Günter P. Wagner (b. 1954) (Alison Richard Professor of Ecology and Evolutionary Biology, Yale University) received his PhD in 1979 from the University of Vienna. He is interested in the evolution of gene regulation as it pertains to the evolution of development and major evolutionary innovations. Current research focuses on the gene regulatory changes underlying the origin of mammalian reproduction. The themes arising from this research are the role of transposable elements and changes in transcription factor function as critical for gene regulatory network evolution. Supervisors: Rupert Riedl (Vienna, Austria; 1925-2005) , Joachim Wolff (Göttingen, Germany) , and Alfred Gierer (Tübingen, Germany)
Transcriptomic data yields valuable insights into cell type, tissue, and organ evolution. However... more Transcriptomic data yields valuable insights into cell type, tissue, and organ evolution. However, interpreting this data requires understanding how transcriptomes evolve. A particularly difficult problem is that cell type transcriptomes may not evolve independently. Here we present a statistical model to estimate the level of concerted transcriptome evolution and apply it to published and new data. The results indicate that tissues undergo pervasive concerted evolution in gene expression. Tissues related by morphology or developmental lineage exhibit higher levels of concerted evolution. Concerted evolution also causes tissues from the same species to be more similar in gene expression to each other than to homologous tissues in another species. This result may explain why some tissue transcriptomes cluster by species rather than homology. Our study illustrates the importance of accounting for concerted evolution when interpreting comparative transcriptome data, and should serve as...
wants to thank the ESI for the financial and administrative support during his tenure at the inst... more wants to thank the ESI for the financial and administrative support during his tenure at the institute. 2 ABSTRACT Measurement theory is a branch of applied mathematics that clarifies how quantitative concepts can be defined and what their mathematical properties are. In this contribution ideas from measurement theory are applied to the fitness concept. It is shown that fitness can be quantified by using and extending results from utility theory. Wrightian fitness can be derived as a so-called strict utility model. Furthermore the selection equation predicting the change in gene and genotype frequency can also be derived directly from the strict utility model. The only requirement for the applicability of the classical selection theory is the absence of genotype by genotype interactions. Fitness is measured on a ratio scale, i.e. is unique up to a multiplication by a constant. The latter property clarifies the notion of gene interaction, also known as epistasis: if a change in the g...
Various theories about the evolution of complex characters make predictions about the statistical... more Various theories about the evolution of complex characters make predictions about the statistical distribution of genetic effects on phenotypic characters, also called the genotype-phenotype map. With the advent of QTL technology, data about these distributions are becoming available. In this article, we propose simple tests for the prediction that functionally integrated characters have a modular genotype-phenotype map. The test is applied to QTL data on the mouse mandible. The results provide statistical support for the notion that the ascending ramus region of the mandible is modularized. A data set comprising the effects of QTL on a more extensive portion of the phenotype is required to determine if the alveolar region of the mandible is also modularized.
Among mammals, the extent of placental invasion is correlated with vulnerability to malignancy. A... more Among mammals, the extent of placental invasion is correlated with vulnerability to malignancy. Animals with more invasive placentation (e.g. humans) are more vulnerable to malignancy, whereas animals with a non-invasive placenta (e.g. ruminants) are less likely to develop malignant cancer. To explain this correlation, we propose the hypothesis ofEvolved Levels of Invasibility(ELI) positing that the permissiveness of stromal tissue to invasion is a unitary character affecting both placental and cancer invasion. We provide evidence for this hypothesis by contrasting invasion of human and bovine cancer and placental cells into a lawn of stromal cells from different species. We find that both bovine endometrial and skin fibroblasts are more resistant to invasion of placental and cancer cells than their human counterparts. Gene expression profiling identified genes with high expression in human but not bovine fibroblasts. Knocking down of a subset of them in human fibroblasts leads to s...
Inflammation contributes to nearly 4 million global premature births annually. Here, we used a mo... more Inflammation contributes to nearly 4 million global premature births annually. Here, we used a mouse model of intrauterine inflammation to test clinically used formulations, as well as engineered nanoformulations, for the prevention of preterm birth (PTB). We observed that neither systemic 17a-hydroxyprogesterone caproate (Makena) nor vaginal progesterone gel (Crinone) was sufficient to prevent inflammation-induced PTB, consistent with recent clinical trial failures. However, we found that vaginal delivery of mucoinert nanosuspensions of histone deacetylase (HDAC) inhibitors, in some cases with the addition of progesterone, prevented PTB and resulted in delivery of live pups exhibiting neurotypical development. In human myometrial cells in vitro, the P4/HDAC inhibitor combination both inhibited cell contractility and promoted the anti-inflammatory action of P4 by increasing progesterone receptor B stability. Here, we demonstrate the use of vaginally delivered drugs to prevent intrau...
Males have evolved species-specifical sperm morphology and swimming patterns to adapt to differen... more Males have evolved species-specifical sperm morphology and swimming patterns to adapt to different fertilization environments. In eutherians, only a small fraction of the sperm overcome the diverse obstacles in the female reproductive tract and successfully migrate to the fertilizing site. Sperm arriving at the fertilizing site show hyperactivated motility, a unique motility pattern displaying asymmetric beating of sperm flagella with increased amplitude. This motility change is triggered by Ca2+ influx through the sperm-specific ion channel, CatSper. However, the current understanding of the CatSper function and its molecular regulation is limited in eutherians. Here, we report molecular evolution and conservation of the CatSper channel in the genome throughout eutherians and marsupials. Sequence analyses reveal that CatSper proteins are slowly evolved in marsupials. Using an American marsupial, gray short-tailed opossum (Monodelphis domestica), we demonstrate the expression of Cat...
Synopsis Embryo implantation is a hallmark of the female reproductive biology of eutherian (place... more Synopsis Embryo implantation is a hallmark of the female reproductive biology of eutherian (placental) mammals and does not exist in a sustainable form in any other vertebrate group. Implantation is the initial process that leads to a sustained fetal-maternal unit engendering a complex functional relationship between the mother and the embryo/fetus. The nature of this relationship is often portrayed as one of conflict between an aggressive embryo and a passive or defensive maternal organism. Recent progress in elucidating the evolutionary origin of eutherian pregnancy leads to a different picture. The emerging scenario suggests that the very initial stages in the evolution of embryo implantation required evolutionary changes to the maternal physiology which modified an ancestral generic mucosal inflammation in response to the presence of the embryo into an active embedding process. This “female-first” evolutionary scenario also explains the role of endometrial receptivity in human p...
Understanding the evolutionary role of environmentally-induced phenotypic variation (i.e., enviro... more Understanding the evolutionary role of environmentally-induced phenotypic variation (i.e., environmental plasticity) is an important issue in developmental evolution. One of the major physiological responses to environmental changes is cellular stress, which is counteracted by a generic stress reaction that detoxifies the cell, refolds proteins, and repairs DNA damage. In this paper, we elaborate on a previous finding suggesting that the cell differentiation cascade of human decidual stromal cells, a cell type critical for embryo implantation and the maintenance of pregnancy, evolved from a cellular stress reaction. We hypothesize that the stress reaction in these cells was elicited ancestrally through the inflammation caused by embryo attachment and invasion. We describe a model, Stress-Induced Evolutionary Innovation (SIEI), whereby ancestral stress reactions and their corresponding pathways can be transformed into novel structural components of body plans, such as new cell types. After reviewing similarities and differences between SIEI and the “plasticity first hypothesis” (PFH) of evolution, we argue that SIEI is a distinct form of plasticity-based evolutionary change because it leads to the origin of novel structures rather than the adaptive transformation of a pre-existing character.
Transcriptomic data yields valuable insights into cell type, tissue, and organ evolution. However... more Transcriptomic data yields valuable insights into cell type, tissue, and organ evolution. However, interpreting this data requires understanding how transcriptomes evolve. A particularly difficult problem is that cell type transcriptomes may not evolve independently. Here we present a statistical model to estimate the level of concerted transcriptome evolution and apply it to published and new data. The results indicate that tissues undergo pervasive concerted evolution in gene expression. Tissues related by morphology or developmental lineage exhibit higher levels of concerted evolution. Concerted evolution also causes tissues from the same species to be more similar in gene expression to each other than to homologous tissues in another species. This result may explain why some tissue transcriptomes cluster by species rather than homology. Our study illustrates the importance of accounting for concerted evolution when interpreting comparative transcriptome data, and should serve as...
wants to thank the ESI for the financial and administrative support during his tenure at the inst... more wants to thank the ESI for the financial and administrative support during his tenure at the institute. 2 ABSTRACT Measurement theory is a branch of applied mathematics that clarifies how quantitative concepts can be defined and what their mathematical properties are. In this contribution ideas from measurement theory are applied to the fitness concept. It is shown that fitness can be quantified by using and extending results from utility theory. Wrightian fitness can be derived as a so-called strict utility model. Furthermore the selection equation predicting the change in gene and genotype frequency can also be derived directly from the strict utility model. The only requirement for the applicability of the classical selection theory is the absence of genotype by genotype interactions. Fitness is measured on a ratio scale, i.e. is unique up to a multiplication by a constant. The latter property clarifies the notion of gene interaction, also known as epistasis: if a change in the g...
Various theories about the evolution of complex characters make predictions about the statistical... more Various theories about the evolution of complex characters make predictions about the statistical distribution of genetic effects on phenotypic characters, also called the genotype-phenotype map. With the advent of QTL technology, data about these distributions are becoming available. In this article, we propose simple tests for the prediction that functionally integrated characters have a modular genotype-phenotype map. The test is applied to QTL data on the mouse mandible. The results provide statistical support for the notion that the ascending ramus region of the mandible is modularized. A data set comprising the effects of QTL on a more extensive portion of the phenotype is required to determine if the alveolar region of the mandible is also modularized.
Among mammals, the extent of placental invasion is correlated with vulnerability to malignancy. A... more Among mammals, the extent of placental invasion is correlated with vulnerability to malignancy. Animals with more invasive placentation (e.g. humans) are more vulnerable to malignancy, whereas animals with a non-invasive placenta (e.g. ruminants) are less likely to develop malignant cancer. To explain this correlation, we propose the hypothesis ofEvolved Levels of Invasibility(ELI) positing that the permissiveness of stromal tissue to invasion is a unitary character affecting both placental and cancer invasion. We provide evidence for this hypothesis by contrasting invasion of human and bovine cancer and placental cells into a lawn of stromal cells from different species. We find that both bovine endometrial and skin fibroblasts are more resistant to invasion of placental and cancer cells than their human counterparts. Gene expression profiling identified genes with high expression in human but not bovine fibroblasts. Knocking down of a subset of them in human fibroblasts leads to s...
Inflammation contributes to nearly 4 million global premature births annually. Here, we used a mo... more Inflammation contributes to nearly 4 million global premature births annually. Here, we used a mouse model of intrauterine inflammation to test clinically used formulations, as well as engineered nanoformulations, for the prevention of preterm birth (PTB). We observed that neither systemic 17a-hydroxyprogesterone caproate (Makena) nor vaginal progesterone gel (Crinone) was sufficient to prevent inflammation-induced PTB, consistent with recent clinical trial failures. However, we found that vaginal delivery of mucoinert nanosuspensions of histone deacetylase (HDAC) inhibitors, in some cases with the addition of progesterone, prevented PTB and resulted in delivery of live pups exhibiting neurotypical development. In human myometrial cells in vitro, the P4/HDAC inhibitor combination both inhibited cell contractility and promoted the anti-inflammatory action of P4 by increasing progesterone receptor B stability. Here, we demonstrate the use of vaginally delivered drugs to prevent intrau...
Males have evolved species-specifical sperm morphology and swimming patterns to adapt to differen... more Males have evolved species-specifical sperm morphology and swimming patterns to adapt to different fertilization environments. In eutherians, only a small fraction of the sperm overcome the diverse obstacles in the female reproductive tract and successfully migrate to the fertilizing site. Sperm arriving at the fertilizing site show hyperactivated motility, a unique motility pattern displaying asymmetric beating of sperm flagella with increased amplitude. This motility change is triggered by Ca2+ influx through the sperm-specific ion channel, CatSper. However, the current understanding of the CatSper function and its molecular regulation is limited in eutherians. Here, we report molecular evolution and conservation of the CatSper channel in the genome throughout eutherians and marsupials. Sequence analyses reveal that CatSper proteins are slowly evolved in marsupials. Using an American marsupial, gray short-tailed opossum (Monodelphis domestica), we demonstrate the expression of Cat...
Synopsis Embryo implantation is a hallmark of the female reproductive biology of eutherian (place... more Synopsis Embryo implantation is a hallmark of the female reproductive biology of eutherian (placental) mammals and does not exist in a sustainable form in any other vertebrate group. Implantation is the initial process that leads to a sustained fetal-maternal unit engendering a complex functional relationship between the mother and the embryo/fetus. The nature of this relationship is often portrayed as one of conflict between an aggressive embryo and a passive or defensive maternal organism. Recent progress in elucidating the evolutionary origin of eutherian pregnancy leads to a different picture. The emerging scenario suggests that the very initial stages in the evolution of embryo implantation required evolutionary changes to the maternal physiology which modified an ancestral generic mucosal inflammation in response to the presence of the embryo into an active embedding process. This “female-first” evolutionary scenario also explains the role of endometrial receptivity in human p...
Understanding the evolutionary role of environmentally-induced phenotypic variation (i.e., enviro... more Understanding the evolutionary role of environmentally-induced phenotypic variation (i.e., environmental plasticity) is an important issue in developmental evolution. One of the major physiological responses to environmental changes is cellular stress, which is counteracted by a generic stress reaction that detoxifies the cell, refolds proteins, and repairs DNA damage. In this paper, we elaborate on a previous finding suggesting that the cell differentiation cascade of human decidual stromal cells, a cell type critical for embryo implantation and the maintenance of pregnancy, evolved from a cellular stress reaction. We hypothesize that the stress reaction in these cells was elicited ancestrally through the inflammation caused by embryo attachment and invasion. We describe a model, Stress-Induced Evolutionary Innovation (SIEI), whereby ancestral stress reactions and their corresponding pathways can be transformed into novel structural components of body plans, such as new cell types. After reviewing similarities and differences between SIEI and the “plasticity first hypothesis” (PFH) of evolution, we argue that SIEI is a distinct form of plasticity-based evolutionary change because it leads to the origin of novel structures rather than the adaptive transformation of a pre-existing character.
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