Epidemiology of hemopoietic system neoplasms in Argentina

The mortality caused by blood neoplasms in Argentina shows great irregularity. This was found to be caused in certain ways by (a) differences in the sexes and ages of the populations studied; (b) differences in available health services; and (c) environmental factors. Thus high rates and clusters of lymphomas and multiple mylomas were observed in zones with arsenical water, for example. In rural districts, the rates are lower, especially among old-aged people. Lower rates of leukemias were also observed among Spaniards compared to Italians (p=0.001) residing in Argentina. Turkish, Syrian, and Lebanese showed higher rates than Argentinians, Spaniards, or Italians. The results of a case-control study are given in which the following were observed:

1. Among the ancestors of cases HSN there are fewer Spaniards (not significant) and Latin-Americans (p=0.03) and more people who were born in Central or Eastern Europe (p=0.01).
2. In case group, there was more frequent contact with animals, especially dogs; and a greater exposure to petroleum and its products, and to insecticides.

     

Introduction of macromolecules into hemopoietic stem cells with an erythrocyte-ghost-mediated system

We have developed a method of introduction of macromolecules into normal human hemopoietic stem cells. The erythrocyte ghosts were loaded with diphtheria toxin fragment A (molecular weight = 22,000 daltons), which exerts cytotoxicity only in the intracellular space. Granulocyte-macrophage colonies of human bone marrow cells incubated with the above ghosts in the presence of Sendai virus decreased in number to about 10% of the control. This means that the cell fusion and the subsequent introduction of the fragment A into granulocyte-macrophage progenitors occurred at a high incidence (about 90%). This method will be useful to study intracellular events during the proliferation and differentiation of hemopoietic stem cells.     

Regulation of apoptosis in interleukin-3-dependent hemopoietic cells by interleukin-3 and calcium ionophores

An immortalized interleukin-3 (IL-3)-dependent progenitor cell line, BAF-3, undergoes programmed cell death (apoptosis) when deprived of IL-3. This program is characterized by an early degradation of DNA into oligonucleosome-length fragments that precedes by several hours the loss of cell viability. In the absence of IL-3, DNA fragmentation and cell death can be prevented by the calcium ionophores A23187 (1 microM) and ionomycin (0.5 microM). This addition of calcium ionophore maintains cell viability while reversibly arresting the cell cycle. Apoptosis by growth factor deprivation is also a mechanism of cell elimination in bone marrow cells removed from the stromal micro-environment, as DNA fragmentation and cell death was shown to take place in primary cultures of IL-3-responsive bone marrow cells after IL-3 removal.     

Characterization of the calpain/calpastatin system in human hemopoietic cell lines

As previously suggested by PCR analysis [R. DeTullio, R. Stifanese, F. Salamino, S. Pontremoli, E. Melloni, Characterization of a new p94-like calpain form in human lymphocytes, Biochem. J. 375 (2003) 689-696], a p94-like calpain was now established to be present in six different human cells resembling the various peripheral blood cell types. This protease resulted to be the predominant calpain isoforms whereas the conventional mu- and m-calpains are also expressed although at lower or almost undetectable amounts. The p94-like calpain has been identified by a specific mAb and displays unique features such as: Ca2+ requirement for half maximum activity around 30 microM; no autolytic conversion to a low Ca2+ requiring form and lower sensitivity to calpastatin inhibition. Following cell stimulation, the p94-like calpain undergoes inactivation, a process indicating that the protease is activated and participates in the cell responses to stimuli. The involvement of this protease isoform in immunocompetent cell activation is further supported by its partial recruitment on plasma membranes, the site of action of the conventional calpain forms. The amount of calpain translocated to the membranes correlates to the level of calpastatin which has been shown to control this process through the formation of a complex with calpain, which maintains the protease in the cytosol. These results provide new information on the calpain/calpastatin system expressed in immunocompetent cells and on the functional relationship between the p94-like calpain and the biological function of these cells.     

A somatic cell genetic system for dissecting hemopoietic cytokine signal transduction

Somatic cell genetics has proven to be a powerful tool for the dissection of cytokine signal transduction pathways. Here we describe a system in which interleukin-6 (IL-6) signaling may be dissected using myeloid leukemic M1 cells. We utilized two properties of M1 cell differentiation to isolate IL-6-unresponsive mutants. First, M1 differentiation is associated with cessation of cell division. Second, differentiated M1 cells migrate rapidly and form dispersed colonies in agar. Mutant clones that are unresponsive to IL-6 are, therefore, large and compact as compared with clones derived from IL-6-responsive wild type M1 cells. Following spontaneous or chemically induced mutagenesis and selection in a high dose of IL-6, we isolated 27 M1 clones unresponsive to IL-6. Three harbored mutations that acted in a dominant manner, whereas 24 contained recessive mutations. gp130, an IL-6 receptor component, was affected in many mutant clones. We show that these clones display IL-6 and leukemia inhibitory factor receptors with reduced binding affinities and express gp130 at reduced levels. The IL-6-unresponsive phenotype of these mutant clones was fully rescued by the transfection of exogenous gp130 DNA. Therefore, this approach targets components of the IL-6 signaling pathway and may be suitable to study signaling from a variety of cytokines.     

Kinetics of the basic sections of the hemopoietic system in radiation chimeras]

During first 3 days after mice irradiation and syngeneic bone marrow transplantation in them the number of CFUs (about 0,5% of the injected cells) was stable, although the proliferation induction began 24 hours after transplantation. As it was shown by the method of "thymidine self-distruction". Twenty four hours later all the CFUs entered the mitotic cycle. On the contrary, the commited cells (granulopoesis precursors) compartment (CFUc) enters the logarithmic growth phase since the first day. The exponential growth of the CFUs number was observed from the 4th day simultaneously with the increasing of the proliferation rate of CFUc and the beginning of the recovery of the bone marrow cells total number. In late radiation chimeras (1 month after radiation and reconstitution) the total number of CFUs was 50--70% of the initial. The other hemopoetic parameters were in the normal limits.     

Effect of chronic administration of vitamin E on the hemopoietic system in hypercholesterolemia

Hypercholesterolemia induces oxidative stress, which is known to have adverse effects on the integrity of cells. Hence, hypercholesterolemia may have adverse effects on the hemopoietic system. Vitamin E, an antioxidant, is being used by normo- and hypercholesterolemic subjects. It is, however, not known if vitamin E has any beneficial or adverse effects on the hemopoietic system. The objectives of this study are to determine if (i) hypercholesterolemia has any adverse effects on the hemopoietic system [red blood cell (RBC) count, mean corpuscular volume (MCV), red blood cell distribution width (RDW), hematocrit (Hct), hemoglobin (Hb), mean corpuscular hemoglobin (MCH), MCH concentration (MCHC), white blood cell (WBC), and platelet counts, and mean platelet volume (MPV)], and (ii) vitamin E has any effect on the hemopoietic system in hypercholesterolemia. Blood samples were collected before and at various intervals during a high cholesterol diet (0.25% cholesterol) for 2 and 4 months, and while on high cholesterol diet with vitamin E (2 months) following a high cholesterol diet (2 months). Serum cholesterol was measured on an automated Clinical System Analyzer and hemopoietic parameters were measured on an automated Cell-dyn-4000. The results show that hypercholesterolemia decreased RBC count, Hct and Hb, increased MCV, RDW, MCH, and MCHC, and had no effect on WBC and platelet counts, and MPV. Vitamin E did not affect any of the parameters of the hemopoietic system. In conclusion, hypercholesterolemia of short duration has adverse effects on certain elements of the hemopoietic system. Vitamin E does not affect the hemopoietic system during hypercholesterolemia.     

The development of the hemopoietic system: colony-forming splenic units in mouse embryogenesis

Localization and time of appearance as well as dynamics of quantitative changes of splenic colony-forming units (CFU-S) in mouse (C57BL/6 X CBA)F1 embryos were studied. Cells taken from the whole embryo (day 8), yolk sac and embryo per se (day 9), and also liver (day 10) were injected into the lethally irradiated syngenic mice. 7-8 days after the injection the spleens were fixed and the number of macrocolonies was counted. Statistically significant number of CFU-S was detected starting from day 10 of development, first in the embryo (30-33 somites), then in yolk sac and blood (37-38 somites) and liver (after the 40 somites stage). Rapid increase of CFU-S number during days 11-12 (two-fold increase in about 4.6 hours) suggest that not only active proliferation of CFU-S but also maturation of CFU-S precursors take place.