetics, Anopheles parasitology, Endonucleases metabolism, Gene Targeting, Malaria parasitology, Mutagenesis genetics, Trans-Activators metabolism
Abstract

Anopheles gambiae, the main mosquito vector of human malaria, is a challenging organism to manipulate genetically. As a consequence, reverse genetics studies in this disease vector have been largely limited to RNA interference experiments. Here, we report the targeted disruption of the immunity gene TEP1 using transgenic expression of Transcription-Activator Like Effector Nucleases (TALENs), and the isolation of several TEP1 mutant A. gambiae lines. These mutations inhibited protein production and rendered TEP1 mutants hypersusceptible to Plasmodium berghei. The TALEN technology opens up new avenues for genetic analysis in this disease vector and may offer novel biotechnology-based approaches for malaria control.

Published
2013
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49. High-throughput sorting of mosquito larvae for laboratory studies and for future vector control interventions.

Author

Marois E, Scali C, Soichot J, Kappler C, Levashina EA, and Catteruccia F

Subjects
Animals, Animals, Genetically Modified classification, Animals, Genetically Modified genetics, Anopheles genetics, Female, Flow Cytometry methods, Genes, Reporter, Genotype, Humans, Larva classification, Larva genetics, Male, Sensitivity and Specificity, Sex, Anopheles classification, Entomology methods, High-Throughput Screening Assays methods
Abstract

Background: Mosquito transgenesis offers new promises for the genetic control of vector-borne infectious diseases such as malaria and dengue fever. Genetic control strategies require the release of large number of male mosquitoes into field populations, whether they are based on the use of sterile males (sterile insect technique, SIT) or on introducing genetic traits conferring refractoriness to disease transmission (population replacement). However, the current absence of high-throughput techniques for sorting different mosquito populations impairs the application of these control measures., Methods: A method was developed to generate large mosquito populations of the desired sex and genotype. This method combines flow cytometry and the use of Anopheles gambiae transgenic lines that differentially express fluorescent markers in males and females., Results: Fluorescence-assisted sorting allowed single-step isolation of homozygous transgenic mosquitoes from a mixed population. This method was also used to select wild-type males only with high efficiency and accuracy, a highly desirable tool for genetic control strategies where the release of transgenic individuals may be problematic. Importantly, sorted males showed normal mating ability compared to their unsorted brothers., Conclusions: The developed method will greatly facilitate both laboratory studies of mosquito vectorial capacity requiring high-throughput approaches and future field interventions in the fight against infectious disease vectors.

Published
2012
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50. The multifaceted mosquito anti-Plasmodium response.

Author

Marois E

Subjects
Animals, Culicidae genetics, Culicidae immunology, Hemolymph immunology, Hemolymph parasitology, Host-Parasite Interactions, Insect Proteins genetics, Insect Proteins immunology, Insect Proteins metabolism, Insect Vectors immunology, Insect Vectors parasitology, Malaria immunology, Malaria prevention & control, Nitric Oxide metabolism, Nitric Oxide Synthase metabolism, Plasmodium immunology, Reactive Oxygen Species metabolism, Culicidae parasitology, Genes, Insect, Malaria parasitology, Plasmodium pathogenicity
Abstract

Plasmodium development within its mosquito vector is an essential step in malaria transmission, as illustrated in world regions where malaria was successfully eradicated via vector control. The innate immune system of most mosquitoes is able to completely clear a Plasmodium infection, preventing parasite transmission to humans. Understanding the biological basis of this phenomenon is expected to inspire new strategies to curb malaria incidence in countries where vector control via insecticides is unpractical, or inefficient because insecticide resistance genes have spread across mosquito populations. Several aspects of mosquito biology that condition the success of the parasite in colonizing its vector begin to be understood at the molecular level, and a wealth of recently published data highlights the multifaceted nature of the mosquito response against parasite invasion. In this brief review, we attempt to provide an integrated view of the challenges faced by the parasite to successfully invade its mosquito host, and discuss the possible intervention strategies that could exploit this knowledge for the fight against human malaria., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2011
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