Adult and cord blood endothelial progenitor cells have different gene expression profiles and immunogenic potential.

BACKGROUND: Endothelial colony-forming cells (ECFC) are endowed with vascular regenerative ability in vivo and in vitro. In this study we compared the genotypic profile and the immunogenic potential of adult and cord blood ECFC, in order to explore the feasibility of using them as a cell therapy product. MATERIALS AND METHODS: ECFC were obtained from cord blood samples not suitable for haematopoietic stem cell transplantation and from adult healthy blood donors after informed consent. Genotypes were analysed by commercially available microarray assays and results were confirmed by real-time polymerase chain reaction analysis. HLA antigen expression was evaluated by flow-cytometry. Immunogenic capacity was investigated by evaluating the activation of allogeneic lymphocytes and monocytes in co-cultures with ECFC. RESULTS: Microarray assays revealed that the genetic profile of cord blood and adult ECFC differed in about 20% of examined genes. We found that cord blood ECFC were characterised by lower pro-inflammatory and pro-thrombotic gene expression as compared to adult ECFC. Furthermore, whereas cord blood and adult ECFCs expressed similar amount of HLA molecules both at baseline and after incubation with γ-interferon, cord blood ECFC elicited a weaker expression of pro-inflammatory cytokine genes. Finally, we observed no differences in the amount of HLA antigens expressed among cord blood ECFC, adult ECFC and mesenchymal cells. CONCLUSIONS: Our observations suggest that cord blood ECFC have a lower pro-inflammatory and pro-thrombotic profile than adult ECFC. These preliminary data offer level-headed evidence to use cord blood ECFC as a cell therapy product in vascular diseases.

Short communication: proangiogenic hematopoietic cells in acute HIV infection.

Chronic HIV infection induces significant changes in the trafficking of circulating endothelial progenitor cells (EPCs). Specifically, it causes marked depletion of proangiogenic hematopoietic cells, the so-called colony-forming unit-endothelial cells (CFU-ECs). In this study we evaluated CFU-ECs in two subjects with acute HIV infection. We found that both patients already had a low CFU-EC level at the time of diagnosis. Nevertheless, after 6 months of antiretroviral therapy, the CFU-EC concentration reverted to normal values in both cases. HIV significantly depletes the CFU-EC compartment even in the early phase of infection, while 6-month therapy appears to be able to restore it.

Hypoxia-inducible factor-1α(Pro-582-Ser) polymorphism prevents iron deprivation in healthy blood donors.

BACKGROUND: Frequent blood loss induces progressive depletion of iron stores, leading to iron deficiency and, ultimately, to overt iron-deficient anaemia. The erythropoietin-mediated bone marrow response to anaemia is under the control of hypoxia-inducible factors (HIF), the master regulators of oxygen and iron homeostasis. Since the HIF-1α(Pro-582-Ser) variant is associated with elevated trans-activation capacity of hypoxia responsive elements of target genes, we investigated whether the HIF-1α(Pro-582-Ser) polymorphism might influence the response to repeated blood withdrawals. MATERIALS AND METHODS: Using polymerase chain reaction analysis and DNA sequencing, we retrospectively investigated the presence of HIF-1α(Pro-582-Ser) in a series of 163 blood donors. Haematological findings, serum ferritin levels and frequency of donations were compared according to the mutational status of the HIF-1α gene. RESULTS: We found that male carriers of the HIF-1α(Pro-582-Ser) polymorphism had higher haemoglobin and ferritin levels than individuals homozygous for the wild-type allele. Moreover, the HIF-1α(Pro-582-Ser) polymorphism protected regular blood donors from developing iron deficiency and anaemia and predicted uninterrupted donation activity. DISCUSSION: These findings show for the first time that the HIF-1α(Pro-582-Ser) polymorphism significantly affects red blood cell and iron homeostasis after blood loss, conferring to male carriers a resistance to anaemia. Regarding the female gender, large series of individuals should be investigated to establish whether there is an effect of the HIF-1α(Pro-582-Ser) polymorphism in this population. Although these data need to be confirmed in prospective studies, they could have important implications in blood donor selection and donation procedures.

Endothelial progenitor cell trafficking in human immunodeficiency virus-infected persons.

OBJECTIVE: Human immunodeficiency virus (HIV)-infected people exhibit a high incidence of vascular diseases. Since in the general population the high cardiovascular risk has been associated with an impaired endothelial cell function, we investigated circulating endothelial progenitor cells in HIV-positive patients. DESIGN: We evaluated circulating colony-forming unit-endothelial cell (CFU-EC) and endothelial colony-forming cell (ECFC) progenitors in 14 antiviral therapy-naive HIV-positive patients, in comparison with 15 normal controls. METHODS: CFU-EC and ECFC derived from peripheral blood mononuclear cells from HIV-infected and HIV-uninfected individuals were recovered and evaluated for HIV genome presence by PCR. Vascular endothelial growth factor (VEGF) and apolipoprotein B mRNA-editing enzyme catalytic polypeptide like (APOBEC) subunits expression were evaluated in infected colonies by real-time PCR. RESULTS: We found that circulating CFU-EC but not ECFC were significantly reduced in HIV-positive patients and that proviral HIV DNA was detectable only in CFU-EC but not in ECFC. Furthermore, the expression of APOBEC subunits was significantly lower in CFU-EC than in circulating monocytes. Accordingly, the CFU-EC displayed a high content of proviral DNA copies, suggesting that these cells have a high sensitivity to the HIV infection. CONCLUSIONS: Although HIV does not affect the 'true endothelial progenitor' compartment, it infects and strongly depletes circulating endothelial progenitors with hematopoietic signature. We unravel a novel pathogenetic mechanism by which HIV infection might cause vascular diseases.