Gualtiero Mariani

Correlations between progression of coronary artery disease and circulating endothelial progenitor cells

The pathophysiology of coronary artery disease (CAD) progression is not well understood. Endothelial progenitor cells (EPCs) may have an important role. In the present observational cohort study we assessed the number of circulating EPCs in 136 patients undergoing elective percutaneous coronary intervention and who had at least one major epicardial vessel with a nonsignificant stenosis [<50% diameter stenosis (DS)], and the relationship between plasma EPC levels and the 24‐mo progression of the nonsignificant coronary artery lesion. The following cell populations were analyzed: CD34+, CD133+, CD34+/KDR+, CD34+/VE cadherin+, and endothelial cell colony‐forming units (CFU‐ECs). Progression was defined as a >15% DS increase of the objective vessel at follow‐up. At 24 mo, 57 patients (42%) experienced significant progression. Independent predictors of disease progression were LDL cholesterol > 100 mg/dl (OR=1.03; 95% CI 1.01–1.04; P=0.001), low plasma levels of CFU‐ECs (OR=3.99; 95% CI 1.54–10.37; P= 0.005), and male sex (OR=3.42; 95% CI 1.15–10.22; P=0.027). Circulating levels of EPCs are significantly lower in patients with angiographic CAD progression.—Briguori, C., Testa, U., Riccioni, R, Colombo, A., Petrucci, E., Condorelli, G., Mariani, G., D’Andrea, D., De Micco, F., Rivera, N. V., Puca, A. A., Peschle, C., Condorelli, G. Correlations between progression of coronary artery disease and circulating endothelial progenitor cells, FASEB J. 24, 1981–1988 (2010). www.fasebj.org

Human erythrocyte separation according to age on a discontinuous "Percoll" density gradient.

It is well known that during ageing, erythrocyte density increases [l-3]. Density gradient centrifugation is the technique most generally used for fractionating erythrocytes of different mean age. Materials employed to construct density gradients, such as bovine serum albumin (BSA) [4], Stractan II [5], Ficoll [6] and Dextran [7], have many disadvantages. The development of Percoll (colloidal silica particles coated with polyvinylpyrrolidone) has overcome these problems. Owing to its low viscosity, low osmotic pressure and non-toxicity this material can be easily adjusted to physiological conditions. Percoll methods allow separation of erythrocytes on discontinuous gradients [&lo], linear gradients [ 111, or self-generated gradients [ 121. In this work, red cell separation in a discontinuous gradient similar to that reported by Alderman et al. [9] is described. To obtain Percoll with the closest approximation to physiological conditions, a suitable modification of Rennie’s buffer system [ 1 l] has been used. Separated red cell populations have been tested for cell recoveries, reticulocyte count and some age-dependent erythrocyte enzyme activities (pyruvate kinase, hexokinase, glucose-6-phosphate dehydrogenase, aldolase) and indices (mean cell volume and red cell volume distribution width index, mean cell haemoglobin concentration). Two non age-dependent measurements were also made (phosphoglycerate kinase and mean cell haemoglobin). The effectiveness and reliability of the method have been evaluated.

Proteasome inhibitors sensitize ovarian cancer cells to TRAIL induced apoptosis

In the present study we have explored the sensitivity of ovarian cancer cells to TRAIL and proteasome inhibitors. Particularly, we have explored the capacity of proteasome inhibitors to bypass TRAIL resistance of ovarian cancer cells. For these studies we have used the A2780 ovarian cancer cell line and its chemoresistant derivatives A2780/DDP and A2780/ADR, providing evidence that: (i) the three cell lines are either scarcely sensitive (A2780 and A2780/ADR) or moderately sensitive (A2780/DDP) to the cytotoxic effects of TRAIL; (ii) the elevated c-FLIP expression observed in ovarian cancer cells is a major determinant of TRAIL resistance of these cells; (iii) proteasome inhibitors (PS-341 or MG132) are able to exert a significant pro-apoptotic effect and to greatly enhance the sensitivity of both chemosensitive and chemoresistant A2780 cells to TRAIL; (iv) proteasome inhibitors damage mitochondria through stabilization of BH3-only proteins, Bax and caspase activation and significantly enhance TRAIL-R2 expression; (v) TRAIL-R2, but not TRAIL-R1, mediates the apoptotic effects of TRAIL on ovarian cancer cells. Importantly, studies on primary ovarian cancer cells have shown that these cells are completely resistant to TRAIL and proteasome inhibitors markedly enhance the sensitivity of these cells to TRAIL. Given the high susceptibility of ovarian cancer cells to proteasome inhibitors, our results further support the experimental use of these compounds in the treatment of ovarian cancer.

Hemopoietic and angiogenetic progenitors in healthy athletes: different responses to endurance and maximal exercise

The effects of endurance or maximal exercise on mobilization of bone marrow-derived hemopoietic and angiogenetic progenitors in healthy subjects are poorly defined. In 10 healthy amateur runners, we collected venous blood before, at the end of, and the day after a marathon race (n = 9), and before and at the end of a 1.5-km field test (n = 8), and measured hemopoietic and angiogenetic progenitors by flow cytometry and culture assays, as well as plasma or serum concentrations of several cytokines/growth factors. After the marathon, CD34(+) cells were unchanged, whereas clonogenetic assays showed decreased number of colonies for both erythropoietic (BFU-E) and granulocyte-monocyte (CFU-GM) series, returning to baseline the morning post-race. Conversely, CD34(+) cells, BFU-E, and CFU-GM increased after the field test. Angiogenetic progenitors, assessed as CD34(+)KDR(+) and CD133(+)VE-cadherin(+) cells or as adherent cells in culture expressing endothelial markers, increased after both endurance and maximal exercise but showed a different pattern between protocols. Interleukin-6 increased more after the marathon than after the field test, whereas hepatocyte growth factor and stem cell factor increased similarly in both protocols. Plasma levels of angiopoietin (Ang) 1 and 2 increased after both types of exercise, whereas the Ang-1-to-Ang-2 ratio or vascular endothelial growth factor-A were little affected. These data suggest that circulating hemopoietic progenitors may be utilized in peripheral tissues during prolonged endurance exercise. Endothelial progenitor mobilization after exercise in healthy trained subjects appears modulated by the type of exercise. Exercise-induced increase in growth factors suggests a physiological trophic effect of exercise on the bone marrow.

Control of erythroid cell production via caspase-mediated cleavage of transcription factor SCL/Tal-1

AbstractSCL/Tal-1 is a helix–loop–helix (HLH) transcription factor required for blood cell development, whose abnormal expression is responsible for induction of T-cell acute lymphoblastic leukemia. We show here that SCL/Tal-1 is a key target of caspases in developing erythroblasts. SCL/Tal-1 degradation occurred rapidly after caspase activation and preceded the cleavage of the major erythroid transcription factor GATA-1. Expression of a caspase-resistant SCL/Tal-1 in erythroid progenitors was able to prevent amplification of caspase activation, GATA-1 degradation and impaired erythropoiesis induced by growth factor deprivation or death receptor triggering. The potent proerythropoietic activity of uncleavable SCL/Tal-1 was clearly evident in the absence of erythropoietin, a condition that did not allow survival of normal erythroid cells or expansion of erythroblasts expressing caspase-resistant GATA-1. In the absence of erythropoietin, cells expressing caspase-resistant SCL/Tal-1 maintain high levels of Bcl-XL, which inhibits amplification of the caspase cascade and mediates protection from apoptosis. Thus, SCL/TAL-1 is a survival factor for erythroid cells, whereas caspase-mediated cleavage of SCL/Tal-1 results in amplification of caspase activation, GATA-1 degradation and impaired erythropoiesis.

Mechanism of human Hb switching: a possible role of the kit receptor/miR 221-222 complex

Background The human hemoglobin switch (HbF→HbA) takes place in the peri/post-natal period. In adult life, however, the residual HbF (<1%) may be partially reactivated by chemical inducers and/or cytokines such as the kit ligand (KL). MicroRNAs (miRs) play a pivotal role in normal hematopoiesis: downmodulation of miR-221/222 stimulates human erythropoietic proliferation through upmodulation of the kit receptor. Design and Methods We have explored the possible role of kit/KL in perinatal Hb switching by evaluating: i) the expression levels of both kit and kit ligand on CD34+ cells and in plasma isolated from pre-, mid- and full-term cord blood samples; ii) the reactivation of HbF synthesis in KL-treated unilineage erythroid cell cultures; iii) the functional role of miR-221/222 in HbF production. Results In perinatal life, kit expression showed a gradual decline directly correlated to the decrease of HbF (from 80–90% to <30%). Moreover, in full-term cord blood erythroid cultures, kit ligand induced a marked increase of HbF (up to 80%) specifically abrogated by addition of the kit inhibitor imatinib, thus reversing the Hb switch. MiR-221/222 expression exhibited rising levels during peri/post-natal development. In functional studies, overexpression of these miRs in cord blood progenitors caused a remarkable decrease in kit expression, erythroblast proliferation and HbF content, whereas their suppression induced opposite effects. Conclusions Our studies indicate that human perinatal Hb switching is under control of the kit receptor/miR 221–222 complex. We do not exclude, however, that other mechanisms (i.e. glucocorticoids and the HbF inhibitor BCL11A) may also contribute to the peri/post-natal Hb switch.

M4 and M5 acute myeloid leukaemias display a high sensitivity to Bortezomib-mediated apoptosis

The present study explored the sensitivity of leukaemic blasts derived from 30 acute myeloid leukaemia (AML) patients to Bortezomib. Bortezomib induced apoptosis of primary AML blasts: 18/30 AMLs were clearly sensitive to the proapoptotic effects of Bortezomib, while the remaining cases were moderately sensitive to this molecule. The addition of tumour necrosis factor‐related‐apoptosis‐inducing ligand, when used alone, did not induce apoptosis of AML blasts and further potentiated the cytotoxic effects of Bortezomib. The majority of AMLs sensitive to Bortezomib showed immunophenotypic features of the M4 and M5 French–American–British classification subtypes and displayed myelomonocytic features. All AMLs with mutated FLT3 were in the Bortezomib‐sensitive group. Biochemical studies showed that: (i) Bortezomib activated caspase‐8 and caspase‐3 and decreased cellular FLICE [Fas‐associated death domain (FADD)‐like interleukin‐1β‐converting enzyme]‐inhibitory protein (c‐FLIP) levels in AML blasts; (ii) high c‐FLIP levels in AML blasts were associated with low Bortezomib sensitivity. Finally, analysis of the effects of Bortezomib on leukaemic cells displaying high aldehyde dehydrogenase activity suggested that this drug induced in vitro killing of leukaemic stem cells. The findings of the present study, further support the development of Bortezomib as an anti‐leukaemic drug and provide simple tools to predict the sensitivity of AML cells to this drug.

High sensitivity of ovarian cancer cells to the synthetic triterpenoid CDDO-Imidazolide

In the present study we have explored the sensitivity of ovarian cancer cells to the synthetic triterpenoid CDDO-Imidazolide (CDDO-Im). For these studies we have used the A2780 ovarian cancer cell line and its chemoresistant derivatives A2780/ADR and A2780/CISP, OVCAR3, SKOV3 and HEY cancer cell lines and primary ovarian cancer cells, providing evidence that: (i) the majority of these cell lines are highly sensitive to the pro-apoptotic effects induced by CDDO-Im; (ii) TRAIL, added alone exerted only a weak proapoptotic, but clearly potentiated the cytotoxic effect elicited by CDDO-Im; (iii) the apoptotic effect induced by CDDO-Im involves GSH depletion, c-FLIP downmodulation and caspase-8 activation; (iv) CDDO-Im inhibits STAT3 activation and CDDO-Im sensitivity is inversely related to the level of constitutive STAT3 activation. Importantly, studies on primary ovarian cancer cells have shown that these cells are sensitive to the pro-apoptotic effects of CDDO-Im. These observations support the experimental use of synthetic triterpenoids in the treatment of ovarian cancer.

PLZF-mediated control on c-kit expression in CD34(+) cells and early erythropoiesis.

The promyelocytic leukemia zinc-finger protein (PLZF) is a transcription factor and c-kit is a receptor tyrosine kinase associated with human disease, particularly in hematopoietic cells. MicroRNAs (miRs) are post-transcriptional regulators of gene expression, and c-kit has been described as a target of miRs-221 and -222 in erythropoiesis. In the present study, we identified c-kit as a target of PLZF in normal and leukemic cells. Particularly, in erythropoietic (E) culture of CD34+ progenitors, PLZF is downregulated, whereas c-kit expression at both the mRNA and protein levels inversely increases during the first days of E differentiation. In functional experiments, PLZF transfection induces c-kit downregulation, inhibits E proliferation and delays differentiation, whereas PLZF knockdown induces opposite effects, independently of miRs-221 and -222 expression. The inverse correlation between PLZF and c-kit expression was found in normal CD34+38+/− hematopoietic progenitor/stem cells and in acute myeloid leukemias of M0/M1 French–American–British subtypes, suggesting that the control of PLZF on c-kit expression may be crucial at the level of the stem cell/progenitor compartment. Altogether, our data indicate a new mechanism of regulation of c-kit expression that involves a transcriptional control by PLZF in CD34+ cells and early erythropoiesis.

Interleukin-2 bolus therapy induces immediate and selective disappearance from peripheral blood of all lymphocyte subpopulations displaying natural killer activity: role of cell adhesion to endothelium.

As early as 10-15 min after the start of a 30 min interleukin-2 (IL-2) infusion, a rapid, virtually complete disappearance of all natural killer (NK) lymphocyte subpopulations (including both CD3- CD56+ and CD3+ CD56+ cells with either alpha/beta or gamma/delta T-cell receptor) was observed from peripheral blood. In contrast, the number of T lymphocytes (CD3+ CD56-) was unmodified for at least 2 h after IL-2 injection. The IL-2-induced, rapid disappearance from peripheral blood of NK and NK-like lymphocytes may be related to their massive adherence to the activated endothelium. In this regard, IL-2 infusion caused a very rapid rise of tumour necrosis factor-alpha (TNF-alpha) plasma concentration, whereas other cytokines, such as interferon-gamma (IFN-gamma), were induced only at later times. In vitro experiments indicated that IL-2, either alone or better combined with TNF-alpha, exerts a rapid and selective stimulatory effect on NK adhesion to endothelial cells. On the basis of these findings, we suggest that the activation of NK lymphocytes induced by IL-2, alone or combined with TNF-alpha, plays a key role in mediating the massive and selective adherence of NK and NK-like cells following IL-2 bolus infusion.