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Huanel OR, Quesada-Calderón S, Ríos Molina C, Morales-González S, Saenz-Agudelo P, Nelson WA, Arakaki N, Mauger S, Faugeron S, Guillemin ML. Pre-domestication bottlenecks of the cultivated seaweed Gracilaria chilensis. Mol Ecol 2022; 31:5506-5523. [PMID: 36029170 DOI: 10.1111/mec.16672] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/15/2022] [Revised: 08/02/2022] [Accepted: 08/09/2022] [Indexed: 12/24/2022]
Abstract
Gracilaria chilensis is the main cultivated seaweed in Chile. The low genetic diversity observed in the Chilean populations has been associated with the over-exploitation of natural beds and/or the founder effect that occurred during post-glacial colonization from New Zealand. How these processes have affected its evolutionary trajectory before farming and incipient domestication is poorly understood. In this study, we used 2232 single nucleotide polymorphisms (SNPs) to assess how the species' evolutionary history in New Zealand (its region of origin), the founder effect linked to transoceanic dispersion and colonization of South America, and the recent over-exploitation of natural populations have influenced the genetic architecture of G. chilensis in Chile. The contrasting patterns of genetic diversity and structure observed between the two main islands in New Zealand attest to the important effects of Quaternary glacial cycles on G. chilensis. Approximate Bayesian Computation (ABC) analyses indicated that Chatham Island and South America were colonized independently near the end of the Last Glacial Maximum and emphasized the importance of coastal and oceanic currents during that period. Furthermore, ABC analyses inferred the existence of a recent and strong genetic bottleneck in Chile, matching the period of over-exploitation of the natural beds during the 1970s, followed by rapid demographic expansion linked to active clonal propagation used in farming. Recurrent genetic bottlenecks strongly eroded the genetic diversity of G. chilensis prior to its cultivation, raising important challenges for the management of genetic resources in this incipiently domesticated species.
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Affiliation(s)
- Oscar R Huanel
- Núcleo Milenio MASH, Facultad de Ciencias Biológicas, Pontificia Universidad Católica de Chile, Santiago, Chile.,IRL 3614 Evolutionary Biology and Ecology of Algae, CNRS, Sorbonne Université, Pontificia Universidad Católica de Chile, Universidad Austral de Chile, Roscoff, France
| | - Suany Quesada-Calderón
- Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, Valdivia, Chile.,AUSTRAL-omics, Vicerrectoría de Investigación, Desarrollo y Creación Artística, Universidad Austral de Chile, Valdivia, Chile
| | - Cristian Ríos Molina
- Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, Valdivia, Chile
| | - Sarai Morales-González
- Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, Valdivia, Chile
| | - Pablo Saenz-Agudelo
- IRL 3614 Evolutionary Biology and Ecology of Algae, CNRS, Sorbonne Université, Pontificia Universidad Católica de Chile, Universidad Austral de Chile, Roscoff, France.,Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, Valdivia, Chile.,ANID- Millennium Science Initiative Nucleus (NUTME), Las Cruces, Chile
| | - Wendy A Nelson
- National Institute of Water and Atmospheric Research, Wellington, New Zealand.,School of Biological Sciences, University of Auckland, Auckland, New Zealand
| | - Natalia Arakaki
- Instituto del Mar del Perú, Banco de Germoplasma de Organismos Acuáticos, Chucuito, Callao, Peru
| | - Stéphane Mauger
- IRL 3614 Evolutionary Biology and Ecology of Algae, CNRS, Sorbonne Université, Pontificia Universidad Católica de Chile, Universidad Austral de Chile, Roscoff, France
| | - Sylvain Faugeron
- Núcleo Milenio MASH, Facultad de Ciencias Biológicas, Pontificia Universidad Católica de Chile, Santiago, Chile.,IRL 3614 Evolutionary Biology and Ecology of Algae, CNRS, Sorbonne Université, Pontificia Universidad Católica de Chile, Universidad Austral de Chile, Roscoff, France
| | - Marie-Laure Guillemin
- IRL 3614 Evolutionary Biology and Ecology of Algae, CNRS, Sorbonne Université, Pontificia Universidad Católica de Chile, Universidad Austral de Chile, Roscoff, France.,Núcleo Milenio MASH, Instituto de Ciencias Ambientales y Evolutivas, Facultad de Ciencias, Universidad Austral de Chile, Valdivia, Chile
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Pinto C, Ibáñez MR, Loyola G, León L, Salvatore Y, González C, Barraza V, Castañeda F, Aldunate R, Contreras-Porcia L, Fuenzalida K, Bronfman FC. Characterization of an Agarophyton chilense Oleoresin Containing PPARγ Natural Ligands with Insulin-Sensitizing Effects in a C57Bl/6J Mouse Model of Diet-Induced Obesity and Antioxidant Activity in Caenorhabditis elegans. Nutrients 2021; 13:1828. [PMID: 34071972 PMCID: PMC8227508 DOI: 10.3390/nu13061828] [Citation(s) in RCA: 3] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 03/31/2021] [Revised: 05/19/2021] [Accepted: 05/20/2021] [Indexed: 12/27/2022] Open
Abstract
The biomedical potential of the edible red seaweed Agarophyton chilense (formerly Gracilaria chilensis) has not been explored. Red seaweeds are enriched in polyunsaturated fatty acids and eicosanoids, which are known natural ligands of the PPARγ nuclear receptor. PPARγ is the molecular target of thiazolidinediones (TZDs), drugs used as insulin sensitizers to treat type 2 diabetes mellitus. Medical use of TZDs is limited due to undesired side effects, a problem that has triggered the search for selective PPARγ modulators (SPPARMs) without the TZD side effects. We produced Agarophyton chilense oleoresin (Gracilex®), which induces PPARγ activation without inducing adipocyte differentiation, similar to SPPARMs. In a diet-induced obesity model of male mice, we showed that treatment with Gracilex® improves insulin sensitivity by normalizing altered glucose and insulin parameters. Gracilex® is enriched in palmitic acid, arachidonic acid, oleic acid, and lipophilic antioxidants such as tocopherols and β-carotene. Accordingly, Gracilex® possesses antioxidant activity in vitro and increased antioxidant capacity in vivo in Caenorhabditis elegans. These findings support the idea that Gracilex® represents a good source of natural PPARγ ligands and antioxidants with the potential to mitigate metabolic disorders. Thus, its nutraceutical value in humans warrants further investigation.
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Affiliation(s)
- Claudio Pinto
- Postgraduate Department, Faculty of Veterinary Sciences, Universidad Austral de Chile, Valdivia 5110566, Chile;
- Center for Aging and Regeneration (CARE), Department of Cellular and Molecular Biology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile
| | - María Raquel Ibáñez
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
- Institute of Biomedical Sciences (ICB), Faculty of Medicine, Universidad Andres Bello, Santiago 8320000, Chile
| | - Gloria Loyola
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
- Institute of Biomedical Sciences (ICB), Faculty of Medicine, Universidad Andres Bello, Santiago 8320000, Chile
| | - Luisa León
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
| | - Yasmin Salvatore
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
| | - Carla González
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
| | - Víctor Barraza
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
| | - Francisco Castañeda
- Department of Ecology and Biodiversity, Faculty of Life Sciences, Universidad Andres Bello, Santiago 8320000, Chile; (F.C.); (L.C.-P.)
- Quintay Marine Research Center (CIMARQ), Faculty of Life Sciences, Universidad Andres Bello, Valparaiso, Quintay 2480000, Chile
- Center of Applied Ecology and Sustainability (CAPES), Santiago 8331150, Chile
- Instituto Milenio en Socio-Ecología Costera (SECOS), Santiago 8370251, Chile
| | - Rebeca Aldunate
- Faculty of Sciences, School of Biotechnology, Universidad Santo Tomas, Santiago 8320000, Chile;
| | - Loretto Contreras-Porcia
- Department of Ecology and Biodiversity, Faculty of Life Sciences, Universidad Andres Bello, Santiago 8320000, Chile; (F.C.); (L.C.-P.)
- Quintay Marine Research Center (CIMARQ), Faculty of Life Sciences, Universidad Andres Bello, Valparaiso, Quintay 2480000, Chile
- Center of Applied Ecology and Sustainability (CAPES), Santiago 8331150, Chile
- Instituto Milenio en Socio-Ecología Costera (SECOS), Santiago 8370251, Chile
| | - Karen Fuenzalida
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
- Institute of Biomedical Sciences (ICB), Faculty of Medicine, Universidad Andres Bello, Santiago 8320000, Chile
| | - Francisca C. Bronfman
- Department of Physiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile, Santiago 8320000, Chile; (M.R.I.); (G.L.); (L.L.); (Y.S.); (C.G.); (V.B.)
- Institute of Biomedical Sciences (ICB), Faculty of Medicine, Universidad Andres Bello, Santiago 8320000, Chile
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