Interleukin-18 regulates acute graft-versus-host disease by enhancing Fas-mediated donor T cell apoptosis

Interleukin (IL)-18 is a recently discovered cytokine that modulates both T helper type 1 (Th1) and Th2 responses. IL-18 is elevated during acute graft-versus-host disease (GVHD). We investigated the role of IL-18 in this disorder using a well characterized murine bone marrow transplantation (BMT) model (B6 --> B6D2F1). Surprisingly, blockade of IL-18 accelerated acute GVHD-related mortality. In contrast, administration of IL-18 reduced serum tumor necrosis factor (TNF)-alpha and lipopolysaccharide (LPS) levels, decreased intestinal histopathology, and resulted in significantly improved survival (75 vs. 15%, P < 0.001). Administration of IL-18 attenuated early donor T cell expansion and was associated with increased Fas expression and greater apoptosis of donor T cells. The administration of IL-18 no longer protected BMT recipients from GVHD when Fas deficient (lpr) mice were used as donors. IL-18 also lost its ability to protect against acute GVHD when interferon (IFN)-gamma knockout mice were used as donors. Together, these results demonstrate that IL-18 regulates acute GVHD by inducing enhanced Fas-mediated apoptosis of donor T cells early after BMT, and donor IFN-gamma is critical for this protective effect.

Oncoprotein 18 levels and phosphorylation mediate megakaryocyte polyploidization in human erythroleukemia cells

Megakaryocytes undergo an unusual cell cycle during differentiation that results in polyploidy through largely unknown mechanism(s). It has been shown that serine phosphorylation of oncoprotein 18 (Op18) is required for cell cycle progression specifically at the G2/M transition. Moreover, mutant forms of Op18 that are defective in one or more of the four serine residues induce G2/M arrest and subsequent polyploidization. Op18 phosphorylation is rapidly induced with phorbol myristate acetate (PMA) treatment in a wide range of human cells. In this study, we investigated the role of Op18 in PMA induced polyploidization during megakaryocyte differentiation of the human erythroleukemia cell line. Crucial to the molecular analysis of megakaryocyte differentiation, is the ability to fractionate cell populations with different ploidy levels. We have utilized cell elutriation as a fractionation strategy to analyze Op18 expression in synchronized cell subpopulations in different phases of the cell cycle or with progressive megakaryocyte polyploidization. In the absence of PMA, increased phosphorylation of Op18 was observed in HEL cells during cell cycle progression, as for other proliferating cells. However, in contrast to Jurkat leukemia cells chosen as control, HEL cells exhibited a lack of Op18 phosphorylation in response to PMA, which was accompanied by polyploidization and differentiation along the megakaryocytic lineage. To further determine the role of Op18 in polyploidization, HEL cells were transfected with different Op18 expression constructs. Differences in cell survival and polyploidization were observed between high and low Op18 expressors. An increased Op18 level reduced cell survival during the early stage of PMA induced megakaryocyte differentiation, but enhanced polyploidization efficiency. Our findings suggest that maintenance of a high level of unphosphorylated Op18 is required for efficient polyploidization during the differentiation program of megakaryocytes.

Zinc deficiency affects cell cycle and deoxythymidine kinase gene expression in HUT-78 cells

Although zinc is known to be involved in cell proliferation and DNA synthesis, the mechanism by which zinc may regulate these processes is not understood. We have studied the role of zinc on cell proliferation and gene expression of a DNA synthesizing enzyme, deoxythymidine kinase (TK), in a T helper human malignant lymphoblastoid cell line (HUT-78). In zinc-deficient and zinc-sufficient media, the cell doubling time (mean +/- SD) of HUT-78 was 59 +/- 8 hours and 32.6 +/- 6 hours, respectively. The effect of zinc was T cell specific, inasmuch as the cell growth of another T malignant lymphoblastoid cell line, MOLT-3 (immature T cells), was not affected by zinc deficiency. Iron, copper, or manganese did not completely correct the cell growth of zinc-deficient HUT-78 cells. TK activity and the relative accumulation of TK-mRNA were significantly decreased in zinc-deficient cells during the G1 phase of cell cycle in comparison with zinc-sufficient cells. Nuclear run-on experiments and actinomycin-D studies showed that the transcription of TK-mRNA was affected adversely by zinc deficiency. Cell cycle studies showed that more zinc-deficient cells remained in S phase and did not undergo mitosis in comparison with zinc-sufficient cells. In conclusion, our data show that zinc is a T cell-specific growth factor and that a decreased gene expression of DNA-synthesizing enzyme TK in zinc-deficient HUT-78 cells in G1 phase affected adversely the DNA synthesis in S phase and delayed cell cycle.

Prostate cancer: flow cytometric methods for detection of bone marrow micrometastases

Up to 60% of patients with clinically localized prostate cancer will relapse despite potentially curative local treatment. Current staging tests have been limited in adequately identifying individual patients who are at a high risk for future relapse. Detection of bone marrow micrometastases may identify individuals destined to develop clinically detectable systemic metastases. Although immunohistochemistry and molecular approaches are being investigated, the most ideal test(s) are yet to be determined. In this report we describe methods for specific detection and isolation of prostate cancer micrometastases by multi-parameter rare event flow cytometric analysis. A model was developed and validated using three human prostate cancer cell lines, healthy donor marrow, dual marker labeling for cytokeratin (epithelial-specific marker) and CD45 (bone marrow-specific marker). The detection sensitivity of this model was at the level of one prostate cancer cell in 100,000 nucleated bone marrow cells. As a part of an ongoing clinical study, bone marrow aspirates from 15 patients with newly diagnosed prostate cancer have been analyzed. Six patients were found to have cytokeratin positive/CD45 negative cells in their bone marrow aspirates. We conclude that flow cytometric rare event analysis provides a sensitive and specific assay for detection of bone marrow micrometastases in patients with clinically localized prostate cancer.

Development and optimization of tissue preparative methodology for DNA content analysis of soft tissue neoplasms

Data regarding DNA content parameters in soft tissue sarcoma is limited. Development and optimization of tissue specific preparative techniques for DNA flow cytometry was undertaken prior to routine DNA content analysis of soft tissue neoplasms; 154 soft tissue tumors were studied. Dissociation dependent differences in cellular yields, viabilities, maintenance of DNA aneuploid populations, coefficients of variation, and DNA index supported the need for these developmental studies. Fifty-six of eighty-nine patients had DNA aneuploid soft tissue sarcomas. A relationship between DNA aneuploidy and grade was seen in this series with 38% with low grade, 59% with moderate grade, and 69% with high grade tumors demonstrating DNA aneuploid populations (P < 0.005). The mean S-phase fraction for DNA diploid and aneuploid sarcomas was 7.2% and 13.3%, respectively (P < 0.001). When classified by histologic grade of the primary tumor, a greater percentage of metastatic lesions were DNA aneuploid (4 of 7 grade 2 lesions, and 15 of 16 grade 3 lesions). Decreases in cellular yields and rate of DNA aneuploidy were observed in a subgroup of patients with localized high grade sarcoma treated preoperatively, as compared to patients treated with initial surgery. Prospective correlation of DNA content parameters to prognosis and response to cytotoxic therapy are now possible and are ongoing.

Cell cycle distribution defect in PHA-stimulated T lymphocytes of sickle cell disease patients

T lymphocytes from normal human controls and sickle cell disease (SCD) patients were isolated from peripheral blood and cultured for 72 hours following addition of phytohemagglutinin. The ratio for the fraction of cells in DNA synthesis (S phase) over the fraction in G2 phase (S/G2) was significantly higher in SCD patients in comparison to the controls (mean +/- SD) (4.01 +/- 0.78 vs. 2.78 +/- 0.76, P less than 0.02). Following in vivo zinc supplementation to two subjects, the S/G2 ratio was normalized. We conclude that the distribution of T lymphocytes in cell cycle is altered in SCD patients and that this effect may be zinc-dependent.