E development of the colonies was monitored over the time. The growth kinetics of a representative experiment out of five independent experiments is shown. At each indicated time point, the mean cell number/ECFC was determined by two independent operators; standard deviations were below 10 and are not shown. Asterisk, p,0.05. In B, immunocytochemical analysis of in vitro expanded EPC/ECFC documenting positivity for CD105 antigen (original magnification: 20X) and for the specific endothelial marker Factor VIII (original magnification: 40X). In C, FISH analysis performed on in vitro expanded EPC/ECFC by using the centromeric enumeration probe CEP9 (white arrows) documenting a normal diploid chromosomal pattern (original magnification: 40X). doi:10.1371/journal.pone.0056377.g1B, left panel). Differently from CFU-EC, EPC/ECFC could be derived from the PBMC of a limited subset of the ACS patients (9/ 70) all harvested at 1326631 late time points (between 7?4 days) after acute cardiovascular events (Figure 1C). Of interest, EPC/ECFC when kept in culture became a larger monolayer (Figure 1B, right panel), thus exhibiting in vitro expansion capacity, differently from CFU-EC.Analysis of pro-angiogenic cytokines release by PBMCWe have next investigated the potential correlation between the occurrence of CFU-EC and/or EPC/ECFC and the release of pro-angiogenic cytokines by the same patient PBMC. For this purpose, patient PBMC conditioned media were collected and analyzed for the release of angiogenic cytokines, such as HB-EGF, KGF, TPO, PDGF-AA, VEGFR-1, VEGFR-2. As shown in Figure 2, cytokine levels were analyzed by subdividing and comparing the ACS patient PBMC samples on the basis of their ability to generate CFU-EC and/or EPC/ECFC colonies: i) CFUECpos vs CFU-ECneg; ii) EPC/ECFCpos vs EPC/ECFCneg. The investigated cytokines were expressed by the PBMC at variable levels, with HB-EGF and KGF either under or very close to the 15755315 detection limit of the assay (3.7 and 1.95 pg/ml, respectively) in most samples and without any significant difference among the PBMC subgroups. On the other hand, TPO, PDGF-AA,VEGFR-1, VEGFR-2 were released at consistent levels by the PBMC samples assessed. Of interest, a significant higher release of PDGF-AA (p,0.01) characterized the EPC/ECFCpos PBMC, with respect to the other 1485-00-3 subgroups (Figure 2), suggesting a correlation between the release of these cytokines and the circulating EPC/ECFC, which was confirmed by Pearson analysis (R = 0.75, p,0.01). No significant correlations were found between the generation of CFU-EC and the levels of the different cytokines tested.Identification of optimal culture conditions for the identification and ex-vivo expansion of EPC/ECFCFor the identification of primary EPC/ECFC, patient PBMC were seeded in three different culture media (as detailed in the Methods). Growth of EPC/ECFC was detected only by using the M5100 medium, while and MEGM and in M199 were ineffective for this purpose. In order to perform further cell characterizations, we searched for the optimal culture conditions for the in vitro expansion of the primary EPC/ECFC, by assessing the change of medium after the initial plating in M5100. Indeed, while M5100 medium was necessary to obtain primary colonies, reaching a mean number of 102625 cells/colony after 15 days of culture, a switch of the medium to MEGM, which is a medium particularlyEndothelial Progenitor Cells in ACS 94-09-7 cost PatientsFigure 4. Immunophenotype of EPC/ECFC generated fr.E development of the colonies was monitored over the time. The growth kinetics of a representative experiment out of five independent experiments is shown. At each indicated time point, the mean cell number/ECFC was determined by two independent operators; standard deviations were below 10 and are not shown. Asterisk, p,0.05. In B, immunocytochemical analysis of in vitro expanded EPC/ECFC documenting positivity for CD105 antigen (original magnification: 20X) and for the specific endothelial marker Factor VIII (original magnification: 40X). In C, FISH analysis performed on in vitro expanded EPC/ECFC by using the centromeric enumeration probe CEP9 (white arrows) documenting a normal diploid chromosomal pattern (original magnification: 40X). doi:10.1371/journal.pone.0056377.g1B, left panel). Differently from CFU-EC, EPC/ECFC could be derived from the PBMC of a limited subset of the ACS patients (9/ 70) all harvested at 1326631 late time points (between 7?4 days) after acute cardiovascular events (Figure 1C). Of interest, EPC/ECFC when kept in culture became a larger monolayer (Figure 1B, right panel), thus exhibiting in vitro expansion capacity, differently from CFU-EC.Analysis of pro-angiogenic cytokines release by PBMCWe have next investigated the potential correlation between the occurrence of CFU-EC and/or EPC/ECFC and the release of pro-angiogenic cytokines by the same patient PBMC. For this purpose, patient PBMC conditioned media were collected and analyzed for the release of angiogenic cytokines, such as HB-EGF, KGF, TPO, PDGF-AA, VEGFR-1, VEGFR-2. As shown in Figure 2, cytokine levels were analyzed by subdividing and comparing the ACS patient PBMC samples on the basis of their ability to generate CFU-EC and/or EPC/ECFC colonies: i) CFUECpos vs CFU-ECneg; ii) EPC/ECFCpos vs EPC/ECFCneg. The investigated cytokines were expressed by the PBMC at variable levels, with HB-EGF and KGF either under or very close to the 15755315 detection limit of the assay (3.7 and 1.95 pg/ml, respectively) in most samples and without any significant difference among the PBMC subgroups. On the other hand, TPO, PDGF-AA,VEGFR-1, VEGFR-2 were released at consistent levels by the PBMC samples assessed. Of interest, a significant higher release of PDGF-AA (p,0.01) characterized the EPC/ECFCpos PBMC, with respect to the other subgroups (Figure 2), suggesting a correlation between the release of these cytokines and the circulating EPC/ECFC, which was confirmed by Pearson analysis (R = 0.75, p,0.01). No significant correlations were found between the generation of CFU-EC and the levels of the different cytokines tested.Identification of optimal culture conditions for the identification and ex-vivo expansion of EPC/ECFCFor the identification of primary EPC/ECFC, patient PBMC were seeded in three different culture media (as detailed in the Methods). Growth of EPC/ECFC was detected only by using the M5100 medium, while and MEGM and in M199 were ineffective for this purpose. In order to perform further cell characterizations, we searched for the optimal culture conditions for the in vitro expansion of the primary EPC/ECFC, by assessing the change of medium after the initial plating in M5100. Indeed, while M5100 medium was necessary to obtain primary colonies, reaching a mean number of 102625 cells/colony after 15 days of culture, a switch of the medium to MEGM, which is a medium particularlyEndothelial Progenitor Cells in ACS PatientsFigure 4. Immunophenotype of EPC/ECFC generated fr.
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