Disruption of microtubules in vivo by vincristine induces large membrane complexes and other cytoplasmic abnormalities in megakaryocytes and platelets of normal rats like those in human and Wistar Furth rat hereditary macrothrombocytopenias

Abnormal organization of platelet microtubules is associated with abnormal platelet formation in hereditary macrothrombocytopenias such as the gray platelet syndrome, May-Hegglin anomaly, and Epstein's syndrome, and that of the Wistar Furth rat, suggesting that aberrant microtubule organization may contribute to defective platelet formation in these clinical entities. Here, we examined the consequence of microtubule disruption on the organization of megakaryocyte cytoplasmic organelles using the microtubule depolymerizing agent, vincristine (VCR). Wistar rat bone marrow was fixed and processed for transmission electron microscopy after VCR administration alone, after 5-fluorouracil (5-FU) administration alone, or after 5-FU followed by intravenous injection of 0.1-1.0 mg/kg VCR for intervals of 30 min to 8 hr. 5-FU was given to increase megakaryocyte frequency to facilitate ultrastructural evaluations. VCR alone or in combination with 5-FU caused formation of large membrane complexes in the cytoplasm of Wistar rat megakaryocytes at all dosages studied, identical to those found in megakaryocytes of human hereditary macrothrombocytopenias and the Wistar Furth rat. The proportion of megakaryocytes with these large membrane complexes increased with time after 5-FU and VCR, and was maximal (approximately two-thirds of megakaryocytes) at VCR dosages of 0.75-1.0 mg/kg. The majority of megakaryocytes displayed other abnormalities, including blebbing of plasma membranes, an increased number of dense compartments, dilated demarcation membrane (DMS) channels, which contained dense material immunocytochemically identified as secreted alpha-granule proteins, and an increased incidence of emperipolesis. Rats administered 5-FU alone did not demonstrate these abnormalities, with the exception of an increase in dense compartments. Platelets from rats treated with VCR alone or 5-FU and VCR also showed abnormalities including membrane complexes, rounded shape, formation of tubulin paracrystals, development of membrane blebs, and the presence of proteinaceous material within the cisternae of the surface-connected canalicular system (SCCS). The membrane complexes in platelets of 5-FU-, VCR-treated Wistar rats as well as untreated Wistar Furth rats were composed of elements of both the SCCS and dense tubular system; membrane complexes in megakaryocytes of 5-FU-, VCR-treated rats were composed of both DMS and smooth endoplasmic reticulum. We conclude that intact microtubules play a major role in the organization of the megakaryocyte DMS and may contribute to the stability of megakaryocyte alpha-granules.     

The effect of personality on withdrawal severity and taper outcome in benzodiazepine dependent patients

Interpretation of changes in bone marrow during infectious processes is quite complex. This paper reports bone marrow lesions observed in pigs inoculated with a moderately virulent ASF virus strain and studies their relationship to the pathogenesis of the disease. In this work, we have carried out the structural and ultrastructural study of the bone marrow of 14 Large White x Landrace pigs that were inoculated by the intramuscular route with 10(5) 50% hemodsorbing doses (HAD50) of the Dominican Republic'78 ASF virus strain. The inoculated pigs were killed at 3, 5, 7, 9, 11, 13, 15 and 17 days postinjection. Analysis of cells and structures belonging to the two main bone-marrow compartments, the hematopoietic cells and the hematopoietic micro-environment, showed that after inoculation with a moderately virulent strain, the most significant changes occurred in macrophages and megakaryocytes, consisting in virus replication in these cell populations and apoptosis of megakaryocytes, related with the sudden and transitory thrombocytopenia detected in the subacute ASF.     

Expression of interleukin-6 and interleukin-6 receptors in human granulosa lutein cells

Prolonged isolated thrombocytopenia, defined as recovery of other cell counts with continuous dependence on platelet transfusions for greater than 90 days after hematopoietic stem cell transplantation (HSCT), develops in approximately 5% of patients who undergo HSCT. Although the clinical conditions associated with prolonged isolated thrombocytopenia have been studied, a systematic review of bone marrow biopsies has not been performed and the pathophysiologic basis has not been defined. We reviewed all HSCT at one center from 1990 to 1995 (n = 454) and found 12 cases that met criteria for prolonged isolated thrombocytopenia (incidence = 12/454 or 3%). Bone marrow core biopsies from 12 patients with prolonged isolated thrombocytopenia were reviewed to determine cellularity, numbers of megakaryocytes, the presence of atypical forms, and clusters of megakaryocytes. These marrow megakaryocyte counts were compared to age and disease matched controls, and 11 normal donors. Patients (aged 1-56 years, mean 32 years) who underwent HSCT (four sibling HLA-identical, five autologous bone marrow, three autologous peripheral stem cell) with prolonged isolated thrombocytopenia had a statistically significant lower absolute megakaryocyte count in bone marrow biopsies performed before transplantation and more than 30 days after transplantation compared to control patients (aged 4 months to 50 years, mean 31 years) who underwent HSCT (four sibling HLA-identical, four autologous bone marrow, four autologous peripheral stem cell) for similar conditions. No apparent differences were seen in size of megakaryocytes, nuclear-cytoplasmic ratios, or clustering of megakaryocytes. Overall marrow cellularities were similar in the three groups. These findings suggest that decreased differentiation of megakaryocytes from stem cells, rather than ineffective platelet production or peripheral destruction of platelets, causes prolonged isolated thrombocytopenia in HSCT patients. Low megakaryocyte counts prior to HSCT may be a useful prognostic indicator, as this feature was associated with the development of prolonged isolated thrombocytopenia.     

Adhesion of mature polyploid megakaryocytes to fibronectin is mediated by beta 1 integrins and leads to cell damage

Human CD34+ bone marrow cells were committed to the megakaryocytic lineage in serum-free liquid cultures by the following cytokines: thrombopoietin, erythropoietin, and IL-6. Megakaryocyte maturation has been described as being regulated by the extracellular matrix. These cells express receptors for laminin, collagen, and vitronectin, but they selectively adhere to and spread on fibronectin, a major component of the bone marrow environment. Function-perturbing antibodies against beta 1 integrins totally abolished the adhesion of megakaryocytes on fibronectin, whereas antibodies to beta 3 did not, suggesting that beta 1 integrins were responsible for the adhesive phenotype of these polyploid cells. beta 1-positive clusters were visualized in close contact with the extremities of stress fibers at the cell surface. In the course of cell spreading, we observed morphological modifications such as the disorganization of the compact nuclei structure and the appearance of holes in the cytoplasm leading to the release of alpha IIb beta 3-positive cellular fragments. This process appeared to be a specific feature of megakaryocytes and is correlated neither to apoptosis nor to integrin signaling.     

Effect of Friend leukemia virus on megakaryocytes and platelets in mice

The thrombocytopenia that follows infection of C3H/Bi mice with Friend leukemia virus (FV) has been investigated. At various times after infection, megakaryocytes in bone marrow and spleen were collected on Nuclepore filters, stained with the Feulgen procedure, and counted. At the same times, platelets in circulating blood were enumerated by the direct method of Brecher et al., 1963 We found that megakaryocyte numbers decreased within 3 days of infection; platelet numbers began to fall at 7 to 9 days. At 11 days megakaryocyte numbers in femoral marrow and spleen were reduced to less than one-third of control values, platelets to about one-quarter of control values. The data are compatible with the hypothesis that the thrombocytopenia which occurs after FV infection in mice results from the reduction in megakaryocytes that is brought about by the infection. Whether all classes of megakaryocytes are equally affected by FV was next examined. At various times following infection, megakaryocytes in marrow suspensions were concentrated by unit gravity sedimentation and microspectrophotometric measurements of nuclear DNA content were made. The kinetic data showed that, following FV infection, megakaryocytes of high nuclear DNA content were markedly reduced in number, but those of low nuclear DNA content were relatively unaffected. Thus the virus infection may interfere with the normal sequential doubling in DNA content of megakaryocytes and/or it may lead to preferential elimination by the host of those megakaryocytes in the higher DNA classes.     

Involvement of prostaglandin E2 and interleukin-1 alpha in the differentiation and survival of osteoclasts induced by lipopolysaccharide from Actinobacillus actinomycetemcomitans Y4

Lipopolysaccharide (LPS) is a bacterial cell component that plays multifunctional roles in inflammatory reactions. LPS from various periodontal pathogens is supposed to be a major virulence factor of periodontal diseases. In the present study, we demonstrated that LPS from periodontopathic bacterium Actinobacillus actinomycetemcomitans Y4 (Y4 LPS) stimulated osteoclast formation in mouse bone marrow culture systems. Addition of anti-interleukin-1 alpha (IL-1 alpha) antibody or indomethacin in the marrow cultures resulted in the suppression of osteoclast differentiation. Quantitative analyses revealed that Y4 LPS stimulated the production of IL-1 alpha and prostaglandin E2 (PGE2) by bone marrow cells. Furthermore, an immunoblot analysis showed that Y4 LPS stimulated bone marrow cells to upregulate the expression of cyclooxygenase-2, a rate-limiting enzyme for the conversion of arachidonic acid to prostanoids. These findings suggest that both IL-1 alpha and PGE2 are involved in the LPS-mediated osteoclast differentiation. In addition, we found that Y4 LPS supported the survival of osteoclasts. Addition of anti-IL-1 alpha antibody in the osteoclast culture resulted in a reduction of osteoclast survival. Indomethacin, however, showed no effect on osteoclast survival. These findings suggest that the increased PGE2 and IL-1 alpha synthesis by bone marrow cells may play an important role in the differentiation and survival of osteoclasts induced by A. actinomycetemcomitans LPS.     

Prevention by morphine of N-methyl-D-aspartic acid-induced penile erection and yawning: involvement of nitric oxide

A role for catecholamines in the regulation of the blood neutrophilia induced by intravenous (i.v.) injection of lipopolysaccharide (LPS; 250 micrograms/kg) was examined in Wistar rats by means of surgical adrenalectomy or pretreatment with adrenergic and dopaminergic antagonists into naive animals. Treatment of animals with a single dose (250 micrograms/kg) of LPS caused a dramatic increase in the number of circulating neutrophils concomitant with a decrease in the number of these cells in the bone marrow. These effects were partially reversed when catecholamine stores were depleted with reserpine. It was found that neither adrenalectomy nor pretreatment with the dopaminergic antagonists, chlorpromazine and pimozide, affected the changes in neutrophil counts induced by LPS. The injection of the alpha 1/alpha 2-adrenoceptor antagonist, phentolamine, and the selective alpha 1-adrenoceptor antagonist, prazosin, significantly decreased blood neutrophilia induced by LPS. However, neither the selective alpha 2-adrenoceptor antagonist, yohimbine, nor the beta-adrenoceptor antagonist, propranolol, had any effect on LPS response. Taken together, these findings support the hypothesis that the catecholamine norepinephrine plays a role in the regulation of the LPS-induced neutrophilia through activation of alpha 1-adrenoceptors.     

Multivesicular bodies are an intermediate stage in the formation of platelet alpha-granules

We have used ultrathin cryosectioning and immunogold cytochemistry to study the position of alpha-granules in the endocytic and biosynthetic pathways in megakaryocytes and platelets. Morphologically, we distinguished three types of granules; so-called multivesicular bodies type I (MVB I) with internal vesicles only, granules with internal vesicles and an electron dense matrix (MVB II), and the alpha-granules with mainly a dense content and often internal membrane vesicles at their periphery. The MVBs were prominent in cultured megakaryocytes and the megakaryoblastic cell line CHRF-288, but were less numerous in bone marrow megakaryocytes and platelets, whereas alpha-granules were most prominent in mature bone marrow megakaryocytes and in platelets. The internalization kinetics of bovine serum albumin-gold particles and of fibrinogen positioned the MVB subtypes and alpha-granules sequentially in the endocytic pathway. MVBs contained the secretory proteins von Willebrand factor (vWF) and beta-thromboglobulin (beta-TG), the platelet-specific membrane protein P-selectin, and the lysosomal membrane protein CD63. Within the MVBs, endocytosed fibrinogen and endogenous beta-TG were restricted to the matrix, while vWF was predominantly associated with internal vesicles. CD63 was also observed in association with internal membrane vesicles in the alpha-granules. These observations, and the gradual morphologic transition from granules containing vesicles to granules containing predominantly dense material, suggest that MVBs represent a developmental stage in alpha-granule maturation.     

Granulocyte-macrophage colony stimulating factor suppresses lipopolysaccharide-induced osteoclast-like cell formation in mouse bone marrow cultures

Lipopolysaccharide (LPS) is a potent bone resorbing factor. We investigated the effect of LPS on osteoclast formation in three types of cultures. LPS inhibited osteoclast formation induced by 1,25-dihydroxyvitamin D3 [1,25(OH)2D3], in a dose-dependent manner, in cultures of whole bone marrow cells without dexamethasone. LPS increased the amount of granulocyte-macrophage colony stimulating factor (GM-CSF) in the culture supernatant, and anti-GM-CSF antiserum almost abolished the inhibition of osteoclast formation by LPS, thereby indicating that GM-CSF generated by treatment with LPS may be responsible for the inhibition of osteoclast formation. In cultures with dexamethasone, the amount of GM-CSF was decreased to one-third of that with 1,25(OH)2D3 alone and was not changed by treatment with LPS. In this culture system, LPS enhanced osteoclast formation. In the coculture system of nonadherent bone marrow cells and a stromal cell line in the presence of 1,25(OH)2D3 and dexamethasone, where no detectable GM-CSF was present in the supernatant, LPS markedly enhanced osteoclast formation, whereas exogenously added GM-CSF (100 pg/ml) almost completely inhibited osteoclast formation. LPS stimulated pit formation on dentin slices by the osteoclast-like cells formed by in vitro culture system.     

Inhibitory effects of L-ENK on the proliferation of cultured smooth muscle cells of rats

A case of Di Guglielmo's syndrome passed through the three stages of chronic erythromyelosis, erythroleukemia and acute myeloid leukemia (AML). According to the FAB classification the subsequent stages of this syndrome were refractory anemia (RA), RA with excess of blasts (RAEB), AML-M6, AML-M2 and undifferentiated AML-MO as the end-stage disease. Light- and electronmicroscopice findings on peripheral blood and bone marrow slides showed a pronounced trilineage myelodysplastic syndrome (MDS) during the RA, RAEB, AML-M6 and M2 phases of the disease, i.e. dysplastic erythropoiesis with PAS-positive erythroblasts, agranular and hypogranular neutrophils and dysplastic megakaryocytes. It is concluded that this case of Di Guglielmo's syndrome with chronic erythromyelosis, erythroleukemia and AML appears to be a continuum of trilineage MDS, AML-M6 and M2 with dyserythropoiesis which evolved into AML-M0.     

Juvenile psoriatic arthritis: followup and evaluation of diagnostic criteria

Platelet counts in newborns are similar to those of adults and children. However, newborn infants admitted to intensive care nurseries have a high prevalence of thrombocytopenia. The mechanisms responsible for the increased susceptibility to thrombocytopenia are not known. In addition, some studies have documented functional abnormalities in newborn platelets. In an effort to understand differences between platelets in newborns and in adults, we examined megakaryocyte ploidy in bone marrow from fetuses and compared it with bone marrow from adults, using a modified Feulgen stain to measure DNA of individual megakaryocytes. Faced with small fixed tissue samples, we developed a technique for use on bone marrow biopsies to estimate megakaryocyte ploidy and compared the results obtained with this method to those obtained from bone marrow aspirates. This study demonstrated that the overall mean ploidy of fetal megakaryocytes is decreased compared with adults. Additionally, fetal megakaryocyte ploidy increases as megakaryocyte maturation increases, but not to the same extent that adult megakaryocyte ploidy increases with megakaryocyte maturation. Over the gestational period studied, there was no relationship between gestational age and mean ploidy. The small size, shift to a less mature population, and decreased ploidy of fetal megakaryocytes indicate that there are differences in the post mitotic phase of megakaryocyte development in the fetus. Such differences may be related to quantitative and qualitative platelet abnormalities in the newborn. Understanding the physiology and regulation of megakaryocytopoiesis in the fetus and newborn will be valuable in determining the pathophysiologic basis of platelet dysfunction in the newborn.     

In vitro effects of GM-CSF on mature peripheral blood neutrophils

GM-CSF can play a crucial role in regulating the neutrophil-mediated inflammatory response. This growth factor is a proliferative stimulus for bone marrow neutrophil stem cell precursors and has at least 3 important roles in regulating neutrophil-mediated immunity: a) a direct effect on the proliferation and development of neutrophil progenitors; b) synergistic activity with other haemopoietic growth factors; c) stimulation of the functional activity of mature neutrophils. The production of GM-CSF may be triggered directly by exogenous factors such as antigens and endotoxins, or indirectly through the release of cytokines by a variety of cells including lymphocytes, activated macrophages and endothelial cells exposed to products of mononuclear phagocytes. Such production of GM-CSF may serve to quickly release mature neutrophils from the bone marrow in response to infections. Moreover, enhancement of the function of mature neutrophils may also augment their ability to migrate to infective sites and then phagocytose and kill pathogens. Increased expression of CD11b/CD18 may play a fundamental part in this mechanism because this receptor is essential for the adhesion of neutrophils to the endothelium. Both phagocytosis and oxidative burst activity increase as a result of the action of GM-CSF and the increased expression of complement- and Fc-receptors can augment opsono-phagocytosis. A further level of neutrophil up-regulation occurs by increasing the functional life span of neutrophils by GM-CSF. Thus, by delaying neutrophil apoptosis, GM-CSF greatly extends the time over which neutrophils may function at inflammatory sites. GM-CSF can thus exert a variety of important regulatory controls of neutrophil function during bacterial infections. Both the number and the functional status of neutrophils is highly regulated by GM-CSF. It is also possible that GM-CSF produced within localised sites of acute inflammation or infection may attract, trap and then activate neutrophils within this site.     

Direct evidence for dissociated megakaryocytic chimaerism in a Wiskott-Aldrich patient successfully allografted

We report a Wiskott-Aldrich patient who underwent allogeneic bone marrow transplantation from his HLA-identical sister at the age of 25. Conditioning regimen consisted of cyclophosphamide (180 mg/kg) and thoraco-abdominal irradiation (6 Grays). Cytogenetic follow-up revealed rapid and complete lymphoid chimaerism, but prolonged mixed bone marrow chimaerism. Correlative interphase cytogenetics performed on bone marrow smears using dual-colour fluorescence in situ hybridization with X and Y specific probes showed that the proportion of donor cells was significantly higher within megakaryocytes than in other lineages. This patient therefore presented with dissociated lineage engraftment, which is not exceptional in congenital diseases and aplastic anaemia, but has not previously been described in Wiskott-Aldrich syndrome. Bone marrow transplantation was successful despite this delayed engraftment which ensured adequate production in the involved cell lines.     

Cytolytic activity of peripheral blood blast cells from patients with acute myeloid leukemia

The results of the present study demonstrate that cells with the morphologic and phenotypic characteristics of blast cells that are obtained from the peripheral blood of patients with newly-diagnosed or recurrent acute myeloid leukemia (AML) can be stimulated by gamma interferon + lipopolysaccharide (IFN/LPS) to mediate in vitro cytolysis of an NK-insensitive hepatoma cell line. The conditions of IFN/LPS induction and subsequent assessment of cytotoxicity that were employed were identical to those used conventionally to test macrophage-mediated tumor cell cytotoxicity. What was totally unexpected was that these same blast cells, in the absence of stimulation with IFN/LPS, were also found to mediate high levels of spontaneous cytotoxicity against autologous bone marrow cells and against the U937 human promonocytic leukemia cell line in vitro. This high level of spontaneous cytotoxicity against autologous bone marrow or U937 promonocytic leukemia cells was not enhanced by IFN/LPS or MCSF under conditions that stimulated cytotoxic function in normal blood monocytes and was markedly reduced by pretreatment of the blast cells with IL2 under conditions that induced potent NK/LAK-mediated cytotoxicity. Neutralizing antibodies against TNFalpha and/or IL1alpha/beta eliminated the cytolytic function of blast cells against autologous bone marrow or U937 promonocytic leukemia targets. These findings demonstrate the existence of a population of cells with the morphologic characteristics of blast cells in the peripheral blood of AML patients which has the capacity to mediate spontaneous cytolysis of autologous bone marrow cells or a promonocytic leukemia cell line. These cells may be an immature variant of normal precursors produced as a consequence of the disordered hematopoietic environment in the marrow of AML patients. Alternatively, this function may be mediated by a subset of the leukemic blasts themselves.     

Reliability and validity of three physical activity questionnaires in Flemish males

Many B cell precursors die while differentiating in mouse bone marrow. To ascertain the mechanisms involved in this process, populations of B lineage cells and their tissue localization were analyzed in bone marrow of transgenic mice overexpressing the apoptosis inhibitor, Bcl-2. Immunofluorescence labeling and mitotic arrest were used to quantitate the number and proliferative activity of mu- pro-B cells (terminal deoxynucleotidyl transferase [TdT]+B220-, TdT+B220+, and TdT-B220+); pre-B cells (cmu+); and B cells (smu+). Mature B cells (IgM+IgD+) were increased 16- to 20-fold. In addition, immature B lymphocytes (IgM+IgD-/low), representing newly formed cells, were increased three- to sixfold, whereas pre-B cells and late pro-B cells were increased 30 to 60% in production rate. Earlier pro-B cells expressing TdT were unaffected. In spleen, both mature and immature B cells were greatly increased, but cells of precursor phenotype were few and TdT+ cells were absent. The in vivo location of B cells was examined by autoradiography using light and electron microscopy after intravenous injection of 125I-labeled antibodies. B lineage cells (B220+) were increased throughout bone marrow, often within dilated venous sinusoids, particularly in subosteal regions. Many intravascular and perisinusoidal cells were IgDhigh mature B lymphocytes. In contrast, many other IgM+ and IgDlow immature B lymphocytes clustered extravascularly around the central venous sinus. Plasma cells with distended endoplasmic reticulum were numerous. These findings provide evidence that, in addition to expanding the recirculating pool of B cells entering bone marrow from the blood stream, high levels of Bcl-2 can inhibit some of the apoptosis occurring during B cell differentiation, thereby expanding populations of B lymphopoietic precursor cells within the bone marrow parenchyma.     

Microbiology of sinusitis in patients undergoing bone marrow transplantation

As a result of increasing use of bone marrow transplantation and new cytotoxic chemotherapy, more patients have become susceptible to sinus disease caused by unusual organisms. Sinusitis caused by fungi and gram-negative bacteria can be difficult to treat, may lead to severe complications, and should be managed promptly in the bone marrow transplant patient. Here we present the results of 41 cultures of the paranasal sinuses obtained from 18 bone marrow transplant patients in whom sinusitis developed. The most common agents were gram-negative bacteria (56.7%), followed by gram-positive bacteria (26.7%) and fungi (16.6%). In 13 samples the cultures were negative. Nasal cultures were performed ipsilateral to the sinus drained in 28 cases. Concordance was obtained in only 5 (17.8%) samples. The antibiogram of the isolated agents from the maxillary sinuses in this series revealed that the most efficient antibiotics were those that covered gram-negative bacteria. Treatment was usually prolonged in these patients, and different antibiotics were necessary to clear infections from the sinuses. In conclusion, treating sinusitis in bone marrow transplant patients may be challenging. Considerations about the microbiology and antibiogram susceptibilities of this specific population should be kept in mind when dealing with such cases.     

Giant intranuclear granules in human megakaryocytes: an ultrastructural study

The appearance of "giant perichromatin granules" to date has been considered pathognomonic of nasopharyngeal angiofibroma. We present the finding of giant intranuclear granules in human megakaryocytes. The patient was a 34-year-old woman with a diagnosis of Sebastian platelet syndrome. The bone marrow aspirate showed an increased number of megakaryocytes. Ultrastructural study revealed giant perichromatin-like granules in the nuclei of 80% megakaryocytes. These granules were round or oval and size ranged 230 to 540 nm. Further studies are needed in our patient to determine the significance of these granules.     

Characterization of immature B cells by a novel monoclonal antibody, by turnover and by mitogen reactivity

The transit of immature to mature sIgM+ B cells, the life span, maturation kinetics and response to polyclonal activators have been analyzed with the help of a new mAb (493), that distinguishes immature, 493+ from mature, 493 B cells in a variety of mouse strains tested. Analysis of the turnover of immature 493+ B cells by bromodeoxyuridine (BrdU) labeling kinetics indicate that only 10-20 % of the cells reach the spleen as immature 493+ cells. The life span of 493+ B cells in bone marrow and spleen is around 4 days. BrdU chase experiments show that most of the immature cells in spleen enter the pool of mature, 493+ B cells where they gain a longer life span of 15-20 weeks. Immature and mature B cells respond equally well to LPS stimulation; anti-CD40, however, stimulates mature B cells better than immature B cells. IgM cross-linking of mature B cells results in proliferation, while it induces apoptosis in immature B cells. This apoptosis of immature cells can be inhibited by costimulation with anti-CD40 or by overexpression of bcl-2. We speculate that Ig receptor ligand-mediated apoptosis (negative selection) plays a major role in the transit of immature B cells from bone marrow to spleen, but only a minor role in the transit from immature B cells to mature B cells in the spleen.     

Characterization of adhesive interactions between human endothelial cells and megakaryocytes

Cell-cell adhesion is essential for many immunological functions and is believed to be important in the regulation of hematopoiesis. Adhesive interactions between human endothelial cells and megakaryocytes were characterized in vitro using the CMK megakaryocytic cell line as well as marrow megakaryocytes. Although there was no adhesion between unactivated human umbilical vein endothelial cells (HUVEC) and megakaryocytes, treatment of HUVEC with inflammatory cytokines such as IL-1 beta, tumor necrosis factor alpha, INF-gamma, or the phorbol ester phorbol myristate acetate (PMA) resulted in a time- and dose-dependent increase in adhesion. Stimulation of marrow megakaryocytes or CMK cells with the cytokines IL-1 beta, GM-CSF, IL-6, IL-3, or PMA augmented their adhesion to endothelium. Monoclonal antibodies against the LFA-1 subunit of the leukocyte adherence complex CD18 inhibited the binding of marrow megakaryocytes or CMK cells to HUVEC. Adhesion blocking experiments also demonstrated that the VLA-4/VCAM-1 pathway was important for megakaryocyte attachment to HUVEC. Adhesion promoted maturation of megakaryocytic cells as measured by increased expression of glycoproteins GpIb and GpIIb/IIIa and by increased DNA content. These observations suggest that alterations in megakaryocyte adhesion may occur during inflammatory conditions, mediated by certain cytokines, resulting in augmented megakaryocyte maturation.