The impact of metagenomic interplay on the mosquito redox homeostasis

Champion, Cody; Xu, Jianchu

doi:10.1016/j.freeradbiomed.2016.11.031

Cited by 31 publications

(32 citation statements)

References 123 publications

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“…[ 45 ] Similarly, the redox homeostasis system (thioredoxin, GSH peroxidase…) plays a vital role in the dynamics of symbiotic microbiota, which impacts Plasmodium transmission. [ 46 ] This would result in important implications for the design of strategies aiming at interfering with the GSH redox‐system of the mosquito. [ 45 ]…”

Section: Discussionmentioning

confidence: 99%

Proteomic Investigation on Anopheles gambiae in Burkina Faso Related to Insecticide Pressures from Different Climatic Regions

et al. 2020

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In Sub-Saharan Africa, An. gambiae sensu lato (s.l.) Giles 190, largely contributes to malaria transmission. Therefore, the authors carry out a proteomic analysis to compare its metabolic state, depending on different pesticide pressures by selecting areas with/without cotton crops. The proteomes data are available via ProteomeXchange with identifier PXD016300. From a total of 1.182 identified proteins, 648 are retained for further statistical analysis and are attributed to biological functions, the most important of which being energy metabolism (120 proteins) followed by translation-biogenesis (74), cytoskeleton (71), stress response (62), biosynthetic process (60), signalling (44), cellular respiration (38), cell redox homeostasis (25), DNA processing (17), pheromone binding (10), protein folding (9), RNA processing (9), other proteins (26) and unknown functions (83). In the Sudano-Sahelian region, 421 (91.3%) proteins are found in samples from areas both with and without cotton crops. By contrast, in the Sahelian region, only 271 (55.0%) are common to both crop areas, and 233 proteins are up-regulated from the cotton area. The focus is placed on proteins with putative roles in insecticide resistance, according to literature. This study provides the first whole-body proteomic characterisation of An. gambiae s.l. in Burkina Faso, as a framework to strengthen vector control strategies.

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Section: Discussionmentioning

confidence: 99%

Proteomic Investigation on Anopheles gambiae in Burkina Faso Related to Insecticide Pressures from Different Climatic Regions

et al. 2020

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“…The female mosquito gut is characterized by slightly acidic pH with a tendency to alkalinity after blood meals, a small volume, and frequent nutritional fluctuations (41). Iron availability contributes importantly to the assemblage of microorganisms in the mosquito midgut (3, 19, 42). Bacterial inhabitants of the adult mosquito midgut experience extreme conditions with relationship to iron availability, either having insufficient supply prior to and between blood meals, or excessive free iron and associated free radicals during and after blood meals (42, 43).…”

Section: Discussionmentioning

confidence: 99%

“…Iron availability contributes importantly to the assemblage of microorganisms in the mosquito midgut (3, 19, 42). Bacterial inhabitants of the adult mosquito midgut experience extreme conditions with relationship to iron availability, either having insufficient supply prior to and between blood meals, or excessive free iron and associated free radicals during and after blood meals (42, 43). Our results showed that E. anophelis , a commensal organism of the mosquito midgut, responds to these extreme conditions and utilizes multiple iron uptake pathways, TBDTs, and iron chelating proteins in response to iron stress.…”

Section: Discussionmentioning

confidence: 99%

“…Hemoglobin remarkably attenuated the overproduction of ROS and NO, reverted mitochondrial membrane potential, and repressed caspase-3/7 (65). It is possible that the hemin/iron from degraded hemoglobin can immediately be transported into cells and incorporated to some of the heme-containing antioxidative enzymes (such as heme-containing catalases) when bacteria suffer the crisis of strong reactive oxygen radicals (42, 66). Similarly, some of the non-heme proteins (with iron as the cofactor) can remove the ROS (66).…”

Section: Discussionmentioning

confidence: 99%

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Elizabethkingia anophelisresponse to iron stress: physiologic, genomic, and transcriptomic analyses

Chen

Johnson

et al. 2019

Preprint

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28Elizabethkingia anophelis bacteria encounter fluxes of iron in the midgut of mosquitoes, 29where they live as symbionts. They also establish bacteremia with severe clinical 30 manifestations in humans, and live in water service lines in hospitals. In this study, we 31 investigated the global gene expression responses of E. anophelis to iron fluxes in the midgut 32 of female Anopheles stephensi mosquitoes fed sucrose or blood, and in iron-poor or iron-rich 33 culture conditions. Of 3,686 transcripts revealed by RNAseq technology, 218 were upregulated 34 while 112 were down-regulated under iron-poor conditions. Most of these differentially 35 expressed genes (DEGs) were enriched in functional groups assigned within "biological 36 process," "cell component" and "molecular function" categories. E. anophelis possessed 4 37 iron/heme acquisition systems. Hemolysin gene expression was significantly repressed when 38 cells were grown under iron-rich or high temperature (37℃) conditions. Furthermore, 39 hemolysin gene expression was down-regulated after a blood meal, indicating that E. anophelis 40 cells responded to excess iron and its associated physiological stress by limiting iron loading. 41By contrast, genes encoding respiratory chain proteins were up-regulated under iron-rich 42 conditions, allowing these iron-containing proteins to chelate intracellular free iron. In vivo 43 studies showed that growth of E. anophelis cells increased 3-fold in blood-fed mosquitoes over 44 those in sucrose-fed ones. Deletion of aerobactin synthesis genes led to impaired cell growth 45 in both iron-rich and iron-poor media. Mutants showed more susceptibility to H 2 O 2 toxicity 46 and less biofilm formation than did wild-type cells. Mosquitoes with E. anophelis 47 experimentally colonized in their guts produced more eggs than did those treated with 48 erythromycin or left unmanipulated, as controls. Results reveal that E. anophelis bacteria 49 respond to varying iron concentration in the mosquito gut, harvest iron while fending off iron-50 associated stress, contribute to lysis of red blood cells, and positively influence mosquito host 51 fecundity. 52

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“…Besides, their antimicrobial role, AMPs are also involved in chemotaxis and redox homeostasis with rapid radical scavenging ability (Cole et al, 2003;Com et al, 2003;Ganz, 2002;Liu et al, 2010;Zhao et al, 2011). Recently, the metagenomic approaches are extensively reviewed to explore the role of AMPs in redox homeostasis (Champion and Xu, 2017).…”

Section: Antiparasiticmentioning

confidence: 99%

Efflux pumps and antimicrobial resistance: Paradoxical components in systems genomics

Kabra

Chauhan

Kumar

et al. 2019

Progress in Biophysics and Molecular Biology

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Efflux pumps play a major role in the increasing antimicrobial resistance rendering a large number of drugs of no use. Large numbers of pathogens are becoming multidrug resistant due to inadequate dosage and use of the existing antimicrobials. This leads to the need for identifying new efflux pump inhibitors. Design of novel targeted therapies using inherent complexity involved in the biological network modeling has gained increasing importance in recent times. The predictive approaches should be used to determine antimicrobial activities with high pathogen specificity and microbicidal potency. Antimicrobial peptides, which are part of our innate immune system, have the ability to respond to infections and have gained much attention in making resistant strain sensitive to existing drugs. In this review paper, we outline evidences linking host-directed therapy with the efflux pump activity to infectious disease.

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The impact of metagenomic interplay on the mosquito redox homeostasis

Cited by 31 publications

References 123 publications

Proteomic Investigation on Anopheles gambiae in Burkina Faso Related to Insecticide Pressures from Different Climatic Regions

Proteomic Investigation on Anopheles gambiae in Burkina Faso Related to Insecticide Pressures from Different Climatic Regions

Elizabethkingia anophelisresponse to iron stress: physiologic, genomic, and transcriptomic analyses

Efflux pumps and antimicrobial resistance: Paradoxical components in systems genomics

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