Haemonectin, a bone marrow adhesion protein specific for cells of granulocyte lineage

Evolution of the Marrow Adipose Tissue Microenvironment

Adipocytes of the marrow adipose tissue (MAT) are distributed throughout the skeleton, are embedded in extracellular matrix, and are surrounded by cells of the hematopoietic and osteogenic lineages. MAT is a persistent component of the skeletal microenvironment and has the potential to impact local processes including bone accrual and hematopoietic function. In this review, we discuss the initial evolution of MAT in vertebrate lineages while emphasizing comparisons to the development of peripheral adipose, hematopoietic, and skeletal tissues. We then apply these evolutionary clues to define putative functions of MAT. Lastly, we explore the regulation of MAT by two major components of its microenvironment, the extracellular matrix and the nerves embedded within. The extracellular matrix and nerves contribute to both rapid and continuous modification of the MAT niche and may help to explain evolutionary conserved mechanisms underlying the coordinated regulation of blood, bone, and MAT within the skeleton.

Granulocyte Adherence is Inhibited by Radiographic Contrast Media in Vitro

Different amounts of diatrizoate, ioxaglate, iohexol, iodixanol, NaCl 1000 mOsm/kg, mannitol 1098 mOsm/kg, and meglumine (meglumine concentrations corresponding to the content in the diatrizoate solutions) were added to either whole blood or a suspension of granulocytes in autologous plasma, and the adherence to nylon fibers was determined. At high concentrations all the investigated contrast media (CM) inhibited granulocyte adherence. The degree of inhibition was significantly greater when the ionic CM diatrizoate and ioxaglate were used, as compared with the nonionic media. Meglumine solutions at high concentrations also inhibited adherence but significantly less than diatrizoate solutions containing the same amount of meglumine. Diatrizoate showed the greatest inhibitory effect on granulocyte adherence, and significant inhibition could be detected even with a 1.25% solution.

Review: tissue engineering: reconstitution of human hematopoiesis ex vivo

The reconstruction of functioning human tissues ex vivo is becoming an important part of biotechnology. There are compelling scientific, clinical, and biotechnological reasons for fully or partially reconstituting human tissues such as skin, bone marrow, and liver ex vivo. In particular, bone marrow is a tissue of much importance, and there are significant societal and health benefits derived from a successfully constructed ex vivo hematopoietic system. In this article, we review the current status of this effort. The topics covered include the current understanding of the biology of human hematopoiesis, the motivation for reconstructing it ex vivo, the current state of ex vivo human hematopoietic cultures, the development of important metrics to judge culture performance, and an approach based on in vivo mimetics to accomplish this goal. We discuss some applications of functional ex vivo hematopoietic cultures and the biological and engineering challenges that face research in this area.

The role and regulation of tumour-associated hyaluronan

Significantly increased levels of the glycosaminoglycan hyaluronan are often associated with human and animal tumours. In the rabbit V2 carcinoma elevated levels of tumour-associated hyaluronan are also closely correlated with invasiveness. We have therefore initiated studies to better define the role and regulation of hyaluronan synthesis in tumour tissues. In cell culture many tumour cell types have reduced capacities to synthesize hyaluronan even when derived from tumours enriched in hyaluronan. We showed that several of these same cells can nevertheless stimulate hyaluronan synthesis by normal fibroblasts. In the LX-1 human lung carcinoma cell line this stimulatory potential resides in a membrane-bound, heat-sensitive, lipophilic, cell surface glycoprotein. These data suggest that production of tumour-associated hyaluronan occurs via tumour-stromal cell interactions. We recently demonstrated that some human tumour cells also possess unoccupied, high affinity, cell surface binding sites for hyaluronan which may allow tumour cells to interact directly with hyaluronan-enriched extracellular matrices. This interaction may in turn allow tumour cells to use hyaluronan as a support for adhesion and locomotion. The spatial organization of hyaluronan could then function to guide tumour cells into surrounding stroma. We attempted to visualize this spatial deposition of hyaluronan in situ within frozen sections of human tumour tissue using a morphological probe that specifically recognizes hyaluronan. Hyaluronan appears most prominently in the partially degraded connective tissue.

Engineering a mimicry of bone marrow tissue ex vivo

Hematopoietic stem cells reside in specific niches in the bone marrow and give rise to either more stem cells or maturing hematopoietic progeny depending on the signals provided in the bone marrow microenvironment. This microenvironment is comprised of cellular components as well as soluble constituents called cytokines. The use of cytokines alone for the ex vivo expansion of stem cells in flat, two-dimensional culture flasks, dishes or bags is inadequate and, given the three-dimensionality of the in vivo bone marrow microenvironment, inappropriate. Three-dimensional culture conditions can therefore provide an ex vivo mimicry of bone marrow, recapitulate the desired niche, and provide a suitable environment for stem cell expansion and differentiation. Choice of scaffold, manipulation and reproducibility of the scaffold properties and directed structuring of the niche, by choosing pore size and porosity may inform the resident stem cells of their fate in a directed fashion. The use of bioreactors for cultivation of hematopoietic cells will allow for culture control, optimization, standardization, scale-up, and a "hands-off" operation making the end-product dependable, predictable and free of contaminants, and therefore suitable for human use and therapeutic applications.

Platelet factor 4 enhances the adhesion of normal and leukemic hematopoietic stem/progenitor cells to endothelial cells

Platelet factor 4 (PF4) is a growth regulator of hematopoietic stem/progenitor cells (HSPCs), but its role in modulating the adhesive property of normal and leukemic cells remains unclear. We used CD34(+) cord blood cells, KG1a cell line, human umbilical vein endothelial cells (HUVECs) and a transformed HUVECs ECV-304 cells to study the effect of PF4 on cell adhesion. When CD34(+) cord blood cells were cultured either in fibronectin-coated (FN) culture plate or over the layer of HUVECs for 2h, a concentration-dependent increase of the number of adhered cells was observed in the culture containing PF4. FACS analysis revealed that the treatment of PF4 resulted in an increased expression of CD49d and CXCR-4 on CD34(+) cells. Moreover, when CD34(+) cells were expanded in the presence of PF4, the adhesive ability to culture plate of CD34(+) cells was significantly increased. To elucidate the mechanism of action of PF4, KG1a cells were incubated with or without PF4 for 2h on pre-established layer of ECV-304 cells. The percentage of CD49d(+) KG1a cells increased about 1.56 +/- 0.4 fold, and that of CD54(+) ECV-304 increased about 1.7 +/- 0.6 fold. Furthermore, the mRNA expression of CD49d and CD54 was upregulated when KG1a or ECV-304 cells were incubated with PF4. The adhesion capacity of KG1a cells was reduced after incubation with the blocking monoclonal antibodies against CD49d and CD54, respectively. Our data demonstrate that PF4 is able to enhance the adhesive ability of normal and leukemia HSPCs.

Isolation of a novel PDZ-containing myosin from hematopoietic supportive bone marrow stromal cell lines

Stromal cells in bone marrow provide an optimal microenvironment for hematopoiesis. The established stromal cell lines from bone marrow showed various cellular heterogeneities and differed in their hematopoietic supportive ability. By a differential display method, we cloned a gene whose expression levels were correlated with the hematopoietic supportive ability of stromal cells. Its deduced amino acid sequence shows a structure similar to myosins, except that it lacks an actin binding site. Interestingly, it contains a KE-rich sequence and a PDZ domain in the NH(2)-terminal, which are protein-protein interaction domains; therefore we termed this novel myosin Myosin containing PDZ domain (MysPDZ). Western blot analysis showed that its protein levels positively correlated with the supportive ability of stromal cells and immunostaining suggested that MysPDZ was present at cytoskeleton in a filamentous and/or network form. Thus MysPDZ may be involved in the maintenance of the stromal cell architectures required for cell to cell contact.

Comparison of bone marrow extracellular matrices

We have compared the structure and composition of adult and fetal bovine bone marrow extracellular matrices. In contrast to fetal bone marrow, adult bone marrow has more oval fenestration and accumulation of adipocytes as well as lower protein content. These differences could be due to remodeling of bone marrow tissue as it develops. Zymogram analysis of matrix metalloproteinase (MMP) and tissue inhibitor of MMP (TIMP) activities showed that fetal, but not adult bone marrow extract contained a 96-kDa MMP and TIMP-1 and -2. These activities may contribute to the structural differences between adult and fetal bone marrow tissues.

Lymphopoiesis and matrix glycoprotein SC1/ECM2

Rapid progress is being made in characterizing extracellular matrix and other components of the bone marrow microenvironment. New cloning strategies have been particularly helpful in identifying molecules made by marrow stromal cells. Matrix glycoprotein SC1/ECM2 (SC1/ECM2), a calcum-binding secreted protein, is one example and can contribute to the nurturing environment for B lymphocyte precursors. A fusion protein prepared from the SC1/ECM2 and the constant region of human immunoglobulin preferentially bound to B lineage cells in a divalent cation dependent manner. Furthermore, mitogen-dependent proliferation of mature B cells, as well as the cloning of pre-B cells, was increased in a dose dependent manner by addition of the fusion protein. SC1/ECM2 is also capable of augmenting lymphopoiesis when expressed as a transmembrane protein on fibroblasts. While the C-terminal portion of SC1/ECM2 has sequence homology to osteonectin/SPARC, the unique amino-terminal one fifth of the protein was sufficient to augment lymphocyte growth. As additional information accrues about the molecular requirements for lympho-hematopoiesis, it should become possible to engineer more efficient supporting microenvironments.

Adhesion molecules in clinical medicine

Cellular adhesion molecules (CAMs) are critical components in the processes of embryogenesis, tissue repair and organization, lymphocyte function, lymphocyte homing and tumor metastasis, as well as being central to the interactions between hemopoietic progenitors and bone marrow microenvironment, and between leukocytes and platelets with vascular endothelium. Expression of CAMs regulates normal hemopoiesis and migration and function of mature hemopoietic cells. CAMs are an important part of the inflammatory response and may regulate cytokine synthesis. In addition, CAM expression may be critical for tumorigenesis. Monoclonal antibodies to CAMs have been developed for clinical use; initial results suggest that these agents have great potential in the prevention and treatment of inflammation, thrombosis, reperfusion injury, and graft rejection.

Regulation of myeloid and lymphoid development of hematopoietic stem cells by bone marrow stromal cells

Development of hematopoietic stem cells is regulated by stromal cells of the bone marrow. Many stromal cell lines have been established from temperature-sensitive SV40 large T-antigen gene transgenic mice and used to examine regulation of the purified stem cells. When the sorted stem cells were cocultured on the stromal cell layers, cobblestone formation was induced by the stromal cells. The cobblestones were formed by finite cell division (8 divisions on average) of sorted Lin- c-Kit+ Sca1+ stem cells committed to myeloid or lymphoid lineages. These stromal cell lines showed variable activities supporting the stem cell development. In one stromal cell line, TBR59, two waves of cobblestone formation committed to either myeloid lineage or lymphoid lineage were induced. TBR31-1, another bone marrow stromal cell line, induced only the cobblestone formation committed to lymphoid lineage. These results indicate that the bone marrow stromal cells selectively induce lineage-specific commitment of the stem cells. Both cobblestone formations require c-Kit function as well as adhesive interaction through VLA4 and VCAM1.

The role of osteoblasts in the hematopoietic microenvironment

Hematopoietic stem cell differentiation occurs in direct proximity to osteoblasts within the bone marrow cavity. Despite this striking affiliation, surprisingly little is known about the precise cellular and molecular impact of osteoblasts on the bone marrow microenvironment. Recently, it has been proposed that human osteoblasts support the growth of primitive human hematopoietic cells in vitro and possibly in vivo. Evidence to support this hypothesis is reviewed as follows: the influence of osteoblasts on osteoclast development; the participation of osteoblasts in long-term bone marrow cultures; the production of positive hematopoietic regulatory molecules by osteoblasts; the production of cell-cycle inhibitory factors by osteoblasts, and cell-cell interactions between early hematopoietic cells and osteoblasts.

The evolution of megakaryocytes to platelets

Megakaryocytes (MKs) arise from pluripotent stem cells by a process of cell division, endoreplication and maturation. Progressively, the MK cytoplasm is invaded by the demarcation membrane system speculated to delimit pre-formed platelets. One theory is that the passage of entire MKs (or fragments) into the blood stream is followed by their physical break-up into platelets in the pulmonary circulation. A second theory is that MKs produce beaded processes (proplatelets) which then separate into platelets. Functionally vital platelet receptors such as GPIIb-IIIa and GPIb-IX complexes are specific markers of the MK lineage. CD34 and CD4 are present in progenitors but progressively disappear as MKs mature. Stroma cells secrete cytokines, produce extracellular matrix proteins and mediate cellular contact interactions that regulate MK development. Studies on thrombopoietin and the use of transgenic mouse models are helping to clarify MK biology.

Limited proteolysis of human alpha2-HS glycoprotein/fetuin. Evidence that a chymotryptic activity can release the connecting peptide

alpha2-HS glycoprotein is a major protein of human plasma whose function is still obscure. A proteolytically processed form of alpha2-HS glycoprotein lacking a segment of 40 amino acid residues bridging its heavy and light chain portions ("connecting peptide") has been described suggesting that this peptide is released by post-translational processing to fulfill biological role(s) of alpha2-HS glycoprotein. To test this hypothesis we investigated how the connecting peptide is released from the parental molecule by limited proteolysis. We developed monoclonal antibodies to various portions of the connecting peptide and its NH2-terminal flanking region which cross-react with the native alpha2-HS glycoprotein. Purified alpha2-HS glycoprotein from human plasma was subjected to limited proteolysis by proteinases including trypsin, chymotrypsin, elastase plasmin, kallikrein, thrombin, and renin. Immunoprint analysis of the proteolytic digests indicated that alpha2-HS glycoprotein is readily cleaved in its connecting peptide region. NH2-terminal amino sequence analysis of the generated fragments demonstrated that a single proteinase, chymotrypsin, cleaves the critical Leu-Leu bond flanking the NH2-terminal portion of the connecting peptide region. Most but not all of the other proteinase cleavage sites map to a short stretch of 9 residues located in the center portion of the connecting peptide region. Immunoprint analysis of plasma samples from patients with sepsis demonstrate that the connecting peptide region is cleaved under pathological conditions. Our results indicate that the connecting peptide and/or fragments thereof are readily releasable from alpha2-HS glycoprotein in vitro and in vivo.

The expression of fetuin in the development and maturation of the hemopoietic and immune systems

The distribution and expression of fetuin, a fetal plasma protein that has been shown to have a wide-spread intracellular presence in many developing tissues including the central nervous system, has been studied in the developing immune and hemopoietic organs of fetal and adult sheep. The presence of fetuin was demonstrated using immuno-cytochemistry and expression of fetuin was studied using northern blot analysis and in situ hybridization. In the developing sheep fetus, fetuin was shown to be expressed first in the hemopoietic cells of the fetal liver and subsequently in the forming spleen. The very first stromal, bone marrow-forming cells, also expressed fetuin mRNA. These cells became more numerous during gestation and by embryonic day (E)115 (term is 150 days), fetuin-expressing cells were identified morphologically to be monocytes/macrophages. Fetuin protein, on the other hand, was present in all hemopoietic and immune organs from the earliest age studied (E30) but was confined initially to matrix, mesenchymal tissue. Fetuin-positive cells could be identified in the spleen at E60 as early hemopoietic cells, in the lymph nodes at E60 as stromal cells and macrophages, and at E115 in the thymus as macrophages and squamous cells. In the adult, fetuin mRNA was only detectable by northern blot in the liver and the bone marrow. Using in situ hybridization in adult tissue, fetuin mRNA-positive cells were identified in the bone marrow to be monocytes/macrophages. Additionally, in the spleen germinal centres, fetuin mRNA was identified in cells with the morphology of dendritic cells. Using three separate cellular markers: lysozyme, S-100, and alpha 1-antitrypsin, the cellular identification of fetuin-positive cells was confirmed to be in the monocyte/macrophage lineage.

The role of stromal cell heparan sulphate in regulating haemopoiesis

Intimate contact between haemopoietic progenitor cells and elements of the bone marrow stroma is required for progenitor cell proliferation and differentiation. It is believed that the stroma provides particular niches for the development of haemopoietic cells of different lineages. Cytokines, stromal cell surface molecules and molecules of the stromal extracellular matrix all contribute to defining these microenvironmental niches. Data obtained using an in vitro model of haemopoiesis support the view that progenitor cell adhesion to stroma is mediated by multiple receptor-ligand interactions. The possibility of a tethering step, mediated by the engagement of stromal cell heparan sulphate with its ligands on the progenitor cells, preceding stable cell adhesion is discussed. The role of stromal cell heparan sulphate is likely to include cytokine presentation to progenitors as well as the tethering of progenitors to stroma. It is proposed that intracellular signals induced by progenitor cell adhesion to stroma act in association with cytokine induced signals to regulate progenitor cell proliferation and differentiation.

The extracellular matrix of the hematopoietic microenvironment

The bone marrow microenvironment plays an important role in promoting hematopoietic progenitor cell proliferation and differentiation and the controlled egress of these developing hematopoietic cells. The establishment of long-term bone marrow cultures, which are thought to mimic hematopoiesis in vitro, and various stromal cell lines has greatly facilitated the analysis of the functions of this microenvironment. Extracellular matrix (ECM) molecules of all three categories (collagens, proteoglycans and glycoproteins) have been identified as part of this microenvironment and have been shown to be involved in different biological functions such as cell adhesion and anti-adhesion, binding and presentation of various cytokines and regulation of cell growth. It is suggested that these matrix molecules in combination with cytokines are crucial for compartmentalization of the bone marrow. Although many cell adhesion molecules have been characterized on the surface of hematopoietic progenitor cells, the nature of cellular receptors for the ECM components is less well defined. During leukemia, many immature blood cells are released from bone marrow, but it is not yet known whether these abnormalities in hematopoiesis are also caused by an altered microenvironment or altered composition of its extracellular matrix. The elucidation of the involvement of specific ECM-isoforms and as yet not characterized ECM components and their receptors in the bone marrow will certainly help towards a better understanding of these phenomena.

Interaction of acute leukemia cells with the bone marrow microenvironment: implications for control of minimal residual disease

There is increasing evidence for an interaction between acute leukemia cells and the microenvironment of the bone marrow. Blast cells from cases of acute myeloid leukemia (AML) and acute lymphoblastic leukemia (ALL) bind to cellular and extracellular matrix components of the bone marrow stroma. In AML, adhesion to stroma is mediated by the combined action of beta 1 (principally VLA-4) and beta 2 integrins, while in precursor-B ALL VLA-4 and VLA-5 integrins play a major role. Adhesion molecules such as CD31, CD44, non-beta 1, beta 2 integrins, growth factor receptors such as c-kit, and other molecules are also likely to play a role. Binding of acute leukemia blasts to ligands on stroma has several pathophysiological consequences. Stromal contact is able to inhibit programmed cell death (apoptosis) in a proportion of cases of both AML and ALL. In ALL, diffusible molecules derived from stroma appear to contribute. Marrow stroma also plays a part in regulating leukemic cell proliferation. While this is partly due to stromal production of hemopoietic growth factors, in soluble or transmembrane form or bound to extracellular matrix, signalling mediated directly by binding of adhesion molecules on leukemic cells may also have a role. Contact of ALL blasts with marrow fibroblasts is followed by migration of leukemic cells, utilizing VLA-4 and VLA-5 integrins, potentially allowing homing of blasts to favourable microenvironmental sites, or controlling egress into the circulation. AML cells compete for stromal binding sites with natural killer cells and cytotoxic lymphocytes, which are known to inhibit their clonogenic growth. We speculate that these complex interactions between leukemic blasts, cellular and matrix components of stroma, and cytotoxic lymphocytes, play a critical role in determining the fate of small numbers of leukemic cells surviving after cytotoxic chemotherapy.

Macrophage-colony-stimulating factor regulates expression of the integrins alpha 4 beta 1 and alpha 5 beta 1 by murine bone marrow macrophages

We observed that when monocyte/macrophage precursors derived from murine bone marrow were treated with macrophage-colony-stimulating factor (M-CSF), there was a dose-dependent increase in both the number of adherent cells and the degree to which the cells were highly spread. Attachment was supported by fibronectin, but not by vitronectin or laminin, suggesting that the integrins alpha 4 beta 1 and/or alpha 5 beta 1 might mediate this event. Binding to fibronectin was blocked partially by antibodies to either integrin, and inhibition was almost complete when the antibodies were used in combination. By a combination of surface labeling with 125I and metabolic labeling with [35S]methionine and [35S]cysteine, we demonstrated that M-CSF treatment led to increased synthesis and surface expression of the two beta 1 integrins. Since attachment to fibronectin and/or stromal cells plays an important role in the maturation of other hematopoietic lineages, we propose that the action of M-CSF in the differentiation of immature monocytes/macrophages includes stimulated expression of the integrins alpha 4 beta 1 and alpha 5 beta 1, leading to interactions with components of the marrow microenvironment necessary for cell maturation.

Ovine bone marrow extracellular matrix and soluble protein extraction: fetuin amino terminus microheterogeneity

In this article, the authors describe a new method using phosphate-buffered saline for the initial extraction of extracellular matrix (ECM) and soluble proteins from hematologic tissues. Direct comparisons between this method and previously reported methods demonstrate superior total protein yields with the novel technique in a fraction of the time for these ovine hematologic tissues: bone marrow, marrow aspirate, spleen, liver, and blood. Analysis by one-dimensional sodium dodecyl sulfate polyacrylamide gel electrophoresis and silver staining demonstrate comparable protein patterns with this method and a previously reported method. This method also successfully extracts the ECM glycoproteins fibronectin and laminin as well as the proteoglycan, chondroitin sulfate from marrow. These findings are demonstrated by Western and dot blotting. Bone marrow ECM and soluble proteins extracted by the novel method stimulate myeloid progenitor growth in a methylcellulose assay. Using an assay for elastase inhibitory capacity, the authors demonstrate that alpha 1-proteinase inhibitor, the principal inhibitor of neutrophil elastase, is present and that its activity is preserved in bone marrow samples extracted with this team's method. In contrast, very low total protein yields are obtained with the method used previously to recover hemonectin, a rabbit bone marrow ECM granulocytic cytoadhesion molecule. This team's novel procedure, which extracts ECM and soluble proteins from small samples of tissue in a rapid, efficient, and reproducible manner, greatly enhances the analysis of these proteins from tissue culture, animal, and human clinical samples. In addition, with purification by chromatofocusing chromatography and molecular sieving gel electrophoresis, N-terminal amino acid sequencing could be performed on a developmentally regulated marrow protein with biochemical properties similar to those of hemonectin and the plasma protein fetuin. The authors propose that this novel technique be used for the initial extraction of ECM and soluble proteins from hematologic tissues and that subsequent, definitive recovery of insoluble proteins be accomplished using previously reported, though less efficient, methods.

The homing of hematopoietic stem cells to the bone marrow

In this article, the author discusses some of the most notable aspects of the work of Mehdi Tavassoli and others on the homing of intravenously transplanted hematopoietic stem cells to the marrow. It is well-recognized that homing of stem cells is a highly selective process, perhaps similar to the homing of lymphocytes to lymphoid tissues. The nature of the selectivity of stem cell homing is unclear, however, and may be mediated through a specific homing receptor or through a method of selective capture, retainment, or survival advantage afforded by the marrow. In this article, the focus is on current research in the identification of a specific homing receptor, the potential regulation of such a receptor by cytokines, the homing phenomenon as a multi-step process, and secondary adhesive interactions mediated by known adhesive molecules. These interactions may serve to strengthen the initial recognition and engraftment of stem cells within the hematopoietic compartment of the marrow.

Cell adhesion to proteins separated by lithium dodecyl sulfate-polyacrylamide gel electrophoresis and blotted onto a polyvinylidene difluoride membrane: a new cell-blotting technique

Cell blotting, although conceptually simple, has failed to achieve wide practical application. Described here is a new cell-blotting technique which involves cell adhesion to protein bands after separation by lithium dodecyl sulfate-polyacrylamide gel electrophoresis (LDS-PAGE) and blotting onto polyvinylidene difluoride (PVDF) membrane at 4 degrees C. Cell bands adherent on PVDF are detected using hematoxylin, or propidium iodide (PI) staining followed by viewing under ultraviolet (UV) light. The technique allows quick microscopic visualization of adherent cells composing the bands, without requiring clearing of the membrane. Representative cell adhesion proteins from different sources, i.e., plant lectins (e.g., phytohemagglutinin, PHA; concanavalin A, ConA; and wheat germ agglutinin, WGA); extracellular matrix (ECM) proteins; and integral membrane proteins (e.g., recombinant soluble vascular cell adhesion molecule-1, rs VCAM-1) were tested for cell binding by the new cell-blotting technique using human lymphoid progenitor (NALM-6) and myeloid progenitor (KG1a) cell lines. Cell adhesion proteins retained their adhesion function in all cases tested. Specificity of cell binding on PVDF blot was demonstrated by inhibition of cell adhesion to WGA protein bands using an appropriate sugar, i.e., N-acetyl D-glucosamine. The cell blotting assay was comparable in sensitivity to Coomassie blue staining of protein bands. The ability to conduct protein extraction, separation and blotting at low temperature avoids thermal denaturation, thereby preserving the adhesion properties of the proteins. The electrophoretic/blotting system has unique detergent removal/protein renaturation properties and the ability to preserve functionally active adhesion protein complexes. The cell-blotting technique described is sufficiently robust for routine application in the investigation of novel cell adhesion proteins.

Estrogen deficiency stimulates B lymphopoiesis in mouse bone marrow

We have found that an estrogen deficiency causes a marked increase in bone marrow cells. To examine the effect of estrogen on hemopoiesis, we characterized the increased population of bone marrow cells after ovariectomy (OVX). In OVX mice, the percentage of myeloid cells and granulocytes was decreased, whereas that of B220-positive B lymphocytes was selectively increased 2-4 wk after surgery. The total number of myeloid cells and granulocytes did not change appreciably, but that of B220-positive cells was greatly increased by OVX. When OVX mice were treated with estrogen, the increased B lymphopoiesis returned to normal. B220-positive cells were classified into two subpopulations, B220low and B220high. The majority of the B220low cells were negative for the IgM mu chain, whereas most of the B220high cells were mu-positive. OVX selectively increased the precursors of B lymphocytes identified by B220low. mu-negative phenotype, suggesting that an estrogen deficiency stimulates accumulation of B lymphocyte precursors. When bone marrow-derived stromal cells (ST2) were pretreated with estrogen then co-cultured with bone marrow cells in the presence of estrogen, the stromal cell-dependent B lymphopoiesis was greatly inhibited. The present study suggests that estrogen plays an important role in the regulation of B lymphocyte development in mouse bone marrow.

Expression of the c-kit ligand and interleukin 6 genes in mouse bone marrow stromal cell lines

The expression of c-kit ligand and interleukin 6 (IL-6) genes in mouse bone marrow-derived stromal cell lines was examined using quantitative polymerase chain reaction (PCR) analysis based on the design of an internal DNA control. The stromal cells studied included the 14F1.1 endothelial-adipocytes that support long-term hemopoiesis and two additional cell lines (MBA-1, MBA-13) which do not have this function. All the cell lines expressed c-kit ligand gene constitutively, and this expression was not increased by lectins. On the other hand, the expression of the IL-6 gene was markedly induced in all the lines by lipopolysaccharide (LPS) and by phorbol 12-myristate 13 acetate (PMA). The constitutive expression of c-kit ligand in 14F1.1 cells was the lowest among the three cell lines studied and could be increased by stimulation with IL-4. Thus, we observed some quantitative differences among the cell lines in their expression of cytokine genes. However, the unique capacity of 14F1.1 cells to support in vitro hemopoiesis cannot thus far be explained solely on the basis of the ability of these cells to secrete cytokines which are not produced by other stromal cell lines. c-kit ligand may be necessary, but its presence alone is not sufficient for 14F1.1 cells to support prolonged hemopoiesis.

Mechanisms and mediators of neutrophilic leukocytosis

Homeostatic mechanisms controlling levels of circulating leukocytes have been an enigma in the field of hematology for decades. The short circulating half-life of PMNs relative to other leukocytic cell types, and their critical role as a front line of defense against infectious agents ascribes particular importance to this regulatory process. While strident advances have expanded our knowledge of how leukocytes develop and mature in the bone marrow, their regulation and mechanisms for transport into the circulation remain largely unexplained. The relatively recent availability of recombinant cytokines and other highly purified biologic mediators, as well as the development of monoclonal antibodies against specific leukocyte adhesion molecules have led to new insights and renewed interest in this dynamic process (Springer, 1990; Petrides and Dittmann, 1990). This article reviews recent advances in defining the cellular and molecular interactions involved in leukocyte recruitment by various mediators, and proposes conceptual models for regulation of circulating leukocyte levels.

Integrins and adhesive receptors in normal and leukemic CD34+ progenitor cells: potential regulatory checkpoints for cellular traffic

Multiple adhesion receptors are involved in the interaction of hematopoietic cells with the marrow microenvironment. This work characterizes the expression of various adhesive receptors on normal early hematopoietic precursors and reviews how they might be altered in leukemic states. Early hematopoietic CD34+ cells express CD18, CD11a, CD49d, CD49e, CD44, ICAM-1, and ICAM-3. Likewise, most AML samples express CD49d, CD49e, and CD44. In addition to mediating the adherence of progenitors to the marrow, these multiple receptors and their respective ligands may serve to regulate in vivo leukemic cell agrees from marrow and the ability of certain leukemic phenotypes to selectively seek extramedullary sanctuary sites such as the skin and the central nervous system.

Microenvironmental factors involved in the establishment of erythropoiesis in bone marrow

Human erythropoiesis is focused near the venous sinuses of the bone marrow in EBI that are comprised of erythroblasts in intimate contact with supportive CM. The surface molecules and secreted products of fibroblastic reticular cells support the adhesion of erythroblasts and CM, and sequester growth factors near their surfaces. Cohesiveness within the EBI decreases as its associated erythroid cells mature, and the erythroblasts cease to express certain cytoadhesive molecules. Finally, the erythroblasts enucleate and separate from the EBI. Transiently motile reticulocytes enter the circulation through intracellular pores of venous sinus endothelial cells, and their nuclear remnants are ingested by CM or perisinal macrophages.

Tenascin is a cytoadhesive extracellular matrix component of the human hematopoietic microenvironment

Tenascin is a large extracellular matrix (ECM) glycoprotein found in restricted tissue locations in the adult organism. It is copiously synthesized in regenerative organs or regenerating tissues and by certain tumors. We have analyzed the expression of tenascin in human long term bone marrow cultures as well as in cryostat sections of native bone marrow and found it strongly expressed by the stromal cells of the microenvironment. Two different protein subunits of 280 and 220 kD were detected by immunoblotting. These two forms are derived most likely from two different mRNA splice variants of 6 and 8 kb detected by Northern blotting. The in vivo analysis of cryostat sections showed a codistribution with other ECM molecules such as fibronectin and collagen type III in the microenvironment surrounding the maturing hematopoietic cells. Using two independent cell adhesion assays tenascin could be shown to function as a cytoadhesive molecule for hematopoietic cells. These data suggest a direct involvement of tenascin in the retention of hematopoietic progenitor cells in the stroma.

Demonstration of a ubiquitin binding site on murine haemopoietic progenitor cells: implication of ubiquitin in homing and adhesion

Investigations into the nature of the molecular interactions mediating the recognition of the haemopoietic progenitor cells by the haemopoietic stroma, indicate that ubiquitin mediates the binding between murine haemopoietic progenitors and the haemopoietic stroma. The adhesion of haemopoietic progenitors to anti-ubiquitin antibody treated bone marrow stroma cultures, shows inhibition of binding by approximately 78%. Affinity purification of the 1% Triton X-100 soluble stromal membrane fraction, on anti-ubiquitin-sepharose revealed a ubiquitinated 55 kD subunit. Progenitor cells treated with ubiquitin show approximately 58% inhibition in their ability to home into spleen, indicating the direct involvement of ubiquitin in homing. Histochemical staining of bone marrow cells using ubiquitin as a probe further delineates a population of cells possessing specific binding sites for ubiquitin. We demonstrate here the presence of a ubiquitin binding site on the haemopoietic progenitor cells, which may play a major role in the targeting of such progenitors to their 'niche' within the haemopoietic tissue. Such ubiquitin-mediated recognition may thus constitute a common molecular mechanism for homing and adhesion to both bone marrow and spleen, and may be implicated in the homing of more primitive, less differentiated haemopoietic progenitors. The results also indicate that the homing of haemopoietic progenitors within the haemopoietic micro-environment may be mediated by both a ubiquitin dependent and another ubiquitin independent mechanism.

Haemonectin, a granulocytic-cell-binding protein, is related to the plasma glycoprotein fetuin

Haemonectin, a protein present in rabbit bone marrow extracellular matrix extracts, has been reported to bind granulocytes in a developmentally regulated manner. We have purified haemonectin from such extracts and determined the partial amino-acid sequence. The sequence obtained shows 60-70% similarity with the sequence of the plasma glycoprotein fetuin from other mammal species. This difference is consistent with the difference between fetuins from different species. We conclude that the rabbit haemonectin molecule is related to fetuin. The similarity between haemonectin and fetuin is reinforced by analysis with Western blots of one- and two-dimensional gels. These show that haemonectin, like fetuin, is present in serum and that migration of haemonectin from serum and extracellular matrix extracts, on two-dimensional gels, co-incides with that of human fetuin (alpha 2HS-glycoprotein) from serum, extracellular matrix extracts and in purified form. Also, antihaemonectin antibodies cross react with human fetuin. These data imply that the rabbit haemonectin molecule is closely related to fetuin, but do not rule out the possibility that these molecules are functionally distinct.

Cell-stroma interactions in monocytopoiesis

We have used immunohistochemistry to distinguish monocytes from early granulocyte precursors in trephine biopsies, in order to determine the distribution of monocytopoiesis within bone marrow. Developing granulocytes and monocytes have extensively overlapping immunophenotypes, but differential expression of calgranulin by monocytes and granulocytes during their maturation permitted the use of this antigen as a marker of bone marrow monocytes. In addition to morphologically normal bone marrow biopsies, in which monocyte numbers are relatively low, we studied pathological conditions in which either monocytopoiesis or granulopoiesis is selectively increased. By contrast with the highly zonal distribution of developing granulocytes, we found that monocytes were dispersed singly throughout the bone marrow. There was no evidence of preferential localisation of monocytes to particular stromal compartments. We hypothesise that developing monocytes are highly mobile within the bone marrow stroma and are relatively independent of physical stromal contacts for differentiation signals.

[Communication between stem cells and the hematopoietic microenvironment. Experimental data and models of interaction]

The aim of this review is to analyze the different ways by which stem cells and microenvironmental cells may interact. Stem cells are defined as immature cells that ensure the continuous renewal of blood cells. This small set of marrow cells comprises different kinds of cells, differing by their degree of maturity, their commitment, self-renewal ability and repopulating capacity. Microenvironmental cells are fixed marrow cells involved in stem cell survival, proliferation and differentiation. In vivo studies on the distribution within spleen or marrow, of stem cells injected to lethally irradiated mice, have suggested that cells of the microenvironment play a significant role in stem cell proliferation and differentiation. This role has been demonstrated using an in vitro model, i.e. the long-term marrow cultures as described in 1976 by M. Dexter. Analysis of stem cell maintenance in this culture system has made it possible to define the different means by which stromal cells and macrophages (the microenvironmental cells) may control stem cell behavior. Different molecules play a critical role: cytokines (growth factors and inhibitors), adhesion molecules (cell adhesion molecules and molecules belonging to the extracellular matrix) and eventually small peptides. It appears nowadays possible to materially represent the hemopoietic niche, whose existence was postulated by R. Schofield 10 years ago for theoretical reasons related to the the physiology of stem cells.

Mechanisms underlying abnormal trafficking of malignant progenitors in chronic myelogenous leukemia. Decreased adhesion to stroma and fibronectin but increased adhesion to the basement membrane components laminin and collagen type IV

We studied the adhesion of primitive and committed progenitors from chronic myelogenous leukemia (CML) and normal bone marrow to stroma and to several extracellular matrix components. In contrast to benign primitive progenitors from CML or normal bone marrow, Ph1-positive primitive progenitors from CML bone marrow fail to adhere to normal stromal layers and to fibronectin and its proteolytic fragments, but do adhere to collagen type IV, an extracellular matrix component of basement membranes. Similarly, multilineage colony-forming unit (CFU-MIX) progenitors from CML bone marrow do not adhere to fibronectin or its adhesion promoting fragments but adhere to collagen type IV. Unlike committed progenitors from normal bone marrow, CML single-lineage burst-forming units-erythroid and granulocyte/macrophage colony-forming units fail to adhere to fibronectin or its components but do adhere to both collagen type IV and laminin. Evaluation of adhesion receptor expression demonstrates that fibronectin receptors (alpha 4, alpha 5, and beta 1) are equally present on progenitors from normal and CML bone marrow. However, a fraction of CML progenitors express alpha 2 and alpha 6 receptors, associated with laminin and collagens, whereas these receptors are absent from normal progenitors. These observations indicate that the premature release of malignant Ph1-positive progenitors into the circulation may be caused by loss of adhesive interactions with stroma and/or fibronectin and acquisition of adhesive interactions with basement membrane components. Further study of the altered function of cell-surface adhesion receptors characteristic of the malignant clone in CML may lead to a better understanding of the mechanisms underlying both abnormal expansion and abnormal circulation of malignant progenitors in CML.

Modification of human long-term bone marrow cultures: establishment of a functional stromal microenvironment devoid of myeloid progenitors

Differences in the plastic adhesive properties of bone marrow (BM) cells were used to initiate modified stromal layers (MSL) from long-term cultures by removing non-adherent cells shortly (4 to 18 hours) after initial seeding. Following this early modification, adherent cells generated a confluent layer after 21 days of culture. Cellular characteristics of volume and spontaneous fluorescence determined by flow cytometry showed that the MSL included 82% fibroblastic stromal cells, 8% macrophages and 10% myelomonocytic cells. Furthermore, clonogenic assays revealed that the MSL were devoid of hematopoietic progenitor cells. MSL were found to sustain long-term myelopoiesis for at least 7 weeks from exogenously added hematopoietic progenitors isolated from bone marrow (CD34+ cells), thereby demonstrating their functionality. The present experimental model appears of interest for the study of interactions between defined populations of hematopoietic cells and cells of the adherent layer. Of importance, our present modifications of human long-term bone marrow culture are technically simple and do not involve manipulation of the stromal cells.

Cell interaction molecules and cytokines which participate in B lymphopoiesis

A molecular and cellular definition of the bone marrow microenvironment is rapidly contributing to our understanding of lymphohaemopoiesis. While lineage specific genes and their protein products are being identified, information is accumulating about mechanisms which may regulate their expression. Stimulation of B lymphocyte precursor replication, and other discrete functions, are being attributed to cytokines such as interleukin 7 (IL-7). The activity of these factors may be controlled at the level of synthesis, local concentration and interaction with extracellular matrix. Extremely small amounts of IL-7 are made by stromal cells, which are themselves being thoroughly studied as cloned cell lines. This in vitro characterization suggests that stromal cells can make at least 12 cytokines, that they can respond to some of those cytokines themselves, and that they retain differentiation potential. Several molecules have been identified which are probably required for recognition between cells in marrow. It is noteworthy that they belong to several previously described families of adhesion molecules and none is unique to that tissue. VCAM-1 is constitutively expressed on stromal cells in marrow and can be recognized by pre-B cells which bear the integrin VLA-4. The same pair of molecules is probably responsible for extravasation of leukocytes in other tissues during inflammation. Cell adhesion molecules are likely to work in a carefully coordinated and cooperative fashion. Their activity can be controlled by expression or, in some cases, modulated after display on the cell surface. For example, while most haemopoietic cells bear CD44, only certain cells utilize it for recognition of the ligand hyaluronate. The affinity for hyaluronate can be experimentally regulated and depends on the cytoplasmic domain of CD44. This capability for dynamic change may be important for transient interactions between cells, permitting movement of maturing precursors within and from marrow.

Long-term survival of human myeloid progenitor cells induced by a mouse bone marrow stromal cell line

Mouse endothelial-adipocyte cell line (14F1.1), which induces proliferation of mouse stem cells in culture, is also capable of supporting long-term survival in culture of human myeloid progenitor cells; colony forming unit-granulocyte/macrophage (CFU-GM) was recovered from cultures incubated with the 14F1.1 cell line after over a month of incubation. The CFU-GM population increased beyond the input number, whereas, in control cultures initiated without stromal cells, the number of progenitors gradually declined. Addition of a relatively low concentration of human colony-stimulating factors (CSFs) into the cultures promoted the formation of "cobblestone areas," where mouse stroma and human hemopoietic cells closely interacted. 14F1.1 supernatant alone did not support the survival of human CFU-GM but synergized with the function of human granulocyte-macrophage colony-stimulating factor (GM-CSF) to stimulate adherent macrophage proliferation.

Growth kinetics and blast-colony forming cell binding capacity of aplastic anaemic stromal cells

The kinetics of bone marrow cell growth and a special function of stromal cells (the capability of binding blast colony forming cells) were studied in patients with aplastic anaemia (AA). All 10 patients studied showed faster growth of bone marrow stromal cells. The time for a confluent stromal layer formation was 24.5 days for AA bone marrow as opposed to 33.0 days for normal bone marrow. This faster growth rate could also be observed if normal bone marrow cells, depleted of plastic non-adherent fraction, were plated, suggesting that at least one of the reasons for altered stromal cell growth kinetics in AA is the changes in the ratio of plastic adherent/non-adherent cells. Functionally, i.e. in supporting the growth of normal bone marrow blast colonies, AA stromal layers did not differ from that of normal stromal layers, independently of the clinical state of the disease (AA or SAA; in one patient before or after ATG treatment; in two patients after successful allogenic bone marrow transplantation). Moreover, in some AA patients this blast colony forming cell binding function of AA stromal layers could also be detected in samples cultured without hydrocortisone (i.e. in the absence of fat cells), suggesting that AA stroma also differs qualitatively from normal stroma without inducing a defective microenvironment for stem cell homing.

Immunochemical localization of extracellular materials in bone marrow of rats

The distribution of type I collagen, fibronectin, laminin, and heparan sulfate was studied in marrow of rats by indirect immunofluorescence. Most of the type I collagen of marrow is associated with large blood vessels and connective tissue trabeculae, but type I collagen was also localized in a delicate meshwork throughout the marrow and in the basement membrane of the sinusoidal endothelium. Fibronectin is partially co-distributed with type I collagen, but is much more widely distributed. Sheets or septa of fibronectin-rich material divide the marrow into small compartments that contain and appear to separate clusters of developing blood cells. These septa may serve as a substrate for anchorage and migration of blood cells. Labeling of laminin was observed in the basement membranes of blood vessels, of fat cells, and of the sinusoidal wall, but only scattered labeling was seen in other extracellular materials. Heparan sulfate proteoglycan was poorly labeled in the extracellular matrix of marrow.

Differentiation of primitive human multipotent hematopoietic progenitors into single lineage clonogenic progenitors is accompanied by alterations in their interaction with fibronectin

We have previously demonstrated that primitive progenitors from human bone marrow termed long term bone marrow culture initiating cells (LTBMC-IC) adhere avidly to irradiated bone marrow stroma, while more mature clonogenic progenitors fail to do so. In this study we examine the interaction between these progenitors and components of the bone marrow stroma. (a) We demonstrate that both primitive LTBMC-IC and more mature clonogenic progenitors adhere to intact fibronectin. (b) Primitive LTBMC-IC and multi-lineage CFU-MIX progenitors adhere to the 33/66 kD COOH-terminal heparin-binding cell-adhesion promoting fragment of fibronectin, but adhere significantly less to its 75 kD RGDS-dependent cell-binding fragment. In contrast, more differentiated single-lineage progenitors adhere equally well to the 33/66 kD RGDS independent and the 75 kD RGDS-dependent cell-adhesion fragments of fibronectin. (c) Both primitive LTBMC-IC and clonogenic progenitors adhere to the three known cell-attachment sites in the 33/66 kD cell-adhesion promoting fragment, FN-C/H I, FN-C/H II and CS1. However, LTBMC-IC and CFU-MIX progenitors adhere significantly better to FN-C/H II than to the flanking FN-C/H I and CS1 cell-attachment sites. In contrast, single-lineage progenitors adhere equally well to all three cell attachment sites in the 33/66 kD cell-adhesion promoting fragment. (d) Finally, adhesion of primitive LTBMC-IC to intact irradiated stroma can be inhibited partially by peptide FN-C/H II and almost completely by a combination of FN-C/H II and peptide FN-C/H I and CS1. This study demonstrates that adhesive interactions between primitive hematopoietic progenitors and the extracellular matrix component fibronectin can occur. Specific changes in adhesion to the 33/66 kD cell-adhesion promoting fragment and the 75 kD RGDS-dependent cell-adhesion fragment of fibronectin are associated with differentiation of primitive multi-lineage progenitors into committed single-lineage progenitors. Such differences in adhesive interaction with fibronectin may allow hematopoietic progenitors at various stages of differentiation to interact with specific supportive loci of the bone marrow microenvironment. Finally, the ability to block adhesion of LTBMC-IC to intact irradiated stroma with peptides FN-C/H II, FN-C/H I and CS1 suggests that receptors responsible for this interaction may be important in the homing of primitive progenitors to the bone marrow.

A VCAM-like adhesion molecule on murine bone marrow stromal cells mediates binding of lymphocyte precursors in culture

Two new mAbs (M/K-1 and M/K-2) define an adhesion molecule expressed on stromal cell clones derived from murine bone marrow. The protein is similar in size to a human endothelial cell adhesion molecule known as VCAM-1 or INCAM110. VCAM-1 is expressed on endothelial cells in inflammatory sites and recognized by the integrin VLA-4 expressed on lymphocytes and monocytes. The new stromal cell molecule is a candidate ligand for the VLA-4 expressed on immature B lineage lymphocytes and a possible homologue of human VCAM-1. We now report additional similarities in the distribution, structure, and function of these proteins. The M/K antibodies detected large cells in normal bone marrow, as well as rare cells in other tissues. The antigen was constitutively expressed and functioned as a cell adhesion molecule on cultured murine endothelial cells. It correlated with the presence of mRNA which hybridized to a human VCAM-1 cDNA probe. Partial NH2 terminal amino acid sequencing of the murine protein revealed similarities to VCAM-1 and attachment of human lymphoma cells to murine endothelial cell lines was inhibited by the M/K antibodies. All of these observations suggest that the murine and human cell adhesion proteins may be related. The antibodies selectively interfered with B lymphocyte formation when included in long term bone marrow cultures. Moreover, they caused rapid detachment of lymphocytes from the adherent layer when added to preestablished cultures. The VCAM-like cell adhesion molecule on stromal cells and VLA-4 on lymphocyte precursors may both be important for B lymphocyte formation.

BCNU treatment of marrow stromal monolayers reversibly alters haematopoiesis

The marrow stromal microenvironment is essential for maintaining normal haematopoiesis. Chemotherapy drugs, such as the nitrosoureas, may impair the ability of the stroma to support haematopoiesis. To assess the effects of 1,3-bis-(2-chloroethyl)-1-nitrosourea (BCNU) on in vitro haematopoiesis, stromal monolayers were treated with BCNU, 5 micrograms/ml weekly for 3 weeks, then seeded 24 h after the third treatment with haematopoietic progenitors. Three weeks after seeding, total adherent and non-adherent cell numbers were similar in treated and control flasks as were adherent granulocyte/macrophage colony forming cell (GM-CFC) numbers. In contrast, non-adherent GM-CFC were significantly reduced in treated flasks, to 40-60% of controls. However, no reduction in non-adherent GM-CFC number was seen if seeding was delayed for 7 d following BCNU treatment, suggesting the effects are reversible. Conditioned media from treated and control monolayers, harvested at a time corresponding to the time of seeding, showed no difference in colony stimulating activity. In addition, extracts of bound growth factors from treated and control monolayers also showed no differences in colony stimulating activity. Thus, BCNU can alter haematopoiesis through a reversible effect on the marrow stroma and this effect does not appear to be mediated by a change in stromal growth factor production.