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SRX23854870: GSM8129215: OR male flies, 3 days post Drosophila C virus infection, rep1; Drosophila melanogaster; RNA-Seq
2 ILLUMINA (Illumina NovaSeq 6000) runs: 36.1M spots, 3.6G bases, 1.2Gb downloads

External Id: GSM8129215_r1
Submitted by: Institute of Ecology and Evolution, School of Biological Sciences, University of Edinburgh
Study: Mitochondrial genome variation affects humoral and cell-mediated innate immune responses and infection outcomes
show Abstracthide Abstract
The role of mitochondria in both adaptive and innate immune responses is increasingly recognized, but the role of natural mitochondrial DNA (mtDNA) variation as an immunomodulatory factor has received less attention. One reason for this is the difficulty of separating the effect of mtDNA from that of the nuclear genome. By utilizing the fruit fly Drosophila melanogaster, a powerful model system, we created cytoplasmic hybrids, aka. cybrid lines, where unique mtDNAs (mitotypes) were introgressed into a controlled isogenic nuclear background. We harnessed a panel of cybrid lines to study the effect of mtDNA variation on humoral and cell-mediated innate immune responses. Mitotypes exhibited heterogeneity in infection outcomes upon bacterial, viral and parasitoid infections. One mitotype of note, mtKSA2 appeared to be more immunocompetent when compared to other mitotypes. We performed transcriptomic profiling of uninfected flies and flies infected with bacteria or a virus and compared them to a different mitotype in the same nuclear background to find the mechanistic basis of the immunocompetence. We found that mtKSA2 caused an upregulation of TCA and OXPHOS related genes and a downregulation of a multiple genes encoding for antimicrobial peptides in uninfected flies. Upon infection, mtKSA2 flies produced unique transcriptomes that were separated by infection type and duration. When we examined immune cells (hemocytes) in mtKSA2 larvae, we noted an increase in hemocyte numbers. These hemocytes were activated in the absence of infection, increased their production of ROS, and showed evidence of increased encapsulation efficiency upon parasitoid wasp infection. Overall, our results show that mtDNA variation acts as an immunomodulatory factor in both humoral and cell-mediated innate immunity and that specific mitotypes provide enhanced protection against infections. Overall design: 1-4 days old, mated females and males were infected with Staphylococcus aureus (PIG1) or Providencia rettgeri (DSM4542) by pricking the flies with a tungsten needle dipped in bacterial solution (OD600=0.1). Samples were collected 8 and 20 hours after infecting the flies. Systemic infection with DCV was introduced to 2-5 days old, mated females and males by pricking as described with the bacterial infections. DCV inoculum of 10^8 viral particles was used. Samples were collected 3 days after the infection with DCV. As controls, uninfected flies of similar age were collected.
Sample: OR male flies, 3 days post Drosophila C virus infection, rep1
SAMN40282954 • SRS20674932 • All experiments • All runs
Library:
Name: GSM8129215
Instrument: Illumina NovaSeq 6000
Strategy: RNA-Seq
Source: TRANSCRIPTOMIC
Selection: cDNA
Layout: PAIRED
Construction protocol: RNA was extracted using TRI reagent (MRC, Fisher Scientific), according to manufacturer's protocol Sequencing and initial bioinformatics analysis was carried out by Edinburgh Genomics, The University of Edinburgh, which is partly supported with core funding from the Natural Environment Research Council (UKSBS PR18037) and BBSRC (BB/T017864/1) Libraries were prepared using Illumina TruSeq Stranded mRNA Library Prep kits
Runs: 2 runs, 36.1M spots, 3.6G bases, 1.2Gb
Run# of Spots# of BasesSizePublished
SRR2824374718,223,2571.8G603.1Mb2024-03-09
SRR2824374817,882,8961.8G595.4Mb2024-03-09

ID:
32158865

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