A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression
Cancer acquires metastatic potential and evolves via co-opting gene regulatory networks (GRN) of embryonic development and tissue homeostasis. Such GRNs are encoded in the genome and frequently conserved among species. Considering that all metazoa have evolved from a common ancestor via major macroe...
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Frontiers Media S.A.
2021-06-01
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| Series: | Frontiers in Cell and Developmental Biology |
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| Online Access: | https://www.frontiersin.org/articles/10.3389/fcell.2021.682619/full |
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doaj-22f0e2ea2f2e45ff9e50d25d381657fd2021-06-02T08:04:36ZengFrontiers Media S.A.Frontiers in Cell and Developmental Biology2296-634X2021-06-01910.3389/fcell.2021.682619682619A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer ProgressionStephan Marquardt0Athanasia Pavlopoulou1Athanasia Pavlopoulou2Işıl Takan3Işıl Takan4Prabir Dhar5Brigitte M. Pützer6Brigitte M. Pützer7Stella Logotheti8Institute of Experimental Gene Therapy and Cancer Research, Rostock University Medical Center, Rostock, Germanyİzmir Biomedicine and Genome Center, İzmir, Turkeyİzmir International Biomedicine and Genome Institute, Dokuz Eylül University, İzmir, Turkeyİzmir Biomedicine and Genome Center, İzmir, Turkeyİzmir International Biomedicine and Genome Institute, Dokuz Eylül University, İzmir, TurkeyInstitute of Experimental Gene Therapy and Cancer Research, Rostock University Medical Center, Rostock, GermanyInstitute of Experimental Gene Therapy and Cancer Research, Rostock University Medical Center, Rostock, GermanyDepartment Life, Light & Matter, University of Rostock, Rostock, GermanyInstitute of Experimental Gene Therapy and Cancer Research, Rostock University Medical Center, Rostock, GermanyCancer acquires metastatic potential and evolves via co-opting gene regulatory networks (GRN) of embryonic development and tissue homeostasis. Such GRNs are encoded in the genome and frequently conserved among species. Considering that all metazoa have evolved from a common ancestor via major macroevolutionary events which shaped those GRNs and increased morphogenetic complexity, we sought to examine whether there are any key innovations that may be consistently and deterministically linked with metastatic potential across the metazoa clades. To address tumor evolution relative to organismal evolution, we revisited and retrospectively juxtaposed seminal laboratory and field cancer studies across taxa that lie on the evolutionary lineage from cnidaria to humans. We subsequently applied bioinformatics to integrate species-specific cancer phenotypes, multiomics data from up to 42 human cancer types, developmental phenotypes of knockout mice, and molecular phylogenetics. We found that the phenotypic manifestations of metastasis appear to coincide with agnatha-to-gnathostome transition. Genes indispensable for jaw development, a key innovation of gnathostomes, undergo mutations or methylation alterations, are aberrantly transcribed during tumor progression and are causatively associated with invasion and metastasis. There is a preference for deregulation of gnathostome-specific versus pre-gnathostome genes occupying hubs of the jaw development network. According to these data, we propose our systems-based model as an in silico tool the prediction of likely tumor evolutionary trajectories and therapeutic targets for metastasis prevention, on the rationale that the same genes which are essential for key innovations that catalyzed vertebrate evolution, such as jaws, are also important for tumor evolution.https://www.frontiersin.org/articles/10.3389/fcell.2021.682619/fullcancer evolutionmetastasisjaw developmentepithelial-mesenchymal transitiongnathostomescyclostomes |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Stephan Marquardt Athanasia Pavlopoulou Athanasia Pavlopoulou Işıl Takan Işıl Takan Prabir Dhar Brigitte M. Pützer Brigitte M. Pützer Stella Logotheti |
| spellingShingle |
Stephan Marquardt Athanasia Pavlopoulou Athanasia Pavlopoulou Işıl Takan Işıl Takan Prabir Dhar Brigitte M. Pützer Brigitte M. Pützer Stella Logotheti A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression Frontiers in Cell and Developmental Biology cancer evolution metastasis jaw development epithelial-mesenchymal transition gnathostomes cyclostomes |
| author_facet |
Stephan Marquardt Athanasia Pavlopoulou Athanasia Pavlopoulou Işıl Takan Işıl Takan Prabir Dhar Brigitte M. Pützer Brigitte M. Pützer Stella Logotheti |
| author_sort |
Stephan Marquardt |
| title |
A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression |
| title_short |
A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression |
| title_full |
A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression |
| title_fullStr |
A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression |
| title_full_unstemmed |
A Systems-Based Key Innovation-Driven Approach Infers Co-option of Jaw Developmental Programs During Cancer Progression |
| title_sort |
systems-based key innovation-driven approach infers co-option of jaw developmental programs during cancer progression |
| publisher |
Frontiers Media S.A. |
| series |
Frontiers in Cell and Developmental Biology |
| issn |
2296-634X |
| publishDate |
2021-06-01 |
| description |
Cancer acquires metastatic potential and evolves via co-opting gene regulatory networks (GRN) of embryonic development and tissue homeostasis. Such GRNs are encoded in the genome and frequently conserved among species. Considering that all metazoa have evolved from a common ancestor via major macroevolutionary events which shaped those GRNs and increased morphogenetic complexity, we sought to examine whether there are any key innovations that may be consistently and deterministically linked with metastatic potential across the metazoa clades. To address tumor evolution relative to organismal evolution, we revisited and retrospectively juxtaposed seminal laboratory and field cancer studies across taxa that lie on the evolutionary lineage from cnidaria to humans. We subsequently applied bioinformatics to integrate species-specific cancer phenotypes, multiomics data from up to 42 human cancer types, developmental phenotypes of knockout mice, and molecular phylogenetics. We found that the phenotypic manifestations of metastasis appear to coincide with agnatha-to-gnathostome transition. Genes indispensable for jaw development, a key innovation of gnathostomes, undergo mutations or methylation alterations, are aberrantly transcribed during tumor progression and are causatively associated with invasion and metastasis. There is a preference for deregulation of gnathostome-specific versus pre-gnathostome genes occupying hubs of the jaw development network. According to these data, we propose our systems-based model as an in silico tool the prediction of likely tumor evolutionary trajectories and therapeutic targets for metastasis prevention, on the rationale that the same genes which are essential for key innovations that catalyzed vertebrate evolution, such as jaws, are also important for tumor evolution. |
| topic |
cancer evolution metastasis jaw development epithelial-mesenchymal transition gnathostomes cyclostomes |
| url |
https://www.frontiersin.org/articles/10.3389/fcell.2021.682619/full |
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