A pan-metazoan concept for adult stem cells: the wobbling Penrose landscape

Baruch Rinkevich; Loriano Ballarin; Pedro Martinez; Ildiko Somorjai; Oshrat Ben-Hamo; Ilya Borisenko; Eugene Berezikov; Alexander Ereskovsky; Eve Gazave; Denis Khnykin; Lucia Manni; Olga Petukhova; Amalia Rosner; Eric Röttinger; Antonietta Spagnuolo; Michela Sugni; Stefano Tiozzo; Bert Hobmayer

doi:10.1111/brv.12801

A pan-metazoan concept for adult stem cells: the wobbling Penrose landscape

Baruch Rinkevich, Loriano Ballarin, Pedro Martinez, Ildiko Somorjai, Oshrat Ben-Hamo, Ilya Borisenko, Eugene Berezikov, Alexander Ereskovsky, Eve Gazave, Denis Khnykin, Lucia Manni, Olga Petukhova, Amalia Rosner, Eric Röttinger, Antonietta Spagnuolo, Michela Sugni, Stefano Tiozzo, Bert Hobmayer

Research output: Contribution to journal › Article › peer-review

Abstract

Adult stem cells (ASCs) in vertebrates and model invertebrates (e.g. Drosophila melanogaster) are typically long-lived, lineage-restricted, clonogenic and quiescent cells with somatic descendants and tissue/organ-restricted activities. Such ASCs are mostly rare, morphologically undifferentiated, and undergo asymmetric cell division. Characterized by ‘stemness’ gene expression, they can regulate tissue/organ homeostasis, repair and regeneration. By contrast, analysis of other animal phyla shows that ASCs emerge at different life stages, present both differentiated and undifferentiated phenotypes, and may possess amoeboid movement. Usually pluri/totipotent, they may express germ-cell markers, but often lack germ-line sequestering, and typically do not reside in discrete niches. ASCs may constitute up to 40% of animal cells, and participate in a range of biological phenomena, from whole-body regeneration, dormancy, and agametic asexual reproduction, to indeterminate growth. They are considered legitimate units of selection. Conceptualizing this divergence, we present an alternative stemness metaphor to the Waddington landscape: the ‘wobbling Penrose’ landscape. Here, totipotent ASCs adopt ascending/descending courses of an ‘Escherian stairwell’, in a lifelong totipotency pathway. ASCs may also travel along lower stemness echelons to reach fully differentiated states. However, from any starting state, cells can change their stemness status, underscoring their dynamic cellular potencies. Thus, vertebrate ASCs may reflect just one metazoan ASC archetype.

Original language	English
Pages (from-to)	299-325
Number of pages	27
Journal	Biological Reviews
Volume	97
Issue number	1
DOIs	https://doi.org/10.1111/brv.12801
State	Published - Feb 2022
Externally published	Yes

Bibliographical note

Funding Information:
This study is based upon work from COST Action 16203 ‘Stem cells of marine/aquatic invertebrates: from basic research to innovative applications’ (MARISTEM), supported by COST (European Cooperation in Science and Technology). The idea for this review was initially discussed by the Action core group (B. R., B. H., L. B., P. M., I. S.) and developed during a specific workshop entitled ‘Adult stem cells (ASC) from marine/aquatic invertebrates’ held at the Obergurgl Center of the University of Innsbruck from March 29 to 31, 2019. B. R. is supported by a grant from the United States‐Israel Binational Science Foundation (BSF no. 2015012), Jerusalem, Israel. E. R. is supported by funding from the French Government (National Research Agency, ANR) through the ‘Investments for the Future’ programs IDEX UCAJedi (ANR‐15‐IDEX‐01) as well as the grant RENEW (ANR‐19‐PRC). B. H. is supported by the Marie Skłodowska‐Curie COFUND program ARDRE ‘Ageing, Regeneration and Drug Research’ (research grant nr. 847681).

Funding Information:
IX This study is based upon work from COST Action 16203 ?Stem cells of marine/aquatic invertebrates: from basic research to innovative applications? (MARISTEM), supported by COST (European Cooperation in Science and Technology). The idea for this review was initially discussed by the Action core group (B. R., B. H., L. B., P. M., I. S.) and developed during a specific workshop entitled ?Adult stem cells (ASC) from marine/aquatic invertebrates? held at the Obergurgl Center of the University of Innsbruck from March 29 to 31, 2019. B. R. is supported by a grant from the United States-Israel Binational Science Foundation (BSF no. 2015012), Jerusalem, Israel. E. R. is supported by funding from the French Government (National Research Agency, ANR) through the ?Investments for the Future? programs IDEX UCAJedi (ANR-15-IDEX-01) as well as the grant RENEW (ANR-19-PRC). B. H. is supported by the Marie Sk?odowska-Curie COFUND program ARDRE ?Ageing, Regeneration and Drug Research? (research grant nr. 847681).

Publisher Copyright:
© 2021 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology (all)
Agricultural and Biological Sciences (all)

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10.1111/brv.12801

Cite this

Rinkevich, B., Ballarin, L., Martinez, P., Somorjai, I., Ben-Hamo, O., Borisenko, I., Berezikov, E., Ereskovsky, A., Gazave, E., Khnykin, D., Manni, L., Petukhova, O., Rosner, A., Röttinger, E., Spagnuolo, A., Sugni, M., Tiozzo, S., & Hobmayer, B. (2022). A pan-metazoan concept for adult stem cells: the wobbling Penrose landscape. Biological Reviews, 97(1), 299-325. https://doi.org/10.1111/brv.12801

@article{049a9dca225a4687bb1ad14fb077c5ea,

title = "A pan-metazoan concept for adult stem cells: the wobbling Penrose landscape",

abstract = "Adult stem cells (ASCs) in vertebrates and model invertebrates (e.g. Drosophila melanogaster) are typically long-lived, lineage-restricted, clonogenic and quiescent cells with somatic descendants and tissue/organ-restricted activities. Such ASCs are mostly rare, morphologically undifferentiated, and undergo asymmetric cell division. Characterized by {\textquoteleft}stemness{\textquoteright} gene expression, they can regulate tissue/organ homeostasis, repair and regeneration. By contrast, analysis of other animal phyla shows that ASCs emerge at different life stages, present both differentiated and undifferentiated phenotypes, and may possess amoeboid movement. Usually pluri/totipotent, they may express germ-cell markers, but often lack germ-line sequestering, and typically do not reside in discrete niches. ASCs may constitute up to 40% of animal cells, and participate in a range of biological phenomena, from whole-body regeneration, dormancy, and agametic asexual reproduction, to indeterminate growth. They are considered legitimate units of selection. Conceptualizing this divergence, we present an alternative stemness metaphor to the Waddington landscape: the {\textquoteleft}wobbling Penrose{\textquoteright} landscape. Here, totipotent ASCs adopt ascending/descending courses of an {\textquoteleft}Escherian stairwell{\textquoteright}, in a lifelong totipotency pathway. ASCs may also travel along lower stemness echelons to reach fully differentiated states. However, from any starting state, cells can change their stemness status, underscoring their dynamic cellular potencies. Thus, vertebrate ASCs may reflect just one metazoan ASC archetype.",

author = "Baruch Rinkevich and Loriano Ballarin and Pedro Martinez and Ildiko Somorjai and Oshrat Ben-Hamo and Ilya Borisenko and Eugene Berezikov and Alexander Ereskovsky and Eve Gazave and Denis Khnykin and Lucia Manni and Olga Petukhova and Amalia Rosner and Eric R{\"o}ttinger and Antonietta Spagnuolo and Michela Sugni and Stefano Tiozzo and Bert Hobmayer",

note = "Funding Information: This study is based upon work from COST Action 16203 {\textquoteleft}Stem cells of marine/aquatic invertebrates: from basic research to innovative applications{\textquoteright} (MARISTEM), supported by COST (European Cooperation in Science and Technology). The idea for this review was initially discussed by the Action core group (B. R., B. H., L. B., P. M., I. S.) and developed during a specific workshop entitled {\textquoteleft}Adult stem cells (ASC) from marine/aquatic invertebrates{\textquoteright} held at the Obergurgl Center of the University of Innsbruck from March 29 to 31, 2019. B. R. is supported by a grant from the United States‐Israel Binational Science Foundation (BSF no. 2015012), Jerusalem, Israel. E. R. is supported by funding from the French Government (National Research Agency, ANR) through the {\textquoteleft}Investments for the Future{\textquoteright} programs IDEX UCAJedi (ANR‐15‐IDEX‐01) as well as the grant RENEW (ANR‐19‐PRC). B. H. is supported by the Marie Sk{\l}odowska‐Curie COFUND program ARDRE {\textquoteleft}Ageing, Regeneration and Drug Research{\textquoteright} (research grant nr. 847681). Funding Information: IX This study is based upon work from COST Action 16203 ?Stem cells of marine/aquatic invertebrates: from basic research to innovative applications? (MARISTEM), supported by COST (European Cooperation in Science and Technology). The idea for this review was initially discussed by the Action core group (B. R., B. H., L. B., P. M., I. S.) and developed during a specific workshop entitled ?Adult stem cells (ASC) from marine/aquatic invertebrates? held at the Obergurgl Center of the University of Innsbruck from March 29 to 31, 2019. B. R. is supported by a grant from the United States-Israel Binational Science Foundation (BSF no. 2015012), Jerusalem, Israel. E. R. is supported by funding from the French Government (National Research Agency, ANR) through the ?Investments for the Future? programs IDEX UCAJedi (ANR-15-IDEX-01) as well as the grant RENEW (ANR-19-PRC). B. H. is supported by the Marie Sk?odowska-Curie COFUND program ARDRE ?Ageing, Regeneration and Drug Research? (research grant nr. 847681). Publisher Copyright: {\textcopyright} 2021 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.",

year = "2022",

month = feb,

doi = "10.1111/brv.12801",

language = "English",

volume = "97",

pages = "299--325",

journal = "Biological Reviews",

issn = "1464-7931",

publisher = "Wiley-Blackwell",

number = "1",

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Rinkevich, B, Ballarin, L, Martinez, P, Somorjai, I, Ben-Hamo, O, Borisenko, I, Berezikov, E, Ereskovsky, A, Gazave, E, Khnykin, D, Manni, L, Petukhova, O, Rosner, A, Röttinger, E, Spagnuolo, A, Sugni, M, Tiozzo, S & Hobmayer, B 2022, 'A pan-metazoan concept for adult stem cells: the wobbling Penrose landscape', Biological Reviews, vol. 97, no. 1, pp. 299-325. https://doi.org/10.1111/brv.12801

TY - JOUR

T1 - A pan-metazoan concept for adult stem cells

T2 - the wobbling Penrose landscape

AU - Rinkevich, Baruch

AU - Ballarin, Loriano

AU - Martinez, Pedro

AU - Somorjai, Ildiko

AU - Ben-Hamo, Oshrat

AU - Borisenko, Ilya

AU - Berezikov, Eugene

AU - Ereskovsky, Alexander

AU - Gazave, Eve

AU - Khnykin, Denis

AU - Manni, Lucia

AU - Petukhova, Olga

AU - Rosner, Amalia

AU - Röttinger, Eric

AU - Spagnuolo, Antonietta

AU - Sugni, Michela

AU - Tiozzo, Stefano

AU - Hobmayer, Bert

N1 - Funding Information: This study is based upon work from COST Action 16203 ‘Stem cells of marine/aquatic invertebrates: from basic research to innovative applications’ (MARISTEM), supported by COST (European Cooperation in Science and Technology). The idea for this review was initially discussed by the Action core group (B. R., B. H., L. B., P. M., I. S.) and developed during a specific workshop entitled ‘Adult stem cells (ASC) from marine/aquatic invertebrates’ held at the Obergurgl Center of the University of Innsbruck from March 29 to 31, 2019. B. R. is supported by a grant from the United States‐Israel Binational Science Foundation (BSF no. 2015012), Jerusalem, Israel. E. R. is supported by funding from the French Government (National Research Agency, ANR) through the ‘Investments for the Future’ programs IDEX UCAJedi (ANR‐15‐IDEX‐01) as well as the grant RENEW (ANR‐19‐PRC). B. H. is supported by the Marie Skłodowska‐Curie COFUND program ARDRE ‘Ageing, Regeneration and Drug Research’ (research grant nr. 847681). Funding Information: IX This study is based upon work from COST Action 16203 ?Stem cells of marine/aquatic invertebrates: from basic research to innovative applications? (MARISTEM), supported by COST (European Cooperation in Science and Technology). The idea for this review was initially discussed by the Action core group (B. R., B. H., L. B., P. M., I. S.) and developed during a specific workshop entitled ?Adult stem cells (ASC) from marine/aquatic invertebrates? held at the Obergurgl Center of the University of Innsbruck from March 29 to 31, 2019. B. R. is supported by a grant from the United States-Israel Binational Science Foundation (BSF no. 2015012), Jerusalem, Israel. E. R. is supported by funding from the French Government (National Research Agency, ANR) through the ?Investments for the Future? programs IDEX UCAJedi (ANR-15-IDEX-01) as well as the grant RENEW (ANR-19-PRC). B. H. is supported by the Marie Sk?odowska-Curie COFUND program ARDRE ?Ageing, Regeneration and Drug Research? (research grant nr. 847681). Publisher Copyright: © 2021 The Authors. Biological Reviews published by John Wiley & Sons Ltd on behalf of Cambridge Philosophical Society.

PY - 2022/2

Y1 - 2022/2

N2 - Adult stem cells (ASCs) in vertebrates and model invertebrates (e.g. Drosophila melanogaster) are typically long-lived, lineage-restricted, clonogenic and quiescent cells with somatic descendants and tissue/organ-restricted activities. Such ASCs are mostly rare, morphologically undifferentiated, and undergo asymmetric cell division. Characterized by ‘stemness’ gene expression, they can regulate tissue/organ homeostasis, repair and regeneration. By contrast, analysis of other animal phyla shows that ASCs emerge at different life stages, present both differentiated and undifferentiated phenotypes, and may possess amoeboid movement. Usually pluri/totipotent, they may express germ-cell markers, but often lack germ-line sequestering, and typically do not reside in discrete niches. ASCs may constitute up to 40% of animal cells, and participate in a range of biological phenomena, from whole-body regeneration, dormancy, and agametic asexual reproduction, to indeterminate growth. They are considered legitimate units of selection. Conceptualizing this divergence, we present an alternative stemness metaphor to the Waddington landscape: the ‘wobbling Penrose’ landscape. Here, totipotent ASCs adopt ascending/descending courses of an ‘Escherian stairwell’, in a lifelong totipotency pathway. ASCs may also travel along lower stemness echelons to reach fully differentiated states. However, from any starting state, cells can change their stemness status, underscoring their dynamic cellular potencies. Thus, vertebrate ASCs may reflect just one metazoan ASC archetype.

AB - Adult stem cells (ASCs) in vertebrates and model invertebrates (e.g. Drosophila melanogaster) are typically long-lived, lineage-restricted, clonogenic and quiescent cells with somatic descendants and tissue/organ-restricted activities. Such ASCs are mostly rare, morphologically undifferentiated, and undergo asymmetric cell division. Characterized by ‘stemness’ gene expression, they can regulate tissue/organ homeostasis, repair and regeneration. By contrast, analysis of other animal phyla shows that ASCs emerge at different life stages, present both differentiated and undifferentiated phenotypes, and may possess amoeboid movement. Usually pluri/totipotent, they may express germ-cell markers, but often lack germ-line sequestering, and typically do not reside in discrete niches. ASCs may constitute up to 40% of animal cells, and participate in a range of biological phenomena, from whole-body regeneration, dormancy, and agametic asexual reproduction, to indeterminate growth. They are considered legitimate units of selection. Conceptualizing this divergence, we present an alternative stemness metaphor to the Waddington landscape: the ‘wobbling Penrose’ landscape. Here, totipotent ASCs adopt ascending/descending courses of an ‘Escherian stairwell’, in a lifelong totipotency pathway. ASCs may also travel along lower stemness echelons to reach fully differentiated states. However, from any starting state, cells can change their stemness status, underscoring their dynamic cellular potencies. Thus, vertebrate ASCs may reflect just one metazoan ASC archetype.

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A pan-metazoan concept for adult stem cells: the wobbling Penrose landscape

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Bibliographical note

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