Gene Ages, Nomenclatures, and Functional Diversification of the Methuselah/Methuselah‐Like GPCR Family in <i>Drosophila</i> and <i>Tribolium</i>

Friedrich, Markus; Jones, Jeffery W.

doi:10.1002/jez.b.22721

Cited by 13 publications

(15 citation statements)

References 56 publications

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“…1B and Fig. S2B) (10,11), plus four genes encoding cell-surface proteins: SR-CIV (scavenger receptor protein); Pvr (PDGF/VEGF receptor tyrosine kinase); Oamb (octopamine Ca 2+ signaling/cAMP receptor), and Mthl10, an orphan GPCR (12). The Mthl10 hit was particularly striking: A high Z score mean of −4.6 was obtained from three separate dsRNA pairs ( Fig.…”

Section: Significancementioning

confidence: 97%

Cytokine signaling through Drosophila Mthl10 ties lifespan to environmental stress

Sung

Ryuda

Matsumoto

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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A systems-level understanding of cytokine-mediated, intertissue signaling is one of the keys to developing fundamental insight into the links between aging and inflammation. Here, we employed , a routine model for analysis of cytokine signaling pathways in higher animals, to identify a receptor for the growth-blocking peptide (GBP) cytokine. Having previously established that the phospholipase C/Ca signaling pathway mediates innate immune responses to GBP, we conducted a dsRNA library screen for genes that modulate Ca mobilization in S3 cells. A hitherto orphan G protein coupled receptor, Methuselah-like receptor-10 (Mthl10), was a significant hit. Secondary screening confirmed specific binding of fluorophore-tagged GBP to both S3 cells and recombinant Mthl10-ectodomain. We discovered that the metabolic, immunological, and stress-protecting roles of GBP all interconnect through Mthl10. This we established by knockdown in three fly model systems: in hemocyte-like S2 cells, knockdown decreases GBP-mediated innate immune responses; in larvae, knockdown decreases expression of antimicrobial peptides in response to low temperature; in adult flies, knockdown increases mortality rate following infection with and reduces GBP-mediated secretion of insulin-like peptides. We further report that organismal fitness pays a price for the utilization of Mthl10 to integrate all of these various homeostatic attributes of GBP: We found that elevated expression reduces lifespan. Conversely, knockdown extended lifespan. We describe how our data offer opportunities for further molecular interrogation of yin and yang between homeostasis and longevity.

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Section: Significancementioning

confidence: 97%

Cytokine signaling through Drosophila Mthl10 ties lifespan to environmental stress

Sung

Ryuda

Matsumoto

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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“…Previous studies showed that the mth gene is related to lifespan and stress resistance in D. melanogaster (Lin et al, 1998). D. melanogaster mthl10 is one of the paralogues of mth (Patel et al, 2012;Friedrich and Jones, 2017) which initiates PLC/Ca 2+ signalling to mediate immunological, metabolic and stressprotective responses and lifespan functions in response to the ligand growth-blocking peptide (GBP) (Sung et al, 2017). Recent research has revealed that 16 members of the Mth/Mthl gene family in D. melanogaster consists of both Mth ectodomain-positive and Mth ectodomainnegative members (Friedrich and Jones, 2017).…”

Section: Discussionmentioning

confidence: 99%

The role of G protein‐coupled receptor‐related genes in cytochrome P450‐mediated resistance of the house fly, Musca domestica (Diptera: Muscidae), to imidacloprid

Zhang

You

et al. 2019

Insect Molecular Biology

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Ninety‐four putative G protein‐coupled receptors (GPCRs) were identified in the Musca domestica genome. They were annotated and compared with their homologues in Drosophila melanogaster. Phylogenetic analyses of the GPCRs from both species revealed that several family members shared a closer relationship based on the domain architecture. The expression profiles of these genes were examined by quantitative real‐time PCR amongst three strains of the house fly, a near‐isogenic line strain with imidacloprid resistance (N‐IRS), the corresponding susceptible strain (CSS) and another strain derived from field populations with imidacloprid resistance (IRS). We found that five GPCR genes were upregulated in the N‐IRS and eight GPCR genes were upregulated in the IRS strains compared to the CSS strain. The transgenic lines of D. melanogaster with the GPCR genes (LOC101899380 in the N‐IRS strain and LOC101895664 in the IRS strain) exhibited significantly increased tolerance to imidacloprid, and higher expression of cytochrome P450 genes. Bioinformatic analysis of LOC101899380 was carried out based on its full‐length nucleic acid sequence and putative amino acid sequence, and it was named Methuselah‐like10 (Mthl10) owing to its homology with D. melanogaster Mthl10. A cell‐base cell counting kit‐8 toxicity assay demonstrated that the expression of the GPCR gene LOC101899380 in Spodoptera frugiperda (Sf9) cells using a baculovirus‐mediated expression system can elevate the cell tolerance to imidacloprid, indirectly supporting the hypothesis that the GPCR gene LOC101899380 plays some role in imidacloprid resistance. These results should be useful for furthering understanding of the regulatory pathway by which house flies develop resistance.

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“…In addition, it is also too early to rule out that, at least to some extent, lineage‐specific gene family loss in a broader ancestral panel of mth superclade GPCRs caused a selective survival of mth superclade GPCRs in modern Schizophora. However, the tens of millions of years of conservation of the large majority of mth superclade GPCRs, combined with their extensive diversification in the Mth ectodomain within the constraints of its conserved disulfide bond folding structure, continues to be highly indicative of a major adaptive gene family expansion (Friedrich & Jones, ).…”

Section: Discussionmentioning

confidence: 99%

“…The available data are also sufficient to conclude that parallel mth superclade expansions happened at different time points in different schizophoran lineages. The emergence of the melanogaster subgroup subclade, for instance, must have occurred later than the expansion of the newly identified calyptrate subclad e. Calyptrate Diptera have been estimated to date back 40–60 million years compared to the origin of the melanogaster subgroup, which has been estimated to have originated approximately 3 million years ago (Friedrich & Jones, ; Obbard et al., ).…”

Section: Discussionmentioning

confidence: 99%

“…Together with mth , the paralogs mthl2 , mthl3 , mthl4 , mthl6 , mthl7 , mthl12 , and mthl13 are 1:1 conserved only in the genomes of drosophilid species of the melanogaster subgroup but not in more distantly related drosophilids. These paralogs thus constitute the “melanogaster subgroup” subfamily of Mth/Mthl GPCRs nested within the mth superclade (Friedrich & Jones, ). Combined, these data have led to the conclusion that the mth superclade subfamily expanded by at least two rounds of gene duplication spikes: One that gave rise to the oldest mth superclade members mthl8 , mthl9 , mthl10 , and mhl11 followed by a second spike that generated the eight members of the melanogaster subgroup subfamily.…”

Section: Introductionmentioning

confidence: 99%

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Massive parallel expansions of Methuselah/Methuselah‐like receptors in schizophoran Diptera

et al. 2018

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The Methuselah/Methuselah-like (Mth/Mthl) family of G-protein coupled receptors (GPCRs) is represented by 16 homologs in the fruit fly Drosophila melanogaster. Three of them have thus far been functionally characterized and found to play critical roles in cell adhesion, immunity, lifespan, and oxidative stress regulation. Evolutionary studies have shown that the large number of D. melanogaster Mth/Mthl GPCRs arose by at least two rounds of gene duplications. The first produced the "mth superclade" subfamily and was followed by the expansion of the "melanogaster subgroup" cluster within the "mth superclade" of Mth/Mthl GPCRs. The adaptive significance of the Mth/Mthl receptor repertoire expansion in Drosophila remains elusive. Studying the Mth/Mthl gene family content in newly available dipteran genomes, we find that the first expansion of the mthl superclade predates the diversification of schizophoran Diptera approximately 65 million years ago. Unexpectedly, we further find that the subsequent expansion of the melanogaster subgroup cluster was paralleled by independent mth superclade Mth/Mthl GPCR expansions in other schizophoran clades (Muscidae and Tephritidae). Our study thus reveals an even more dynamic diversification of mth superclade GPCRs than previously appreciated and linked to the emergence of schizophoran flies, the most dramatic radiation in the dipteran tree of life.

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Gene Ages, Nomenclatures, and Functional Diversification of the Methuselah/Methuselah‐Like GPCR Family in Drosophila and Tribolium

Cited by 13 publications

References 56 publications

Cytokine signaling through Drosophila Mthl10 ties lifespan to environmental stress

Cytokine signaling through Drosophila Mthl10 ties lifespan to environmental stress

The role of G protein‐coupled receptor‐related genes in cytochrome P450‐mediated resistance of the house fly, Musca domestica (Diptera: Muscidae), to imidacloprid

Massive parallel expansions of Methuselah/Methuselah‐like receptors in schizophoran Diptera

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