Francesco Bertolini

The multifaceted circulating endothelial cell in cancer: towards marker and target identification

Increases in the number of circulating endothelial cells (CECs) and progenitors (CEPs) have been reported in various pathological conditions including cancer. Preclinical studies have shown that CEC and CEP kinetics correlate well with several standard laboratory angiogenesis assays, which cannot be used in humans. At the clinical level, evidence is emerging that CEC kinetics and viability might correlate with clinical outcomes in cancer patients who undergo anti-angiogenic treatment. Therefore, CEC and CEP measurement has potential as a surrogate marker for monitoring anti-angiogenic treatment and drug activity, and could help to determine the optimal biological dose of anti-angiogenic drugs, which are being used with increasing frequency in medical oncology.

Vaccination of Metastatic Melanoma Patients With Autologous Tumor-Derived Heat Shock Protein gp96-Peptide Complexes: Clinical and Immunologic Findings

PURPOSE To determine the immunogenicity and antitumor activity of a vaccine consisting of autologous, tumor-derived heat shock protein gp96-peptide complexes (HSPPC-96, Oncophage; Antigenics, Inc, Woburn, MA) in metastatic (American Joint Committee on Cancer stage IV) melanoma patients. PATIENTS AND METHODS Sixty-four patients had surgical resection of metastatic tissue required for vaccine production, 42 patients were able to receive the vaccine, and 39 were assessable after one cycle of vaccination (four weekly injections). In 21 patients, a second cycle (four biweekly injections) was given because no progression occurred. Antigen-specific antimelanoma T-cell response was assessed by enzyme-linked immunospot (ELISPOT) assay on peripheral blood mononuclear cells (PBMCs) obtained before and after vaccination. Immunohistochemical analyses of tumor tissues were also performed. RESULTS No treatment-related toxicity was observed. Of 28 patients with measurable disease, two had a complete response (CR) and three had stable disease (SD) at the end of follow-up. Duration of CR was 559+ and 703+ days, whereas SD lasted for 153, 191, and 272 days, respectively. ELISPOT assay with PBMCs of 23 subjects showed a significantly increased number of postvaccination melanoma-specific T-cell spots in 11 patients, with clinical responders displaying a high frequency of increased T-cell activity. Immunohistochemical staining of melanoma tissues from which vaccine was produced revealed high expression of both HLA class I and melanoma antigens in seven of eight clinical responders (two with CR, three with SD, and the three with long-term disease-free survival) and in four of 12 nonresponders. CONCLUSION Vaccination of metastatic melanoma patients with autologous HSPPC-96 is feasible and devoid of significant toxicity. This vaccine induced clinical and tumor-specific T-cell responses in a significant minority of patients.

Rapid chemotherapy-induced acute endothelial progenitor cell mobilization: implications for antiangiogenic drugs as chemosensitizing agents

Several hypotheses have been proposed to explain how antiangiogenic drugs enhance the treatment efficacy of cytotoxic chemotherapy, including impairing the ability of chemotherapy-responsive tumors to regrow after therapy. With respect to the latter, we show that certain chemotherapy drugs, e.g., paclitaxel, can rapidly induce proangiogenic bone marrow-derived circulating endothelial progenitor (CEP) mobilization and subsequent tumor homing, whereas others, e.g., gemcitabine, do not. Acute CEP mobilization was mediated, at least in part, by systemic induction of SDF-1alpha and could be prevented by various procedures such as treatment with anti-VEGFR2 blocking antibodies or paclitaxel treatment in CEP-deficient Id mutant mice, both of which resulted in enhanced antitumor effects mediated by paclitaxel, but not by gemcitabine.

Circulating endothelial cells Biomarker of vascular disease

Recent research has recognised new populations of non-hematopoietic cells in the blood. One of these, circulating endothelial cells (CECs), often defined by the expression of membrane glycoprotein CD146, are rarely found in the blood in health, but raised numbers are present in a wide variety of human conditions, including inflammatory, immune, infectious, neoplastic and cardiovascular disease, and seem likely to be evidence of profound vascular insult. An additional population are endothelial progenitor cells, defined by the co-expression of endothelial and immaturity cell surface molecules and also by the ability to form colonies in vitro. Although increased numbers of CECs correlate with other markers of vascular disease, questions remain regarding the precise definition, cell biology and origin of CECs. For example, they may be damaged, necrotic or apopototic, or alive, and could possess procoagulant and/or proinflammatory properties. However, since these cells seem to be representative of in situ endothelium, their phenotype may provide useful information. Indeed, whatever their phenotype, there is growing evidence that CECs may well be a novel biomarker, the measurement of which will have utility in various clinical settings related to vascular injury. Despite this promise, progress is impeded by the diversity of methodologies used to detect these cells. Accordingly, results are sometimes inconclusive and even conflicting. Nevertheless, increased CECs predict adverse cardiovascular events in acute coronary syndromes, suggesting they may move from being simply a research index to having a role in the clinic. The objective of the present communication is to condense existing data on CECs, briefly compare them with progenitor cells, and summarise possible mechanism(s) by which they may contribute to vascular pathology.

Angiogenesis in myelodysplastic syndromes

It is now well established that solid tumour growth depends on angiogenesis. However, less is known about the generation of new vessels in haematological malignancies and, in particular, in preleukaemic-myelodysplastic syndromes (MDS). In this study, bone marrow microvessel density (MVD) was assessed by immunohistochemistry and compared in trephine biopsies from 14 controls, five infectious disease (ID), 82 MDS, 15 acute myeloid leukaemia (AML) and 14 myeloproliferative disorder (MPD) patients. Statistical analysis (P < 0.001) demonstrated that MDS MVD was higher than in controls and ID (21 ± 9 vs 6 ± 2 and 10 ± 8 respectively) but lower than AML (30 ± 12) and MPD (40 ± 12). Among MDS-FAB subtypes, MVD was significantly higher in RAEB-t, CMML and fibrosis subsets compared to RA, RARS and RAEB subsets (P = 0.008). To further investigate angiogenesis machinery, the expression of vascular endothelial growth factor (VEGF) was evaluated by means of immunohistochemistry in control, MDS, AML and MPD biopsies. Even though VEGF mRNA expression was reported in the past in AML cell cultures and cell lines, in our samples VEGF expression was found to be particularly strong in most of the megakaryocytes but significantly less prominent in other cell populations including blasts. Since our findings suggest a correlation between angiogenesis and progression to leukaemia, additional work is now warranted to determine what regulates the generation of new vessels in MDS and leukaemia.

Angiogenic growth factors and endostatin in non-Hodgkin's lymphoma

A number of clinical studies have demonstrated the prognostic significance of angiogenesis and angiogenic growth factors in solid tumours; however, very little is known about the relevance of these parameters in haematological malignancies. We evaluated circulating levels of angiogenic growth factors and endostatin in 36 non‐Hodgkins lymphoma (NHL) patients. Baseline vascular endothelial growth factor (VEGF) levels of patients in complete remission (CR) after a median follow‐up of 21 months were significantly lower than those of patients with progressive disease (P = 0.016). Event‐free survival (EFS) rate was significantly higher in patients who had baseline VEGF and basic‐fibroblast growth factor (b.FGF) levels below the median values of 147 and 19.5 pg/ml (P = 0.018 and 0.039 by log‐rank test, respectively). Conversely, the levels of endostatin, angiogenin and leptin were not different in CR patients compared to relapsed patients and did not correlate with EFS. Our data suggest that b‐FGF and, particularly, VEGF might be considered prognostic factors in NHL staging and management.

Human acute leukemia cells injected in NOD/LtSz-scid/IL-2Rγ null mice generate a faster and more efficient disease compared to other NOD/scid-related strains

Transplantation of human acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) primary cells and cell lines in different strains of immunodeficient mice has led to preclinical models extensively used to investigate acute leukemia stem cells, biology and drug sensitivity. We studied the engraftment kinetics of AML and ALL cell lines and primary cells in 3 strains of NOD.CB17‐Prkdcscid (NOD/scid, NS)‐related mice (NOD.Cg‐PrkdcscidB2mtm1Unc/J, abbreviated NOD/scid/β2 null, NSB; and NOD.Cg‐PrkdcscidIl2rgtm1Wjll/SzJ, abbreviated NOD/scid/IL‐2Rγ null, NSG). The engraftment of human malignant cells was investigated by means of clinicopathological criteria, flow cytometry, PCR and immunohistochemistry. In NSG mice, we observed a significantly faster development of leukemia‐related symptoms and a higher percentage of leukemia cells in the blood, in the marrow and in the spleen. The leukemia‐related angiogenic switch (measured as the number of circulating endothelial cells and progenitors) was faster in NSG compared to NS and NSB mice. These models will be instrumental to studies on leukemia‐initiating stem cells, leukemia biology, preclinical treatment studies, and to obtain patient‐specific preclinical models to design and investigate patient‐tailored therapies.

Validation of a Standardized Method for Enumerating Circulating Endothelial Cells and Progenitors: Flow Cytometry and Molecular and Ultrastructural Analyses

Purpose: Antigenic overlap among circulating endothelial cells (CEC) and progenitors (CEP), platelets, and other blood cells led to the need to develop a reliable standardized method for CEC and CEP quantification. These cells are emerging as promising preclinical/clinical tools to define optimal biological doses of antiangiogenic therapies and to help stratify patients in clinical trials. Experimental Design: We report the experimental validation of a novel flow cytometry method that precisely dissects CEC/CEP from platelets and other cell populations and provides information about CEC/CEP viability. Results: Sorted DNA/Syto16+CD45−CD31+CD146+ CECs, investigated by electron microscopy, were found to be bona fide endothelial cells by the presence of Weibel-Palade bodies. More than 75% of the circulating mRNAs of the endothelial-specific gene, VE-cadherin, found in the blood were present in the sorted population. CECs were 140 ± 171/mL in healthy subjects (n = 37) and 951 ± 1,876/mL in cancer patients (n = 78; P < 0.0001). The fraction of apoptotic/necrotic CECs was 77 ± 14% in healthy subjects and 43 ± 23% in cancer patients (P < 0.0001). CEPs were 181 ± 167/mL in healthy donors and 429 ± 507/mL in patients (P = 0.00019). Coefficients of variation were 4 ± 4% (intrareader), 17 ± 4% (interreader), and 17 ± 7% (variability over 0-72 h), respectively. Parallel samples were frozen by a standardized protocol. After thawing, coefficients of variation were 12 ± 8% (intrareader), 16 ± 10% (interreader), and 26 ± 16% (variability over 0-14 days of frozen storage), respectively. Conclusions: This procedure enumerates a truly endothelial cell population with limited intrareader and interreader variability. It appears possible to freeze samples for large-scale CEC enumeration during clinical trials. This approach could be enlarged to investigate other angiogenic cell populations as well.

Microvessel density, a surrogate marker of angiogenesis, is significantly related to survival in multiple myeloma patients

Summary. We evaluated microvessel density (MVD) in bone marrow biopsies (BM) from multiple myeloma (MM) patients after staining with anti‐CD34 and anti‐CD105 antibodies (mAbs). The anti‐CD105 mAb was significantly more sensitive than the anti‐CD34 mAb in visualizing blood vessels both in controls and MM samples. MVD was significantly higher in MM than in controls with both anti‐CD34 and anti‐CD105 mAbs. Patients with low CD34+ MVD survived longer than patients with higher MVD (P = 0·01), whereas there was no difference in survival between patients with low and high CD105+ MVD. Multivariate analysis confirmed the independent significant association between CD34+ MVD and survival (P = 0·001).

High-Dose Celecoxib and Metronomic “Low-dose” Cyclophosphamide Is an Effective and Safe Therapy in Patients with Relapsed and Refractory Aggressive Histology Non–Hodgkin's Lymphoma

Purpose: Angiogenesis is increased in aggressive histology non–Hodgkins lymphoma and may be a target with selective cyclooxygenase-2 inhibition and metronomic chemotherapy. Experimental Design: We assessed response, toxicity, and biomarkers of angiogenesis to low-dose cyclophosphamide (50 mg p.o. o.d.) and high-dose celecoxib (400 mg p.o. b.i.d.) in adult patients with relapsed or refractory aggressive non–Hodgkins lymphoma in a multicenter phase II prospective study. Results: Thirty-two of 35 patients (median age, 62 years) are evaluable for response. Patients had primarily relapsed diffuse large B-cell lymphoma (63%) were heavily pretreated (median of three regimens) and high risk (79% international prognostic index, ≥2) and 34% were relapsed after autologous stem cell transplant. With a median follow-up of 8.4 months, the overall best response rate is 37% (2 complete clinical response/complete clinical response unconfirmed and 9 partial response), with 22% achieving stable disease. Median overall and progression-free survivals are 14.4 and 4.7 months, respectively. The median response duration was 8.2 months. The most common toxicity was skin rash (40%); myelosuppression and gastrointestinal side effects were uncommon. Three patients developed deep vein thromboses and two heavily pretreated patients developed treatment-related acute myelogenous leukemia or myelodysplasia after 3.7 and 12 months of therapy. Circulating endothelial cells and their precursors declined and remained low in responders, whereas plasma vascular endothelial growth factor trended to decline in responding patients but increase in nonresponders. Trough celecoxib levels achieved targeted “antiangiogenic” levels. Conclusions: Low-dose cyclophosphamide and high-dose celecoxib is well tolerated and active in pretreated aggressive non–Hodgkins lymphoma. Close surveillance for arterial and venous thrombotic events is recommended. The decline in circulating endothelial cells and their precursors suggests that this combination may be working by inhibiting angiogenesis but should be validated in a larger patient sample.