Positive response to imatinib mesylate therapy for childhood chronic myeloid leukemia

Chronic myeloid leukemia (CML) is rare in the pediatric population, accounting for 2-3 percent of childhood leukemia cases, with an annual incidence of one case per million children. The low toxicity profile of imatinib mesylate has led to its approval as a front-line therapy in children for whom interferon treatment has failed or who have relapsed after allogeneic transplantation. We describe the positive responses of 2 children (case 1 - from a 7-year-old male since May 2005; case 2 - from a 5-year-old female since June 2006) with Philadelphia-positive chromosome CML treated with imatinib (300 mg/day, orally) for up to 28 months, as evaluated by morphological, cytogenetic, and molecular approaches. Our patients are alive, are in the chronic phase, and are in continuous morphological complete remission.

Multicellular spheroids of bone marrow stromal cells: a three-dimensional in vitro culture system for the study of hematopoietic cell migration

Cell fate decisions are governed by a complex interplay between cell-autonomous signals and stimuli from the surrounding tissue. In vivo cells are connected to their neighbors and to the extracellular matrix forming a complex three-dimensional (3-D) microenvironment that is not reproduced in conventional in vitro systems. A large body of evidence indicates that mechanical tension applied to the cytoskeleton controls cell proliferation, differentiation and migration, suggesting that 3-D in vitro culture systems that mimic the in vivo situation would reveal biological subtleties. In hematopoietic tissues, the microenvironment plays a crucial role in stem and progenitor cell survival, differentiation, proliferation, and migration. In adults, hematopoiesis takes place inside the bone marrow cavity where hematopoietic cells are intimately associated with a specialized three 3-D scaffold of stromal cell surfaces and extracellular matrix that comprise specific niches. The relationship between hematopoietic cells and their niches is highly dynamic. Under steady-state conditions, hematopoietic cells migrate within the marrow cavity and circulate in the bloodstream. The mechanisms underlying hematopoietic stem/progenitor cell homing and mobilization have been studied in animal models, since conventional two-dimensional (2-D) bone marrow cell cultures do not reproduce the complex 3-D environment. In this review, we will highlight some of the mechanisms controlling hematopoietic cell migration and 3-D culture systems.

Changes in cell shape and desmin intermediate filament distribution are associated with down-regulation of desmin expression in C2C12 myoblasts grown in the absence of extracellular Ca2+

Desmin is the main intermediate filament (IF) protein of muscle cells. In skeletal muscle, desmin IFs form a scaffold that interconnects the entire contractile apparatus with the subsarcolemmal cytoskeleton and cytoplasmic organelles. The interaction between desmin and the sarcolemma is mediated by a number of membrane proteins, many of which are Ca2+-sensitive. In the present study, we analyzed the effects of the Ca2+ chelator EGTA (1.75 mM) on the expression and distribution of desmin in C2C12 myoblasts grown in culture. We used indirect immunofluorescence microscopy and reverse transcription polymerase chain reaction (RT-PCR) to analyze desmin distribution and expression in C2C12 cells grown in the presence or absence of EGTA. Control C2C12 myoblasts showed a well-spread morphology after a few hours in culture and became bipolar when grown for 24 h in the presence of EGTA. Control C2C12 cells showed a dense network of desmin from the perinuclear region to the cell periphery, whereas EGTA-treated cells showed desmin aggregates in the cytoplasm. RT-PCR analysis revealed a down-regulation of desmin expression in EGTA-treated C2C12 cells compared to untreated cells. The present results suggest that extracellular Ca2+ availability plays a role in the regulation of desmin expression and in the spatial distribution of desmin IFs in myoblasts, and is involved in the generation and maintenance of myoblast cell shape.

IgE expression on the surface of B1 and B2 lymphocytes in experimental murine schistosomiasis

In a previous study we monitored the distribution and phenotype expression of B1 cells during the evolution of experimental murine schistosomiasis mansoni and we proposed that the B1 cells were heterogeneous: a fraction which originated in the spleen and followed the migratory pathway to mesenteric ganglia, while the other was the resident peritoneal B1-cell pool. In the present study, we have addressed the question of whether these two B1-lymphocyte populations are involved in the production of the late Ig isotype IgE, which is present in high levels in schistosomal infection. Lymphocyte expression of surface markers and immunoglobulins were monitored by immunofluorescence flow cytometry. Both in the spleen and mesenteric ganglia, the B1 and B2 cells were induced to switch from IgM to IgE in the early Th2-dominated phase of the disease, with an increase of IgE in its later phases. Conversely, peritoneal B1-IgM+ switched to the remaining IgE+ present in high numbers in the peritoneal cavity throughout the disease. We correlated the efficient induction of the expression of late Ig isotypes by B1 cells with high levels of inflammatory cytokines due to the intense host response to the presence of worms and their eggs in the abdominal cavity. In conclusion, B1 cells have a different switch behavior from IgM to IgE indicating that these cell sub-populations depend on the microenvironment.

Dipeptidyl peptidase IV (CD26) activity in the hematopoietic system: differences between the membrane-anchored and the released enzyme activity

Dipeptidyl peptidase IV (DPP-IV; CD26) (EC 3.4.14.5) is a membrane-anchored ectoenzyme with N-terminal exopeptidase activity that preferentially cleaves X-Pro-dipeptides. It can also be spontaneously released to act in the extracellular environment or associated with the extracellular matrix. Many hematopoietic cytokines and chemokines contain DPP-IV-susceptible N-terminal sequences. We monitored DPP-IV expression and activity in murine bone marrow and liver stroma cells which sustain hematopoiesis, myeloid precursors, skin fibroblasts, and myoblasts. RT-PCR analysis showed that all these cells produced mRNA for DPP-IV. Partially purified protein reacted with a commercial antibody to CD26. The K M values for Gly-Pro-p-nitroanilide ranged from 0.43 to 0.98 mM for the membrane-associated enzyme of connective tissue stromas, and from 6.76 to 8.86 mM for the enzyme released from the membrane, corresponding to a ten-fold difference, but only a two-fold difference in K M was found in myoblasts. K M of the released soluble enzyme decreased in the presence of glycosaminoglycans, nonsulfated polysaccharide polymers (0.8-10 æg/ml) or simple sugars (320-350 æg/ml). Purified membrane lipid rafts contained nearly 3/4 of the total cell enzyme activity, whose K M was three-fold decreased as compared to the total cell membrane pool, indicating that, in the hematopoietic environment, DPP-IV activity is essentially located in the lipid rafts. This is compatible with membrane-associated events and direct cell-cell interactions, whilst the long-range activity depending upon soluble enzyme is less probable in view of the low affinity of this form

Transmission of visceral leishmaniasis by blood transfusion in hamsters

We have studied the transmission of visceral leishmaniasis by blood transfusion in the CB hamster model. Five normal CB hamsters (females 2.5 months old) received a 0.1 -ml blood transfusion from a donor that had been infected with 10(7) amastigotes of Leishmania donovani 90 days prior to the blood harvest. The development of the disease in transfused animals was monitored by the increase in anti-Leishmania serum antibodies, splenomegaly, and spleen and liver parasitic burdens. The transfused hamsters developed all the typical signs of the disease, i.e., ascites, cachexia and death. The scores of anti-Leishmania antibodies (1.345) and the level of parasite load (spleen Leishman Donovan units of Stauber (LDU) = 471, liver LDU = 378) in transfused hamsters were similar to those observed in hamsters experimentally infected with 10(7) amastigotes (P>0.05, Student t-test). Our results demonstrate that blood transfusion is an effective route for transmission of visceral leishmaniasis, and we point out that adequate precautions should be taken at blood banks in the regions where leishmaniasis in endemic.

Coelom-associated lymphomyeloid tissue (milky spots): site of lymphoid and myelomonocytic cell generation

Pleural and peritoneal milky spots (MS) are small morphofunctional structures representing subsidiary foci of coelom-associated lymphomyeloid tissue (CALT). In this paper we studied the cellular composition of CALT in normal and Schistosoma mansoni-infected mice. In the healthy mouse, CALT is mainly composed of IgM (+) B cells and presents lower numbers of CD23 and CD45R (B220) B2 lymphocytes. When activated by the infection, it may show pronounced lymphocytosis, plasmocytogenesis (IgM >IgG>IgA>IgG2a>IgG1) and myelomonocytosis. The lymphocytes were mainly of the B1 type (double positive CD5/IgM), with smaller number of T cells (TCR alpha beta (+), TCR gamma delta (+), CD3 (+) and CD5 (+)) and conventional B2 cells (B220 (+), CD23 (+)). The myeloid compartment was composed of immature and mature cells of monocyte/macrophage, eosinophil, neutrophil and megakaryocytic lineages, especially in the omental milky spots. CALT is also a favorable microenvironment for LFA-1 (+) mast cells. Thus, CALT appears to be a mixed lymphoid organ, with secondary and/or primary lymphoid organ functions, being an important site of B1 cell generation, plasma cell maturation and extramedullar hematopoiesis. CALT operates as an interface between blood and lymphatic circulation and coelomic cavities, because locally or externally produced cells have easy and ready access to the pleural and peritoneal cavities. Furthermore, MS cells can escape into blood and lymphatic vessels, providing lymphocytes to other lymphoid organs and to the mucosa-associated lymphoid tissue.

Clonal heterogeneity in murine liver myofibroblasts

GR primary cells cultures were isolated from hepatic granulomas induced in C3H mice livers by Schistosoma mansoni infection; the GRX continuous cell line was derived from GR cells after long-term culture and a progressive drift towards a rapidly proliferating cell population. These cells were analyzed and compared in terms of their clonal heterogeneity. Clones were classified on the basis of cell substrate, cell-cell adhesion (growth morphology of the clone) and fat droplet accumultation. GR cells were composed of two slow-growing clone types, while GRX cells grave rise to clones with several phenotypes, including the two found in the GR cells. The overall proportion of different clones in the GRX cell population was stable in long-term cultures, as well as after recloning of the highly proliferating, but not the slowly proliferating, clones. We propose that the slow-growing clones are maintained in the overall population by continuous contribution of new slow-growing cells from the rapidly growing ones. The slow-growing clones may represent the basal population of liver connective tissue cells that can be mobilized into injured tissues and that are involved in tissue repair. The highth proliferating clones with a broad capacity of phenotype expression that arise after long-term growth simulation of the local cell population may represent the hypertrophic connective tissue cells, such as those observed in progressive fibrotic reactions associated with chronic liver tissue inflammation

Myelopoietic competence of stroma composed of hepatic granuloma-derived connective tissue cells or skin fibroblasts

1. Connective tissue cells isolated form hepatic granulomas (GR cells), induced in mouse liver tissue by schistosomal infection, are able to sustain myelopoiesis, while other connective tissue cells such as skin fibroblasts (SF) are not. 2. We compared the ability of SF and GR cells sustain in vitro proliferation of the FDC-P1 myeloid cell line, dependent upon IL-3 or GM-CSF. 3. Only the GR stroma susteined the proliferation of co-cultured FDC-P1 cells. RT-PCR analysis showed that both cell lines expressed the message for GM-CSF, but not for IL-3. We showed that GM-CSF was produced by, and remained bound to the cell layer through heparan sulfate; this growth factor could be released by high-salt treatment in a biologically active form from both cell types. The same activity could be restored to NaCl-treated GR cells, but not to SF, by incubation with recombinant murine GM-CSF. 4. These results indicate that the ability of connective tissue cells to sustain myelopoiesis depends directly upon the capapcity of their heparan sulfate-bearing molecules to bind and present the GM-CSF to the target cells in a biologically active form. Alternatively, a yet unidentified set of cell layer-associated molecules may be required for the positive or negative control of the membrane-bound GM-CSF

Increase of B-lymphocyte number and activity during experimental murine schistosomiasis mansoni

1. In schistosomal infection, the hyperergic acute phase of the disease evolves progressively into the chronic one, with establishment of a relative equilibrium between the parasites and the corresponding host responses. This down-regulation of host reactivity is considered to be under the control of T-lymphocyte circuits. 2. In the present study, we investigated lymphocyte populations in spleens of normal mice and the kinetics of the B-cell number increase in mice in the acute, chronic and late chronic phases of schistosomal infection, and we monitored their proliferation and activity in antibody isotype secretion. 3. We observed polyclonal B-cell activation and modulation of Ig isotype production, compatible with the alternate predominance of TH2 and TH1 lymphocyte subsets, in the acute and the chronic phases of the disease, respectively.

In vitro collagen synthesis by liver connective tissue cells isolated from schistosomal granulomas

Hepatic injury elicits an excessive deposition of extracellular matrix probably due to a loss of control mechanisms in mesenchymal cells in fibrotic lesions, or a local activity of growth factors. To study collagen synthesis in an in vitro model of fibrotic lesions, we isolated liver connective tissue cells (LCTC) from murine schistosomal granulomas in C3H/HeN mice. Collagen was quantified in culture supernatants using a sirius red dye assay. LCTC and skin fibroblasts (SF) secreted similar amounts of collagen per cell and secretion was inversely proportional to the cell density. Cells cultured at low density (10,000 cells/cm2) secreted two- to three-times more collagen per cell when compared to cells grown in high-density cultures (60,000 cells/cm2). Collagen secretion was stimulated by transforming growth factor-beta (TGF-beta) in both cell lines, but the response of LCTC was detected from 1 ng/ml on, while SF responded only to higher concentrations (2.5 and 5 ng/ml). These data do not support the hypothesis that cells from fibrotic livers have lost the normal control mechanisms and suggest that their control is disturbed locally by the presence of peptide growth factors during the development of fibrosis.

Milky spots reactions to schistosomal mansoni infection

Milky spots (MS), considered by the authors as a Coelomatic Lympho-myelopoietic Organ (CLMO), present a strong reactivity during experimental schistosomal mansoni infection, characterized by an increase of lymphocytes, macrophages, plasmocytes, mast cells, neutrophils and expression of eosinophil metaplasia. Intraperitoneal injection of purified Schistosoma mansoni (Sm) eggs provoked a rise in the number and size of MS, which developed the sessile marginal and pedunculated types. The authors conclude that egg antigens are, at least partially, responsible for MS reactivity during Sm infection

Experimental murine schistosomiasis mansoni: hyperplasia of the mono-macrophage cell lineage and stimulation of myeloid proliferation by peripheral macrophages

1. Normal and schistosome-infected mice were similar in terms of the total number of bone marrow myeloide cell precursors and their proliferative capacity in vitro when stimulated with supernatants ofL-929 cells containing M-CSF. 2. Delayed differentiation of bone marrow m=neutrophil granulocytes and blood monocytosis of infected animals were consistent with a modification in the differentiation of bone marrow myeloid precursors, favoring the production of a mono-macrophage cell lineage. 3. Macrophages isolated from periovular franulomas secreted a considerable stimulatory activity for the proliferation of the mono-macrophagic cell lineage, whereas peritoneal macrophages from the same animals had only a very low stimulatory activity. 4. We conclude that systemic hyperplasia of mono-macrophagic cells in schistomiasis may be relatted to their increased release from the bone marrow and to their peripheral amplification in inflammatory tissue infiltrate as consequence of the local production of stimulatory activity for their proliferation