Genetic Labeling of Cells Allows Identification and Tracking of Transgenic Platelets in Mice

The use of knock-out mouse models is crucial to understand platelet activation and aggregation. Analysis of the global double fluorescent Cre reporter mouse that has been crossbred with the megakaryocyte/platelet specific mouse. Platelets show bright ( negative) and ( positive) fluorescence. However...

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Veröffentlicht in:	International journal of molecular sciences 2021-04, Vol.22 (7), p.3710
Hauptverfasser:	Krüger, Irena, Reusswig, Friedrich, Krott, Kim Jürgen, Lersch, Celina Fabienne, Spelleken, Martina, Elvers, Margitta
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal models Animals Blood clots Blood Platelets Bone marrow Bone marrow transplantation Bright plating Collagen Cytology Fluorescence Fluorescent Dyes Genes Genotypes Hemostasis Hemostatics Immune system Integrases Investigations Labeling Leukocytes Megakaryocytes Mice Mice, Transgenic Microscopy Morphology Organs Proteins Recombination Rodents Spleen Thrombosis Transgenic animals Transgenic mice Transplantation
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description	The use of knock-out mouse models is crucial to understand platelet activation and aggregation. Analysis of the global double fluorescent Cre reporter mouse that has been crossbred with the megakaryocyte/platelet specific mouse. Platelets show bright ( negative) and ( positive) fluorescence. However, a small proportion of leukocytes was positive for fluorescence in positive mice. In mice, platelets, and megakaryocytes can be tracked by their specific fluorescence in blood smear, hematopoietic organs and upon thrombus formation. No differences in platelet activation and thrombus formation was observed between positive and negative mice. Furthermore, hemostasis and in vivo thrombus formation was comparable between genotypes as analyzed by intravital microscopy. Transplantation studies revealed that bone marrow of mice can be transferred to mice. The reporter mouse is an appropriate model for real-time visualization of platelets, the analysis of cell morphology and the identification of non-recombined platelets. Thus, mice are important for the analysis of platelet-specific knockout mice. However, a small proportion of leukocytes exhibit fluorescence. Therefore, the analysis of platelets beyond hemostasis and thrombosis should be critically evaluated when recombination of immune cells is increased.
doi_str_mv	10.3390/ijms22073710
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Analysis of the global double fluorescent Cre reporter mouse that has been crossbred with the megakaryocyte/platelet specific mouse. Platelets show bright ( negative) and ( positive) fluorescence. However, a small proportion of leukocytes was positive for fluorescence in positive mice. In mice, platelets, and megakaryocytes can be tracked by their specific fluorescence in blood smear, hematopoietic organs and upon thrombus formation. No differences in platelet activation and thrombus formation was observed between positive and negative mice. Furthermore, hemostasis and in vivo thrombus formation was comparable between genotypes as analyzed by intravital microscopy. Transplantation studies revealed that bone marrow of mice can be transferred to mice. The reporter mouse is an appropriate model for real-time visualization of platelets, the analysis of cell morphology and the identification of non-recombined platelets. 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Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/). 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Analysis of the global double fluorescent Cre reporter mouse that has been crossbred with the megakaryocyte/platelet specific mouse. Platelets show bright ( negative) and ( positive) fluorescence. However, a small proportion of leukocytes was positive for fluorescence in positive mice. In mice, platelets, and megakaryocytes can be tracked by their specific fluorescence in blood smear, hematopoietic organs and upon thrombus formation. No differences in platelet activation and thrombus formation was observed between positive and negative mice. Furthermore, hemostasis and in vivo thrombus formation was comparable between genotypes as analyzed by intravital microscopy. Transplantation studies revealed that bone marrow of mice can be transferred to mice. The reporter mouse is an appropriate model for real-time visualization of platelets, the analysis of cell morphology and the identification of non-recombined platelets. 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Analysis of the global double fluorescent Cre reporter mouse that has been crossbred with the megakaryocyte/platelet specific mouse. Platelets show bright ( negative) and ( positive) fluorescence. However, a small proportion of leukocytes was positive for fluorescence in positive mice. In mice, platelets, and megakaryocytes can be tracked by their specific fluorescence in blood smear, hematopoietic organs and upon thrombus formation. No differences in platelet activation and thrombus formation was observed between positive and negative mice. Furthermore, hemostasis and in vivo thrombus formation was comparable between genotypes as analyzed by intravital microscopy. Transplantation studies revealed that bone marrow of mice can be transferred to mice. The reporter mouse is an appropriate model for real-time visualization of platelets, the analysis of cell morphology and the identification of non-recombined platelets. 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subjects	Animal models Animals Blood clots Blood Platelets Bone marrow Bone marrow transplantation Bright plating Collagen Cytology Fluorescence Fluorescent Dyes Genes Genotypes Hemostasis Hemostatics Immune system Integrases Investigations Labeling Leukocytes Megakaryocytes Mice Mice, Transgenic Microscopy Morphology Organs Proteins Recombination Rodents Spleen Thrombosis Transgenic animals Transgenic mice Transplantation
title	Genetic Labeling of Cells Allows Identification and Tracking of Transgenic Platelets in Mice
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