Gabriella Benetton

Selective growth response to IL‐3 of a human leukaemic cell line with megakaryoblastic features

A new human leukaemic cell line (M‐O7) with the phenotypic characteristics of CFU‐mega is described. Its cells are positive for T200 leucocyte common antigen (LCA) and negative with MAbs recognizing T and B cells and mature myelomonocytic antigens. In contrast, they react with MAbs recognizing antigenic determinants common to multilineage (CD13, CD33, CD34) and to bipotent erythromegakaryoblastic (CD36, H25) haemopoietic precursors, and with MAbs specific for platelet glycoproteins (CD41w, CD42w). A small proportion (10%) of the cells were large and multinucleated, and on electron microscopy examination showed peripheral splitting of platelet‐like cytoplasm particles. When transferred to a serum‐free Iscove modified Dulbeccos medium supplemented with human insulin and transferrin, M‐O7 cells stop proliferating. Of the haemopoietic growth factors tested for their ability to restore the proliferative activity of this quiescent population, only rH IL‐3 proved effective. Moreover, it also increased the cloning efficiency in methylcellulose more than any other CSFs. The M‐O7 cell line may provide a valuable tool for the biological assay of IL‐3, and a model for biochemical studies of the megakaryocytic lineage.

Plasma Activity and Insertion/Deletion Polymorphism of Angiotensin I–Converting Enzyme A Major Risk Factor and a Marker of Risk for Coronary Stent Restenosis

BACKGROUND Tissue proliferation is almost invariably observed in recurrent lesions within stents, and ACE, a factor of smooth muscle cell proliferation, may play an important role. Plasma ACE level is largely controlled by the insertion/deletion (I/D) polymorphism of the enzyme gene. The association among restenosis within coronary stents, plasma ACE level, and the I/D polymorphism is analyzed in the present prospective study. METHODS AND RESULTS One hundred seventy-six consecutive patients with successful, high-pressure, elective stenting of de novo lesions in the native coronary vessels were considered. At follow-up angiography, recurrence was observed in 35 patients (19.9%). Baseline clinical and demographic variables, plasma glucose and serum fibrinogen levels, lipid profile, descriptive and quantitative angiographic data, and procedural variables were not significantly different in patients with and without restenosis; mean plasma ACE levels (+/-SEM) were 40.8+/-3.5 and 20.7+/-1.0 U/L, respectively (P<.0001). Diameter stenosis percentage and minimum luminal diameter at 6 months showed statistically significant correlation with plasma ACE level (r=.352 and -.387, respectively P<.001). Twenty-one of 62 patients (33.9%) with D/D genotype, 13 of 80 (16.3%) with I/D genotype, and 1 of 34 (2.9%) with I/I genotype showed recurrence; the restenosis rate for each genotype is consistent with a codominant expression of the allele D. CONCLUSIONS In a selected cohort of patients, both the D/D genotype of the ACE gene, and high plasma activity of the enzyme are significantly associated with in-stent restenosis. Continued study with clinically different subsets of patients and various stent designs is warranted.

Release of interleukin-2-like material by b-chronic lymphocytic leukemia cells. An autocrine or paracrine model of production and utilization?

In a series of untreated patients with B-cell chronic lymphocytic leukemia (B-CLL), the capacity of the neoplastic B-cell population to release an interleukin-2 like factor (IL-2lf) was assessed. While unstimulated purified leukemic B-cells showed no IL-2lf production, in 16 of the 27 cases tested (59.2%) significant amounts of IL-2lf (4.3-125 U) were released following activation with phytohemagglutinin (PHA) and the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA). In seven further cases (25.9%), small quantities of IL-2lf (0.2-1.7 U) were detected, while only in four (14.8%) no release was found. In 11 of the 20 cases (55%), PHA alone was also capable of inducing the production of limited amounts of IL-2lf (0.4-8 U). Only small amounts were released from B lymphocytes isolated from normal tonsils both with PHA and PHA plus TPA. Further purification using a fluorescence activated cell sorter suggests that the IL-2lf is truly produced by leukemic B cells and blocking experiments with the PC-61 monoclonal antibody indicate that IL-2lf and IL-2 use the same cell membrane receptor. However, co-cultures of leukemic B cells with small amounts of autologous or allogeneic T lymphocytes enhanced the amount of IL-2lf released into the supernatant to values markedly higher than those released by T- or B cells alone. Unlike normal B lymphocytes, unstimulated purified leukemic B cells from 17 out of 23 B-CLL cases (73.9%) were capable of absorbing variable amounts of exogenous IL-2. In addition, in six of the 11 cases tested (54.5%) IL-2 alone was capable of producing a 2-4 fold increase of thymidine uptake. In six out of eight cases (75%), a 2-5 fold enhancement of the proliferative response was observed when the leukemic B cells were co-stimulated with Staphylococcus aureus Cowan 1 (SAC) and IL-2. Moreover, when the cells were pre-activated with SAC or with PHA plus TPA and then further stimulated with IL-2, a 2-20 fold increase in proliferative response was found in the majority of cases studied. These findings indicate that elevated quantities of IL-2lf may be released in B-CLL particularly due to the B- and T cell interconnections, and that the leukemic B cells appear capable of absorbing IL-2 and of proliferating after costimulation with IL-2.(ABSTRACT TRUNCATED AT 400 WORDS)

In vitro and in vivo immunomodulatory activity of an N-9 arginyl hypoxanthine derivative (PCF-39).

A new synthetic derivative, N-alpha-5 (1,6-dihydro-6-oxo-9-purinyl) pentyloxy-carbonyl-L-arginine (PCF-39) has been evaluated in vitro and in vivo in order to clarify its immunopharmacologic profile. In vitro, PCF-39 did not modify spleen cell functions, whereas parenteral administration in mice of 2.5 and 25 mg/kg (50 and 500 micrograms/mouse) induced an increase in spleen and lymph node cellularity that resulted in a significant resistance to the growth of two distinct syngeneic transplanted tumors. These in vivo findings show that PCF-39 is a potent immunotherapeutic agent with an antitumor effect.