Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx
Programmed cell death (PCD) is an essential process for the immune system's development and homeostasis, enabling the remotion of infected or unnecessary cells. There are several PCD's types, depending on the molecular mechanisms, such as non-inflammatory or pro-inflammatory. Hemocytes are...
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ftfrontimediafig:oai:figshare.com:article/14349047 2023-05-15T15:58:09+02:00 Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx Norma Estrada Erick J. Núñez-Vázquez Alejandra Palacios Felipe Ascencio Laura Guzmán-Villanueva Rubén G. Contreras 2021-04-01T04:22:50Z https://doi.org/10.3389/fimmu.2021.634497.s001 https://figshare.com/articles/dataset/Data_Sheet_1_In_vitro_Evaluation_of_Programmed_Cell_Death_in_the_Immune_System_of_Pacific_Oyster_Crassostrea_gigas_by_the_Effect_of_Marine_Toxins_docx/14349047 unknown doi:10.3389/fimmu.2021.634497.s001 https://figshare.com/articles/dataset/Data_Sheet_1_In_vitro_Evaluation_of_Programmed_Cell_Death_in_the_Immune_System_of_Pacific_Oyster_Crassostrea_gigas_by_the_Effect_of_Marine_Toxins_docx/14349047 CC BY 4.0 CC-BY Immunology Applied Immunology (incl. Antibody Engineering Xenotransplantation and T-cell Therapies) Autoimmunity Cellular Immunology Humoural Immunology and Immunochemistry Immunogenetics (incl. Genetic Immunology) Innate Immunity Transplantation Immunology Tumour Immunology Immunology not elsewhere classified Genetic Immunology Animal Immunology Veterinary Immunology programmed cell death marine toxins apoptosis pyroptosis-like bivalve mollusk Crassostrea gigas Dataset 2021 ftfrontimediafig https://doi.org/10.3389/fimmu.2021.634497.s001 2021-04-07T22:59:41Z Programmed cell death (PCD) is an essential process for the immune system's development and homeostasis, enabling the remotion of infected or unnecessary cells. There are several PCD's types, depending on the molecular mechanisms, such as non-inflammatory or pro-inflammatory. Hemocytes are the main component of cellular immunity in bivalve mollusks. Numerous infectious microorganisms produce toxins that impair hemocytes functions, but there is little knowledge on the role of PCD in these cells. This study aims to evaluate in vitro whether marine toxins induce a particular type of PCD in hemocytes of the bivalve mollusk Crassostrea gigas during 4 h at 25°C. Hemocytes were incubated with two types of marine toxins: non-proteinaceous toxins from microalgae (saxitoxin, STX; gonyautoxins 2 and 3, GTX2/3; okadaic acid/dynophysistoxin-1, OA/DTX-1; brevetoxins 2 and 3, PbTx-2,-3; brevetoxin 2, PbTx-2), and proteinaceous extracts from bacteria (Vibrio parahaemolyticus, Vp; V. campbellii, Vc). Also, we used the apoptosis inducers, staurosporine (STP), and camptothecin (CPT). STP, CPT, STX, and GTX 2/3, provoked high hemocyte mortality characterized by apoptosis hallmarks such as phosphatidylserine translocation into the outer leaflet of the cell membrane, exacerbated chromatin condensation, DNA oligonucleosomal fragments, and variation in gene expression levels of apoptotic caspases 2, 3, 7, and 8. The mixture of PbTx-2,-3 also showed many apoptosis features; however, they did not show apoptotic DNA oligonucleosomal fragments. Likewise, PbTx-2, OA/DTX-1, and proteinaceous extracts from bacteria Vp, and Vc, induced a minor degree of cell death with high gene expression of the pro-inflammatory initiator caspase-1, which could indicate a process of pyroptosis-like PCD. Hemocytes could carry out both PCD types simultaneously. Therefore, marine toxins trigger PCD's signaling pathways in C. gigas hemocytes, depending on the toxin's nature, which appears to be highly conserved both structurally and functionally. Dataset Crassostrea gigas Pacific oyster Frontiers: Figshare Pacific |
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Frontiers: Figshare |
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ftfrontimediafig |
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unknown |
topic |
Immunology Applied Immunology (incl. Antibody Engineering Xenotransplantation and T-cell Therapies) Autoimmunity Cellular Immunology Humoural Immunology and Immunochemistry Immunogenetics (incl. Genetic Immunology) Innate Immunity Transplantation Immunology Tumour Immunology Immunology not elsewhere classified Genetic Immunology Animal Immunology Veterinary Immunology programmed cell death marine toxins apoptosis pyroptosis-like bivalve mollusk Crassostrea gigas |
spellingShingle |
Immunology Applied Immunology (incl. Antibody Engineering Xenotransplantation and T-cell Therapies) Autoimmunity Cellular Immunology Humoural Immunology and Immunochemistry Immunogenetics (incl. Genetic Immunology) Innate Immunity Transplantation Immunology Tumour Immunology Immunology not elsewhere classified Genetic Immunology Animal Immunology Veterinary Immunology programmed cell death marine toxins apoptosis pyroptosis-like bivalve mollusk Crassostrea gigas Norma Estrada Erick J. Núñez-Vázquez Alejandra Palacios Felipe Ascencio Laura Guzmán-Villanueva Rubén G. Contreras Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx |
topic_facet |
Immunology Applied Immunology (incl. Antibody Engineering Xenotransplantation and T-cell Therapies) Autoimmunity Cellular Immunology Humoural Immunology and Immunochemistry Immunogenetics (incl. Genetic Immunology) Innate Immunity Transplantation Immunology Tumour Immunology Immunology not elsewhere classified Genetic Immunology Animal Immunology Veterinary Immunology programmed cell death marine toxins apoptosis pyroptosis-like bivalve mollusk Crassostrea gigas |
description |
Programmed cell death (PCD) is an essential process for the immune system's development and homeostasis, enabling the remotion of infected or unnecessary cells. There are several PCD's types, depending on the molecular mechanisms, such as non-inflammatory or pro-inflammatory. Hemocytes are the main component of cellular immunity in bivalve mollusks. Numerous infectious microorganisms produce toxins that impair hemocytes functions, but there is little knowledge on the role of PCD in these cells. This study aims to evaluate in vitro whether marine toxins induce a particular type of PCD in hemocytes of the bivalve mollusk Crassostrea gigas during 4 h at 25°C. Hemocytes were incubated with two types of marine toxins: non-proteinaceous toxins from microalgae (saxitoxin, STX; gonyautoxins 2 and 3, GTX2/3; okadaic acid/dynophysistoxin-1, OA/DTX-1; brevetoxins 2 and 3, PbTx-2,-3; brevetoxin 2, PbTx-2), and proteinaceous extracts from bacteria (Vibrio parahaemolyticus, Vp; V. campbellii, Vc). Also, we used the apoptosis inducers, staurosporine (STP), and camptothecin (CPT). STP, CPT, STX, and GTX 2/3, provoked high hemocyte mortality characterized by apoptosis hallmarks such as phosphatidylserine translocation into the outer leaflet of the cell membrane, exacerbated chromatin condensation, DNA oligonucleosomal fragments, and variation in gene expression levels of apoptotic caspases 2, 3, 7, and 8. The mixture of PbTx-2,-3 also showed many apoptosis features; however, they did not show apoptotic DNA oligonucleosomal fragments. Likewise, PbTx-2, OA/DTX-1, and proteinaceous extracts from bacteria Vp, and Vc, induced a minor degree of cell death with high gene expression of the pro-inflammatory initiator caspase-1, which could indicate a process of pyroptosis-like PCD. Hemocytes could carry out both PCD types simultaneously. Therefore, marine toxins trigger PCD's signaling pathways in C. gigas hemocytes, depending on the toxin's nature, which appears to be highly conserved both structurally and functionally. |
format |
Dataset |
author |
Norma Estrada Erick J. Núñez-Vázquez Alejandra Palacios Felipe Ascencio Laura Guzmán-Villanueva Rubén G. Contreras |
author_facet |
Norma Estrada Erick J. Núñez-Vázquez Alejandra Palacios Felipe Ascencio Laura Guzmán-Villanueva Rubén G. Contreras |
author_sort |
Norma Estrada |
title |
Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx |
title_short |
Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx |
title_full |
Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx |
title_fullStr |
Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx |
title_full_unstemmed |
Data_Sheet_1_In vitro Evaluation of Programmed Cell Death in the Immune System of Pacific Oyster Crassostrea gigas by the Effect of Marine Toxins.docx |
title_sort |
data_sheet_1_in vitro evaluation of programmed cell death in the immune system of pacific oyster crassostrea gigas by the effect of marine toxins.docx |
publishDate |
2021 |
url |
https://doi.org/10.3389/fimmu.2021.634497.s001 https://figshare.com/articles/dataset/Data_Sheet_1_In_vitro_Evaluation_of_Programmed_Cell_Death_in_the_Immune_System_of_Pacific_Oyster_Crassostrea_gigas_by_the_Effect_of_Marine_Toxins_docx/14349047 |
geographic |
Pacific |
geographic_facet |
Pacific |
genre |
Crassostrea gigas Pacific oyster |
genre_facet |
Crassostrea gigas Pacific oyster |
op_relation |
doi:10.3389/fimmu.2021.634497.s001 https://figshare.com/articles/dataset/Data_Sheet_1_In_vitro_Evaluation_of_Programmed_Cell_Death_in_the_Immune_System_of_Pacific_Oyster_Crassostrea_gigas_by_the_Effect_of_Marine_Toxins_docx/14349047 |
op_rights |
CC BY 4.0 |
op_rightsnorm |
CC-BY |
op_doi |
https://doi.org/10.3389/fimmu.2021.634497.s001 |
_version_ |
1766393882964131840 |