Induction of Chimerism in Mice Using Human MHC Class I-Mismatched Hoechst 33342 Side Population Donor Stem Cells

A population of Hoechst 33342-stained cells, termed side population (SP) cells, can reconstitute the hematopoietic system of syngeneic mice. This study examined whether limiting numbers of SP cells can repopulate mice across a xenogeneic MHC class I barrier. SP cells were isolated from HLA.B7 and HLA.A2.1 transgenic mice by FACS and placed in colony assays or transplanted into irradiated C57BL/6 (B/6) recipients. SP cells contained few colony-forming cells when placed directly in culture. The number of GM-CFC and HPP-CFC increased up to 3000- and 300-fold, respectively, after 7 days in IL-3- and SCF-stimulated liquid culture. BMC-derived GM-CFC increased up to only 12-fold and HPP-CFC decreased after 7 days in culture. HLA-B7 SP cells (2500–5000) were transplanted into lethal-irradiated B/6 mice. Two-color flow analysis, 4–6 weeks after transplantation, showed that HLA-B7 expression in granulocyte-, macrophage-, and lymphocyte-specific lineages from reconstituted mice was similar to that in B7 transgenic mice. Secondary transplanted B/6 mice also showed a pattern of HLA-B7 expression similar to that in transgenic mice and were followed for longer than 16 weeks with stable chimerism. When HLA-A2.1 SP cells were transplanted into sublethally irradiated mice, 50% of the mice expressed HLA-A2 by PCR analysis in short-term repopulation studies. These data confirm that limiting numbers of SP cells can repopulate the major hematopoietic lineages in lethal and sublethally irradiated mice across a human MHC class I barrier. Therefore, SP cells may be useful for establishing mixed chimerism, which may induce immunologic nonresponsiveness to donor antigens in solid organ transplantation.

Experimental acute infection of alpacas with Bovine viral diarrhea virus 1 subgenotype b alters peripheral blood and GALT leukocyte subsets

Bovine viral diarrhea virus (BVDV) is a pathogen in cattle and alpacas ( Vicugna pacos), causing acute and persistent BVDV infections. We characterized the effect of acute BVDV infection on the immune system of alpacas by determining lymphocyte subpopulations in peripheral blood and gut-associated lymphoid tissues (GALT) as well as serum interferon levels. Alpacas were experimentally infected with BVDV-1b (strain CO-06). Peripheral blood leukocytes were isolated at 0, 3, 6, and 9 d postinfection (dpi), and leukocytes of GALT at 9 dpi, and evaluated using flow cytometry. Serum interferon levels were determined daily. Flow cytometric analyses of peripheral blood leukocytes showed a significant decrease in CD4+, CD8+, and αβ T-lymphocytes at 3 dpi. CD8+ lymphocytes were significantly increased, and activated lymphocytes were significantly decreased in the C3-stomach region in BVDV-infected alpacas. Serum interferon concentrations significantly increased in BVDV-infected alpacas at 3-6 dpi, peaking at 3 dpi. Our study confirms that BVDV can be a primary acute pathogen in alpacas and that it induces an interferon response and alters leukocyte subset populations. The changes in the proportion of T-lymphocytes during the early stages of BVDV infection may result in transient immunosuppression that may contribute to secondary bacterial and viral infections, similar to cattle.

Contribution of Helicobacter hepaticus cytolethal distending toxin subunits to human epithelial cell cycle arrest and apoptotic death in vitro

BACKGROUND

Cytolethal distending toxin (CDT) is the only known virulence factor found in H. hepaticus, the cause of chronic typhlocolitis and hepatitis leading to colonic and hepatocellular carcinomas in mice. Interaction of the tripartite polypeptide CdtA, CdtB, and CdtC subunits produced by H. hepaticus CDT (HhepCDT) causes cell cycle arrest and apoptotic death of cultured cells; however, the contribution of individual subunit to these processes has not been investigated.

MATERIALS AND METHODS

The temporal relationship between cell cycle and apoptotic death of human epithelial HeLa and INT407 cells intoxicated with HhepCDT holotoxin or reconstituted recombinant HhepCDT was compared by flow cytometry. The genotoxic activity of individual and combinations of recombinant HhepCDT protein subunits or increasing concentrations of individual recombinant HhepCDT protein subunits transfected into HeLa cells was assessed at 72 hours post-treatment by flow cytometry.

RESULTS

Similar time course of HhepCDT-induced G2 /M cell cycle arrest and apoptotic death was found with both cell lines which reached a maximum at 72 hours. The presence of all three HhepCDT subunits was required for maximum cell cycle arrest and apoptosis of both cell lines. Transfection of HeLa cells with HhepCdtB, but not with HhepCdtA or HhepCdtC, resulted in a dose-dependent G2 /M arrest and apoptotic death.

CONCLUSION

All three subunits of HhepCDT are required for maximum epithelial cell cycle arrest and progression to apoptotic death, and HhepCdtB subunit alone is necessary and sufficient for epithelial cell genotoxicity.

Overexpression of thioredoxin-binding protein 2 increases oxidation sensitivity and apoptosis in human lens epithelial cells

Thioredoxin (Trx) is an important redox regulator with cytosolic Trx1 and mitochondrial Trx2 isozymes. Trx has multiple physiological functions in cells and its bioavailability is negatively controlled through active-site binding to a specific thioredoxin-binding protein (TBP-2). This paper describes the delicate balance between TBP-2 and Trx and the effect of overexpression of TBP-2 in human lens epithelial cells. Cells overexpressing TBP-2 (TBP-2 OE) showed a sevenfold increase in TBP-2 and a nearly 40% suppression of Trx activity but no change in Trx expression. The TBP-2 OE cells grew slower and their population decreased to 30% by day 7. Cell cycle analysis showed that TBP-2 OE cells arrested at the G2/M stage and that they displayed low expression of the cell cycle elements P-cdc2(Y15), cdc2, cdc25A, and cdc25C. Furthermore, TBP-2 OE cells were more sensitive to oxidation. Under H2O2 (200μM, 24h) treatment, these cells lost 80% viability and became highly apoptotic. Brief oxidative stress (200μM, 30min) to TBP-2 OE cells disrupted the Trx antiapoptotic function by dissociating the cytosolic and mitochondrial Trx-ASK binding complexes. The same H2O2-treated cells also showed activated ASK (P-ASK), increased Bax, lowered Bcl-2, cytochrome c release, and elevated caspase 3/7 activity. We conclude from these studies that high cellular levels of TBP-2 can potentially suppress Trx bioavailability and increase oxidation sensitivity. Overexpression of TBP-2 also causes slow growth by mitotic arrest and apoptosis by activating the ASK death pathway.

Porcine reproductive and respiratory syndrome virus non-structural protein 1 suppresses tumor necrosis factor-alpha promoter activation by inhibiting NF-κB and Sp1

The objective of this study was to identify porcine reproductive and respiratory syndrome virus (PRRSV)-encoded proteins that are responsible for the inhibition of TNF-α expression and the mechanism(s) involved in this phenomenon. Using a TNF-α promoter reporter system, the non-structural protein 1 (Nsp1) was found to strongly suppress the TNF-α promoter activity. Such inhibition takes place especially at the promoter's proximal region. Both Nsp1α and Nsp1β, the two proteolytic fragments of Nsp1, were shown to be involved in TNF-α promoter suppression. Furthermore, using reporter plasmids specific for transcription factors (TFs) that bind to TNF-α promoter, Nsp1α and Nsp1β were demonstrated to inhibit the activity of the TFs that bind CRE-κB(3) and Sp1 elements respectively. Subsequent analyses showed that Nsp1α moderately inhibits NF-κB activation and that Nsp1β completely abrogates the Sp1 transactivation. These findings reveal one of the important mechanisms underlying the innate immune evasion by PRRSV during infection.

Helicobacter hepaticus cytolethal distending toxin causes cell death in intestinal epithelial cells via mitochondrial apoptotic pathway

BACKGROUND

Helicobacter hepaticus, the prototype for enterohepatic Helicobacter species, colonizes the lower intestinal and hepatobiliary tracts of mice and causes typhlocolitis, hepatitis, and hepatocellular carcinoma in susceptible mouse strains. Cytolethal distending toxin (CDT) is the only known virulence factor found in H. hepaticus. CDT of several Gram-negative bacteria is associated with double-stranded DNA breaks resulting in cell cycle arrest and death of a wide range of eukaryotic cells in vitro. We previously observed H. hepaticus CDT (HhCDT) mediated apoptosis in INT407 cells. However, the exact mechanism for the induction of the apoptotic pathway by HhCDT is unknown. The objective of this study was to identify the apoptotic signaling pathway induced by HhCDT in INT407 cells.

MATERIALS AND METHODS

INT407 cells were incubated with or without recombinant HhCDT for 0-72 hours. H2AX phosphorylation and apoptotic parameters were analyzed.

RESULTS

H2AX was phosphorylated 24 hours postexposure to HhCDT. Expression of pro-apoptotic Bax protein was upregulated after 24 hours, while Bcl(2) expression decreased. Cytochrome c was released from mitochondria after 12-24 hours of exposure. Concurrently, caspase 3/7 and 9 were activated. However, pretreatment of INT407 cells with caspase inhibitor (Z-VAD-FMK) inhibited the activation of caspase 3/7 and 9. Significant activity of caspase 8 was not observed in toxin treated cells. Activation of caspase 3/7 and caspase 9 confirms the involvement of the mitochondrial apoptotic pathway in HhCDT-treated cells.

CONCLUSION

These findings show, for the first time, the ability of HhCDT to induce apoptosis via the mitochondrial pathway.

Effect of thioltransferase (glutaredoxin) deletion on cellular sensitivity to oxidative stress and cell proliferation in lens epithelial cells of thioltransferase knockout mouse

PURPOSE

To examine the physiological function of the thioltransferase (TTase)/glutathione (GSH) system in the lens using TTase knockout mouse (TTase(-/-)) lens epithelial cells (LECs) as a model.

METHODS

Primary LEC cultures were obtained from wild-type (TTase(+/+)) and TTase(-/-) mice. Characterization and validation of the cells were determined by immunoblotting for TTase and alpha-crystallin proteins and by immunohistochemistry for glutathionylated proteins. Cell proliferation was examined by 3-(4,5-dimethyl-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium and BrdU analysis, and cell apoptosis after H(2)O(2) stress was assessed by fluorescence-activated cell sorter analysis. Reloading of TTase protein into the TTase(-/-) cells was achieved with reagent.

RESULTS

Primary LEC cultures obtained from wild-type (TTase(+/+)) and TTase(-/-) mice were characterized and found to contain lens-specific alpha-crystallin protein. Western blot analysis confirmed the absence of TTase protein in the TTase(-/-) cells and its presence in the wild-type cells. TTase(-/-) LECs had significantly lower levels of glutathione (GSH) and protein thiols with extensive elevation of glutathionylated proteins, and they exhibited less resistance to oxidative stress than did TTase(+/+) cells. These cells were less viable and more apoptotic, and they had a reduced ability to remove H(2)O(2) after challenge with low levels of H(2)O(2). Reloading of purified TTase into the TTase(-/-) cells restored the antioxidant function in TTase(-/-) cells to a near normal state.

CONCLUSIONS

These findings confirm the importance of TTase in regulating redox homeostasis and suggest a new physiological function in controlling cell proliferation in the lens epithelial cells.

Tolerance by Selective In Vivo Expansion of Foreign Major Histocompatibility Complex-Transduced Autologous Bone Marrow1

BACKGROUND

Application of gene therapy to induce antigen-specific immune tolerance could be important for transplantation or treatment of autoimmune diseases. Hematopoietic stem cell-based gene therapy has been hampered by relatively weak gene expression in vivo and loss of transduced cells over time. Selective expansion of transduced hematopoietic stem cells has been accomplished by incorporating the dihydrofolate reductase (DHFR) gene into the gene transfer vector.

METHODS

To assess whether this strategy could be applied to transplantation, we constructed a retroviral vector plasmid (KA274) containing the cDNA encoding human leukocyte antigen (HLA)-A2.1 and a tyr22 mutant DHFR and generated vesicular stomatitis virus-G-pseudotyped recombinant retrovirus by transfection into 293GPG cells. Bone marrow cells from C57BL/6 mice were infected with KA274 at a multiplicity of infection of 100, and transplanted into lethally irradiated syngeneic mice.

RESULTS

After transplantation with transduced bone marrow, the proportion of peripheral blood cells expressing HLA-A2 ranged from 3.2% to 38% and increased 2- to 4.9-fold after selection for DHFR-expressing cells using trimetrexate and nitrobenzylmercaptpurine riboside 5' monophosphate. HLA-A2 expression remained above pretreatment levels throughout the study. Cytotoxic spleen cells from reconstituted mice lysed third-party HLA-B7-expressing targets but were unable to lyse HLA-A2-expressing targets. All KA274 reconstituted C57BL/6 mice accepted skin grafts from HLA-A2.1 transgenic mice for more than 245 days but rejected third-party Balb/c skin grafts in 12 days.

CONCLUSION

Long-term transgene expression and immunologic tolerance to retrovirus-encoded HLA-A2, equivalent to that obtained by donor bone marrow transplantation, was accomplished, and selective expansion of transduced bone marrow cells was induced using DHFR as a selectable marker.

Evidence for a qualitative hierarchy within the Hoechst-33342 'side population' (SP) of murine bone marrow cells

In vitro cobblestone area (CA)-forming cell (CAFC) and in vivo (short-term and competitive repopulation) assays demonstrate that a qualitative hierarchy exists within the Hoechst-33342-defined side population (SP) in murine bone marrow (BM). Consistent with and extending previous studies, we demonstrate that (i) hematopoietic activity found in whole BM (WBM) is concentrated within the SP, rather than the non-SP (NSP); and (ii) within the SP, those cells that more strongly efflux the dye (lower SP, LSP) are qualitatively different from those that less strongly efflux the dye (upper SP, USP). Qualitative differences are highlighted by evidence that (i) CA derived from LSP CAFC persist in culture significantly longer than CA derived from USP CAFC; (ii) short-term, multilineage repopulation of lethally irradiated mice by LSP cells is more rapid than that in mice receiving USP, NSP, whole SP (WSP), or WBM cells and (iii) LSP cells out-compete USP cells in the multilineage hematopoietic repopulation of lethally irradiated recipients. These data suggest that LSP cells are of higher quality than USP cells and potentially provide a means by which qualitative changes in primitive hematopoietic progenitors occurring naturally with aging, or clinically as a consequence of therapeutic manipulation, can be assessed.

Competitive equality of donor cells expressing a disparate MHC antigen following stem cell-enriched bone marrow transplantation

INTRODUCTION

Bone marrow cells expressing foreign MHC antigens survive poorly after transplantation. Stable mixed hematopoietic chimerism requires reconstitution with a relatively large number of foreign bone marrow cells and intensive depletion of host cells. In addition, when foreign MHC-transduced autologous bone marrow cells are transplanted, prolonged hematopoietic transgene expression requires extensive host conditioning. The competitive disadvantage associated with engraftment of donor cells expressing foreign MHC antigens is thought to result from a defect in engraftment secondary to donor-host incompatibility or immunologic resistance by the host.

METHODS

We used a limiting-dilution competitive repopulation assay with cells from HLA-A2.1 transgenic mice to determine whether and to what extent foreign MHC antigen expression impairs engraftment in C57BL/6 hosts. Transplants were performed with Hoechst 33342 fluorescence-sorted side population (SP) cells, a subset of bone marrow enriched for stem cells. RESULTS.: Transplantation with 250 stem cell-enriched HLA-A2.1-transgenic side population cells successfully competed with nearly 5000 host C57BL/6 side population cells to produce stable long-term mixed chimerism. There was a direct relationship between the number of transplanted donor HLA-A2-expressing cells and the percentage of HLA-A2-expressing cells in the peripheral blood of reconstituted C57BL/6 mice (r2=0.1799, P=0.031). This correlation was maintained in secondary transplant recipients.

CONCLUSIONS

HLA-A2-expressing hematopoietic cells do not have an engraftment defect when transplanted into C57BL/6 hosts and immunologic resistance did not limit chimerism following lethal irradiation. These results may have relevance to understanding long-term gene expression after hematopoietic stem cell based gene therapy.

Long-term transgene expression and survival of transgene-expressing grafts following lentivirus transduction of bone marrow side population cells

BACKGROUND

Successful transduction of hematopoietic stem cells is essential if gene therapy is to be used clinically to induce immunologic tolerance.

METHODS

Hoechst 33342 staining was used to isolate a population of bone marrow cells enriched for stem cells, termed side population (SP) cells. Murine bone marrow SP cells were transduced with HLA-A2.1-expressing VSV-G-pseudotyped lentivirus or retrovirus vectors under identical conditions.

RESULTS

After transduction without prestimulating cytokines, which minimizes cell cycling and helps maintain stem cell pluripotency, the HLA-A2.1 gene was found in the DNA of 56% of CFU-GM colonies derived from lentivirus-transduced SP cells, but in only 4% of colonies derived from retrovirus-transduced SP cells. Lentivirus and retrovirus transduction including cytokine prestimulation produced the same degree of integration as that following lentivirus-transduction of non-prestimulated cells. Transplantation of 5,000 lentivirus-transduced SP cells into lethally irradiated mice resulted in long-term expression of the HLA-A2.1 transgene in peripheral blood progeny of bone marrow SP cells and prolonged skin graft survival across this class I MHC barrier until the time of animal sacrifice.

CONCLUSIONS

Recombinant lentivirus, but not retrovirus vectors, effectively transduced SP cells that were not prestimulated with cytokines and lentivirus-transduced SP cells successfully repopulated lethally irradiated C57BL/6 mice, animals where there is no selective advantage to repopulation with transduced cells. Transplantation of a relatively small number of transduced SP cells led to prolonged transgene mRNA expression and antigen-specific survival of grafts expressing the foreign MHC transgene.

High concentrations of retinoids induce differentiation and late apoptosis in pancreatic cancer cells in vitro

BACKGROUND

Our previous investigations showed that retinoids, at specific concentrations, can inhibit cell proliferation. In this investigation, we hypothesize that high concentrations of retinoids can induce phenotypic changes (differentiation) and late apoptosis in pancreatic cancer cells in vitro.

MATERIALS AND METHODS

To test our hypothesis, retinoid-induced differentiation was assessed: (1) phenotypically by light and electron microscopy and (2) biochemically by measuring carbonic anhydrase, aerobic metabolic and mucin producing activities. Modulation of transforming growth factor-beta (TGF-beta) and epidermal growth factor (EGF) autocrine pathways were utilized as mechanistic and differentiation markers.

RESULTS

The extensive differentiation-indicative phenotypic changes correlated with several folds increase in the aerobic metabolism (MTT reduction and Mitochondrial mass), carbonic anhydrase activity and mucin production. There was a marked increase in TGF-beta (Bioassay and ELISA) and TGF-beta (RIA) secretion. EGF receptor density (Receptor binding assay) was reduced by 50% within six hours and was reflected on abolishment of EGFR ligand-induced proliferation. Cotreatment with the RAR-alpha antagonist, Ro41-5253 or pan-TGF-beta neutralizing antibody abolished the phenotypic and antiproliferative effects of all-trans retinoic acid. Apoptosis (TUNEL assay) was undetectable after three days of treatment with the maximum concentration used. However, apoptosis was extensively induced after six days of treatment.

CONCLUSIONS

High concentrations of retinoids were able to induce phenotypic changes (differentiation) and late apoptosis in pancreatic cancer cells in vitro. The clinical ramifications of these observations await further investigations.

Natural retinoids inhibit proliferation and induce apoptosis in pancreatic cancer cells previously reported to be retinoid resistant

BACKGROUND

The anticancer ability of natural retinoids on pancreatic adenocarcinoma, an aggressive tumor, is still controversial. This investigation tested the hypothesis that all-trans retinoic acid can inhibit proliferation and induce apoptosis in pancreatic cancer cell lines.

MATERIALS AND METHODS

Using our previously optimized conditions, the effect of all-trans retinoic acid (atRA, 0.001-10 microM) was tested in ten human pancreatic adenocarcinoma cell lines with various degrees of differentiation. Proliferation was monitored by cell number, [3H]-thymidine incorporation and cell cycle arrest. Apoptosis was investigated morphologically by light and electron microscopy and biochemically by tissue transglutaminase activity (TGase), mitochondrial membrane potential, cell cycle analysis of sub-G1 cells and detection of fragmented DNA (fragmentation of prelabeled DNA, agarose electrophoresis and TUNEL assays).

RESULTS

Retinoic acid caused potent concentration- and time-dependent inhibition of proliferation of all cell lines studied. Cell cycle was arrested at G1 or G2 with extensive reduction of number of cells at S-phase after 24 hours of treatment with apoptotic concentration of atRA. Complete inhibition of proliferation was followed by apoptosis as indicated by the progressive accumulation of sub-G1 apoptotic cells which was confirmed by the more specific DNA fragmentation assays. There were extensive apoptosis-indicative light and electron microscopic changes preceded by phenotypic redifferentiation. TGase was induced between 3-5-fold the control level and its inhibition partially reversed the antiproliferative effect of atRA. Cellular viability during the preapoptotic stage was confirmed by normal mitochondrial membrane potential in the first two days of treatment with the maximum atRA concentration used. However, the potential was progressively reduced with time as a preapoptotic change. Caspase 3-like activity was induced by the apoptotic concentrations of atRA at late time points. However, the redifferentiation indicative changes were not prevented by cotreatment with Ac-DEVE-CHO caspase 3 inhibitor.

CONCLUSIONS

Together, our results demonstrated the efficient anticancer ability of natural retinoids on human pancreatic cancer cell lines tested, even those previously reported to be retinoid resistant.

Mechanisms of alcohol liver damage: aldehydes, scavenger receptors, and autoimmunity

While most of the investigations into the causative events in the development of alcoholic liver disease (ALD) have been focused on multiple factors, increasing interest has centered around the possible role of immune mechanisms in the pathogenesis and perpetuation of ALD. This is because many of the clinical features of ALD suggest that immune effector mechanisms may be contributing to liver tissue damage, as evidenced by the detection of circulating autoantibodies, and the presence of CD4+ and CD8+ lymphoid cells in the livers of patients with ALD. One mechanism that has been associated with the development of autoimmune responses is the modification (haptenation or adduction) of liver proteins with aldehydes or other products of oxidative stress. This is because it has been shown that these adducted proteins can induce specific immune responses, to the adduct, the adduct plus protein (conformational antigens), as well as the unmodified parts of the protein. More importantly, it is possible to demonstrate that adducted self-proteins can induce reactivity to the normal self-protein and thereby induce autoimmune responses. Therefore, it is the purpose of this manuscript to outline the mechanism(s) by which these modified self proteins can induce autoimmune reactivity, and thus play a role in the development and/or progression of ALD.

Lymphodepleting effects and safety of pentostatin for nonmyeloablative allogeneic stem-cell transplantation1

Nonmyeloablative allogeneic stem-cell transplantation (alloNST) is the focus of investigations searching for less-toxic transplantation regimens. We report studies on the kinetics of lymphodepletion and safety of pentostatin (PT) conditioning in alloNST. Patients with hematologic malignancy received mobilized blood from human leukocyte antigen-matched related (n=4) or unrelated (n=8) donors. PT 4 mg/m2 was administered on days -21, -20, and -19 and 200 cGy of total-body irradiation was administered on day -1, followed by cyclosporine A and mycophenolate mofetil. Mononuclear cell adenosine deaminase after PT was inhibited 84%. The absolute CD3+ cells decreased significantly by day -7 (49%) and CD19+ cells declined 92% by day -1. CD4+ cells were depressed more than CD8+ cells. Neutrophils and monocytes were minimally affected by PT. Median posttransplant peripheral blood chimerism on day 70 showed 95% donor leukocytes and 82.5% donor CD3 lymphocytes. PT demonstrated lymphodepleting effects and promising safety, supporting alloNST as early as 7 days after initiation of PT.

Induction of chimerism in mice using human MHC class I-mismatched Hoechst 33342 side population donor stem cells

A population of Hoechst 33342-stained cells, termed side population (SP) cells, can reconstitute the hematopoietic system of syngeneic mice. This study examined whether limiting numbers of SP cells can repopulate mice across a xenogeneic MHC class I barrier. SP cells were isolated from HLA.B7 and HLA.A2.1 transgenic mice by FACS and placed in colony assays or transplanted into irradiated C57BL/6 (B/6) recipients. SP cells contained few colony-forming cells when placed directly in culture. The number of GM-CFC and HPP-CFC increased up to 3000- and 300-fold, respectively, after 7 days in IL-3- and SCF-stimulated liquid culture. BMC-derived GM-CFC increased up to only 12-fold and HPP-CFC decreased after 7 days in culture. HLA-B7 SP cells (2500-5000) were transplanted into lethal-irradiated B/6 mice. Two-color flow analysis, 4-6 weeks after transplantation, showed that HLA-B7 expression in granulocyte-, macrophage-, and lymphocyte-specific lineages from reconstituted mice was similar to that in B7 transgenic mice. Secondary transplanted B/6 mice also showed a pattern of HLA-B7 expression similar to that in transgenic mice and were followed for longer than 16 weeks with stable chimerism. When HLA-A2.1 SP cells were transplanted into sublethally irradiated mice, 50% of the mice expressed HLA-A2 by PCR analysis in short-term repopulation studies. These data confirm that limiting numbers of SP cells can repopulate the major hematopoietic lineages in lethal and sublethally irradiated mice across a human MHC class I barrier. Therefore, SP cells may be useful for establishing mixed chimerism, which may induce immunologic nonresponsiveness to donor antigens in solid organ transplantation.

Heart xenograft survival with chimeric pig donors and modest immune suppression

OBJECTIVE

To assess the use of donor pigs with cellular chimerism for prevention of acute rejection with modest immune suppression. The clinical use of pig organ xenografts is currently precluded by severe acute rejection, which resists standard immune suppression.

SUMMARY BACKGROUND DATA

For long-term survival of pig organ xenografts, immune suppression significantly greater than used with allografts would currently be necessary, leaving the recipient immune deficient and at increased risk for infections. Induction of immune tolerance and tissue accommodation could enhance xenograft survival but would lead to complications and frequent graft failure. Induction of cellular chimerism within the donor pigs, however, could accomplish these goals before transplantation, significantly reducing the risk.

METHODS

Marrow cells from sheep were infused into fetal pigs. Heart xenografts from chimeric or nonchimeric pigs were transplanted heterotopically into recipient sheep, simultaneous with infusion of splenocytes. Posttransplant suppression consisted of cyclosporine and tapered corticosteroids, comparable with allotransplants.

RESULTS

All of the control grafts (n = 12) were rejected by acute vascular rejection in 4 to 8 days. In contrast, only one episode of vascular rejection was observed in the experimental group (n = 13). Four experimental recipients had an episode of moderate diffuse cellular rejection (grade 3) and one had moderate focal cellular rejection (grade 2). Each episode responded to pulse steroids. Seven grafts showed no significant rejection. There was little evidence of immune deficiency, infection, or toxicity.

CONCLUSIONS

Acute vascular rejection was prevented in a large animal model without the need for severe immune suppression.

Enhanced in vitro and in vivo cytotoxicity of umbilical cord blood cells against human breast cancer following activation with IL-15 and colony stimulating factors

BACKGROUND

Cord blood mononuclear cells (MNC) are a rich source of precursor cytotoxic effector cells. Earlier we have shown that interleukin-2 (IL-2)-activated MNC from cord blood have significant cytotoxic activity against human leukemia and breast cancer cells in vitro and in vivo, compared to MNC from peripheral blood.

MATERIALS AND METHODS

In order to further improve the antitumor cytotoxic ability of cord blood MNC, IL-2 was combined with IL-15 and colony stimulating factors GMCSF, G-CSF and M-CSF for the activation. The activated cells were examined for their cytotoxic effects in vitro against human breast cancer cell lines MDA-231, MDA453 and SKB43 and in vivo against MDA-231 grown in SCID mice. Phenotypes of these activated cells were determined using flow cytometry. The expression of immune response related genes in activated cells was measured using RT-PCR techniques.

RESULTS

There was a significant increase in cytotoxicity of the effector cells activated with IL-2, IL-15 and some colony stimulating factors compared to cells activated with each of these cytokines alone or other combinations. Our results demonstrated the increase in cytotoxicity appears to be due to: 1) increase in CD56-positive cytotoxic cells; 2) cytokine/cytotoxic factors produced by the effector cells, such as Interferon-7 and Perforin; 3) stimulation by accessory cells, such as dendritic cells. In vivo administration of in vitro-activated cord blood cells into SCID mice bearing MDA-231 tumors reduced the number of metastases and increased survival compared to untreated tumor bearing controls.

CONCLUSION

The combination of IL-2 with IL-15 and CSF is better for the activation of cord blood effector cells than to IL-2 alone.

Protective effects of antioxidants against smokeless tobacco-induced oxidative stress and modulation of Bcl-2 and p53 genes in human oral keratinocytes

The oral use of chewing tobacco has greatly increased in recent years, and this usage is associated with cancers of the mouth, lip, nasal cavities, esophagus and gut. Oral cancer accounts for 3% of all cancers in U.S.A. and is the seventh most common cancer. Previous studies in our laboratory have demonstrated the protective abilities of a novel IH636 grape seed proanthocyanidin extract (GSPE) against reactive oxygen species both in vitro and in vivo models, and provided significantly better protection as compared to vitamins C, E and beta-carotene. In the recent past, we have demonstrated smokeless tobacco (STE)-induced oxidative stress, apoptotic cell death in a primary culture of normal human oral keratinocytes (NHOK), and have compared the protective abilities of vitamins C and E, singly and in combination, and GSPE in this pathobiology [Free Rad. Biol. Med., 26, 992-1000 (1999)]. In the present study, we have assessed the protective role of vitamins C and E, and GSPE against STE-induced modulation of intracellular oxidized states in NHOK cells as demonstrated by laser scanning confocal microscopy. Approximately 11%, 26%, 28% and 50% protection were observed following incubation with vitamin C, vitamin E, a combination of vitamins C plus E, and GSPE, respectively. DNA fragmentation was assessed as an index of oxidative DNA damage and similar results were observed. Furthermore, the cellular viability and functional roles of Bcl-2, p53 and c-myc genes were assessed in STE-induced oxidative stress in NHOK cells. NHOK cells were treated with STE (0-200 micrograms/ml) for 24 h and changes in the expression of Bcl-2, p53 and c-myc genes were measured by reverse transcriptase-polymerase chain reaction (RT-PCR), and the protective effect of GSPE was assessed. Approximately a 2.0-fold increase in p53 gene expression was observed following incubation of the oral keratinocytes with 100 micrograms/ml of STE, beyond which the expression of p53 decreased, confirming increased apoptotic cell death with a higher concentration of STE as reported earlier. GSPE significantly modulated STE-induced changes in p53. The expression of antiapoptotic Bcl-2 gene decreased with STE treatment and the expression of Bcl-2 gene increased significantly following preincubation with GSPE. No significant change in the expression of transcription factor c-myc gene responsible for cell cycle growth was observed following incubation with STE and/or GSPE. Thus, c-myc may not be involved in STE-induced cytotoxicity towards NHOK cells. These results suggest that antioxidant protection of STE-induced cellular injury is associated with alterations in Bcl-2 and p53 expression.

The cellular and molecular basis of health benefits of grape seed proanthocyanidin extract

Red grape seed extract containing proanthocyanidins and other antioxidants are being used as nutritional supplements by many health conscious individuals. The beneficial effects of grape seed proanthocyanidins (GSPE) have been reported, however, little is known about their mechanism(s) of action. One of the beneficial effects of GSPE is chemoprevention of cellular damage. The precise mechanism by which GSPE mediates, chemoprevention is not yet understood. This report addresses this issue. We investigated the mechanisms of actions of GSPE, which ameliorates chemotherapy-induced toxic effects of Idarubicin (Ida) and 4,-hydroxyperoxycyclophosphamide (4-HC) in normal human Chang liver cells. Exposure to GSPE resulted in a significant reduction in apoptosis in response to the cytotoxicity of chemotherapeutic agents. RT-PCR analysis showed a significant increase in the anti-apoptotic gene Bcl-2 and a decrease in the cell cycle associated and proapoptotic genes, c-myc and p53 in cells treated with GSPE. These results suggest that some of the chemopreventive effects of GSPE are mediated by upregulating Bcl-2 and down regulating c-myc and p53 genes.

VLA-4 mediated adhesion to bone marrow stromal cells confers chemoresistance to adherent lymphoma cells

The mechanisms of maintenance of residual lymphoma in bone marrow during chemotherapy are currently not well understood. Previous studies have shown that primary lymphoma cells obtained from histologically negative bone marrow of non-Hodgkin's lymphoma (NHL) patients grew in long-term bone marrow cultures primarily in association with bone marrow stromal cells. Furthermore, the interaction of NHL patient cells with bone marrow stromal cells inhibited their spontaneous apoptosis. The current studies were designed to characterize the components of the heterotypic interaction between lymphoma cells and bone marrow stromal cells as well as to probe the consequences of this interaction as it pertains to the potential survival of minimal numbers of lymphoma cells during chemotherapy. Cellular adhesion assays performed in the presence of either neutralizing antibodies to VCAM- or the alpha and beta subunit of VLA-4 resulted in >95%, 82% and 35% inhibition of lymphoma cell line adhesion to the bone marrow stromal line MS-5, respectively. Modulation of VLA-4 affinity by the 8A2 antibody resulted in enhanced secondary adhesion at 24 and 72 hours to either cellular fibronectin (65% and 65%) or MS-5 cells (60% and 55%), superceding levels obtained using untreated lymphoma cells (<20%). The bone marrow stromal cells induced a chemoprotective effect for adherent lymphoma cells over a 3-log dose range of vincristine, resulting in a 2-log increase in the ED50 at day 6 of culture. The failure of glutaraldehyde fixed stromal cells to induce a chemoprotective effect demonstrated that viable bone marrow stromal cells were necessary. Similarly, lymphoma/stromal cell conditioned medium also failed to provide a survival advantage. These data demonstrated that viable bone marrow stromal cells possessed the ability to actively inhibit the apoptotic pathways of intimately adherent lymphoma cells and this potentially contributes to their survival during chemotherapy.

Chemopreventive effects of grape seed proanthocyanidin extract on Chang liver cells

In an attempt to ameliorate the chemotherapy associated normal cell toxicity, in this study a known antioxidant, grape seed proanthocyanidin extract (GSPE) using Chang liver cells has been used. Chang liver cells were treated in vitro with idarubicin (Ida) (30 nM) and 4-hydroxyperoxycyclophosphamide (4-HC) (1 microg/ml) with or without proanthocyanidin (25 microg/ml). The cells were grown in vitro and the growth rate of the cells were determined using MTT assay. The results showed that the GSPE decreased growth inhibitory effects of Ida and 4-HC on Chang liver cells in vitro. Since these chemotherapeutic agents are known to induce apoptosis in the target cells, these cells were also analyzed for presence of apoptotic cells using flow cytometry. The GSPE decreased the number of apoptotic cell population induced by either chemotherapy. In an attempt to determine the mechanisms of ameliorating effects of proanthocyanidin, the expression of apoptosis/cell cycle/growth related genes, Bcl-2, p53 and c-myc was determined in the treated and control cells using Western blotting or reverse transcriptase-polymerase chain reaction (RT-PCR) techniques. There was an increased expression of Bcl-2 in the cells treated with GSPE. However, there was a significant decrease in the expression of other cell cycle related genes such as p53 and c-myc in these cells following treatment with GSPE. Thus, these results indicate that proanthocyanidin can be a potential candidate to ameliorate the toxic effects associated with chemotherapeutic agents used in treatment of cancer.

Antitumor therapeutic potential of activated human umbilical cord blood cells against leukemia and breast cancer

In this study, in vitro and in vivo antitumor effects of mononuclear cells from human umbilical cord blood cells (UCBCs) and peripheral blood stem cells (PBCs) harvest obtained by leukapheresis were compared. Interleukin 2 (IL-2)-activated mononuclear cells from UCBCs showed increased cytotoxicity against K562 and Raji hematopoietic malignant cells compared with PBCs (P < 0.05). After IL-2 activation, both UCBCs and PBCs showed significant cytotoxicity against MDA-231 human breast cancer cells. The UCBC population involved in this antitumor activity appeared to be CD56+ natural killer precursors. The cytotoxicity of UCBCs was inhibited in the absence of Ca2+ (P < 0.05), supporting a perforin/granzyme-mediated target of cell lysis. In addition, antibodies to Fas ligand blocked cytotoxic activity, suggesting that some of the antitumor cytotoxicity was Fas ligand mediated. In vivo antitumor effects of UCBCs and PBCs were studied using a human leukemic cell-bearing severe combined immunodeficient mouse model. There was a significant increase in the survival of K562 leukemia-bearing mice that also received 5 million in vitro IL-2-activated UCBCs or PBCs i.v. on days 3 and day 5 after tumor transplantation compared with untreated mice (P < 0.01). Similar antitumor cytotoxicity of UCBCs and PBCs was also observed against MDA-231 human breast cancer grown in severe combined immunodeficient mice (P < 0.01). These studies suggest that IL-2-activated UCBCs may be a useful source of cellular therapy for patients with hematological malignancies and breast cancer.

Cadmium- and chromium-induced oxidative stress, DNA damage, and apoptotic cell death in cultured human chronic myelogenous leukemic K562 cells, promyelocytic leukemic HL-60 cells, and normal human peripheral blood mononuclear cells

Sodium dichromate [Cr(VI)] and cadmium chloride [Cd(II)] are both cytotoxic and mutagenic. This study examined the toxic and apoptotic potentials of these two cations on three cell types in vitro, namely, human chronic myelogenous leukemic (CML) K562 cells, promyelocytic leukemic HL-60 cells, and normal human peripheral blood mononuclear cells. The cells were incubated with 0-100 microM concentrations of the two cations for 0, 24, or 48 hours at 37 degrees C. Both Cr(VI) and Cd(II) induced changes in intracellular oxidized states of cells, which were detected using laser scanning confocal microscopy. Cell cycle modulation and apoptosis of the K562 cells by Cr(VI) and Cd(II) were determined by flow cytometry. Significant decreases in the G2/M phase were observed in the Cr(VI) and Cd(II) treated CML cells compared with untreated cells. At 12.5 microM, Cr(VI) induced greater apoptosis in K562 cells as compared with Cd(II). In the K562 cells, 2.2- and 3.0-fold increases in DNA fragmentation were observed following incubation with 12.5 and 25 microM Cr(VI), respectively, and 1.2- and 1.7-fold increases in DNA fragmentation were observed with Cd(II). Furthermore, approximately 2.7- and 4.9-fold increases in cytochrome c reduction were observed following incubation with 12.5 and 25 microM Cr(VI), respectively, and 1.6- and 3.3-fold increases in cytochrome c reduction were observed with Cd(II), demonstrating enhanced production of superoxide anion. Approximately 3.1 to 6-fold increases in hydroxyl radical production were observed following incubation of the K562 cells with these cations at 12.5 and 25 microM concentrations. These results in K562 cells were compared with promyelocytic leukemic HL-60 cells and normal human peripheral blood mononuclear cells. More pronounced effects were observed on K562 and HL-60 cells, and much lesser effects were observed on normal human peripheral blood mononuclear cells. The results demonstrate that both cations are toxic, producing oxidative tissue damage and apoptosis. Furthermore, more drastic effects were observed on K562 and HL-60 cells as compared with normal human peripheral blood mononuclear cells.

Free radicals and grape seed proanthocyanidin extract: importance in human health and disease prevention

Free radicals have been implicated in over a hundred disease conditions in humans, including arthritis, hemorrhagic shock, atherosclerosis, advancing age, ischemia and reperfusion injury of many organs, Alzheimer and Parkinson's disease, gastrointestinal dysfunctions, tumor promotion and carcinogenesis, and AIDS. Antioxidants are potent scavengers of free radicals and serve as inhibitors of neoplastic processes. A large number of synthetic and natural antioxidants have been demonstrated to induce beneficial effects on human health and disease prevention. However, the structure-activity relationship, bioavailability and therapeutic efficacy of the antioxidants differ extensively. Oligomeric proanthocyanidins, naturally occurring antioxidants widely available in fruits, vegetables, nuts, seeds, flowers and bark, have been reported to possess a broad spectrum of biological, pharmacological and therapeutic activities against free radicals and oxidative stress. We have assessed the concentration- or dose-dependent free radical scavenging ability of a novel IH636 grape seed proanthocyanidin extract (GSPE) both in vitro and in vivo models, and compared the free radical scavenging ability of GSPE with vitamins C, E and beta-carotene. These experiments demonstrated that GSPE is highly bioavailable and provides significantly greater protection against free radicals and free radical-induced lipid peroxidation and DNA damage than vitamins C, E and beta-carotene. GSPE was also shown to demonstrate cytotoxicity towards human breast, lung and gastric adenocarcinoma cells, while enhancing the growth and viability of normal human gastric mucosal cells. The comparative protective effects of GSPE, vitamins C and E were examined on tobacco-induced oxidative stress and apoptotic cell death in human oral keratinocytes. Oxidative tissue damage was determined by lipid peroxidation and DNA fragmentation, while apoptotic cell death was assessed by flow cytometry. GSPE provided significantly better protection as compared to vitamins C and E, singly and in combination. GSPE also demonstrated excellent protection against acetaminophen overdose-induced liver and kidney damage by regulating bcl-X(L) gene, DNA damage and presumably by reducing oxidative stress. GSPE demonstrated excellent protection against myocardial ischemia-reperfusion injury and myocardial infarction in rats. GSPE was also shown to upregulate bcl(2) gene and downregulate the oncogene c-myc. Topical application of GSPE enhances sun protection factor in human volunteers, as well as supplementation of GSPE ameliorates chronic pancreatitis in humans. These results demonstrate that GSPE provides excellent protection against oxidative stress and free radical-mediated tissue injury.

Lipoxygenase inhibition induced apoptosis, morphological changes, and carbonic anhydrase expression in human pancreatic cancer cells

Epidemiologic and animal studies have linked pancreatic cancer growth with fat intake, especially unsaturated fats. Arachidonic acid release from membrane phospholipids is essential for tumor cell proliferation. Lipoxygenases (LOX) constitute one pathway for arachidonate metabolism. We previously reported that 5-LOX and 12-LOX are upregulated in human pancreatic cancer cells and that blockade of these enzymes abolishes pancreatic cancer cell growth. The present study was aimed at evaluating the effect of LOX inhibition on differentiation and apoptosis in pancreatic cancer cells in parallel with growth inhibition. Four human pancreatic cancer cell lines, PANC-1, MiaPaca2, Capan2, and HPAF, were used. Apoptosis was evaluated by three separate methods, including DNA propidium iodide staining, DNA fragmentation, and the TUNEL assay. Morphological changes and carbonic anhydrase activity were used to determine the effect of LOX inhibitors on differentiation. The general LOX inhibitor NDGA, the 5-LOX inhibitor Rev5901, and the 12-LOX inhibitor baicalein all induced apoptosis in all four pancreatic cancer cell lines, as confirmed by all three methods, suggesting that both the 5-LOX and 12-LOX pathways are important for survival of these cells. Furthermore, NDGA, Rev5901, or baicalein resulted in marked cellular morphological changes in parallel with increased intracellular carbonic anhydrase activity, indicating that LOX blockade induced a more differentiated phenotype in human pancreatic cancer cells. Together with our previous findings, this study suggests that perturbations of LOX activity affect pancreatic cancer cell proliferation and survival. Blockade of LOX enzymes may be valuable for the treatment of human pancreatic cancer.

Mechanism of gastroprotection by bismuth subsalicylate against chemically induced oxidative stress in cultured human gastric mucosal cells

Reactive oxygen species (ROS) are implicated in the pathogenesis of chemically induced gastric mucosal injury. We have investigated the effects of ethanol, hydrochloric acid (HCl), and sodium hydroxide (NaOH) on: (1) enhanced production of ROS including superoxide anion and hydroxyl radicals, (2) modulation of intracellular oxidized states by laser scanning confocal microscopy, and (3) DNA fragmentation, indices of oxidative tissue, and DNA damage in a primary culture of normal human gastric mucosal cells (GC), which were isolated and cultured from Helicobacter pylori-negative endoscopic biopsies from human subjects. The induction of ROS and DNA damage in these cells following exposure to ethanol (15%), HCl (150 mM) and NaOH (150 mM) were assessed by cytochrome c reduction (superoxide anion production), HPLC detection for enhanced production of hydroxyl radicals, changes in intracellular oxidized states by laser scanning confocal microscopy, and DNA damage by quantitating DNA fragmentation. Furthermore, the protective ability of bismuth subsalicylate (BSS) was assessed at concentrations of 25, 50, and 100 mg/liter. Incubation of GC with ethanol, HCI, and NaOH increased superoxide anion production by approximately 8.0-, 6.1-and 7.1-fold and increased hydroxyl radical production by 13.3-, 9.6-, and 8.9-fold, respectively, compared to the untreated gastric cells. Incubation of GC with ethanol, HCl, and NaOH increased DNA fragmentation by approximately 6.7-, 4.3-, and 4.8-fold, respectively. Approximately 20.3-, 17.5-, and 13.1-fold increases in fluorescence intensities were observed following incubation of gastric cells with ethanol, HCl, and NaOH, respectively, demonstrating dramatic changes in the intracellular oxidized states of GC following exposure to these necrotizing agents. Preincubation of GC with 25, 50, and 100 mg/liter of BSS decreased ethanol-induced increases in intracellular oxidized states in these cells by 36%, 56%, and 66%, respectively, demonstrating a concentration-dependent protective ability by BSS. Similar results were observed with respect to BSS in terms of superoxide anion and hydroxyl radical production, and DNA damage. The present study demonstrates that ethanol, HCl, and NaOH induce oxidative stress and DNA damage in GC and that BSS can significantly attenuate gastric injury by scavenging these ROS.

The cytotoxic effects of a novel IH636 grape seed proanthocyanidin extract on cultured human cancer cells

Grape seed proanthocyanidins are natural antioxidants which possess a broad spectrum of chemoprotective properties against free radicals and oxidative stress. In this study, we have assessed the cytotoxicity of a novel IH636 grape seed proanthocyanidin extract (GSPE) against MCF-7 human breast cancer cells, A-427 human lung cancer cells, CRL-1739 human gastric adenocarcinoma cells and K562 chronic myelogenous leukemic cells at 25 and 50 mg/lit concentrations for 0-72 h using cytomorphology and MTT cytotoxicity assay. In addition, we compared the effects on normal human gastric mucosal cells and normal J774A.1 murine macrophage cells with the effects on the cancer cell lines. Concentration- and time-dependent cytotoxic effects of GSPE were observed on the MCF-7 breast cancer, A-427 lung cancer and gastric adenocarcinoma cells. Following incubation of the MCF-7 cells with 25 mg/lit of the GSPE approximately 6.5, 30 and 43% inhibitions in cell growth were observed at 24, 48 and 72 h of incubation, respectively, while incubation of the MCF-7 cells with 50 mg/lit of the GSPE resulted in 11, 35 and 47% inhibition in cell growth at these same points, respectively. Similar results were observed in the A-427 and gastric adenocarcinoma cells. GSPE exhibited no cytotoxicity toward the neoplastic K562 myelogenous leukemic cells. However, GSPE enhanced the growth and viability of the normal human gastric mucosal cells and J774A.1 murine macrophage cells. These data demonstrate that GSPE exhibited cytotoxicity towards some cancer cells, while enhancing the growth and viability of the normal cells which were examined.

Doxycycline induces Fas/Fas ligand-mediated apoptosis in Jurkat T lymphocytes

Tetracyclines have been used in the treatment of chronic inflammatory diseases associated with local infiltration of inflammatory cells and matrix destruction as observed in rheumatoid arthritis and periodontal disease. Fas/Fas ligand (FasL)-mediated apoptosis plays an important role in maintaining T lymphocyte homeostasis and modulating immune response. The present study demonstrates that doxycycline inhibits Jurkat T lymphocyte proliferation and induces apoptosis. The phytohemagglutinin (PHA)-activated Jurkat cells are more susceptible to doxycycline-induced apoptosis. Furthermore, doxycycline-induced apoptosis is associated with increased Fas/FasL expression in Jurkat cells. The increase of apoptosis in Jurkat cells treated with doxycycline is consistent with the increase of FasL expression. These results suggest that doxycycline may downregulate the inflammatory process in certain diseases by eliminating activated T lymphocytes through Fas/FasL-mediated apoptosis.

The cytotoxic effects of a novel IH636 grape seed proanthocyanidin extract on cultured human cancer cells

Grape seed proanthocyanidins are natural antioxidants which possess a broad spectrum of chemoprotective properties against free radicals and oxidative stress. In this study, we have assessed the cytotoxicity of a novel IH636 grape seed proanthocyanidin extract (GSPE) against MCF-7 human breast cancer cells, A-427 human lung cancer cells, CRL-1739 human gastric adenocarcinoma cells and K562 chronic myelogenous leukemic cells at 25 and 50 mg/lit concentrations for 0-72 h using cytomorphology and MTT cytotoxicity assay. In addition, we compared the effects on normal human gastric mucosal cells and normal J774A.1 murine macrophage cells with the effects on the cancer cell lines. Concentration- and time-dependent cytotoxic effects of GSPE were observed on the MCF-7 breast cancer, A-427 lung cancer and gastric adenocarcinoma cells. Following incubation of the MCF-7 cells with 25 mg/lit of the GSPE approximately 6.5, 30 and 43% inhibitions in cell growth were observed at 24, 48 and 72 h of incubation, respectively, while incubation of the MCF-7 cells with 50 mg/lit of the GSPE resulted in 11, 35 and 47% inhibition in cell growth at these same points, respectively. Similar results were observed in the A-427 and gastric adenocarcinoma cells. GSPE exhibited no cytotoxicity toward the neoplastic K562 myelogenous leukemic cells. However, GSPE enhanced the growth and viability of the normal human gastric mucosal cells and J774A.1 murine macrophage cells. These data demonstrate that GSPE exhibited cytotoxicity towards some cancer cells, while enhancing the growth and viability of the normal cells which were examined.

Amelioration of the cytotoxic effects of chemotherapeutic agents by grape seed proanthocyanidin extract

Anticancer chemotherapeutic agents are effective in inhibiting growth of cancer cells in vitro and in vivo, however, toxicity to normal cells is a major problem. In this study, we assessed the effect of a novel IH636 grape seed proanthocyanidin extract (GSPE) to ameliorate chemotherapy-induced toxic effects in cultured Chang epithelial cells, established from nonmalignant human tissue. These cells were treated in vitro with idarubicin (Ida) (30 nM) or 4-hydroxyperoxycyclophosphamide (4HC) (1 microg/ml) with or without GSPE (25 microg/ml). The cells were grown in vitro and the growth rate of the cells was determined using the MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide; thiazolyl blue] assay. Our results showed that GSPE decreased the growth inhibitory and cytotoxic effects of Ida as well as 4HC on Chang epithelial cells in vitro. Because these chemotherapeutic agents are known to induce apoptosis in the target cells, we analyzed the Chang epithelial cells for apoptotic cell population by flow cytometry. There was a significant decrease in the number of cells undergoing apoptosis following treatment with GSPE. We also found increased expression of the anti-apoptotic protein Bcl-2 in GSPE-treated cells using western blot techniques. Thus, these results indicate that GSPE can be a potential candidate to ameliorate the toxic effects associated with chemotherapeutic agents and one of the mechanisms of action of GSPE includes upregulation of Bcl-2 expression.

Antitumor activity of human umbilical cord blood cells: A comparative analysis with peripheral blood and bone marrow cells

Although the hematopoietic reconstituting ability of human umbilical cord blood cells (UCBC) is well documented, their antitumor cytotoxic potential has not been well studied. Therefore, UCBC were compared to normal peripheral blood stem cells (PBSC) and bone marrow (BM) stem cell harvests for cytomorphology, antitumor cytotoxic activity before and after ex vivo cytokine manipulation, response to T and B cell mitogens, expression of adhesion molecules and immunophenotypes using flow cytometry, cytokine production and in vivo antitumor activity. BM and PBSC, but not UCBC, did not form cellular clusters in culture. More cytotoxic granules were present in the cytoplasm of UCBC than PBSC following activation in vitro. Ex vivo manipulation of UCBC with cytokines produced more cytotoxicity to K562 and Raji tumor cells than PBSC or BM (p<0.001). Most cytotoxic cells in UCBC cultures were T lymphocytes, and a correlation existed between the number of CD56+ cells and cytotoxicity levels, particularly after in vitro activation with interleukin-2. No significant difference in adhesion molecule expression was noted among UCBC, PBSC and BM cells. However, there was a significantly decreased expression of CD54 molecules (ICAM) on UCBC compared to PBSC (p<0.05). IL-2 activated UCBC showed significant antitumor effects against K562 leukemic cells grown in SCID mice. Thus UCBC contained more antitumor effector cells and precursors than cells from marrow or peripheral blood cells which might be capable of providing a therapeutic effect.

Comparison of molecular cytokeratin 19 reverse transcriptase polymerase chain reaction (CK19 RT-PCR) and immunocytochemical detection of micrometastatic breast cancer cells in hematopoietic harvests

Detection of small numbers of breast cancer cells in patient blood, aphereses, and bone marrow has become increasingly important as data have accumulated showing immunocytochemically (ICC) positive tumor cells in up to 50% of women with stage I and II breast cancer, who were initially thought to be cured of their disease but later relapsed. The ability to rule out the presence of micrometastatic disease at any stage of the clinical management protocol, whether before, during, or after therapy, would provide a useful monitoring and diagnostic tool for both the clinician and the scientist. Monitoring for the presence of minimal residual disease (MRD) is traditionally performed using ICC. A more recently established RT-PCR technique uses a molecular marker (the presence of the cytokeratin 19, CK19, transcript) to identify MRD in patient samples, with a level of sensitivity reported to be one tumor cell in 10(6) nucleated cells. This level of sensitivity is generally higher than that claimed for ICC. Based on the discriminating results of this first study, a number of laboratories have evaluated this technique for its diagnostic potential. Results from several laboratories showed a higher than expected false positive rate due to a variety of identified and unidentified sources. Therefore, the current study was designed to achieve two aims: to establish the level of sensitivity and specificity of the RT-PCR technique and to dissect out the possible variables that may contribute to a false positive result using this molecular approach. To accomplish the first goal, two simulation strategies were used, limited dilution of tumor cells into apheresis harvests and semi-quantitative PCR using stepwise dilutions of extracted RNA from tumor cells in apheresis harvests. The second goal was accomplished by performing sequential blood drawings with variably timed sample processing to identify some of the more common variables (time, anticoagulant, sample sequence) that may contribute to false positive results. Of three variables investigated, including type of blood preservative, sequence of blood tube collection, and time point of sample processing, each may contribute to a false positive result. In addition to these problems, known events involving illegitimate transcription of specific genes nonspecifically in tissue is also a potential source of false positive results. These issues may be further compounded by lack of attention to the more common methodologic problems encountered in any laboratory using the PCR technique. However, recommendations can be developed for the effective application of this technique, whose greatest strength is the demonstration of tumor negativity of the sample.

Identification of metallothionein receptors in human astrocytes

Metallothionein (MT) isoforms are low molecular weight (6000-7000 Da) zinc binding proteins containing 60-68 amino acid residues, 25-30% cysteine, no aromatic amino acids, and binding between 5-7 g zinc/mol of protein. Since the synthesis of MT is induced by endotoxin, cytokines, and glucocorticoids, MT is now considered to be an acute phase protein protecting against oxygen radicals and oxidative damages caused by inflammation, tissue injury, and stress to the central nervous system. By postulating that a specific mechanism must exist to foster the induction of MTs I and II by numerous and diversified factors, we searched for and identified for the first time, MT receptors on U373MG cell membrane preparations, by using fluoresceinated MT I isoform probe; and by employing cysteine, glutathione, and four MT isoforms to determine high affinity and specific binding. MT receptors revealed a Kd value of 0.84 nM and a Bmax of 99.82 fmol/mg protein. Moreover, MT receptors were found in greater density on the surface of aggregated astrocytes. We postulate that conditions or agents generating reactive oxygen species may influence the expression of MT receptors.

Cell adhesion molecules and insulin-like growth factor-1 in vascular disease

PURPOSE

Recent advances in the understanding of the biologic mechanisms of vascular diseases suggest that multifactorial stimulation of the endothelial cell and its subsequent adhesion to leukocytes is a prerequisite to the formation of atherosclerotic and restenotic lesions. As leukocyte-endothelial cell interaction is coordinated by a variety of cell adhesion molecules (CAMs), we hypothesized that the expression of certain CAMs is up-regulated in the vasculature of patients who have peripheral vascular disease. In addition, we proposed that insulin-like growth factor-1 (IGF-1) increases monocyte-endothelial adhesion by means of upregulation of these CAMs.

METHODS

Using immunohistochemical techniques, the expression of intracellular adhesion molecule-1 (ICAM-1), vascular cell adhesion molecule-1 (VCAM-1), E-selectin, and P-selectin was examined in human vascular disease specimens. Normal aortas obtained from the organ retrieval system were studied as control specimens. Adhesion studies between human umbilical vein endothelial cells (HUVECs) incubated with IGF-1 and purified human blood monocytes labeled with 51chromium were completed. Western blotting and flow cytometry were performed to show CAM expression on IGF-1-treated HUVECs.

RESULTS

Of the CAMs, ICAM-1, P-selectin, and E-selectin were distinctly increased in diseased specimens when compared with control specimens (p < 0.05). Adhesion studies showed an increase in monocyte-endothelial cell adhesion of as much as 40% to 45% (p < 0.01) over baseline, with peak adherence occurring 4 hours after treatment with IGF-1. IGF-1 increased adherence in a dose- and time-dependent manner. The threshold concentration of IGF-1 that induced increased adhesion was 20 ng/ml, with a maximum effect occurring at 150 ng/ml. This increased adhesion was attenuated by pretreatment with IGF-I receptor antibody, as well as with genistein and herbimycin-A, which are potent and selective tyrosine kinase inhibitors. Increased adhesion correlated with an increase in the expression of CAMs on the surface of the HUVECs. An additive effect on adhesion was observed between IGF-1 and tumor necrosis factor-alpha (TNF-alpha) and endothelin-1 (ET-1). Finally, immunohistochemical analysis of human vascular disease specimens revealed an increased expression of IGF-1 receptors as compared with control specimens (p < 0.05).

CONCLUSIONS

These results suggest that IGF-1 may be important in the pathogenesis of peripheral vascular disease by increasing endothelial cell-monocyte adhesion by means of an increase in the expression of ICAM-1 and VCAM-1.

Monocyte activation by an oral immunomodulator (bestatin) in lymphoma patients following autologous bone marrow transplantation

Bestatin (ubenimex), an inhibitor of aminopeptidase, is an oral immunomodulator that binds to CD13 (aminopeptidase N) on macrophages/monocytes. To examine its immunomodulatory effect after high-dose therapy and autologous bone marrow transplantation (BMT), a dose-finding phase Ib trial was conducted with 30 Hodgkin's disease and non-Hodgkin's lymphoma patients who received no drug (control), 10 and 30 mg (low dose), or 90 and 180 mg (high dose) of bestatin daily for 60 days following autologous BMT. Bestatin administration was initiated when the absolute neutrophil count was greater than 250/mm3 on 2 consecutive days. The serum neopterin levels, an indicator of monocyte/macrophage activation, increased in the high-dose group compared to the control group (not significantly) and the low-dose group (significantly). Similarly, the colony-stimulating activity in the sera was significantly increased in the high-dose group compared to the control and low-dose groups. We also examined the expression of cell-surface markers on monocytes in these patients by fluorescent cytometry analysis. There was no significant difference either in the frequency or absolute number of monocytes (CD14+) among the three groups at any time. However, a significant increase in the frequency of CD16(FcgRIII)-positive monocytes (a marker of activation) was observed in the high-dose group compared to controls from day 14 to day 60 after the start of bestatin administration. Further, the frequency of HLA-DR+ monocytes (another marker of activation) was significantly increased in the high-dose group. These results indicate that bestatin at higher doses (90 and 180 mg daily), but not lower doses, activates macrophages/monocytes, as demonstrated by phenotypic marker (HLA-DR and CD16) up-regulation, and this provides augmentation of neopterin and colony-stimulating activity in the serum of patients following autologous BMT.

Fibroblasts restrict tissue factor from vesicles which form in response to low concentrations of detergent

Studies of tissue factor activity on fibroblasts have found that manifestation of the otherwise cryptic activity is evoked by Triton X-100 or octyl glucoside at concentrations that lyse the cells. Even though sublytic concentrations of the detergents extract membrane lipids into the soluble phase, they were without effect on tissue factor activity. Those experiments led us to conclude that either the fibroblasts maintain plasma membrane lipid asymmetry even as lipids are extracted by the detergents, up to the onset of lysis, or additional mechanisms for regulation of tissue factor specific activity were operative. Using phase contrast and immunofluorescent microscopy, we now show that at least one additional regulatory mechanism is indeed operative. In response to sublytic concentrations of octyl glucoside or Triton X-100, the cells release vesicles from which tissue factor antigen is excluded. Lytic concentrations of the detergents preclude this segregation, leaving only low amounts of tissue factor antigen associated with the adherent cytoskeletons. Two-color staining reveals marked tissue factor-actin filament co-localization, which implies the potential for cytoskeletal participation in the observed tissue factor segregation. We propose that tissue factor activity is indeed regulated by the phospholipids with which it is associated and the degree to which phosphatidylserine is available on the membrane surface, but the cells possess additional mechanisms by which the association of tissue factor with potentially procoagulant membrane domains is controlled.

Immunologic attributes of cytokine mobilized peripheral blood stem cells and recovery following transplantation

The immunologic attributes of cytokine mobilized peripheral blood stem cell (PSC) products (n = 52) and the resulting reconstitution of the hematopoietic and immunologic system following autologous transplantation were examined in a consecutive population of non-Hodgkin lymphoma (NHL), or solid tumor patients at the University of Nebraska Medical Center. Granulocyte-monocyte colony stimulating factor (GM-CSF)-mobilized PSC products had a high frequency of monocytes (31%) and bands (15%) as compared to normal peripheral blood (PB) cells. The phenotypic analysis of the mobilized PSC product revealed that they had normal levels of CD4+ cells, an increased frequency of CD8+ cells and a corresponding decrease in the CD4+:CD8+ cell ratio as compared to the peripheral blood leukocytes (PBL) of normal individuals. PSC products also had an increase in CD34+ cells as compared to PB. Natural killer (NK) and T cell activity in the PSC products were also lower than that observed in PB. Post-transplantation there was an accelerated reconstitution of NK-cell function in the PB as compared to T cell function (PHA (phytohemagglutinin) mitogenesis) which did not return to normal by day 100 post-transplantation. We also report for the first time high levels of an irradiation resistant suppressor cell activity in the PSC product and in the PB post-transplantation. There was also a concomitant increase in CD4-, CD8-, TCR alpha/beta+ cells (phenotypic homolog of 'natural suppressor' (NS) cells) in the PB post-transplantation. The number of months of prior chemotherapy correlated with PHA response but the NS activity and frequency of CD4-, CD8- and TCR alpha/beta+ cells did not. Further, cytokine mobilization and apheresis appears to contribute to the loss of PHA responsiveness and the increased levels of suppressor cell activity.

Flow cytometric analyses of lymphocyte subsets in peripheral blood and lymphoid tissues of gnotobiotic calves during primary acute postnatal infections of bovine viral diarrhea virus

Eight 1-day-old gnotobiotic calves were exposed to one of 2 noncytopathic isolates of bovine viral diarrhea virus (ncp-BVDV 7937 and ncp-BVDV 126) and 2 similar calves were not infected and served as controls. Phenotypic analyses of peripheral blood mononuclear leukocytes at 3, 7, and 10 days postinfection (PI), and cell preparations of thymus, Peyer's patch, mesenteric lymph node, spleen, and bone marrow collected at necropsy, 10 days PI, were conducted using flow cytometric techniques on cells stained by an indirect fluorescent antibody assay using monoclonal antibodies specific for mononuclear leukocyte subsets. Significant fluctuations in specific subsets of peripheral blood mononuclear leukocytes were observed in calves exposed to ncp-BVDV 7937 on day 3 PI (cells expressing MHC class II), day 7 PI (B-cells), and day 10 PI (B cells and cells expressing MHCII). Significant phenotypic differences between groups were also detected in cell preparations from Peyer's patch and thymus. Calves exposed to ncp-BVDV 7937 had a significantly higher percentage of B cells than calves exposed to ncp-BVDV 126 and calves not exposed to BVDV. Calves exposed to ncp-BVDV 126 had a significantly higher percentage of CD2 (BoCD2) positive T cells than calves not exposed to BVDV. Fragility of thymic cell preparations was attributed to infection with virus. These results highlight the importance of the tropism of BVDV for cells of the bovine immune system and its role as a significant immunosuppressive agent capable of predisposing affected animals to infection with other agents.

Influence of cell density and receptor number on the binding and distribution of cell surface epidermal growth factor receptors

Previous studies have shown that cell density influences the expression of receptors for at least four growth factors. The data presented in this report demonstrate that epidermal growth factor receptors are regulated differently on cells expressing over a million receptors as opposed to cells expressing approximately fivefold fewer receptors. Specifically, we show that BT-20, MDA-468, and A-431-R1 cells, which exhibit a large number of epidermal growth factor receptors, preferentially down-regulate the high affinity class of these receptors as cell density increases. In addition, we show that these cells express cell surface epidermal growth factor receptors that are localized predominantly to the periphery of the cells. In contrast, A-549 and BSC-1 cells, which exhibit fewer cell surface epidermal growth factor receptors and which reduce all affinity classes of epidermal growth factor receptors as cell density increases, exhibit a diffuse cell surface distribution of these receptors at both low and high densities.