Atypical micromegakaryocytes,promegakaryoblasts and megakaryoblasts: a critical evaluation by immunohistochemistry,cytochemistry and morphometry of bone marrow trephines in chronic myeloid leukemia and myelodysplastic syndromes

A morphometric analysis of bone marrow trephine biopsies has been performed to study the frequency and planimetric characteristics of so-called atypical micromegakaryocytes in chronic myeloid leukemia (CML) and myelodysplastic syndromes (MDS). In addition, an attempt was made to discriminate this particular cell population from small immature elements of megakaryocytopoiesis, such as promegakaryoblasts and megakaryoblasts. The staining reactions employed included periodic acid-Schiff (PAS), alpha-naphthyl acetate esterase (ANAE) and immunohistochemistry with a monoclonal antibody against platelet glycoprotein IIIa (Y₂/ 51-CD61). Comparison of the various staining reactions applied to the different megakaryocytic elements together with morphometric measurements resulted in a clearcut identification of promegakaryoblasts. These were defined as the earliest immature and exclusively CD61-positive precursors. Atypical micromegakaryocytes were characterized by their dysplastic features and strong ANAE reactivity in addition to their positive CD61 staining. When stringent diagnostic criteria (diameter ranging between 10 to 15 μm, mean size about 12 urn) were applied, this abnormal cell population comprised less than 10% of total megakaryocytopoiesis in CML and MDS. It may be assumed that dysmegakaryocytic features in the latter disorders are partially generated by small to medium-sized megakaryocytes (diameter less than 30 μm). In conclusion, the relative frequency of promegakaryoblasts in the normal bone marrow (range 6–8%) is confirmed by evaluation of the immunohistochemical and cytochemical staining methods (CD61 and ANAE). Furthermore, the ANAE reaction facilitates the recognition of atypical micromegakaryocytes as well as small megakaryocytes. Thus cytochemistry provides a better insight into alterations of these cell lineages in various pathological conditions. This work was supported by the Deutsche Forschungsgemeinschaft (DFG-Th 390/1–2)     

Comparative study of myelodysplastic syndromes and normal bone marrow biopsies with conventional staining and immunocytochemistry

OBJECTIVE: To study the histomorphometric features of megakaryocytic elements in bone marrow trephine biopsies of various subtypes of myelodysplastic syndrome (MDS). STUDY DESIGN: Comparative image morphometry using hematoxylin-eosin-stained and CD 61-stained trephine biopsies was carried out on 40 cases of MDS and 10 normal subjects to analyze the megakaryocytes objectively. The various variables analyzed were number of megakaryocytes and micromegakaryocytes, area, perimeter and diameter of the megakaryocytic elements. RESULTS: The mean number of megakaryocytes was lower in cases of MDS as compared to the normals in all except for a single case of hypoplastic MDS, in which the megakaryocytes were more abundant (3.6 per high-power field [hpf]). No micromegakaryocytes were observed in the 2 cases of chronic myelomonocytic leukemia. The mean area, perimeter and diameter of megakaryocytes decreased significantly on immunostaining with CD 61. CONCLUSION: The mean number of megakaryocytes per hpf was lower in the cases of MDS as compared to normal cases on hematoxylin-eosin. However, on CD 61 staining the number of megakaryocytes per hpf increased in cases of MDS. Micromegakaryocytes were seen in scanty numbers in the normals but increased in MDS cases and increased significantly on CD 61 immunostaining. The mean area, perimeter and diameter of megakaryocytes decreased significantly on immunostaining with CD 61, indicating the increased numbers of micromegakaryocytes in MDS. Hence, immunostaining is an efficient method of detecting increased numbers of megakaryocytes and micromegakaryocytes that would ordinarily be missed by using routine hematoxylin-eosin staining.     

Effects of the tyrosine kinase inhibitor imatinib mesylate (STI571) on bone marrow features in patients with chronic myelogenous leukemia

Preliminary data are available about bone marrow (BM) changes in patients with chronic myeloid leukemia (CML) who received the molecularly targeted and highly effective tyrosine kinase inhibitor Imatinib mesylate (STI571). This review is focused on a systematic assessment of BM features detectable at different stages of CML (stable, accelerated, blastic) following long-term (more than 10 months) treatment. By applying enzyme- and immunohistochemistry including monoclonal antibodies visualizing proliferating cell nuclear antigen (PCNA) and apoptosis (anti-apostatin), a more elaborate insight into alterations affecting hematopoiesis and the stroma compartment was gained. In patients with stable-phase CML therapy resulted in a significant reduction in cellularity, neutrophil granulopoiesis and number of megakaryocytes, accompanied by a retrieval of erythroid precursors. In patients with Imatinib as the only treatment morphometric analysis of CD61+ megakaryopoiesis was in keeping with a significant decrease in maturation defects implying a lesser amount of atypical micromegakaryocytes almost consistent with normalization. Moreover, a reduction of the initially enhanced (CD34+) microvessel density was detectable associated with a decrease in luminal distension. Regression of marked to moderate myelofibrosis was recognizable in about 70% of patients especially in the accelerated and blastic phases. The amount of myeloblasts, CD34+ progenitor cells and lysozyme-expressing immature myelomonocytic cells declined with treatment, but recurred in about 19% of patients that developed a leukemic relapse after 21+/-6 months of therapy. Data on proliferative activity and apoptosis in general supported in vitro findings concerning the inhibitory effect of this agent on growth associated with a tendency for stimulated apoptosis, at least in responding patients.     

The use of the anti-factor VIII method on trephine biopsies of the bone marrow for the identification of immature and atypical megakaryocytes in myeloproliferative diseases and allied disorders. A morphometric study

A morphometric analysis was performed on trephine biopsies of the bone marrow to identify atypical megakaryocyte proliferation following PAS staining and the immunohistological demonstration of factor VIII. This study includes nine patients with a megakaryoblastic crisis in chronic myeloid leukemia (CML), four with acute megakaryoblastic leukemia (AM) and three with myeloid dysplasia later evolving into overt acute leukemia. Comparison and statistical evaluation of the PAS reaction with anti-factor VIII staining reveals that the latter technique not only facilitates the recognition of immature and abnormal megakaryocytes, but leads to a significantly increased count for all megakaryocytic elements in the bone marrow. Thus our retrospective investigation of routinely processed and paraffin-embedded trephine biopsies shows that the diagnosis of a megakaryoblastic crisis in CML as well as AM may be easily established with the aid of the anti-factor VIII method. In all cases of megakaryoblastic proliferation in CML and AM, the appearance of blasts was associated with moderate to pronounced myelofibrosis which could be also determined by morphometry.     

Anagrelide does not exert a myelodysplastic effect on megakaryopoiesis: a comparative immunohistochemical and morphometric study with hydroxyurea

A comparative immunohistochemical and morphometric study was performed on megakaryocytes in 20 patients presenting with initial-early stage chronic idiopathic myelofibrosis and accompanying thrombocythemia to elucidate histological features developing after hydroxyurea (HU) versus anagrelide (ANA) therapy. Representative pre-and posttreatment bone marrow biopsies were involved including the monoclonal antibody CD61 for the identification of precursor and mature stages of megakaryopoiesis. An elaborate morphometric evaluation was in keeping with a left-shifting showing a more frequent occurrence of promegakaryoblasts and microforms in both therapy groups. However, contrasting ANA, HU generated defects of differentiation consistent with significant dysplastic changes. In conclusion, concern about a possible leukemogenic capacity following long-term HU therapy is supported by our findings.     

Effect of insulin on murine megakaryocytopoiesis in a liquid culture system

To examine the influence of insulin on megakaryocytopoiesis, we tested its effect on murine bone marrow cultures in a liquid culture system. In the presence of pokeweed mitogen-stimulated spleen cell conditioned medium in culture, insulin markedly enhanced megakaryocyte colony formation and increased the number and size of free megakaryocytes seen after 7 days. Many of the cells in cultures with insulin, however, were classified as immature, since they had a basophilic cytoplasm, a low cytoplasmic/nuclear ratio and low acetylcholinesterase activity. It is suggested that insulin potentiates murine marrow megakaryocytopoiesis in vitro, but that this is not accompanied by differentiation of the cells from the immature to mature state.     

Bone marrow engraftment: histopathology of hematopoietic reconstitution following allogeneic transplantation in CML patients

Following myelo-ablative treatment and allogeneic bone marrow transplantation (BMT) in chronic myelogenous leukemia (CML) histopathological features assumed to exert a significant impact on engraftment have been rarely investigated systematically. This review is focused on immunohistochemical and morphometric techniques involving nucleated erythroid precursors, resident macrophages and their various subsets, megakaryocytes and finally argyrophilic (reticulin-collagen) fibers. Regarding standardized intervals of examination in the postgraft sequential trephine biopsies a pronounced reduction in cellularity was obvious and accompanied by a decrease in the quantity of erythro- and megakaryopoiesis. A significant correlation between the number of erythroid precursors and CD68+-macrophages could be determined in the areas of regenerating hematopoiesis. This finding is in keeping with the important functional role of the centrally localized mature macrophages during erythropoiesis. A relevant pretransplant reduction of the red cell lineage and an early to advanced reticulin fibrosis were correlated with a low hemoglobin level (anemia) and splenomegaly and furthermore associated with a significant delay to reach transfusion independence. This result was supported by corresponding findings in biopsy specimens performed shortly after day 30 following BMT (standard interval for assessment of engraftment). Samples revealed an enhancement of fiber density and a conspicuous decrease in the amount of erythropoiesis in the small fraction of patients who did not conform with the usually accepted criteria for successful hematopoietic reconstitution. Considering the compartment of histiocytic reticular cells the recurrence of Pseudo-Gaucher cells (PCGs) in the engrafted donor marrow was remarkable and most prominently expressed in the first two months following BMT. This feature was presumed to be functionally linked with a pronounced degradation of cell debris in the sequel of myelo-ablative therapy (scavenger macrophages). According to planimetric measurements in the postgraft bone marrow the atypical dwarf-like CD61+-megakaryocytes characteristic for CML disappeared. On the other hand, normalization of megakaryocyte size and nuclear lobulation were absent in sequential examination of the few patients developing a leukemic relapse. In a number of patients with manifest myelofibrosis at onset, an initial regression after BMT was followed by an insidiously occurring retrieval which was concentrated on the areas of reconstituting hematopoiesis. Similar to its relevant pretransplant association the postgraft reappearance of myelofibrosis was significantly correlated with the quantity of CD61+-megakaryocytes. Altogether a number of histological features in the pre-and postgraft bone marrow exhibited significant correlations with each other and thus indicated functional relationships. Moreover, quantity of erythropoiesis and amount of reticulin fibers (myelofibrosis) exerted a significant impact on engraftment status.     

P-selectin,and not E-selectin,negatively regulates murine megakaryocytopoiesis

To assess the role of P-selectin and E-selectin in megakaryocytopoiesis, in vitro assays were performed in animal models deficient in both adhesion receptors. There was a significantly greater number of IL-3-responsive megakaryocyte progenitors CFU (CFU-MK) and an increase in immature megakaryoblasts in response to IL-6 in the P-selectin-null mice compared with the wild-type controls. Furthermore, P-selectin-null mice showed a greater number of CFU-MK colonies derived from CD34(+) cells in response to IL-3 or IL-3 plus stem cell factor. A significant shift in baseline ploidy with a reduction in 8N cells and an increase in 32N cells was also observed in the P-selectin-null mice. Secretion of the inhibitory growth factor TGF-beta1 and not TGF-beta2 was significantly lower in the supernatants of cultures containing bone marrow cells from P-selectin-deficient mice as compared with those from the wild-type control bone marrow cells. No differences in the responsiveness of murine CFU-MK, immature megakaryocytes, or 5-fluorouracil-selected stem cells to cytokines were observed in E-selectin-null mice as compared with the control mice. These studies indicate that the absence of P-selectin, and not E-selectin, resulted in an altered adhesion environment with subsequent expansion of megakaryocyte progenitors and immature megakaryoblasts, enhanced secretion of TGF-beta1, and apparent increased responsiveness to inflammatory cytokines.     

Differentiating megakaryocytes in myelodysplastic syndromes succumb to mitochondrial derangement without caspase activation

Myelodysplastic syndromes (MDS) constitute a preneoplastic condition in which potentially malignant cancer stem cells continuously die during differentiation. This MDS-associated cell death often involves caspase-3 activation, yet can also occur without caspase activation, for instance in differentiating megakaryocytes (MK). We investigated, the mechanisms through which MK from MDS patients undergo premature cell death. While polyploid, mature MK from healthy subjects or MDS patients manifested caspase-3 activation during terminal differentiation, freshly isolated, immature MK from MDS died without caspase-3 activation. Similarly, purified bone marrow CD34⁺ cells from MDS patients that were driven into MK differentiation in vitro died without caspase-3 activation at an immature stage, before polyploidization. The premature death of MDS MK was accompanied by the mitochondrial release of cytochrome c, Smac/DIABLO and endonuclease G, a caspase-independent death effector, as well loss of the mitochondrial membrane potential and plasma membrane phosphatidylserine exposure before definitive loss of viability. Thus, a stereotyped pattern of mitochondrial alterations accompanies differentiation-associated MK death in MDS. T. Braun and G. Carvalho contributed equally to this paper.     

Multiple levels of regulation of megakaryocytopoiesis

A working hypothesis for the regulation of megakaryocytopoiesis is described on the basis of current data. The hypothesis proposes that in vivo megakaryocytes are generated by 1) the expansion of clonable progenitor cells into immature megakaryocytes by locally produced (and regulated) interleukin-3 (IL-3) and 2) the development and maturation of immature megakaryocytes by a dual system; by a lineage specific mechanism involving thrombopoietic stimuli in the steady state and thrombocytopenic conditions, and by a lineage nonspecific mechanism via IL-3 in damaged or reconstituting marrow. The hypothesis predicts that if IL-3 is a significant in vivo regulator of megakaryocyte formation and development, receptor for IL-3 should be present on megakaryocytes and may be vestigially on platelets. Small but significant levels of 125I IL-3 were found to bind to platelets from normal mice. The level of binding on platelets was found to be enhanced sevenfold from mice that had received high levels of irradiation followed by bone marrow transplantation. This contrasted with a twofold increase in the level of binding to platelets from mice made acutely thrombocytopenic with antiplatelet serum. The data suggest that IL-3 may be involved in the in vivo regulation of murine megakaryocytopoiesis and may be a significant factor in rebound thrombopoiesis following bone marrow damage.     

The distribution of N-acetyl-beta-glucosaminidase, beta-glucuronidase, acid alpha-naphthyl acetate esterase and alpha-naphthyl acetate esterase in subpopulations of thymocytes, bone marrow cells and other lymphoid organs in mice

Thymocytes, bone marrow lymphocytes, as well as lymphocytes from spleen, lymphoid nodes and peripheral blood were obtained from BALB/c mice. Subpopulations of BALB/c bone marrow T-lymphocyte precursors and immature (small) and mature (large) thymocytes, as established by the percentage of terminal deoxynucleotidyl transferase (TdT) and peanut agglutinin (PNA) positive cells, were obtained by centrifugation on discontinuous density gradients. The activities of N-acetyl-beta-glucosaminidase (NAG), beta-glucuronidase (BG), acid alpha-naphthyl acetate esterase (ANAE) and alpha-naphthyl acetate esterase (NAE) were determined by enzymatic assays of cell extracts of the diverse T-lymphocyte subpopulations, in order to follow their evolution with the maturation of the T-lymphocytes in the thymus. These activities were compared with that determined in lymphocytes from spleen, lymphoid nodes and peripheral blood. The glucidases BG and NAG and the esterases ANAE and NAE present a high decrease in their activities from bone marrow T-lymphocyte progenitors to immature thymocytes. BG, NAG and ANAE activities undergo an about 3-fold increase with the evolution of the thymocytes from small to large cells. Whereas the level of the NAE activity decreases (2-fold) with that evolution of the thymocytes. Lymphocytes from spleen and lymphoid nodes exhibit activities of the glucidases and, specially, the esterases marked by higher than those of thymocyte populations. Peripheral blood lymphocytes also present NAG, ANAE and NAE activities higher than in thymocytes, but their BG activity is lower.     

Splenic haematopoiesis in primary (idiopathic) osteomyelofibrosis: immunohistochemical and morphometric evaluation of proliferative activity of erythro- and endoreduplicative capacity of megakaryopoiesis (PCNA- and Ki-67 staining)

Using monoclonal antibodies against proliferating cell nuclear antigen or PCNA (PC10) and the Ki-67 antigen (MIB1), an immunohistological and morphometric study was performed on routinely processed splenic tissue from ten patients with primary (idiopathic) osteomyelofibrosis (OMF). To determine the proliferation capacity of erythroid precursors and the endoreduplicative activity of megakaryocytes, corresponding antibodies (Ret40f and CD61) were applied in combination with the cell-cycle markers (sequential double-immunostaining). Morphometric analysis revealed no significant differences in PCNA or Ki-67 reactivity in either cell lineages. In comparison with previous studies on normal bone marrow, in splenic tissue showing myeloid metaplasia, the numbers of PCNA-labelled proerythroblasts, erythroblasts and megakaryocytes were conspicuously increased. Considering the ineffective erythropoiesis in OMF, there seemed to be a disproportional enhancement in PCNA and Ki-67 immunostaining of the red cell lineage. Similarly, the small size of megakaryocytes in advanced, OMF-associated myeloid metaplasia was in keeping with an impairment of endoreduplicative activity. In addition to various other contributory factors, anaemia in OMF may be partially caused by secondary folate (haematinic) deficiency. From experimental studies this defect is known to cause an abnormal arrest in the S-phase of the cell-cycle, comparable to that characterising pernicious anaemia. As a sequel of this pathomechanism, an undue overexpression of PCNA and Ki-67 has to be assumed, that is not necessarily associated with DNA synthesis or cell cycling. This work was supported by a grant from the Deutsche Forschungsgemeinschaft (DFG-Th 390/1-3)     

Thrombin-stimulated effects on megakaryocytopoiesis and pulmonary-platelet interactions

The effects of thrombin stimulation on megakaryocytopoiesis and pulmonary-platelet interactions were investigated before and after administration of the compound to 15 mongrel dogs. Each dog served as its own control. Thrombin was given to encourage the traffic of megakaryocytes into the lung and to study the thrombin-stimulated effects on megakaryocytopoiesis in the bone marrow. Our results showed that thrombin increased the numbers of bone marrow cells in general and megakaryocytes (MK) in particular. In addition, the maturation cycle of megakaryocytes was accelerated and the number of MK migrating into the central venous circulation was nearly doubled. Most of the circulating MK ultimately became sequestered in pulmonary capillaries, where platelets were shed into the arterial circulation. We conclude that thrombin has a major stimulatory effect on megakaryocytopoiesis in the bone marrow and that the lung plays an important role as a vascular filter and regulator of circulating platelet count.     

Dynamics of bone marrow changes in patients with chronic idiopathic myelofibrosis following allogeneic stem cell transplantation

Scant knowledge exists about the dynamics of fibro-osteosclerotic bone marrow (BM) lesions and regeneration of hematopoiesis following allogeneic peripheral stem cell transplantation (SCT) in chronic idiopathic myelofibrosis. Therefore, an immunohistochemical and morphometric study was performed on BM biopsies in 20 patients before and at standardized intervals (days 30 through 384) following SCT. In responding patients, a total regression of the pretransplant increased fibrosis was completed in the posttransplant period after about six months, while the extent of osteosclerosis did not change significantly during observation time. The quantity of CD61+ megakaryocytes including precursors was strikingly variable after SCT and, by using planimetric methods, atypical microforms exhibiting a dysplastic aspect could be demonstrated. These anomalies may be responsible for posttransplant thrombocytopenia. CD34+ progenitor cells were increased before transplantation, however, their number declined rapidly to normal values in responding patients. Nucleated erythroid precursors revealed a decreased amount before and after SCT accounting for anemia. Large clusters of this cell lineage indicated an initial hematopoietic reconstitution comparable with the expansion of the neutrophil granulopoiesis. Proliferative activity and apoptosis showed an increase until one year after SCT that implied a still regenerating hematopoiesis in keeping with an enhanced cell turnover.     

Human mesenchymal stem cells support megakaryocyte and pro-platelet formation from CD34(+) hematopoietic progenitor cells

Megakaryocytopoiesis and thrombocytopoiesis result from the interactions between hematopoietic progenitor cells, humoral factors, and marrow stromal cells derived from mesenchymal stem cells (MSCs) or MSCs directly. MSCs are self-renewing marrow cells that provide progenitors for osteoblasts, adipocytes, chondrocytes, myocytes, and marrow stromal cells. MSCs are isolated from bone marrow aspirates and are expanded in adherent cell culture using an optimized media preparation. Culture-expanded human MSCs (hMSCs) express a variety of hematopoietic cytokines and growth factors and maintain long-term culture-initiating cells in long-term marrow culture with CD34(+) hematopoietic progenitor cells. Two lines of evidence suggest that hMSCs function in megakaryocyte development. First, hMSCs express messenger RNA for thrombopoietin, a primary regulator for megakaryocytopoiesis and thrombocytopoiesis. Second, adherent hMSC colonies in primary culture are often associated with hematopoietic cell clusters containing CD41(+) megakaryocytes. The physical association between hMSCs and megakaryocytes in marrow was confirmed by experiments in which hMSCs were copurified by immunoselection using an anti-CD41 antibody. To determine whether hMSCs can support megakaryocyte and platelet formation in vitro, we established a coculture system of hMSCs and CD34(+) cells in serum-free media without exogenous cytokines. These cocultures produced clusters of hematopoietic cells atop adherent MSCs. After 7 days, CD41(+) megakaryocyte clusters and pro-platelet networks were observed with pro-platelets increasing in the next 2 weeks. CD41(+) platelets were found in culture medium and expressed CD62P after thrombin treatment. These results suggest that MSCs residing within the megakaryocytic microenvironment in bone marrow provide key signals to stimulate megakaryocyte and platelet production from CD34(+) hematopoietic cells.     

Ultrastructure of chronic megakaryocytic-granulocytic myelosis.

To study chronic megakaryocytic-granulocytic myelosis, bone marrow biopsies from 5 patients were obtained. Ultrastructural quantitative and qualitative assessments demonstrate proliferation of both the megakaryocytic and granulocytic cell lines. Factors indicative of malignant growth in megakaryocytes included atypical maturation, nuclear-cytoplasmic asynchrony, nuclear inclusions and production of micromegakaryocytes. Abnormal thrombocyte delineation provoked giant platelet production. The neutrophil series also presented atypia as generally observed in chronic myelogenous leukemia. Even in cases without evidence of myelofibrosis under the light microscope, megakaryoblasts were associated with fibrillar structures. These cells may be responsible for the initial step in fibrillogenesis by providing a medium conductive to the collagen formation found in later stages of this disease.     

Megakaryoblastic micromegakaryocytic crisis in chronic myeloid leukemia

Atypical megakaryoblasts (MKB) or megakaryocytes (MK) are occasionally present in the peripheral blood during the terminal development of chronic myeloid leukemia (CML). We report on a 49-year-old female suffering from Ph1 chromosome-positive CML with typical megakaryoblastic transformation in the peripheral blood and in the bone marrow. The small "blasts" were at the most only slightly larger and were occasionally even smaller than lymphocytes but showed megakaryoblastic or atypical megakaryocytic differentiation. The cytoplasmic cytochemical pattern of the atypical megakaryocytic cells was identical to that of large atypical thrombocytes. Platelet peroxidase was detected upon electron-microscopic (EM) examination. Immunologic characterization disclosed the presence of MK-specific antigens. When cultured in vitro on agar, the blasts transformed spontaneously into large mature MK, exhibiting characteristic cytochemical and immunological patterns. Cytogenetic examination of peripheral blood showed severe abnormalities. The patient did not respond to therapy and died 3 months after manifestation of the blast crisis.     

Immature megakaryocytes in the mouse: In vitro relationship to megakaryocyte progenitor cells and mature megakaryocytes

An assay describing conditions for the maturation of single immature megakaryocytes in vitro is reported. Enriched populations of small, relatively immature megakaryocytes have been found to develop into single, mature megakaryocytes by 60 hours in semisolid agar cultures. Continued incubation of these cells did not lead to the formation of colonies within 5–7 days. Maturation was indicated by increasing cell size and cytoplasmic and acetylcholinesterase content. Factors stimulating the development of immature megakaryocytes were found in preparations of human embryonic kidney cell-conditioned media (a source of in vivo Thrombopoietic Stimulatory Factor), peritoneal exudate cell-conditioned medium, lung-conditioned medium, or bone marrow cellular sources of activity (adherent cells or cells that sediment at 5–6 mm hr^-1). Immature megakaryocytes cultured serum free responded to sources of an auxiliary megakaryocyte potentiating activity by developing into single, large megakaryocytes but did not respond to a megakaryocyte colony-stimulating factor devoid of detectable potentiator activity present in WEHl-3-conditioned medium. In contrast, serum-free proliferation of the megakaryocyte progenitor cell required both megakaryocyte colony-stimulating factor and the auxiliary potentiator activity. In the presence of megakaryocyte colony-stimulating factor alone, progenitor cells did not form colonies of easily detectable megakaryocytes. However, groups of cells comprised entirely of small acetylcholinesterase containing immature megakaryocytes were observed, thus establishing that megakaryocyte colony development passes through a stage of immature cells prior to detectable megakaryocyte development and that some acetylcholinesterase-containing cells can undergo cellular division.     

Lycramine brilliant blue JL: a new stain for human megakaryocytes

Using the acrylic textile dye Lycramine brilliant blue JL, mature and immature megakaryocytes from human bone marrow specimens stained metachromatically bright lavender. This coloration was not observed in other types of bone marrow cells. After digestion with either diastase or ribonuclease, subsequent staining of marrow specimens did not reveal a significant diminution of the intensity of staining of megakaryocytes. However, after incubation with hyaluronidase followed by staining with Lycramine brilliant blue JL, staining of megakaryocyte cytoplasm was either imperceptible or very pale blue. Accordingly, at least one of the substances responsible for the staining reaction is acid mucopolysaccharide in the cytoplasm of megakaryocytes. With further experience and comparison with established immunologic and cytochemical techniques, staining of megakaryocytes with Lycramine brilliant blue JL may be a useful addition to the cytochemistry of blood and bone marrow cells.     

Lycramine Brilliant Blue Jl: A New Stain for Human Megakaryocytes

Using the acrylic textile dye Lycramine brilliant blue JL, mature and immature megakaryocytes from human bone marrow specimens stained metachromatically bright lavender. This coloration was not observed in other types of bone marrow cells. After digestion with either diastase or ribonuclease, subsequent staining of marrow specimens did not reveal a significant diminution of the intensity of staining of megakaryocytes. However, after incubation with hyaluronidase followed by staining with Lycramine brilliant blue JL, staining of megakaryocyte ctyoplasm was either imperceptible or very pale blue. Accordingly, at least one of the substances responsible for the staining reaction is acid mucopolysaccharide in the cytoplasm of megakaryocytes. With further experience and comparison with established immunologic and cytochemical techniques, staining of megakaryocytes with Lycramine brilliant blue JL may be a useful addition to the cytochemistry of blood and bone marrow cells.