Disparate effects of interleukin 11 and thrombopoietin on megakaryocytopoiesis in vitro

The effects of interleukin-11 (IL-11) and thrombopoietin (TPO) on murine megakaryocytopoiesis were studied using a serum-free culture system. Acting alone, both IL-11 and TPO increased the number of acetylcholinesterase (AchE)(+)cells (megakaryocytes), the latter being more potent than the former. TPO, but not IL-11, increased the mean AchE activity per megakaryocyte (AchE activity/megakaryocyte). TPO increased both the number of megakaryocytes with high ploidy, and of those with low ploidy. In contrast, IL-11 increased only the number of megakaryocytes with high ploidy. The effect of TPO on megakaryocyte ploidy was stronger than that of IL-11. Both IL-11 and TPO increased the proportion of large megakaryocytes, but the latter was more potent than the former. While the stimulatory effects of IL-11 and TPO on the number of megakaryocytes were enhanced by IL-3 or stem cell factor (SCF), synergism of IL-11 or TPO with IL-3 or SCF in stimulating AchE activity/megakaryocyte was inconsistent. IL-11 and TPO stimulated the formation of colony-forming units of megakaryocyte in the presence of IL-3, but not alone, with similar maximum colony numbers for both cytokines. Our findings thus demonstrate that IL-11 principally stimulates megakaryocyte maturation rather than the proliferation of megakaryocytes, whereas TPO stimulates both.     

Bone marrow niche-inspired,multiphase expansion of megakaryocytic progenitors with high polyploidization potential

Background aimsMegakaryopoiesis encompasses hematopoietic stem and progenitor cell (HSPC) commitment to the megakaryocytic cell (Mk) lineage, expansion of Mk progenitors and mature Mks, polyploidization and platelet release. pH and pO₂ increase from the endosteum to sinuses, and different cytokines are important for various stages of differentiation. We hypothesized that mimicking the changing conditions during Mk differentiation in the bone marrow would facilitate expansion of progenitors that could generate many high-ploidy Mks.MethodsCD34⁺ HSPCs were cultured at pH 7.2 and 5% O₂ with stem cell factor (SCF), thrombopoietin (Tpo) and all combinations of Interleukin (IL)-3, IL-6, IL-11 and Flt-3 ligand to promote Mk progenitor expansion. Cells cultured with selected cytokines were shifted to pH 7.4 and 20% O₂ to generate mature Mks, and treated with nicotinamide (NIC) to enhance polyploidization.ResultsUsing Tpo + SCF + IL-3 + IL-11, we obtained 3.5 CD34⁺ CD41⁺ Mk progenitors per input HSPC, while increasing purity from 1% to 17%. Cytokine cocktails with IL-3 yielded more progenitors and mature Mks, although the purities were lower. Mk production was much greater at higher pH and pO₂. Although fewer progenitors were present, shifting to 20% O₂/pH 7.4 at day 5 (versus days 7 or 9) yielded the greatest mature Mk production, 14 per input HSPC. NIC more than doubled the percentage of high-ploidy Mks to 40%.ConclusionsWe obtained extensive Mk progenitor expansion, while ensuring that the progenitors could produce high-ploidy Mks. We anticipate that subsequent optimization of cytokines for mature Mk production and delayed NIC addition will greatly increase high-ploidy Mk production.     

Effects of inhibitor of Src kinases, SU6656, on differentiation of megakaryocytic progenitors and activity of alpha1,6-fucosyltransferase

alpha1,6-fucosyltransferase (FUT8) attaches fucose residues via an alpha1,6 linkage to the innermost N-acetylglucosamine residue of N-linked glycans. Glycans with this type of structure are present in GpIIb/GpIIIa complex (CD41a) which is present on megakaryocytes (Mks) and platelets. CD41a is the earliest marker of megakaryocytopoiesis. The aim of this study was to analyse the morphology, phenotype, ploidy level and activity of FUT8 during induced differentiation/maturation of Mk progenitor cells in ex vivo culture. We used SU6656, a selective inhibitor of Src tyrosine kinases, as differentiation-inducing agent for Mks. The addition of SU6656 to the culture system of megakaryocytic progenitors from cord blood CD34(+) cells and Meg-01 cell line induced their maturation towards later stages of Mk differentiation with increased activity of FUT8. We suggest FUT8 as a candidate for an early marker of differentiation and possibly of the ploidy level of Mks. We confirm a special status of FUT8 in megakaryocytopoiesis.     

Role of RhoA-specific guanine exchange factors in regulation of endomitosis in megakaryocytes

Polyploidization can precede the development of aneuploidy in cancer. Polyploidization in megakaryocytes (Mks), in contrast, is a highly controlled developmental process critical for efficient platelet production via unknown mechanisms. Using primary cells, we demonstrate that the guanine exchange factors GEF-H1 and ECT2, which are often overexpressed in cancer and are essential for RhoA activation during cytokinesis, must be downregulated for Mk polyploidization. The first (2N-4N) endomitotic cycle requires GEF-H1 downregulation, whereas subsequent cycles (>4N) require ECT2 downregulation. Exogenous expression of both GEF-H1 and ECT2 prevents endomitosis, resulting in proliferation of 2N Mks. Furthermore, we have shown that the mechanism by which polyploidization is prevented in Mks lacking Mkl1, which is mutated in megakaryocytic leukemia, is via elevated GEF-H1 expression; shRNA-mediated GEF-H1 knockdown alone rescues this ploidy defect. These mechanistic insights enhance our understanding of normal versus malignant megakaryocytopoiesis, as well as aberrant mitosis in aneuploid cancers.     

Separation of murine megakaryocytes and their progenitors on continuous gradients of Percoll

Murine bone marrow was separated on continuous Percoll density gradients to analyze the distribution of cells of the megakaryocyte lineage. Eighty-seven percent of the recovered megakaryocytes were found in fractions of density less than 1.058 g/cm3, with 63% of these cells found between 1.020 and 1.036 g/cm3. When megakaryocytes were classified according to size, 92% of the large (greater than or equal to 18 micron) acetylcholinesterase (AchE) positive cells were found in the least dense fractions (1.016-1.039 g/cm3), whereas 86% of the small (less than or equal to 10.6 micron) AchE positive cells were found in fractions of higher density (1.039-1.078 g/cm3). The distribution of enzymatic AchE activity of the separated fractions corresponded to the location of the histochemically positive cells. When ploidy measurements were made of various fractions, most of the high ploidy (32N and 64N) cells were found at low density (1.028-1.036 g/cm3), whereas no cells greater than 4N were found at density greater than 1.071 g/cm3. Thus, large AchE positive cells and the cells of highest ploidy were found at lower densities of Percoll, while small AchE positive cells and cells of low ploidy were found at higher densities. An exception to this inverse relationship was found in fractions of lowest density (less than 1.030 g/cm3) where an anomalous distribution of size and ploidy was found. The majority of megakaryocytic colony-forming cells (CFU-MK) were found at high density, as were the granulocyte-macrophage colony-forming cells (CFU-GM; approximately 1.074 g/cm3). The density distribution of the incorporation of tritiated thymidine into liquid marrow cultures was concordant with the high density distribution of colony-forming cells. The data show that megakaryocytic maturity and Percoll density varies inversely and that fractionation of marrow on continuous Percoll gradients may be a useful method for the separation and/or enrichment of megakaryocytes at different stages of differentiation.     

Leukemia inhibitory factor enhances bFGF-induced IL-6 synthesis in osteoblasts: involvement of JAK2/STAT3

We previously showed that basic fibroblast growth factor (bFGF) stimulates release of vascular endothelial growth factor (VEGF) and synthesis of interleukin-6 (IL-6) in osteoblast-like MC3T3-E1 cells. In the present study, we investigated the effects of leukemia inhibitory factor (LIF) on the release of VEGF and IL-6 in these cells. LIF did not affect the bFGF-stimulated VEGF release. On the contrary, LIF, which alone had little effect on IL-6 release, significantly enhanced the bFGF-stimulated IL-6 release. The amplifying effect of LIF on the IL-6 release was dose dependent in the range between 0.01 and 10 ng/ml. AG490, an inhibitor of JAK2, suppressed the amplifying effect of LIF. LIF induced the phosphorylation of STAT3. AG490 inhibited the LIF-induced STAT3 phosphorylation. Taken together, our results strongly suggest that LIF enhances bFGF-stimulated IL-6 synthesis via JAK2/STAT3 pathway in osteoblasts.     

Megakaryocytes are essential for HSC quiescence through the production of thrombopoietin

Tissue homeostasis demands regulatory feedback, suggesting that hematopoietic stem cell (HSC) activity is controlled in part by HSC progeny. Yet, cell extrinsic HSC regulation has been well characterized only in niche cells of non-hematopoietic origin. Here we identify feedback regulation of HSCs by megakaryocytes (Mks), which are mature hematopoietic cells, through production of thrombopoietin (Thpo), a cytokine pertinent for HSC maintenance. Induced ablation of Mk cell population in mice perturbed quiescent HSCs in bone marrow (BM). The ablation of Mks resulted in decreased intra-BM Thpo concentration presumably due to Thpo production by Mks. Thpo administration Mk ablated mice restored HSC functions. Overall, our study establishes Mk as an essential cellular component of the HSC niche and delineates cytokine-oriented regulation of HSCs by their own progeny.     

CYTOKINES INVOLVING gp130 IN SIGNAL TRANSDUCTION SUPPRESSED GROWTH OF A MOUSE HYBRIDOMA CELL LINE AND ENHANCED ITS ANTIBODY PRODUCTION

Three cytokines, interleukin 6 (IL-6), leukaemia inhibitory factor (LIF), and oncostatin M (OSM), that bind to composite receptors including a common signal transducer gp130 suppressed proliferation of a mouse B-cell hybridoma cell line 2E3-O cultured in serum-free medium, while they enhanced antibody production of the cells. The specific growth rate of the cells reduced from 1.0/day for control to 0.6/day for the cultures supplemented with IL-6, LIF, or OSM at 1, 4, or 2 ng/ml, respectively. The antibody productivity increased five-fold when the cells were cultured with IL-6, LIF, or OSM at 1, 25, or 20 ng/ml, respectively. Transforming growth factor β1 (TGF-β1) similarly suppressed growth of the cells at the concentration of 5 ng/ml, while it did not enhance the antibody production. Cell cycle analysis revealed that IL-6 induced the cells to be arrested at G₁phase of the cell cycle more intensively than TGF-β1, indicating that IL-6 and TGF-β1 suppressed the growth through mutually different mechanisms. As a whole, this work suggests that gp130, which is commonly involved in each receptor for IL-6, LIF, OSM, transduces signals for suppressing proliferation and possibly for enhancing antibody production in the hybridoma cells.     

Differential effects of transforming growth factor-β1 on distinct developmental stages of murine megakaryocytopoiesis

The effect of transforming growth factor-β1 (TGFβ1) on three developmental stages of megakaryocytopoiesis was investigated. Using a murine bone marrow agar culture system, titrated doses of TGFβ1 were added to cultures assaying primitive high proliferative megakaryocyte progenitors, committed megakaryocyte precursors, and nondividing, endoreduplicating megakaryocytes. The growth of high proliferative megakaryocyte colony-forming cells (HPP-CFU-Mk) that require the growth factors interleukins-1, 3 and 6 (IL-1 + IL-3 + IL-6) for colony detection was abrogated by the addition of 1 ng TGFβ1/ml. The sensitivity of committed megakaryocyte progenitors (colony-forming unit-megakaryocyte, CFU-Mk) to TGFβ1 depended on the growth factor combination. TGFβ1 (1 ng/ml) completely inhibited megakaryocyte colony formation from CFU-Mk only in cultures stimulated by low doses of IL-3. TGFβ1 (> 10 ng/ml) could only marginally inhibit megakaryocyte colony forrmation generated in the presence of either high doses of IL-3 or the combination of low dose IL-3 + IL-6. TGFβ1 inhibited both IL-3-dependent and IL-6-dependent megakaryocyte growth but tenfold higher doses of TGFβ1 were required to inhibit growth generated by the combination of IL-3 + IL-6. The data showed that the capacity of TGFβ1 to inhibit distinct differentiation stages of the megakaryocytopoietic lineage depended on the concentration and combination of growth factors involved. © 1994 Wiley-Liss, Inc.     

Regulation of interleukin-2 and interleukin-6 production from T-cells: involvement of interleukin-1 beta and transforming growth factor-beta

The effect of recombinant (r) interleukin-1 beta (rIL-1 beta) and transforming growth factor-beta (TGF-beta) on the production of interleukin-2 (IL-2) and interleukin-6 (IL-6) from an antigen-specific (LBRM-33-1A5) and an antigen-nonspecific (EL-4-NOB-1) T-cell line was investigated. rIL-1 beta induced the production of IL-2 and IL-6 from EL-4-NOB-1 cells in a dose-related manner. The LBRM-33-1A5 cells required phytohemagglutinin (PHA) in addition to rIL-1 beta in order to produce IL-2 and IL-6. IL-2 production was found to precede IL-6 production in both cell lines. No IL-2 or IL-6 production was observed by adding r murine tumor necrosis factor-alpha or r murine interferon gamma to the cells. The presence of 1 ng/ml TGF-beta reduced IL-2 and IL-6 production from both T-cell lines by more than 80%. The inhibition of IL-2 and IL-6 production was still evident by a concentration as low as 10 pg/ml of TGF-beta. rIL-1 beta and PHA also stimulated murine thymocytes to produce IL-6 which was inhibited up to 85% in the presence of 1 ng/ml TGF-beta. Taken together these results suggest that TGF-beta may suppress immune responses by inhibiting the endogenous production of IL-2 and IL-6.     

Serum levels of IL-6 type cytokines and soluble IL-6 receptors in active B-cell chronic lymphocytic leukemia and in cladribine induced remission

We have investigated the serum concentrations of interleukin-6 (IL-6) and two IL-6 family cytokines-oncostatin M (OSM) and leukemia inhibitory factor (LIF)-in 63 patients with B-cell chronic lymphocytic leukemia (B-CLL) and 17 healthy controls using the enzyme-linked immunosorbent assay (ELISA) method. Simultaneously, we measured the serum levels of the soluble forms of two subunits of the IL-6 receptor complex-ligand binding glycoprotein 80 (sIL-6R) and glycoprotein 130 (sgp130). The cytokines and receptors were evaluated in 25 untreated patients and 38 patients treated with cladribine (2-CdA), as well as in 17 healthy controls. We have correlated the serum levels of these proteins with Rai's clinical stage of the disease, the response to 2-CdA treatment and some hematological parameters. We have also evaluated the correlation of the IL-6 serum level with the concentration of OSM and IL-6 soluble receptors. IL-6 was measurable in 62/63 (98.4%), OSM in 20/25 (80%) of untreated and 14/38 (37.8%) of the treated patients. sIL-6R and sgp130 were detectable in all 63 patients and LIF in none of the CLL patients. IL-6 serum level in untreated patients was not significantly different as compared to its concentration in the control group (P>0.05). However, in the patients treated with 2-CdA the IL-6 level was significantly lower (P<0.02), and the lowest concentration was found in the patients with complete remission (CR; median 1.4pg/ml; P<0.02). The concentration of sIL-6R was significantly higher in untreated (median 61.8 ng/ml) and treated (median 50.1 ng/ml) CLL patients when compared to normal persons (median 41.2 ng/ml; P=0.04; P<0.001, respectively). There was no difference between the sIL-6R levels in the patients with CR and the healthy controls. In non-responders sIL-6R concentration was the highest and similar to its level in the untreated patients. OSM level was higher in the untreated patients (median 1.8pg/ml) than in the normal controls (median 0.0pg/ml; P<0.001) and in the CR patients (median 0.0pg/ml; P<0.03). The serum concentration of sgp130 was similar in the untreated (median 480 pg/ml) and treated (median 470 pg/ml) patients, as well as in the healthy persons (median 420 pg/ml; P>0.05). We have found significant positive correlation between the levels of sIL-6R and the lymphocytes count in CLL patients (p=0.423; P<0.001). In addition, sIL-6R and OSM serum concentrations correlated also with CLL Rai stage. In conclusion, the serum level of IL-6, OSM and sIL-6R, but not LIF and sgp130, are useful indicators of CLL activity.     

Interleukin-11 regulates the hepatic expression of the same plasma protein genes as interleukin-6.

Treatment of rat hepatoma H-35 cells with purified human recombinant interleukin-11 (IL-11) resulted in the stimulated production of several major acute phase plasma proteins. The qualitative and quantitative changes were comparable to those mediated by IL-6 or leukemia inhibitor factor (LIF). Like IL-6, IL-11 acted synergistically with IL-1 on type 1 acute phase proteins. The combination of IL-11 and dexamethasone yielded a magnitude of stimulation which was more similar to the combination of LIF and dexamethasone than IL-6 and dexamethasone. IL-11 elicited in treatment of primary cultures of rat hepatocytes a qualitative change of plasma protein production which was similar to that in H-35 cells. Comparison of rat and human hepatoma cells indicated that the IL-11 response did not correlate with that of IL-6 or LIF, suggesting that the action of IL-11 was mediated by an IL-11-specific receptor system. However, the intracellular transduction of the IL-11, IL-6, and LIF signals to the acute phase protein genes seems to rely, in part, on common elements as judged from their stimulatory effects on the transfected expression vector containing the IL-6 response element of the rat beta-fibrinogen gene. The finding that IL-11 shares liver-regulating properties with IL-6 and LIF suggests that IL-11 has the potential of contributing to the control of systemic homeostasis and hepatic acute phase response.     

Tumor necrosis factor-alpha exerts interleukin-6-dependent and -independent effects on cultured skeletal muscle cells

In vivo studies have shown that cancer-associated skeletal muscle wasting (cachexia) is mediated by two cytokines, tumor necrosis factor-alpha (TNF) and interleukin-6 (IL-6). It has been unclear from these studies whether TNF exerts direct effects on skeletal muscle and/or whether these effects are mediated via IL-6. Previous studies from our laboratory have shown that TNF induces IL-6 mRNA expression in cultured skeletal muscle cells. To further investigate the relationship between TNF and IL-6, the effects of TNF and IL-6 on protein and DNA dynamics in murine C2C12 skeletal myotube cultures were determined. At 1000 U/ml, TNF induced 30% increases in protein and DNA content. The effects of TNF on protein accumulation were inhibited by aphidicolin, an inhibitor of DNA synthesis. IL-6 mimicked the effects of TNF on C2C12 cultures, inducing a 32% increase in protein accumulation and a 71% increase in the rate of protein synthesis. IL-6 also decreased expression of mRNA for several proteolytic system components, including ubiquitin 2.4 kb (51%) and 1.2 kb (63%), cathepsin B (39%) and m-calpain (47%), indicating that IL-6 acts on both protein synthesis and degradation. Incubation of murine C2C12 myotube cultures with TNF (1000 U/ml) in the presence of a polyclonal mouse anti-IL-6 antibody resulted in an abolishment of the effects of TNF on protein synthesis, but did not inhibit TNF-induced stimulation of DNA synthesis. These findings indicate that the effects of TNF on muscle protein synthesis are mediated by IL-6, but that TNF exerts IL-6-independent effects on proliferation of murine skeletal myoblasts.     

Modulation of IL-1 inflammatory and immunomodulatory properties by IL-6.

Among the major cytokines present in inflammatory lesions interleukin-1 (IL-1), tumor necrosis factor alpha (TNF alpha) and interleukin-6 (IL-6) share many biological activities. Since IL-1 alpha, IL-1 beta and TNF alpha have been previously demonstrated to play an important role in connective tissue destruction by stimulating the production of prostaglandin E2 (PGE2) and collagenase, these functions were investigated in the presence or absence of natural human IL-6 (nhIL-6) or recombinant human IL-6 (rhIL-6). IL-6 was found 1 degree to stimulate immunoglobulin A production by the CESS B cell line up to 19 fold without being affected by the presence of IL-1 beta and 2 degrees to stimulate murine thymocytes proliferation up to 2-4 fold, with an increase up to 60-fold in costimulation with either IL-1 alpha or beta. IL-6 alone, even at very high concentrations (up to 200 U/ml and 50 ng/ml), did not induce PGE2 production by fibroblasts and synovial cells. However, IL-1 alpha or beta induced PGE2 production by human dermal fibroblasts and by human synovial cells was inhibited (in 5/8 experiments) up to 62% by addition of IL-6. On the contrary in 2/4 experiments TNF alpha-induced PGE2 production was increased (approximately 2 fold) by the addition of IL-6. IL-1 and TNF alpha-induced collagenase production in synovial cells remained unchanged in the presence of IL-6.(ABSTRACT TRUNCATED AT 250 WORDS)     

Interleukin-6 family of cytokines mediate angiotensin II-induced cardiac hypertrophy in rodent cardiomyocytes

This study was designed to investigate whether angiotensin II induces the interleukin (IL)-6 family of cytokines in cardiac fibroblasts and, if so, whether these cytokines can augment cardiac hypertrophy. Angiotensin II increased IL-6, leukemia inhibitory factor (LIF) and cardiotrophin-1 mRNA by 6.5-, 10.2-, and 2.0-fold, respectively, but did not affect IL-11, ciliary neurotrophic factor, or oncostatin M in cardiac fibroblasts. Enzyme-linked immunosorbent assay revealed that angiotensin II-stimulated conditioned medium from cardiac fibroblasts contained 9.3 ng/ml IL-6 at 24 h, which was 24-fold higher than the control. It phosphorylated gp130 and STAT3 in cardiomyocytes, which was reduced with RX435 (anti-gp130 blocking antibody). It increased [(3)H]phenylalanine uptake and cell area by 44% and 86% in cardiomyocytes compared with mock medium. RX435 suppressed these increases by 26% and 38%, while TAK044 (endothelin-A/B-R blocker) suppressed them by 52% and 52%, respectively. Antisense oligonucleotides against LIF and cardiotrophin-1 blocked their up-regulation, and attenuated the conditioned medium-induced increase in [(3)H]phenylalanine uptake by 21% and 13%, respectively. The combination of antisense oligonucleotides to LIF and cardiotrophin-1 decreased their uptake by 33%. These results indicated that angiotensin II induced IL-6, LIF, and cardiotrophin-1 in cardiac fibroblasts, and that these cytokines, particularly LIF and cardiotrophin-1, activated gp130-linked signaling and contributed to angiotensin II-induced cardiomyocyte hypertrophy.     

Immunolocalisation of phosphorylated STAT3, interleukin 11 and leukaemia inhibitory factor in endometrium of women with unexplained infertility during the implantation window

Background  

Uterine receptivity and embryo implantation are critical in the establishment of pregnancy. The diagnosis of endometrial fertility requires more precise measurements of endometrial receptivity. Interleukin (IL-11) and leukemia inhibitory factor (LIF) are essential for murine implantation and signal via intracellular phosphorylation (p) of STAT3 in the endometrium. Both cytokines are present in the endometrium of women duiring the receptive window. Endometrial IL-11, IL-11 receptor alpha (IL-11Ralpha), LIF and pSTAT3 in women with primary unexplained infertility was compared to normal fertile women during the implantation window.