BACKGROUND: In animal models, circulating endothelial progenitor cells (EPC) have been shown to participate in repair of damaged or degenerating vascular surfaces. In humans, reduced EPC counts correlate with cardiovascular risk and disease outcome; yet it has been difficult to establish that EPC are in fact mobilized in response to vascular injury as a physiologic response. We therefore studied early (<12h) mobilization of EPCs into the peripheral circulation after a defined vascular manipulation, percutaneous coronary intervention (PCI) in acute coronary syndrome (ACS) and non-ACS patients. METHODS AND RESULTS: CD34/CD31 positive EPC colony forming units (EPC-CFU) were quantified by a blinded observer in peripheral blood samples from eight control patients with angiographically normal coronary arteries, and in 30 patients with coronary artery lesions before and 12h after PCI. All patients (n=38) had one or more CV risk factors. Ten patients presented with acute coronary syndrome (PCI(ACS)), and the rest (n=20) underwent elective PCI (PCI(Elect)). Despite the presence of an acute coronary syndrome, patients in the PCI(ACS) group did not present with increased EPC-CFU compared with either the PCI(Elect) or control groups (P>0.05). In addition, EPC-CFU (colonies/ml blood) increased significantly in the PCI(Elect) group after stent placement (11.8+1.6 before versus 16.5+1.9 after, P=0.0009), while in contrast, PCI did not stimulate EPC mobilization in patients in the PCI(ACS) group (9.6+3.2 before versus 6.5+1.8, P=0.20). We found a higher presenting vascular endothelial growth factor (VEGF) level in the PCI(Elect) group compared to PCI(ACS) (78.7+25.2 versus 15.3+7.9 pg/ml blood, P=0.02). However, VEGF levels increased after PCI only in the PCI(ACS) group (15.3+7.9 to 133.3+27.5 pg/ml, P=0.003) and not in the PCI(Elect) group (78.7+25.2 to 79.7+12.2 pg/ml, P=0.97). CONCLUSION: Our findings suggest that focal coronary endothelial injury as a result of PCI triggers early mobilization of EPC into the peripheral circulation in patients presenting for an elective PCI, without a corresponding rise in VEGF levels. In contrast, patients with an acute coronary syndrome fail to respond to PCI with early EPC mobilization despite a significant rise in VEGF. The results of the present study may suggest a novel mechanism for early EPC augmentation after PCI.
BACKGROUND: In animal models, circulating endothelial progenitor cells (EPC) have been shown to participate in repair of damaged or degenerating vascular surfaces. In humans, reduced EPC counts correlate with cardiovascular risk and disease outcome; yet it has been difficult to establish that EPC are in fact mobilized in response to vascular injury as a physiologic response. We therefore studied early (<12h) mobilization of EPCs into the peripheral circulation after a defined vascular manipulation, percutaneous coronary intervention (PCI) in acute coronary syndrome (ACS) and non-ACSpatients. METHODS AND RESULTS:CD34/CD31 positive EPC colony forming units (EPC-CFU) were quantified by a blinded observer in peripheral blood samples from eight control patients with angiographically normal coronary arteries, and in 30 patients with coronary artery lesions before and 12h after PCI. All patients (n=38) had one or more CV risk factors. Ten patients presented with acute coronary syndrome (PCI(ACS)), and the rest (n=20) underwent elective PCI (PCI(Elect)). Despite the presence of an acute coronary syndrome, patients in the PCI(ACS) group did not present with increased EPC-CFU compared with either the PCI(Elect) or control groups (P>0.05). In addition, EPC-CFU (colonies/ml blood) increased significantly in the PCI(Elect) group after stent placement (11.8+1.6 before versus 16.5+1.9 after, P=0.0009), while in contrast, PCI did not stimulate EPC mobilization in patients in the PCI(ACS) group (9.6+3.2 before versus 6.5+1.8, P=0.20). We found a higher presenting vascular endothelial growth factor (VEGF) level in the PCI(Elect) group compared to PCI(ACS) (78.7+25.2 versus 15.3+7.9 pg/ml blood, P=0.02). However, VEGF levels increased after PCI only in the PCI(ACS) group (15.3+7.9 to 133.3+27.5 pg/ml, P=0.003) and not in the PCI(Elect) group (78.7+25.2 to 79.7+12.2 pg/ml, P=0.97). CONCLUSION: Our findings suggest that focal coronary endothelial injury as a result of PCI triggers early mobilization of EPC into the peripheral circulation in patients presenting for an elective PCI, without a corresponding rise in VEGF levels. In contrast, patients with an acute coronary syndrome fail to respond to PCI with early EPC mobilization despite a significant rise in VEGF. The results of the present study may suggest a novel mechanism for early EPC augmentation after PCI.
Authors: Dorit Leshem-Lev; Alexander Omelchenko; Leor Perl; Ran Kornowski; Alexander Battler; Eli I Lev Journal: J Thromb Thrombolysis Date: 2010-11 Impact factor: 2.300
Authors: Peter J Psaltis; Adriana Harbuzariu; Sinny Delacroix; Eric W Holroyd; Robert D Simari Journal: J Cardiovasc Transl Res Date: 2010-11-30 Impact factor: 4.132
Authors: Gareth J Padfield; Olga Tura; Marlieke L A Haeck; Abigail Short; Elizabeth Freyer; G Robin Barclay; David E Newby; Nicholas L Mills Journal: Am J Physiol Heart Circ Physiol Date: 2010-04-09 Impact factor: 4.733
Authors: Margo Klomp; Claudia M van Tiel; Anita M Klous; Marcel A M Beijk; Margriet I Klees; Esther M Scheunhage; Jan G P Tijssen; Carlie J M de Vries; Robbert J de Winter Journal: Heart Asia Date: 2011-01-01