Your search keyword '"Pavličev M"' showing total 11 results

1. Genetic associations with gestational duration and spontaneous preterm birth

Author

Zhang, G. (Ge), Feenstra, B. (Bjarke), Bacelis, J. (Jonas), Liu, X. (Xueping), Muglia, L. M. (Lisa M.), Juodakis, J. (Julius), Miller, D. E. (Daniel E.), Litterman, N. (Nadia), Jiang, P.-P. (Pan-Pan), Russell, L. (Laura), Hinds, D. A. (David A.), Hu, Y. (Youna), Weirauch, M. T. (Matthew T.), Chen, X. (Xiaoting), Chavan, A. R. (Arun R.), Wagner, G. P. (Günter P.), Pavličev, M. (Mihaela), Nnamani, M. C. (Mauris C.), Maziarz, J. (Jamie), Karjalainen, M. K. (Minna K.), Rämet, M. (Mika), Sengpiel, V. (Verena), Geller, F. (Frank), Boyd, H. A. (Heather A.), Palotie, A. (Aarno), Momany, A. (Allison), Bedell, B. (Bruce), Ryckman, K. K. (Kelli K.), Huusko, J. M. (Johanna M.), Forney, C. R. (Carmy R.), Kottyan, L. C. (Leah C.), Hallman, M. (Mikko), Teramo, K. (Kari), Nohr, E. A. (Ellen A.), Smith, G. D. (George Davey), Melbye, M. (Mads), Jacobsson, B. (Bo), Muglia, L. J. (Louis J.), Zhang, G. (Ge), Feenstra, B. (Bjarke), Bacelis, J. (Jonas), Liu, X. (Xueping), Muglia, L. M. (Lisa M.), Juodakis, J. (Julius), Miller, D. E. (Daniel E.), Litterman, N. (Nadia), Jiang, P.-P. (Pan-Pan), Russell, L. (Laura), Hinds, D. A. (David A.), Hu, Y. (Youna), Weirauch, M. T. (Matthew T.), Chen, X. (Xiaoting), Chavan, A. R. (Arun R.), Wagner, G. P. (Günter P.), Pavličev, M. (Mihaela), Nnamani, M. C. (Mauris C.), Maziarz, J. (Jamie), Karjalainen, M. K. (Minna K.), Rämet, M. (Mika), Sengpiel, V. (Verena), Geller, F. (Frank), Boyd, H. A. (Heather A.), Palotie, A. (Aarno), Momany, A. (Allison), Bedell, B. (Bruce), Ryckman, K. K. (Kelli K.), Huusko, J. M. (Johanna M.), Forney, C. R. (Carmy R.), Kottyan, L. C. (Leah C.), Hallman, M. (Mikko), Teramo, K. (Kari), Nohr, E. A. (Ellen A.), Smith, G. D. (George Davey), Melbye, M. (Mads), Jacobsson, B. (Bo), and Muglia, L. J. (Louis J.)

Abstract

Background: Despite evidence that genetic factors contribute to the duration of gestation and the risk of preterm birth, robust associations with genetic variants have not been identified. We used large data sets that included the gestational duration to determine possible genetic associations. Methods: We performed a genomewide association study in a discovery set of samples obtained from 43,568 women of European ancestry using gestational duration as a continuous trait and term or preterm (<37 weeks) birth as a dichotomous outcome. We used samples from three Nordic data sets (involving a total of 8643 women) to test for replication of genomic loci that had significant genomewide association (P<5.0×10⁻⁸) or an association with suggestive significance (P<1.0×10⁻⁶) in the discovery set. Results: In the discovery and replication data sets, four loci (EBF1, EEFSEC, AGTR2, and WNT4) were significantly associated with gestational duration. Functional analysis showed that an implicated variant in WNT4 alters the binding of the estrogen receptor. The association between variants in ADCY5 and RAP2C and gestational duration had suggestive significance in the discovery set and significant evidence of association in the replication sets; these variants also showed genomewide significance in a joint analysis. Common variants in EBF1, EEFSEC, and AGTR2 showed association with preterm birth with genomewide significance. An analysis of mother–infant dyads suggested that these variants act at the level of the maternal genome. Conclusions: In this genomewide association study, we found that variants at the EBF1, EEFSEC, AGTR2, WNT4, ADCY5, and RAP2C loci were associated with gestational duration and variants at the EBF1, EEFSEC, and AGTR2 loci with preterm birth. Previously established roles of these genes in uterine development, maternal nutrition, and vascular control support their mechanistic involvement. (Funded by the March of Dimes and others.)

Published

2017

2. Genetic Associations with Gestational Duration and Spontaneous Preterm Birth

Author

Zhang, G., Feenstra, B., Bacelis, J., Liu, X., Muglia, L. M., Juodakis, J., Miller, D. E., Litterman, N., Jiang, P. P., Russell, L., Hinds, D. A., Hu, Y., Weirauch, M. T., Chen, X., Chavan, A. R., Wagner, G. P., Pavličev, M., Nnamani, M. C., Maziarz, J., Karjalainen, M. K., Rämet, M., Sengpiel, V., Geller, F., Boyd, H. A., Palotie, A., Momany, A., Bedell, B., Ryckman, K. K., Huusko, J. M., Forney, C. R., Kottyan, L. C., Hallman, M., Teramo, K., Nohr, E. A., Smith, G. Davey, Melbye, M., Jacobsson, B., Muglia, L. J., Zhang, G., Feenstra, B., Bacelis, J., Liu, X., Muglia, L. M., Juodakis, J., Miller, D. E., Litterman, N., Jiang, P. P., Russell, L., Hinds, D. A., Hu, Y., Weirauch, M. T., Chen, X., Chavan, A. R., Wagner, G. P., Pavličev, M., Nnamani, M. C., Maziarz, J., Karjalainen, M. K., Rämet, M., Sengpiel, V., Geller, F., Boyd, H. A., Palotie, A., Momany, A., Bedell, B., Ryckman, K. K., Huusko, J. M., Forney, C. R., Kottyan, L. C., Hallman, M., Teramo, K., Nohr, E. A., Smith, G. Davey, Melbye, M., Jacobsson, B., and Muglia, L. J.

Abstract

BACKGROUND: Despite evidence that genetic factors contribute to the duration of gestation and the risk of preterm birth, robust associations with genetic variants have not been identified. We used large data sets that included the gestational duration to determine possible genetic associations. METHODS: We performed a genomewide association study in a discovery set of samples obtained from 43,568 women of European ancestry using gestational duration as a continuous trait and term or preterm (<37 weeks) birth as a dichotomous outcome. We used samples from three Nordic data sets (involving a total of 8643 women) to test for replication of genomic loci that had significant genomewide association (P<5.0×10−8) or an association with suggestive significance (P<1.0×10−6) in the discovery set. RESULTS: In the discovery and replication data sets, four loci (EBF1, EEFSEC, AGTR2, and WNT4) were significantly associated with gestational duration. Functional analysis showed that an implicated variant in WNT4 alters the binding of the estrogen receptor. The association between variants in ADCY5 and RAP2C and gestational duration had suggestive significance in the discovery set and significant evidence of association in the replication sets; these variants also showed genomewide significance in a joint analysis. Common variants in EBF1, EEFSEC, and AGTR2 showed association with preterm birth with genomewide significance. An analysis of mother–infant dyads suggested that these variants act at the level of the maternal genome. CONCLUSIONS: In this genomewide association study, we found that variants at the EBF1, EEFSEC, AGTR2, WNT4, ADCY5, and RAP2C loci were associated with gestational duration and variants at the EBF1, EEFSEC, and AGTR2 loci with preterm birth. Previously established roles of these genes in uterine development, maternal nutrition, and vascular control support their mechanistic involvement.

Published

2017

3. General principles of biological hierarchical systems

Author

Allmon, WD, Angielczyk, KD, Brett, CE, Eldredge, N, Caianiello, S, Caponi, G, Cooper, GJ, El-Hani, CN, Elliott, TA, Gregory, TR, Lieberman, BS, Linquist, S, McKinney, ML, McShea, DW, Miller, AI, Miller III, W, Nunes-Neto, NF, Parravicini, A, Pavličev, M, Pievani, T, Prum, RO, Roopnarine, PD, Serrelli, E, Tëmkin, I, Tomlinson, G, Umerez, J, Wagner, GP, Zaffos, A, Allmon, WD, Angielczyk, KD, Brett, CE, Eldredge, N, Caianiello, S, Caponi, G, Cooper, GJ, El-Hani, CN, Elliott, TA, Gregory, TR, Lieberman, BS, Linquist, S, McKinney, ML, McShea, DW, Miller, AI, Miller III, W, Nunes-Neto, NF, Parravicini, A, Pavličev, M, Pievani, T, Prum, RO, Roopnarine, PD, Serrelli, E, Tëmkin, I, Tomlinson, G, Umerez, J, Wagner, GP, and Zaffos, A

Abstract

The hierarchy theory of evolution is ontologically committed to the existence of inherent nested hierarchies in nature and attempts to explain natural phenomena as a product of complex dynamics of biological systems in the context of scaling. The hierarchy theory of evolution adopts a model of two interconnected systems, corresponding to the dynamic and the informational aspects of life: (1) the economic, or ecological, compositional nested hierarchy that captures for dynamic interactions of entities within and across levels through upward and downward causation and (2) the genealogical, or reproductive, nested compositional hierarchy, which reflects the historical nature of biological systems stemming from the unidirectional control of information flow. Most generally, the economic and genealogical hierarchies represent, respectively, the spatial and temporal dimensions of the organic realm. Importantly, drawing an explicit distinction between the two types of hierarchies allows for elucidating causal relationships between them.

Published

2016

4. Ecology and evolution: neither separate nor merged

Author

Allmon, WD, Angielczyk, KD, Brett, CE, Eldredge, N, Caianiello, S, Caponi, G, Cooper, GJ, El-Hani, CN, Elliott, TA, Gregory, TR, Lieberman, BS, Linquist, S, McKinney, ML, McShea, DW, Miller, AI, Miller III, W, Nunes-Neto, NF, Parravicini, A, Pavličev, M, Pievani, T, Prum, RO, Roopnarine, PD, Serrelli, E, Tëmkin, I, Tomlinson, G, Umerez, J, Wagner, GP, Zaffos, A, Allmon, WD, Angielczyk, KD, Brett, CE, Eldredge, N, Caianiello, S, Caponi, G, Cooper, GJ, El-Hani, CN, Elliott, TA, Gregory, TR, Lieberman, BS, Linquist, S, McKinney, ML, McShea, DW, Miller, AI, Miller III, W, Nunes-Neto, NF, Parravicini, A, Pavličev, M, Pievani, T, Prum, RO, Roopnarine, PD, Serrelli, E, Tëmkin, I, Tomlinson, G, Umerez, J, Wagner, GP, and Zaffos, A

Abstract

Hierarchy theory—conveniently acknowledged, generalized, expanded in time and taxonomical scope, and modified—is a standing candidate framework for the multiscale integration of ecology and evolution. In hierarchy theory, ecology continues to be a science of physical and chemical flows and cycles, a science of energy and matter transfers, a science of codetermination between biotic and abiotic (weather, soil, nutrients, geology) factors. In the dual hierarchy framework, ecology is, more generally, the science of interactions. A key methodological innovation in conceiving these interactions is network theory. The hierarchy perspective integrates ecology and evolution by studying and modeling how interactions determine a change in information content (the evolutionary hierarchy)

Published

2016

5. Information and energy in biological hierarchical systems

Author

Allmon, WD, Angielczyk, KD, Brett, CE, Eldredge, N, Caianiello, S, Caponi, G, Cooper, GJ, El-Hani, CN, Elliott, TA, Gregory, TR, Lieberman, BS, Linquist, S, McKinney, ML, McShea, DW, Miller, AI, Miller III, W, Nunes-Neto, NF, Parravicini, A, Pavličev, M, Pievani, T, Prum, RO, Roopnarine, PD, Serrelli, E, Tëmkin, I, Tomlinson, G, Umerez, J, Wagner, GP, Zaffos, A, Allmon, WD, Angielczyk, KD, Brett, CE, Eldredge, N, Caianiello, S, Caponi, G, Cooper, GJ, El-Hani, CN, Elliott, TA, Gregory, TR, Lieberman, BS, Linquist, S, McKinney, ML, McShea, DW, Miller, AI, Miller III, W, Nunes-Neto, NF, Parravicini, A, Pavličev, M, Pievani, T, Prum, RO, Roopnarine, PD, Serrelli, E, Tëmkin, I, Tomlinson, G, Umerez, J, Wagner, GP, and Zaffos, A

Abstract

We propose a substantive, admittedly restricted, notion of information that pertains to explaining biological evolution by satisfying the following criteria: the information must (1) have material basis, so it can be stored; (2) be amenable to copying (replicating); (3) be interpretable in the economic context of energy and matter flow (i.e., capable of eliciting a discriminating outcome when used); and (4) be distributed across levels of the genealogical hierarchy. Energy, or the capacity of a physical system to perform work, is a principal causal agent in evolution because the fluctuations in the flow of energy and matter through the entities in the economic hierarchy are causally responsible for the survival and differential propagation of the entities in the genealogical hierarchy of replicators, thus channeling or disrupting the flow of information that shapes the historical pattern of life.

Published

2016

6. Hallmarks of uterine receptivity predate placental mammals.

Author

Basanta S, Stadtmauer DJ, Maziarz JD, McDonough-Goldstein CE, Cole AG, Dagdas G, Wagner GP, and Pavličev M

Abstract

Embryo implantation requires tightly coordinated signaling between the blastocyst and the endometrium, and is crucial for the establishment of a uteroplacental unit that persists until term in eutherian mammals. In contrast, marsupials, with a unique life cycle and short gestation, make only brief fetal-maternal contact and lack implantation. To better understand the evolutionary link between eutherian implantation and its ancestral equivalent in marsupials, we compare single-cell transcriptomes from the receptive and non-receptive endometrium of the mouse and guinea pig with that of the opossum, a marsupial. We identify substantial differences between rodent peri-implantation endometrium and opossum placental attachment, including differences in the diversity and abundance of stromal and epithelial cells which parallel the difference between histotrophic and hemotrophic provisioning strategies. We also identify a window of conserved epithelial gene expression between the opossum shelled blastocyst stage and rodent peri-implantation, including IHH and LIF . We find strong conservation of blastocyst proteases, steroid synthetases, Wnt and BMP signals between eutherians and the opossum despite its lack of implantation. Finally, we show that the signaling repertoire of the maternal uterine epithelium during implantation displays substantial overlap with that of the post-implantation placental trophoblast, suggesting that the fetal trophoblast can compensate for the loss of endometrial epithelium in eutherian invasive placentation. Together, our results suggest that eutherian implantation primarily involved the re-wiring of maternal signaling networks, some of which were already present in the therian ancestor, and points towards an essential role of maternal innovations in the evolution of invasive placentation.

Published

2024

7. Cell type and cell signaling innovations underlying mammalian pregnancy.

Author

Stadtmauer DJ, Basanta Martínez S, Maziarz JD, Cole AG, Dagdas G, Smith GR, van Breukelen F, Pavličev M, and Wagner GP

Abstract

How fetal and maternal cell types have co-evolved to enable mammalian placentation poses a unique evolutionary puzzle. Here, we present a multi-species atlas integrating single-cell transcriptomes from six species bracketing therian mammal diversity. We find that invasive trophoblasts share a gene-expression signature across eutherians, and evidence that endocrine decidual cells evolved stepwise from an immunomodulatory cell type retained in Tenrec with affinity to human decidua of menstruation. We recover evolutionary patterns in ligand-receptor signaling: fetal and maternal cells show a pronounced tendency towards disambiguation, but a predicted arms race dynamic between them is limited. We reconstruct cell communication networks of extinct mammalian ancestors, finding strong integration of fetal trophoblast into maternal networks. Together, our results reveal a dynamic history of cell type and signaling evolution., Synopsis: The fetal-maternal interface is one of the most intense loci of cell-cell signaling in the human body. Invasion of cells from the fetal placenta into the uterus, and the corresponding transformation of maternal tissues called decidualization, first evolved in the stem lineage of eutherian mammals( 1 , 2 ). Single-cell studies of the human fetal-maternal interface have provided new insight into the cell type diversity and cell-cell interactions governing this chimeric organ( 3-5 ). However, the fetal-maternal interface is also one of the most rapidly evolving, and hence most diverse, characters among mammals( 6 ), and an evolutionary analysis is missing. Here, we present and compare single-cell data from the fetal-maternal interface of species bracketing key events in mammal phylogeny: a marsupial (opossum, Monodelphis domestica ), the afrotherian Tenrec ecaudatus, and four Euarchontoglires - guinea pig and mouse (Rodentia) together with recent macaque and human data (primates) ( 4 , 5 , 7 ). We infer cell type homologies, identify a gene-expression signature of eutherian invasive trophoblast conserved over 99 million years, and discover a predecidual cell in the tenrec which suggests stepwise evolution of the decidual stromal cell. We reconstruct ancestral cell signaling networks, revealing the integration of fetal cell types into the interface. Finally, we test two long-standing theoretical predictions, the disambiguation hypothesis( 8 ) and escalation hypothesis( 9 ), at transcriptome-wide scale, finding divergence between fetal and maternal signaling repertoires but arms race dynamics restricted to a small subset of ligand-receptor pairs. In so doing, we trace the co-evolutionary history of cell types and their signaling across mammalian viviparity.

Published

2024

8. A common allele increases endometrial Wnt4 expression, with antagonistic implications for pregnancy, reproductive cancers, and endometriosis.

Author

Pavličev M, McDonough-Goldstein CE, Zupan AM, Muglia L, Hu YC, Kong F, Monangi N, Dagdas G, Zupančič N, Maziarz J, Sinner D, Zhang G, Wagner G, and Muglia L

Subjects

Pregnancy, Female, Humans, Animals, Mice, Alleles, Endometrium metabolism, Estrogens metabolism, Wnt4 Protein genetics, Endometriosis genetics, Endometriosis metabolism, Neoplasms genetics

Abstract

The common human SNP rs3820282 is associated with multiple phenotypes including gestational length and likelihood of endometriosis and cancer, presenting a paradigmatic pleiotropic variant. Deleterious pleiotropic mutations cause the co-occurrence of disorders either within individuals, or across population. When adverse and advantageous effects are combined, pleiotropy can maintain high population frequencies of deleterious alleles. To reveal the causal molecular mechanisms of this pleiotropic SNP, we introduced this substitution into the mouse genome by CRISPR/Cas 9. Previous work showed that rs3820282 introduces a high-affinity estrogen receptor alpha-binding site at the Wnt4 locus. Here, we show that this mutation upregulates Wnt4 transcription in endometrial stroma, following the preovulatory estrogen peak. Effects on uterine transcription include downregulation of epithelial proliferation and induction of progesterone-regulated pro-implantation genes. We propose that these changes increase uterine permissiveness to embryo invasion, whereas they decrease resistance to invasion by cancer and endometriotic foci in other estrogen-responsive tissues., (© 2024. The Author(s).)

Published

2024

9. The value of broad taxonomic comparisons in evolutionary medicine: Disease is not a trait but a state of a trait !

Author

Pavličev M and Wagner GP

Abstract

In this short paper, we argue that there is a fundamental connection between the medical sciences and evolutionary biology as both are sciences of biological variation. Medicine studies pathological variation among humans (and domestic animals in veterinary medicine) and evolutionary biology studies variation within and among species in general. A key principle of evolutionary biology is that genetic differences among species have arisen first from mutations originating within populations. This implies a mechanistic continuity between variation among individuals within a species and variation between species. This fact motivates research that seeks to leverage comparisons among species to unravel the genetic basis of human disease vulnerabilities. This view also implies that genetically caused diseases can be understood as extreme states of an underlying trait, that is, an axis of variation, rather than distinct traits, as often assumed in GWAS studies. We illustrate these points with a number of examples as diverse as anatomical birth defects, cranio-facial variation, preeclampsia and vulnerability to metastatic cancer., Competing Interests: Coauthor GPW is an editorial board member of MedComm. GPW was not involved in the journal's review of, or decisions related to, this manuscript. MP declares no conflict of interest., (© 2022 The Authors. MedComm published by Sichuan International Medical Exchange & Promotion Association (SCIMEA) and John Wiley & Sons Australia, Ltd.)

Published

2022

10. Pregnant Females as Historical Individuals: An Insight From the Philosophy of Evo-Devo.

Author

Nuño de la Rosa L, Pavličev M, and Etxeberria A

Abstract

Criticisms of the "container" model of pregnancy picturing female and embryo as separate entities multiply in various philosophical and scientific contexts during the last decades. In this paper, we examine how this model underlies received views of pregnancy in evolutionary biology, in the characterization of the transition from oviparity to viviparity in mammals and in the selectionist explanations of pregnancy as an evolutionary strategy. In contrast, recent evo-devo studies on eutherian reproduction, including the role of inflammation and new maternal cell types, gather evidence in favor of considering pregnancy as an evolved relational novelty. Our thesis is that from this perspective we can identify the emergence of a new historical individual in evolution. In evo-devo, historical units are conceptualized as evolved entities which fulfill two main criteria, their continuous persistence and their non-exchangeability. As pregnancy can be individuated in this way, we contend that pregnant females are historical individuals. We argue that historical individuality differs from, and coexists with, other views of biological individuality as applied to pregnancy (the physiological, the evolutionary and the ecological one), but brings forward an important new insight which might help dissolve misguided conceptions., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.The handling editor declared a shared research project with one of the authors LN at time of review., (Copyright © 2021 Nuño de la Rosa, Pavličev and Etxeberria.)

Published

2021

11. Single-cell transcriptomics of the human placenta: inferring the cell communication network of the maternal-fetal interface.

Author

Pavličev M, Wagner GP, Chavan AR, Owens K, Maziarz J, Dunn-Fletcher C, Kallapur SG, Muglia L, and Jones H

Subjects

Cell Line, Cells, Cultured, Decidua cytology, Female, Humans, Pregnancy, Receptors, G-Protein-Coupled genetics, Receptors, G-Protein-Coupled metabolism, Signal Transduction, Single-Cell Analysis, Up-Regulation, Cell Communication, Decidua metabolism, Maternal-Fetal Exchange, Transcriptome

Abstract

Organismal function is, to a great extent, determined by interactions among their fundamental building blocks, the cells. In this work, we studied the cell-cell interactome of fetal placental trophoblast cells and maternal endometrial stromal cells, using single-cell transcriptomics. The placental interface mediates the interaction between two semiallogenic individuals, the mother and the fetus, and is thus the epitome of cell interactions. To study these, we inferred the cell-cell interactome by assessing the gene expression of receptor-ligand pairs across cell types. We find a highly cell-type-specific expression of G-protein-coupled receptors, implying that ligand-receptor profiles could be a reliable tool for cell type identification. Furthermore, we find that uterine decidual cells represent a cell-cell interaction hub with a large number of potential incoming and outgoing signals. Decidual cells differentiate from their precursors, the endometrial stromal fibroblasts, during uterine preparation for pregnancy. We show that decidualization (even in vitro) enhances the ability to communicate with the fetus, as most of the receptors and ligands up-regulated during decidualization have their counterpart expressed in trophoblast cells. Among the signals transmitted, growth factors and immune signals dominate, and suggest a delicate balance of enhancing and suppressive signals. Finally, this study provides a rich resource of gene expression profiles of term intravillous and extravillous trophoblasts, including the transcriptome of the multinucleated syncytiotrophoblast., (© 2017 Pavličev et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2017