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Om the PBMC of ACS patients. After ex-vivo expansion, primary EPC/ECFC colonies were trypsinized and assessed for their immuno-phenotype by multi-colors flow cytometry. In A, the variable expression of the CD34 antigene is documented by 3 independent SRIF-14 site examples of EPC/ECFC colonies. In B, 4-colors flow cytometric analysis of EPC/ECFC cells. A representative example of 7 independent experiments is shown. doi:10.1371/journal.pone.0056377.genriched of angiogenic cytokines, after the colony identification (approximately at day 5 after PBMC plating), significantly (p,0.05) improved the growth kinetics (Figure 3A). Upon in vitro expansion, primary EPC/ECFC were characterized by immunohistochemical analysis, showing a uniform positivity for the specific endothelial marker Von Willebrandt factor (Factor VIII), as well as for CD105 (Figure 3B) and CD(data not shown). As far as the expression pattern of these markers is concerned, 1326631 differences were noticed about the intensity and the antigens localization. In particular, the expression of the factor VIII appeared as an intense punctate perinuclear staining (Figure 3B). On the other hand, the KDR (VEGFR-1) antigen was weakly expressed by all cells and CD106 (V-CAM) is normally expressed by a lower percentage of activated EPC/ECFC (data not shown).Endothelial Progenitor Cells in ACS PatientsFigure 5. Subcloning potential of EPC/ECFC generated from the PBMC of ACS patients. After ex-vivo expansion, primary EPC/ECFC colonies were trypsinized and assessed for clonogenic potential capacity by single cells replating assay. In A, single cells derived from EPC/ECPF colonies were seeded in collagen I coated wells and monitored day by day (a: day 1; b: day 2; c: day 3; e : day 4; a : original magnification 25X; f: original magnification 40X). One representative experiment is shown. In B, secondary clones were classified on the basis of their proliferation properties. Data are mean6SD derived from six independent experiments. doi:10.1371/journal.pone.0056377.gCD14 and CD45 resulted negative. In addition, FISH analysis, performed by using centromeric enumeration probes, allowed to demonstrate a normal diploid chromosomal pattern in the in vitro expanded EPC/ECFC (Figure 3C).Immuno-phenotype and subcloning potential of EPC/ ECFCAfter isolation from the ACS PBMC and ex-vivo expansion, primary EPC/ECFC colonies were trypsinized and assessed for: i) their immuno-phenotype, by multi-colors flow cytometry (Figure 4) as well as for ii) clonogenic potential capacity, by single cells subculturing (Figure 5). As documented in Figure 4A, EPC/ECFC colonies were characterized by a variable expression of the CD34 antigen, ranging from 20-75 among the different cell samples. Moreover, a 4-colors flow cytometric analysis showed 1326631 that viablecells from EPC/ECFC colonies were CD45 negative and by gating on cultured CD34+/CD45-/7-AAD- EPC/ECFC, the expression of CD105, CD31 and CD146 resulted CASIN custom synthesis uniformly positive (Figure 4B). On the other hand, EPC/ECFC were always negative for CD90, CD117 and CD133, while the expression of CD106 and CD184 was variable (data not shown). To evaluate the clonogenic potential of EPC/ECFC, a single cell plating (Figure 5A) was performed and the resulting clones were assigned to one of the established classes in agreement with the description of Barrandon Green [28]: i) large rapidly growing colonies were defined “holoclones”, ii) colonies characterized by limited growth were defined “paraclones”, i.Om the PBMC of ACS patients. After ex-vivo expansion, primary EPC/ECFC colonies were trypsinized and assessed for their immuno-phenotype by multi-colors flow cytometry. In A, the variable expression of the CD34 antigene is documented by 3 independent examples of EPC/ECFC colonies. In B, 4-colors flow cytometric analysis of EPC/ECFC cells. A representative example of 7 independent experiments is shown. doi:10.1371/journal.pone.0056377.genriched of angiogenic cytokines, after the colony identification (approximately at day 5 after PBMC plating), significantly (p,0.05) improved the growth kinetics (Figure 3A). Upon in vitro expansion, primary EPC/ECFC were characterized by immunohistochemical analysis, showing a uniform positivity for the specific endothelial marker Von Willebrandt factor (Factor VIII), as well as for CD105 (Figure 3B) and CD(data not shown). As far as the expression pattern of these markers is concerned, 1326631 differences were noticed about the intensity and the antigens localization. In particular, the expression of the factor VIII appeared as an intense punctate perinuclear staining (Figure 3B). On the other hand, the KDR (VEGFR-1) antigen was weakly expressed by all cells and CD106 (V-CAM) is normally expressed by a lower percentage of activated EPC/ECFC (data not shown).Endothelial Progenitor Cells in ACS PatientsFigure 5. Subcloning potential of EPC/ECFC generated from the PBMC of ACS patients. After ex-vivo expansion, primary EPC/ECFC colonies were trypsinized and assessed for clonogenic potential capacity by single cells replating assay. In A, single cells derived from EPC/ECPF colonies were seeded in collagen I coated wells and monitored day by day (a: day 1; b: day 2; c: day 3; e : day 4; a : original magnification 25X; f: original magnification 40X). One representative experiment is shown. In B, secondary clones were classified on the basis of their proliferation properties. Data are mean6SD derived from six independent experiments. doi:10.1371/journal.pone.0056377.gCD14 and CD45 resulted negative. In addition, FISH analysis, performed by using centromeric enumeration probes, allowed to demonstrate a normal diploid chromosomal pattern in the in vitro expanded EPC/ECFC (Figure 3C).Immuno-phenotype and subcloning potential of EPC/ ECFCAfter isolation from the ACS PBMC and ex-vivo expansion, primary EPC/ECFC colonies were trypsinized and assessed for: i) their immuno-phenotype, by multi-colors flow cytometry (Figure 4) as well as for ii) clonogenic potential capacity, by single cells subculturing (Figure 5). As documented in Figure 4A, EPC/ECFC colonies were characterized by a variable expression of the CD34 antigen, ranging from 20-75 among the different cell samples. Moreover, a 4-colors flow cytometric analysis showed 1326631 that viablecells from EPC/ECFC colonies were CD45 negative and by gating on cultured CD34+/CD45-/7-AAD- EPC/ECFC, the expression of CD105, CD31 and CD146 resulted uniformly positive (Figure 4B). On the other hand, EPC/ECFC were always negative for CD90, CD117 and CD133, while the expression of CD106 and CD184 was variable (data not shown). To evaluate the clonogenic potential of EPC/ECFC, a single cell plating (Figure 5A) was performed and the resulting clones were assigned to one of the established classes in agreement with the description of Barrandon Green [28]: i) large rapidly growing colonies were defined “holoclones”, ii) colonies characterized by limited growth were defined “paraclones”, i.

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