Lessons from the post-genomic era: Globin diversity beyond oxygen binding and transport

Keppner, Anna; Maric, Darko; Correia, Miguel; Koay, Teng Wei; Orlando, Ilaria M.C.; Vinogradov, Serge N.; Hoogewijs, David

doi:10.1016/j.redox.2020.101687

Cited by 54 publications

(49 citation statements)

References 312 publications

(435 reference statements)

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“…Genomic analyses have considerably altered and extended our view of the globin family in mammals, leading to the discovery of novel globin types such as neuroglobin (NGB) and cytoglobin (CYGB), which are expressed in nerve and fibroblast-like cells, respectively ( 1 , 2 ). Both globin types perform yet-to-be-illuminated functions, which possibly reside in antioxidant defense, reactive oxygen species signaling, or even lipid metabolism ( 3 , 4 ).…”

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confidence: 99%

Androglobin gene expression patterns and FOXJ1-dependent regulation indicate its functional association with ciliogenesis

Koay

Osterhof

Orlando

et al. 2021

Journal of Biological Chemistry

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Androglobin (ADGB) represents the latest addition to the globin superfamily in metazoans. The chimeric protein comprises a calpain domain and a unique circularly permutated globin domain. ADGB expression levels are most abundant in mammalian testis, but its cell-type-specific expression, regulation, and function have remained unexplored. Analyzing bulk and single-cell mRNA-Seq data from mammalian tissues, we found that—in addition to the testes—ADGB is prominently expressed in the female reproductive tract, lungs, and brain, specifically being associated with cell types forming motile cilia. Correlation analysis suggested coregulation of ADGB with FOXJ1, a crucial transcription factor of ciliogenesis. Investigating the transcriptional regulation of the ADGB gene, we characterized its promoter using epigenomic datasets, exogenous promoter-dependent luciferase assays, and CRISPR/dCas9-VPR-mediated activation approaches. Reporter gene assays revealed that FOXJ1 indeed substantially enhanced luciferase activity driven by the ADGB promoter. ChIP assays confirmed binding of FOXJ1 to the endogenous ADGB promoter region. We dissected the minimal sequence required for FOXJ1-dependent regulation and fine mapped the FOXJ1 binding site to two evolutionarily conserved regions within the ADGB promoter. FOXJ1 overexpression significantly increased endogenous ADGB mRNA levels in HEK293 and MCF-7 cells. Similar results were observed upon RFX2 overexpression, another key transcription factor in ciliogenesis. The complex transcriptional regulation of the ADGB locus was illustrated by identifying a distal enhancer, responsible for synergistic regulation by RFX2 and FOXJ1. Finally, cell culture studies indicated an ADGB-dependent increase in the number of ciliated cells upon overexpression of the full-length protein, confirming a ciliogenesis-associated role of ADGB in mammals.

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confidence: 99%

Androglobin gene expression patterns and FOXJ1-dependent regulation indicate its functional association with ciliogenesis

Koay

Osterhof

Orlando

et al. 2021

Journal of Biological Chemistry

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“…Since the time of its initial discovery (Roesner et al, 2005), GbX went from being an obscure gene found in a very limited sample of vertebrates to becoming a credible candidate to provide clues about the functional role of the ancestor of all animal globins (Blank et al, 2011; Song et al, 2020). This change in paradigm came with an increased interest in deciphering its evolutionary history and its still elusive functional role (Burmester and Hankeln, 2014; Keppner et al, 2020). We have recently documented the presence of GbX paralogs in arthropods (Prothmann et al, 2020), confirming phylogenetic predictions that indicate that the origin of GbX predates the split between deuterostomes and protostomes (Burmester et al, 2002; Roesner et al, 2005; Dröge and Makałowski, 2011; Blank and Burmester, 2012; Hoffmann et al, 2012a)(Opazo et al, 2015), which is estimated to have occurred ~ 730 million years ago (Kumar et al, 2017).…”

Section: Discussionmentioning

confidence: 99%

“…Globins are small, oxygen-binding hemoproteins found in all domains of life (Vinogradov et al, 2005). The globin superfamily of vertebrates provides an excellent example of how the interplay between local gene duplications, whole-genome duplications, amino acid and regulatory changes can fuel the evolution of novel protein functions (Storz et al, 2011, 2013; Keppner et al, 2020). The different types of globins in vertebrate genomes can be classified into four groups 1)-androglobin, 2)-neuroglobin,3) globin-X (GbX), and 4)-vertebrate-specific globins.…”

Section: Introductionmentioning

confidence: 99%

“…Androglobin, the most recently discovered member of the vertebrate globins, is a chimeric protein that includes a rearranged globin domain that can be traced back to the common ancestor of choanoflagellates and animals (Hoogewijs et al, 2012). Neuroglobin also represents an ancient globin lineage that originated prior to the split between protostomes and deuterostomes (Burmester et al, 2000(Burmester et al, , 2002Roesner et al, 2005;Dröge and Makałowski, 2011;Blank and Burmester, 2012;Hoffmann et al, 2012a), and in spite of intensive efforts, its physiological function remains a mystery (Fago et al, 2004;Ascenzi et al, 2014;Burmester and Hankeln, 2014;Keppner et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Whole genome duplications and the diversification of the Globin-X genes of vertebrates

Hoffmann

Storz²,

Kuraku

et al. 2021

Preprint

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The globin superfamily of vertebrate genes is a textbook example of how the interplay between local gene duplications, whole-genome duplications, and regulatory changes can facilitate the evolution of novel protein functions. Almost every vertebrate examined possesses copies of hemoglobin and myoglobin in their genomes, and both cytoglobin and neuroglobin are present in the vast majority of vertebrate genomes surveyed as well. The phylogenetic distribution of globin-E, globin-Y and globin-X (GbX), however, is more spotty, suggesting multiple independent gene losses. Globin-X is an enigmatic globin with a wide phyletic distribution that spans protostomes and deuterostomes. Unlike canonical globins such as hemoglobins and myoglobins, functional data suggest that GbX does not have a primary respiratory function. Instead, available evidence suggests that GbX may play a role in protecting cells from oxidative damage and in reducing nitrite and it is predicted to be bound to the cell membrane. Recently released genomes from key vertebrate taxa provide an excellent opportunity to address questions about the early stages of evolution of these genes in vertebrates. In the current study, we integrate bioinformatic, synteny and phylogenetic analyses to characterize the diversity of GbX genes in non-teleost ray-finned fishes, resolve relationships between the GbX genes of cartilaginous fish and the GbX genes of bony vertebrates, and demonstrate that the GbX genes of cyclostomes and gnathostomes have independent duplicative histories. Our study highlights the role that whole genome duplications (WGDs) have played in expanding the repertoire of genes in vertebrate genomes. Our results indicate that GbX paralogs have a remarkably high rate of retention following WGDs in comparison to other globin genes, and also provide an evolutionary framework for interpreting results of experiments that examine functional properties of GbX and patterns of tissue-specific expression. By identifying GbX genes products of different WGDs in the vertebrate tree of life, our results can guide the design of experimental work to explore whether gene duplicates that originate via WGDs have evolved novel functional properties or expression profiles relative to singleton or tandemly duplicated copies of GbX.

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“…Globins are small globular metallo-proteins, which have the capacity to reversibly bind gaseous ligands via a typical 8 alpha-helical structure in which a heme prosthetic group can be embedded. In mammals, five globin types exist: the well-established hemoglobin (Hb) and myoglobin (Mb), neuroglobin (Ngb) in neuronal cells, cytoglobin (Cygb) ubiquitously expressed in fibroblasts, and the more recently identified androglobin (Adgb), predominantly expressed in mammalian testis tissue (Keppner et al 2020).…”

Section: Introductionmentioning

confidence: 99%

Androglobin, a chimeric mammalian globin, is required for male fertility

Keppner

Correia

Santambrogio

et al. 2021

Preprint

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Spermatogenesis is a highly specialised process, involving multiple dedicated pathways and regulatory check-points. Defects ultimately lead to male sub-fertility or sterility, and numerous aspects of mammalian sperm formation remain unknown. The predominant expression of the latest globin family member, androglobin (Adgb) in mammalian testis tissue prompted us to assess its physiological function in spermatogenesis. Adgb knockout mice display male infertility, reduced testis weight, impaired maturation of elongating spermatids, abnormal sperm shape and ultrastructural defects in microtubule and mitochondrial organisation. Epididymal sperm from Adgb knockout animals display multiple flagellar malformations including coiled, bifide or shortened flagella, and erratic acrosomal development. Following immunoprecipitation and mass spectrometry, we could identify septin 10 (Sept10) as interactor of Adgb. The Sept10-Adgb interaction was confirmed both in vivo using testis lysates, and in vitro by reciprocal co-immunoprecipitation experiments. Furthermore, absence of Adgb leads to mislocalisation of Sept10 in sperm, indicating defective manchette and sperm annulus formation. Finally, in vitro data suggest that Adgb contributes to Sept10 proteolysis in a calmodulin (CaM)-dependent manner. Collectively, our results provide evidence that Adgb is essential for murine spermatogenesis and further suggest that interdependence between Adgb and Sept10 is required for sperm head shaping via the manchette and proper flagellum formation.

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Lessons from the post-genomic era: Globin diversity beyond oxygen binding and transport

Cited by 54 publications

References 312 publications

Androglobin gene expression patterns and FOXJ1-dependent regulation indicate its functional association with ciliogenesis

Androglobin gene expression patterns and FOXJ1-dependent regulation indicate its functional association with ciliogenesis

Whole genome duplications and the diversification of the Globin-X genes of vertebrates

Androglobin, a chimeric mammalian globin, is required for male fertility

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