Aberrant subcellular targeting of the G185R neutrophil elastase mutant associated with severe congenital neutropenia induces premature apoptosis of differentiating promyelocytes

Mutations in the ELA2 gene encoding neutrophil elastase (NE) are present in most patients with severe congenital neutropenia (SCN). However, the mechanisms by which these mutations cause neutropenia remain unknown. To investigate the effects of mutant NE expression on granulopoiesis, we used the HL-60 promyelocytic cell line retrovirally transduced with the G185R NE mutant that is associated with a severe SCN phenotype. We show that the mutant enzyme accelerates apoptosis of differentiating but not of proliferating cells. Using metabolic labeling, confocal immunofluorescence microscopy, and immunoblot analysis of subcellular fractions, we also demonstrate that the G185R mutant is abnormally processed and localizes predominantly to the nuclear and plasma membranes rather than to the cytoplasmic compartment observed with the wild-type (WT) enzyme. Expression of the G185R mutant appeared to alter the subcellular distribution and expression of adaptor protein 3 (AP3), which traffics proteins from the trans-Golgi apparatus to the endosome. These observations provide further insight into potential mechanisms by which NE mutations cause neutropenia and suggest that abnormal protein trafficking and accelerated apoptosis of differentiating myeloid cells contribute to the severe SCN phenotype resulting from the G185R mutation.

Differentiation of human umbilical cord blood CD133+ stem cells towards myelo-monocytic lineage

BACKGROUND

Characterisation of stem cells by flow cytometry, their expansion and differentiation are presently of major interest for cell engineering as the basis of a therapeutic concept for transplantation. Haematopoietic stem cells (HSC) express CD34, the adhesion structure which binds 2L-selectin, CD117, a receptor for stem cell factor (SCF; c-kit ligand), and CD133, a transmembrane protein belonging to the family of mucoproteins.

METHODS

The aim of the present investigation was the systematic investigation of proliferation and differentiation characteristics of umbilical cord blood stem cells (UCBSC) isolated by an immmunomagnetic separation system using CD133 antibody-coated microbeads and to evaluate the effects of different sera and various concentrations, as well as the effects of IL-3 and IL-6 on total cell expansion and differentiation of isolated CD133+ cells. Differentiation patterns were measured by flow cytometry.

RESULTS

After the immmunomagnetic separation the yield of CD133+ cells was 0.45+/-0.17 x 10(6) cells/ml; the purity of isolated CD133+ cells was 95.79+/-1.86%. The majority of CD133+ cells coexpressed CD117. The most pronounced expansion during cultivation of 2 weeks was achieved in media supplemented with 12.5% horse serum plus 12.5% fetal calf serum (FCS) with stem cell factor and interleukine 3; the fold-expansion was 16.67+/-6.20. During the cultivation period, UCBSC were constantly loosing stem cell markers and differentiated towards myelo-monocyte lineage (granulocytes and/or monocytes).

CONCLUSIONS

These in vitro results demonstrate that thorough investigation of various cultivation conditions is needed for successful expansion and differentiation of stem cells towards different lineages to be used therapeutically for replacement of damaged cells.

Spatial pattern of sonic hedgehog signaling through Gli genes during cerebellum development

The cerebellum consists of a highly organized set of folia that are largely generated postnatally during expansion of the granule cell precursor (GCP)pool. Since the secreted factor sonic hedgehog (Shh) is expressed in Purkinje cells and functions as a GCP mitogen in vitro, it is possible that Shh influences foliation during cerebellum development by regulating the position and/or size of lobes. We studied how Shh and its transcriptional mediators,the Gli proteins, regulate GCP proliferation in vivo, and tested whether they influence foliation. We demonstrate that Shh expression correlates spatially and temporally with foliation. Expression of the Shh target gene Gli1 is also highest in the anterior medial cerebellum, but is restricted to proliferating GCPs and Bergmann glia. By contrast, Gli2is expressed uniformly in all cells in the developing cerebellum except Purkinje cells and Gli3 is broadly expressed along the anteroposterior axis. Whereas Gli mutants have a normal cerebellum, Gli2 mutants have greatly reduced foliation at birth and a decrease in GCPs. In a complementary study using transgenic mice, we show that overexpressing Shh in the normal domain does not grossly alter the basic foliation pattern, but does lead to prolonged proliferation of GCPs and an increase in the overall size of the cerebellum. Taken together, these studies demonstrate that positive Shh signaling through Gli2 is required to generate a sufficient number of GCPs for proper lobe growth.

Flow cytometric study of neutrophilic granulopoiesis in normal bone marrow using an expanded panel of antibodies: correlation with morphologic assessments

Flow cytometry studies of surface markers of neutrophils have been performed mostly on peripheral blood, and for a limited spectrum of diseases. Studying maturation defects on developing neutrophils in the bone marrow (BM) may be helpful in BM diseases, such as myelodysplastic syndromes and Shwachman-Diamond syndrome. We applied an expanded panel of antibodies to examine normal maturation patterns in 26 control samples of BM together with microscopic correlation. Promyelocytes correlated well with the CD24(-) and CD11b(-) populations, and metamyelocytes correlated well with the CD16(+) population (intermediate positivity). An excellent correlation was also identified between the sum of bands and segmented neutrophils and each of the following: CD16(++) (strong positivity), CD35(+), CD87(+), and CD64(-). Although visually identified segmented neutrophils paralleled CD10 positivity, there was an appreciable difference between both methods. We conclude that neutrophilic granulocyte maturation in the BM is accompanied by a change in surface antigens that reflects certain stages of development. A successful strategy for detecting maturation defects is to include several antibodies that are known to be expressed or absent at the same stage of maturation, such as CD16, CD35, CD64, and CD87.

Identification of a Myb-responsive enhancer of the chicken C/EBPβ gene

The retroviral oncogene v-myb encodes a transcription factor (v-Myb) that disrupts myelomonocytic differentiation and transforms myelomonocytic cells. It is thought that the biological effects of v-Myb are caused by deregulation of specific target genes. The CCAAT box/enhancer binding protein beta (C/EBPbeta), a member of the basic region-leucine zipper (bzip) class of transcription factors, which itself plays an important role during myelomonocytic differentiation, has previously been shown to be regulated by Myb. Here we have addressed the mechanism by which v-Myb affects C/EBPbeta expression. We have employed the mapping of DNase I hypersensitive sites (DHSs) in chromatin as a tool to detect in vivo target sites of v-Myb. Our data identify a DHS downstream of the C/EBPbeta gene that appears to be specific for v-myb-transformed myeloblasts. We have confirmed by chromatin immunoprecipitation that v-Myb is bound to this region in vivo. Furthermore, we have found that ectopic expression of v-Myb in a myelomonocytic cell line is able to induce a DHS downstream of the C/EBPbeta gene, showing for the first time that v-Myb can affect chromatin structure. Reporter gene experiments demonstrate that the downstream DHS acts as a Myb-dependent enhancing element in transiently as well as in stably transfected myelomonocytic cells. Previous work has shown that v-Myb acts on the C/EBPbeta promoter; it now appears that Myb stimulates C/EBPbeta expression by acting on the promoter as well as on an enhancer of the C/EBPbeta gene. Interestingly, the mechanisms by which Myb acts on both elements differ; while Myb activation of the promoter requires the cooperation with C/EBPbeta, activation of the enhancer by Myb is independent of C/EBPbeta. Apart from the identification of a novel Myb-dependent enhancer, our work demonstrates the potential of chromatin structure analysis for the identification of Myb target sites.

Expression of hematopoietic inhibitory factors in mouse fibroblasts, macrophages and endothelial cells

Pure bone marrow fibroblasts, macrophages and endothelial cells were cultured in Iscove-modified Dulbecco's medium. RT-PCR was used to determine the expression of inhibitory cytokine mRNAs in these cell types. Serum-free conditioned medium was collected from each cell type and ultrafiltration was performed with a centriprep 10. The retentate contained substances whose molecular weights were >10 kD, whilst the filtrate contained substances with molecular weights <10 kD. The effect of conditioned media and their components on colony forming unit-granulocyte-macrophage (CFU-GM) were investigated. The results showed: (1) six cytokines, MIP-1alpha, MIP-2, TGF-beta, TNF-alpha, IFN-gamma and Tbeta(4), inhibited the growth of CFU-GM when murine WEHI-3 conditioned medium was added to the culture system as a source of colony stimulation. (2) The original endothelial cell conditioned medium (E-CM) did not affect the production of CFU-GM, but the >10 kD component of E-CM increased its production, and the <10 kD component decreased it. Both fibroblast conditioned medium (F-CM) and the >10 kD component of F-CM stimulated proliferation of CFU-GM, but the <10 kD component suppressed it. All three components of macrophage conditioned medium (M-CM) inhibited the growth of CFU-GM. (3) Expression of four of the mRNAs, namely MIP-2, TNF-alpha, INF-gamma and Tbeta(4), was seen in all three types of stromal cells, while TGF-beta mRNA was only seen in endothelial cells and macrophages, and MIP-1alpha mRNA in endothelial cells and fibroblasts. The inhibitors TGF-beta, MIP-1alpha, and Tbeta(4)have an inhibitory effect on the growth of CFU-GM, but TNF-alpha, INF-gamma and MIP-2 do not.

Sorting of Von Willebrand factor to lysosome-related granules of haematopoietic cells

The aim of this work was to investigate sorting mechanisms of von Willebrand factor (VWF) when expressed in haematopoietic cells. The processing and sorting of both the wild-type VWF and a multimerization defective propeptide-mutant (VWF(m)) were investigated after expression in the 32D cell line. Normal proteolytic processing was observed for both proteins, however the processing of VWF(m) was much slower and a large portion was unprocessed. Results from subcellular fractionation and immunoelectron microscopy confirmed that a part of VWF, but not VWF(m), was targeted to lysosome-related granules. Partial constitutive secretion was also observed for all forms of VWF and VWF(m). Inhibition of acidification by chloroquine blocked VWF processing but allowed unprocessed pro-VWF targeting to dense organelles. In conclusion, our observations are consistent with VWF multimerization being of importance in cellular retention and targeting to lysosome-related organelles in haematopoietic cells, suggesting a role of protein aggregation for sorting in these cells.

The dynamics of precursor cells in the olfactory epithelium of juvenile and adult guinea pigs

The dynamics of precursor cells in the olfactory epithelium of juvenile and adult guinea pigs were examined by immunohistochemical double staining using bromodeoxyuridine (BrdU), the neural cell adhesion molecule (N-CAM) and the protein gene product 9.5 (PGP9.5). Expression of apoptotic cells in the olfactory epithelium with the use of the TdT-mediated dUTP biotin nick end labeling (TUNEL) method was also observed. BrdU was given to healthy guinea pigs at the ages of 2 weeks and 6 months old. Tissue specimens were serially collected 1 h to 28 days after administration. BrdU-labeled cells were seen above the basal cell layer after 1 h and migrated to the middle layer of the olfactory epithelium, after 1 day in juveniles and 5 days in adults with expression of N-CAM. PGP9.5 was observed in BrdU-labeled cells after 5 days in juvenile guinea pigs and 7 days in adult. At 14 days after administration, BrdU-labeled cells in the epithelium appeared to decrease. However, a few of these cells were recognized above the basal cell layer after 28 days. The number and location of TUNEL-positive cells did not significantly differ between the juvenile and adult olfactory epithelium. Therefore, we conclude that the division speed from stem cells in juveniles is faster than that in adults, and apoptosis is unaffected by aging in the normal olfactory epithelium.

[Retrospective analysis of the morphological, cytochemical, cytogenetic, electron microscopic, and biochemical features of blast cells in acute promyelocytic leukemia]

The paper presents a retrospective analysis of long-term follow-ups (from 1959 to 2000) of 86 patients with acute pro-myelocytic leukemia, a rare type of hemoblastoses. The specific features of this form of leukemia is that blast cells of the bone marrow and peripheral blood have a specific granularity that plays a decisive role in the development of the severe hemorrhagic syndrome leading to patients' death. The morphological, cytochemical, cytogenetic, electron microscopic, and biochemical features of blast cells in this disease and its pathogenesis, clinical presentation, and treatment are considered. An extract from the records of a female patient who has had a complete clinical and hematological remission for 22 years is given. The follow-up of such a prolonged remission has not been covered in the Russian literature.

G-CSF signaling can differentiate promyelocytes expressing a defective retinoic acid receptor: evidence for divergent pathways regulating neutrophil differentiation

Several lines of investigation suggest that granulocyte colony-stimulating factor (G-CSF) augments all-trans retinoic acid (ATRA)-induced neutrophil differentiation in acute promyelocytic leukemia (APL). We sought to characterize the relationship between G-CSF- and ATRA-mediated neutrophil differentiation. We established a G-CSF receptor-transduced promyelocytic cell line, EPRO-Gr, derived from the granulocyte-macrophage colony-stimulating factor (GM-CSF)-dependent EPRO cell line harboring a dominant-negative retinoic acid receptor alpha (RARalpha). In EPRO-Gr, neutrophil differentiation occurs either in GM-CSF upon addition of ATRA or upon induction with G-CSF alone. Transient transfection of EPRO-Gr cells with a RARE-containing reporter plasmid demonstrates increased activity in the presence of ATRA, but not G-CSF, while STAT3 phosphorylation occurs only in response to G-CSF. This suggests that ATRA-mediated differentiation of EPRO-Gr cells occurs via a RARE-dependent, STAT3-independent pathway, while G-CSF-mediated differentiation occurs via a RARE-independent, STAT3-dependent pathway. ATRA and G-CSF thus regulate differentiation by divergent pathways. We characterized these pathways in the APL cell line, NB4. ATRA induction of NB4 cells resulted in morphologic differentiation and up-regulation of C/EBPepsilon and G-CSFR, but not in STAT3 phosphorylation. The addition of G-CSF with ATRA during NB4 induction resulted in STAT3 phosphorylation but did not enhance differentiation. These results may elucidate how G-CSF and ATRA affect the differentiation of primary and ATRA-resistant APL cells.

Haematopoietic effects induced in mice by the snake venom toxin jararhagin

Venom toxins have been tested as anti-thrombotic, and anti-metastatic drugs in experimental models. The jararhagin toxin, from Bothrops jararaca snake venom, acts upon several biological processes, as inflammation, pain, platelet aggregation, etc. In this article, the systemic effects of intra-peritoneal injections of different jararhagin doses were determined in mice. About 50% significant decrease was observed in total blood leukocytes in the first (48 ng), and second (24 ng) weeks. The reduction of lymphocytes, monocytes and neutrophils accounted for this leucopoenia up to the sixth week. Significant increase in red blood cells was observed, especially on the third and fourth weeks (6 and 12 ng). A significant reduction in leukocyte infiltration was found in peritoneum (6, 12, 48 ng), whereas the infiltration was significantly increased in bronchial alveolar exudates (6 and 12 ng). The differential analysis of bone marrow cells showed significant increase, particularly of myelocytes (12 and 24 ng). These results show, at low doses, the toxin jararhagin induces red blood cells production, which is compensating the reduction of different leukocyte types. This severe leucopoenia suggests the occurrence of anti-proliferate activity or direct citotoxicity of jararhagin in the differentiation level of myeloid, and lymphoid stem precursor cells.

Immunophenotypic profile of adult acute myeloid leukemia (AML): analysis of 267 cases in Thailand

Little data exists in Thailand and other Southeast Asian countries regarding the biological characteristics of adult acute myeloid leukemia (AML). In this study, we performed a flow cytometric analysis of 267 Thai adult AML cases to delineate the pattern of leukemic cell surface antigens. Forty-eight cases (18%) were identified as acute promyelocytic leukemia (M3) and 219 cases as non-M3. The most frequent subtype of AML in Thailand was M1/M2 and the least frequent was M7. M3 immunophenotypes were characterized by their unique lack of expression of CD34 and HLA-DR as contrast to the high mean expression of 50% and 70%, respectively, in non-M3. Overall, 60% of cases expressed CD34. Aberrant lymphoid antigens were uniquely seen in specific subtypes of Thai AML, including CD19 (33% of non-M3 vs 23% of M3) and CD2 (12% of M3 vs 2% of non-M3). CD56 was frequently expressed in both M3 and non-M3 while CD16 appeared to be associated with M4/M5 (24% of cases) and CD7 with M1/M2 (21% of cases). Eighty-one percent of non-M3 expressed CD38 while only 53% of M3 did. We found that most Thai adult AML patients were on average 15-20 years younger than those of the West or Japan with only 25% of Thai cases over 60 years of age, although the immunophenotypes were not markedly different. Biological studies of acute leukemia in various countries should help to provide epidemiological clues that play a role in the pathogenesis of leukemia in different geographic regions of the world. Our study represents the largest series of AML ever investigated in the Southeast Asian region.

Tetraploid myeloid cells in donors of peripheral blood stem cells treated with rhG-CSF

Recombinant human granulocyte colony-stimulating factor (rhG-CSF) is frequently used to mobilize CD34+ cells in healthy donors and patient with malignant diseases prior to peripheral blood stem cell (PBSC) harvest. To analyze the effects of rhG-CSF on morphology and genotype of white blood cells, a novel multiparametric cell scanning system that combines morphologic, immune and genotypic analyses of the same cells was used. We report here that tetraploid myeloid cells are present in the peripheral blood of donors treated with rhG-CSF. The tetraploidy was detected in up to 0.6% of differentiated myeloid cells and all observed CD34+ cells were diploid. Thus, short treatment with rhG-CSF of PBSC donors induces numerfical chromosomal alterations in a small subset of mature myeloid cells.

The surface antigen CD45R identifies a population of estrogen-regulated murine marrow cells that contain osteoclast precursors

We examined the osteoclastogenic potential of murine bone marrow cells that were fractionated according to their expression of the surface antigen CD45R. Osteoclast-like cells (OCL) with many authentic osteoclast characteristics readily formed in purified CD45R(+) murine bone marrow cell cultures after treatment with receptor activator of nuclear factor kappaB ligand (RANKL) and M-CSF. Ovariectomy (Ovx) caused a 1.5- to 2-fold increase in OCL number in unfractionated and CD45R(+) murine bone marrow cell cultures without affecting OCL formation in CD45R(-) marrow cells. Limiting dilution assays confirmed that Ovx caused an increase in osteoclast precursor cell number in CD45R(+) but not CD45R(-) cells. Mice deficient in the type 1 IL-1 receptor (IL-1R1 KO) do not lose bone mass after Ovx. We found that unfractionated, CD45R(+), and CD45R(-) bone marrow cells from IL-1R1 KO mice showed no increase in OCL formation in vitro after Ovx. In both the wild-type (WT) and the IL-1R1 KO mice Ovx was associated with a 2-fold increase in pre-B-lymphocytes. About 1.3-3.5% of murine marrow cells expressed surface RANK (the receptor for RANKL) while about 11.9-15% of murine bone marrow cells expressed c-Fms (the receptor for M-CSF). There was little effect of Ovx on cells expressing either RANK or c-Fms. These results demonstrate that CD45R expression identifies a subset of murine bone marrow cells whose ability to form OCL in vivo is regulated by estrogen in WT but not IL-1R1 KO cells. The effects of estrogen on bone mass may be related to these responses.