Growth inhibitors in haemopoiesis and leukaemogenesis

Potential role of CCL27 and CCR10 expression in melanoma progression and immune escape

Aim of this study was to investigate using immunohistochemistry techniques the interrelation between T immunoreactive cells and the expression of CCR10 and its ligand CCL27 in 59 cutaneous melanocytic lesions. In malignant melanomas, T lymphocyte density was significantly decreased from thin melanomas to intermediate and thick ones (P<0.0005). CCR10 expression was found both in benign and malignant lesions and it was directly correlated with the Breslow depth (P=0.0298) and inversely with T lymphocyte density (P=0.0231). Moreover, cases with positive sentinel lymph node tended to have a higher CCR10 expression compared to cases with negative sentinel lymph node (P=0.0281). When CCR10 and CCL27 expression were evaluated together, CCR10-/CCL27-melanomas tended to have a higher mean density of CD3+ and CD8+ lymphocytes. Our results suggest that in human melanomas CCR10 and CCL27 may act to increase the ability of neoplastic cells to grow, invade tissue, disseminate to lymph nodes and to escape the host immune response.

A310 helical turn is essential for the proliferation-inhibiting properties of macrophage inflammatory protein-1 alpha (CCL3)

Despite possessing marked structural similarities, the chemokines macrophage inflammatory protein-1alpha (MIP-1alpha; CCL3) and RANTES (CCL5) display differential activity in hematopoietic progenitor-cell-inhibitory assays, with MIP-1alpha being active and RANTES inactive in this context. We have sought to identify the key structural determinants of this property of MIP-1alpha. This has involved constructing MIP-1alpha/RANTES chimeras by swapping structural domains between the 2 proteins. Results indicate that, in contrast to other chemokine functions, neither the N nor the C termini are key determinants of inhibitory activity. The motif that appears to be most important for this activity lies between the second and fourth cysteines of MIP-1alpha and further domain swap analysis has narrowed this down to the 3 10 helical turn preceding the first beta-strand in MIP-1alpha. More detailed analysis has highlighted the role played by a specific dipeptide motif in the proliferation-inhibitory activity of chemokines. The involvement of the 3 10 helical-turn motif in chemokine function is unprecedented and this study therefore identifies a novel, functionally essential motif within chemokines. In addition, this study further attests to the alternative mechanisms of action used by MIP-1alpha in inhibition of hematopoietic progenitor-cell proliferation and regulation of leukocyte migration.

Total Deletion ofin VivoTelomere Elongation Capacity: An Ambitious but Possibly Ultimate Cure for All Age-Related Human Cancers

Despite enormous effort, progress in reducing mortality from cancer remains modest. Can a true cancer "cure" ever be developed, given the vast versatility that tumors derive from their genomic instability? Here we consider the efficacy, feasibility, and safety of a therapy that, unlike any available or in development, could never be escaped by spontaneous changes of gene expression: the total elimination from the body of all genetic potential for telomere elongation, combined with stem cell therapies administered about once a decade to maintain proliferative tissues despite this handicap. We term this therapy WILT, for whole-body interdiction of lengthening of telomeres. We first argue that a whole-body gene-deletion approach, however bizarre it initially seems, is truly the only way to overcome the hypermutation that makes tumors so insidious. We then identify the key obstacles to developing such a therapy and conclude that, while some will probably be insurmountable for at least a decade, none is a clear-cut showstopper. Hence, given the absence of alternatives with comparable anticancer promise, we advocate working toward such a therapy.

Purification and biochemical characterization of the D6 chemokine receptor

There is much interest in chemokine receptors as therapeutic targets in diseases such as AIDS, autoimmune and inflammatory disorders, and cancer. Hampering such studies is the lack of accurate three-dimensional structural models of these molecules. The CC-chemokine receptor D6 is expressed at exceptionally high levels in heterologous transfectants. Here we report the purification and biochemical characterization of milligram quantities of D6 protein from relatively small cultures of transfected mammalian cells. Importantly, purified D6 retains full functional activity, shown by displaceable binding of 125I-labelled MIP-1beta (macrophage inflammatory protein-1beta) and by complete binding of the receptor to a MIP-1alpha affinity column. In addition, we show that D6 is decorated on the N-terminus by N-linked glycosylation. Mutational analysis reveals that this glycosylation is dispensable for ligand binding and high expression in transfected cells. Metabolic labelling has revealed the receptor to also be sulphated and phosphorylated. Phosphorylation is ligand independent and is not enhanced by ligand binding and internalization, suggesting similarities with the viral chemokine receptor homologue US28. Like US28, an analysis of the full cellular complement of D6 in transfected cells indicates that >80% is found associated with intracellular vesicular structures. This may account for the high quantities of D6 that can be synthesized in these cells. These unusual properties of D6, and the biochemical characterization described here, leads the way towards work aimed at generating the three-dimensional structure of this seven-transmembrane-spanning receptor.

The chemokine ESkine/CCL27 displays novel modes of intracrine and paracrine function

We have previously shown that the beta-chemokine ESkine/CCL27 is differentially spliced to produce two alternative forms. One is a secreted chemokine (ESkine), whereas the other (PESKY) lacks a signal peptide and is translocated to the nucleus. The role of this nuclear-targeted chemokine has not so far been defined, and it was the purpose of this study to examine this chemokine variant in more depth. To identify the region of PESKY involved in the nuclear translocation we tagged fragments with enhanced green fluorescent protein and expressed them in Chinese hamster ovary cells. We show PESKY nuclear translocation to be dependent on C-terminal residues that are shared with the signal peptide-bearing variant ESkine. Indeed we further demonstrate that ESkine can also use these C-terminal residues to enter the nucleus of cells following receptor (CCR10)-mediated internalization. To examine biological roles for PESKY we have overexpressed it in 3T3 cells. Such overexpression results in marked cytoskeletal rearrangements that are coincident with a radical reorganization of the cellular actin cytoskeleton. Microarray analyses and Ab neutralization studies indicate that these changes are mediated in part by insulin-like growth factor-1. Furthermore, monolayer wounding assays indicate that PESKY expression correlates with markedly increased migratory capacity. Thus, it is our contention that nuclear PESKY and ESkine both enter the nucleus by either intracrine or paracrine mechanisms and may facilitate cellular migration by inducing actin cytoskeletal relaxation. Therefore, nuclear ESkine/PESKY represents a novel paradigm for chemokine function.

Macrophage inflammatory protein-1alpha uses a novel receptor for primitive hemopoietic cell inhibition

Macrophage inflammatory protein-1alpha (MIP-1alpha) is a member of the chemokine family of proinflammatory mediators. In addition to its inflammatory roles, MIP-1alpha has been shown to be active as an inhibitor of primitive hemopoietic cell proliferation. Indeed, a dysfunction in this inhibitory process has been postulated to contribute to leukemogenesis. Research has been aimed at characterizing the receptor involved in cellular inhibition by MIP-1alpha. This study demonstrates that of all the beta-chemokines tested, only MIP-1alpha is capable of inhibiting primitive hemopoietic cell proliferation. Because no MIP-1alpha-specific receptors have been identified, this suggests that inhibition is mediated by an uncharacterized receptor. Further evidence for the involvement of a novel receptor in this process is the equivalent potencies of MIP-1alphaS and MIP-1alphaP variants of human MIP-1alpha and the fact that primitive cells from bone marrow derived from individual MIP-1alpha receptor null mice display a full response to MIP-1alpha inhibition.

Peptide leucine arginine, a potent immunomodulatory peptide isolated and structurally characterized from the skin of the Northern Leopard frog, Rana pipiens

On the basis of histamine release from rat peritoneal mast cells, an octadecapeptide was isolated from the skin extract of the Northern Leopard frog (Rana pipiens). This peptide was purified to homogeneity using reversed-phase high performance liquid chromatography and found to have the following primary structure by Edman degradation and pyridylethylation: LVRGCWTKSYPPKPCFVR, in which Cys(5) and Cys(15) are disulfide bridged. The peptide was named peptide leucine-arginine (pLR), reflecting the N- and C-terminal residues. Molecular modeling predicted that pLR possessed a rigid tertiary loop structure with flexible end regions. pLR was synthesized and elicited rapid, noncytolytic histamine release that had a 2-fold greater potency when compared with one of the most active histamine-liberating peptides, namely melittin. pLR was able to permeabilize negatively charged unilamellar lipid vesicles but not neutral vesicles, a finding that was consistent with its nonhemolytic action. pLR inhibited the early development of granulocyte macrophage colonies from bone marrow stem cells but did not induce apoptosis of the end stage granulocytes, i.e. mature neutrophils. pLR therefore displays biological activity with both granulopoietic progenitor cells and mast cells and thus represents a novel bioactive peptide from frog skin.

Aggregation-independent modulation of proteoglycan binding by neutralization of C-terminal acidic residues in the chemokine macrophage inflammatory protein 1alpha

Members of the chemokine family of proteins mediate their biological effects through interaction with a family of seven-transmembrane G-protein-coupled receptors. This interaction is complicated by the biochemical properties of chemokines, such as their ability to form self aggregates and their ability to bind to proteoglycans. With some chemokines there is a clear interrelationship between these interactions; the chemokine platelet factor 4 binds preferentially to proteoglycans in its aggregated form. Little is known about the role of aggregation in the proteoglycan binding of other chemokines. Here we demonstrate that the aggregation status of the chemokine macrophage inflammatory protein 1alpha (MIP-1alpha) has no detectable effect on its affinity for proteoglycans. Furthermore, we demonstrate that the alteration of acidic amino acid residues in MIP-1alpha influences the affinity of its interactions with heparin as these residues are progressively neutralized, leading to an enhanced binding affinity for heparin. Thus, with MIP-1alpha, aggregation is not a determinant of proteoglycan binding; however, overall charge does seem to have a major role in the interaction. These results therefore add to our understanding of the nature of the interaction between MIP-1alpha and proteoglycans and suggests that the basic amino acids might not be the sole regulators of proteoglycan binding.

Colorimetric determination of inhibition of hematopoietic progenitor cells in soft agar

In vitro colony forming unit (CFU) assays have been used to measure the effects of compounds that regulate the growth of hematopoietic progenitor cells. These assays are time consuming and subjective and are therefore not amenable to high throughput of large numbers of compounds. Here we have shown that the traditional murine bone marrow CFU assay can be modified into a robust non-subjective colorimetric assay format. 3-[4,5-Dimethylthiazol-2-yl]-2, 5-diphenyltetrazolium bromide (MTT) was added after colony formation in an agar based 96-well plate culture system. Optical density correlated with increasing cell input concentrations in the presence of growth factor. The linearity of this response was equivalent to the standard CFU assay. Several hematopoietic inhibitors were tested in both assays. Effects on colony number and size were compared to optical density. Compounds that reduced colony numbers with little effect on colony size had identical IC(50) values in both the colorimetric assay and CFU assay. The IC(50) values of compounds that also decreased colony size did not correlate in the two assays. These results demonstrate the utility of the colorimetric assay to rapidly screen for compounds that specifically inhibit hematopoietic progenitor cell colony formation in vitro.

Granulocyte macrophage colony-stimulating factor and interleukin-3 regulate chemokine and chemokine receptor expression in bone marrow macrophages

The beta-chemokine macrophage inflammatory protein-1 alpha (MIP-1alpha) and its associated receptors are involved in the regulation of pro-inflammatory and haemopoietic processes. This study was designed to investigate regulation of expression MIP-1alpha and its receptors by other haemopoietic cytokines. Murine bone marrow macrophages (BMM) were treated with or without GM-CSF or IL-3 and expression of MIP-1alpha, other chemokines and their receptors examined by Northern blotting. Receptor levels were also examined using Scatchard analysis and functional tests. Treatment of BMM with GM-CSF revealed a striking increase in MIP-1alpha mRNA levels, relative to untreated cells with a corresponding increase in MIP-1alpha protein. A similar increase in mRNA levels was found when BMM were treated with IL-3. An increase in the expression of three other beta-chemokines namely MIP-1beta, MCP-1 and MCP-3, was also found following treatment with GM-CSF or IL-3. We have additionally examined the expression of the known beta-chemokine receptors in BMM and observed an increase in CCR1 mRNA levels following treatment with GM-CSF and IL-3, but no change was seen in the level of CCR5 expression. The increase in CCR1 expression was reflected in an increase in the number of cell surface receptors for MIP-1alpha on the GM-CSF treated BMM and in an enhanced response of the GM-CSF treated BMM to CCR1 ligands. These data suggest that GM-CSF and IL-3 may be involved in mechanisms regulating expression levels of MIP-1alpha and its receptors.

Homing and mobilization in the stem cell niche

All mature blood cells are derived from the haemopoietic stem cell (HSC). In common with all other haemopoietic cells, stem cells are mobile, and it is this property of mobility that has allowed bone marrow transplantation to become a routine clinical option. Successful transplantation requires haemopoietic stem cells to home to the bone marrow, leave the peripheral circulation and become stabilized in regulatory niches in the extravascular space of the bone marrow cavity. This homing and tethering process is reversible - haemopoietic stem cells can be released from their bone marrow tethering through changes in molecular interactions, which are also important in homing following transplantation. The molecular mechanisms regulating this two-way flow of stem cells are beginning to be elucidated, and much recent data has emerged that sheds light on the processes and molecules involved in these complex physiological events. This article reviews current knowledge of the adhesive, homing and proliferative influences acting on HSCs and progenitor cells.