Paediatric Crohn disease patients with stricturing behaviour exhibit ileal granulocyte-macrophage colony-stimulating factor (GM-CSF) autoantibody production and reduced neutrophil bacterial killing and GM-CSF bioactivity.

Granulocyte-macrophage colony-stimulating factor (GM-CSF) autoantibodies are associated with stricturing behaviour in Crohn disease (CD). We hypothesized that CD ileal lamina propria mononuclear cells (LPMC) would produce GM-CSF autoantibodies and peripheral blood (PB) samples would contain GM-CSF neutralizing capacity (NC). Paediatric CD and control PBMC and ileal biopsies or LPMC were isolated and cultured and GM-CSF, immunoglobulin (Ig)G and GM-CSF autoantibodies production were measured by enzyme-linked immunosorbent assay (ELISA). Basal and GM-CSF-primed neutrophil bacterial killing and signal transducer and activator of transcription 5 (STAT5) tyrosine phosphorylation (pSTAT5) were measured by flow cytometry. GM-CSF autoantibodies were enriched within total IgG for LPMC isolated from CD ileal strictures and proximal margins compared to control ileum. Neutrophil bacterial killing was reduced in CD patients compared to controls. Within CD, neutrophil GM-CSF-dependent STAT5 activation and bacterial killing were reduced as GM-CSF autoantibodies increased. GM-CSF stimulation of pSTAT5 did not vary between controls and CD patients in washed PB granulocytes in which serum was removed. However, GM-CSF stimulation of pSTAT5 was reduced in whole PB samples from CD patients. These data were used to calculate the GM-CSF NC. CD patients with GM-CSF NC greater than 25% exhibited a fourfold higher rate of stricturing behaviour and surgery. The likelihood ratio (95% confidence interval) for stricturing behaviour for patients with elevation in both GM-CSF autoantibodies and GM-CSF NC was equal to 5 (2, 11). GM-CSF autoantibodies are produced by LPMC isolated from CD ileal resection specimens and are associated with reduced neutrophil bacterial killing. CD peripheral blood contains GM-CSF NC, which is associated with increased rates of stricturing behaviour.

Regulation of intestinal barrier function by signal transducer and activator of transcription 5b.

BACKGROUND: Colon epithelial cell (CEC) apoptosis and nuclear factor-kappaB (NF-kappaB) activation may compromise barrier function, and it has been reported that signal transducer and activator of transcription 5b (STAT5b)-deficient mice exhibit increased susceptibility to colitis. It is hypothesised that the growth hormone (GH) target STAT5b maintains mucosal barrier integrity by promoting CEC survival and inhibiting NF-kappaB activation. METHODS: The GH effect upon mucosal injury due to 2,4,6-trinitro-benzenesulfonic acid (TNBS) administration was determined in STAT5b-deficient mice and wild-type (WT) controls. The effect of STAT5b deficiency upon CEC survival and NF-kappaB activation was determined and related to differences in intestinal permeability and bacterial translocation. RNA interference (RNAi) was used to knock down STAT5b expression in the T84 CEC line, and the effect upon basal and GH-dependent regulation of proapoptotic and inflammatory pathways induced by tumour necrosis factor alpha (TNFalpha) was determined. RESULTS: GH suppression of mucosal inflammation in TNBS colitis was abrogated in STAT5b-deficient mice. STAT5b deficiency led to activation of a proapoptotic pattern of gene expression in the colon, and increased mucosal permeability. The frequency of apoptotic CECs was increased in STAT5b-deficient mice while tight junction protein abundance was reduced. This was associated with upregulation of CEC Toll-like receptor 2 expression and NF-kappaB activation. STAT5b knockdown in T84 CEC increased TNFalpha-dependent NF-kappaB and caspase-3 activation. GH inhibition of TNFalpha signalling was prevented by STAT5b knockdown. CONCLUSION: STAT5b maintains colonic barrier integrity by modulating CEC survival and NF-kappaB activation. STAT5b activation may therefore represent a novel therapeutic target in inflammatory bowel disease.

Generation of alloreactive anti-leukemic cytotoxic T lymphocytes with attenuated GVHD properties from haploidentical parents in childhood acute lymphoblastic leukemia.

We sought to generate alloreactive leukemia-reactive cytotoxic T lymphocytes from haploidentical parents by culture of peripheral blood mononuclear cells in vitro with irradiated leukemic blasts and IL-2 from children with ALL. After 21 days in culture the mean cytotoxicity of haploidentical lymphocytes against ALL blasts was 38% (n = 11). Cultured parental CTL were not leukemia specific but alloreactive as evidenced by equivalent cytotoxicity against stimulating ALL blasts and ConA-stimulated blasts from the other parent. The cultures yielded primarily CD8(+) T cells (59%). Irradiation of CTL limited proliferation by 96% but had no short-term effects on leukemia reactive cytotoxicity, suggesting a means to limit GVHD potential in vivo. One patient was treated for relapse of ALL post-haploidentical transplant with CTL generated from the original donor. A total of nine infusions were given: the first three were irradiated, while the last six were not due to disease progression. The patient experienced clearance of peripheral blasts, and despite concomitant infusion of IL-2 with the last three CTL infusions, did not experience immediate GVHD reactions. We conclude that ALL blasts are sufficiently immunostimulatory to generate in vitro CTL with provision of exogenous IL-2, and that these CTL could exert an anti-leukemia effect in vivo.

Larger numbers of CD4(bright) dendritic cells in donor bone marrow are associated with increased relapse after allogeneic bone marrow transplantation.

Relapse is the major cause of death after allogeneic bone marrow transplantation (BMT). This study tested the hypothesis that the numbers of donor mononuclear cells, lymphocytes, and CD34(+) cells influence relapse and event-free survival (EFS) after BMT. The study population consisted of 113 consecutive patients with hematologic malignancies who underwent non-T-cell-depleted BMT from HLA-matched siblings. Sixty-four patients had low-risk diagnoses (ALL/AML CR1, MDS RA/RARS, and CML CP1); 49 patients had high-risk diagnoses (all others). CD34(+) cells, T cells, B cells, natural killer cells, monocytes, and a rare population of CD3(-), CD4(bright) cells in the allografts were measured by flow cytometry. The CD3(-), CD4(bright) cells in bone marrow had the same frequency and phenotype as CD123(bright) type 2 dendritic cell (DC) progenitors, and they differentiated into typical DCs after short-term culture. Cox regression analyses evaluated risk strata, age, gender, and the numbers of nucleated cells, CD3(+) T cells, CD34(+) hematopoietic cells, and CD4(bright) cells as covariates for EFS, relapse, and nonrelapse mortality. Recipients of larger numbers of CD4(bright) cells had significantly lower EFS, a lower incidence of chronic graft-versus-host disease (cGVHD), and an increased incidence of relapse. Recipients of larger numbers of CD34(+) cells had improved EFS; recipients of fewer CD34(+) cells had delayed hematopoietic engraftment and increased death from infections. In conclusion, the content of donor CD4(bright) cells was associated with decreased cGVHD and graft-versus-leukemia effects in recipients of allogeneic bone marrow transplantation, consistent with a role for donor DCs in determining immune responses after allogeneic BMT.

Cytokine upregulation of the antigen presenting function of acute myeloid leukemia cells.

Acute myeloid leukemia (AML) cells are malignant counterparts of normal myeloid pathway progenitors. Myeloid progenitors differentiate into professional antigen presenting cells (APC) under the essential influence of GM-CSF along with additional cytokines. Twelve cases of human AML were tested for ability to be differentiated toward a professional APC phenotype in short-term culture with addition of GM-CSF and the following recombinant proteins: TNFalpha, IL-4, CD40 ligand, Flt3 ligand and SCF. Significant upregulation of CD80 (B7-1) and enhancement of alloantigen presentation was seen with the addition of GM-CSF and TNFalpha alone or with additional cytokines. The combination of GM-CSF and TNFalpha, either alone or in combination with an additional cytokine, resulted in enhancing alloantigen presentation by at least two-fold over the media control group in 10/12 patients studied, and resulted in CD80 expression of greater than 15% in 11/12 patients studied. In AML cultures with GM-CSF and TNFalpha, coexpression of CD80 and either CD34 or an aberrant surface marker (CD56) was seen. In one case, sorted CD80, cells retained a characteristic cytogenetic marker and CD34 expression, proving their derivation from an AML precursor. These studies verify other reports of in vitro differentiation of human AML precursors into enhanced APC, suggesting that this phenomenon could be utilized for immunotherapy strategies aimed at enhancing presentation of leukemia antigens to T cells.

Expression of interleukin-6 receptors by pediatric acute lymphoblastic leukemia cells with the t(4;11) translocation: a possible target for therapy with recombinant IL6-Pseudomonas exotoxin.

We have detected expression of interleukin-6 receptors (IL-6R) by primary leukemic cells from three of six patients with t(4;11)+ ALL. Scatchard analysis revealed from 960 to 2100 high-affinity IL-6R/cell on these cells (median, 1560; mean, 1540). All three IL-6R+ cases also expressed CD33, which was not expressed on IL-6R-negative cases. To determine if these receptors could serve as a target for a recombinant ligand-toxin, we examined the sensitivity of primary IL-6R+ ALL cells to a recombinant IL6-Pseudomonas exotoxin (IL6-PE4E) fusion protein, in which the toxicity and specificity of the chimeric toxin was enhanced by substitution of four glutamine residues for naturally occurring amino acids in PE domain I. Primary cells from IL-6R+ cases were sensitive to IL6-PE4E in a 48-h cytotoxicity assay, with ID50 values (concentrations causing 50% decrease in viability) ranging from 23 ng/ml to 92 ng/ml (median, 61; mean, 58). Furthermore, incubation of these cells with 10(3) ng/ml IL6-toxin for 24 h prevented their subsequent engraftment in SCID mice. Thus, IL6-PE4E may be useful for ex vivo purging of IL-6R+ leukemic cells in an autologous bone marrow transplantation setting and possibly for therapy of residual, chemotherapy-resistant disease.