Gintaras Zaleskis scite author profile

Gintaras Zaleskis

4Publications

81Citation Statements Received

33Citation Statements Given

How they've been cited

118

How they cite others

Affiliations

National Cancer Institute, Roswell Park Cancer Institute, Grace (United States)

Publications

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Doxorubicin induces specific immune functions and cytokine expression in peritoneal cells

Ujházy

Zaleskis

Mihich

et al. 2003

Cancer Immunology, Immunotherapy

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To examine the basis of the immune modulation induced by the anticancer agent doxorubicin (DOX), the immunophenotype, tumoricidal activity, cytokine protein and mRNA expression were determined using peritoneal exudate cells (PEC) from saline-treated (untreated) and DOX-treated mice. A greater percentage of PEC from DOX-treated mice than from untreated mice were adherent to plastic, had characteristics of granulocytes, and were positive for the NK1.1, CD11b/Mac-1, and CD3 markers. DOX decreased the percentage of CD45R/B220+ cells. PEC from DOX-treated mice had greater tumoricidal potential than those from untreated mice since IL2, LPS, or IFNgamma alone increased the cytolytic activity of PEC from DOX-treated mice, whereas PEC from untreated mice required both LPS and IFNgamma to become cytolytic. DOX treatment modulated the expression of specific cytokines. Following stimulation in culture, PEC from DOX-treated mice produced more TNF, IL1, and IFNgamma than PEC from untreated mice. DOX treatment increased the levels of TNF, but not IL1, mRNA and decreased the levels of IL6 mRNA and protein. These data demonstrate that a single DOX injection induces specific effects in PEC and, as a consequence, increases the tumoricidal potential of cells of the macrophage and natural killer types.

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Protective specific immunity induced by doxorubicin plus TNF-α combination treatment of EL4 lymphoma-bearing C57BL/6 mice

Ehrke¹,

Verstovšek²,

Maccubbin³

et al. 2000

Int. J. Cancer

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Cyclophosphamide plus tumor necrosis factor‐α chemoimmunotherapy cured mice: Life‐long immunity and rejection of re‐implanted primary lymphoma

Ehrke

Verstovšek

Krawczyk

et al. 1995

Intl Journal of Cancer

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Changes in functionally and phenotypically definable splenocyte subsets in aging mice which had been rendered tumor-free in early life by immunochemotherapy (cyclophosphamide plus tumor necrosis factor-alpha) were studied in the syngeneic EL4 lymphoma-C57BL/6 murine model. Treatment-induced long-term survivors (LTS) surviving rechallenge are termed "immune-LTS". On day 120 (day 0, initial tumor inoculation), splenocytes from day 60 rechallenged immune-LTS developed significantly greater specific anti-EL4 cytolytic activity in an ex vitro assay than those from non-rechallenged LTS. Splenocytes from combination-treated groups developed significantly higher activity than those from cyclophosphamide-induced immune-LTS. The splenic effector precursor was a CD8+ T cell. The specific anti-EL4 effector cell from the cyclophosphamide-induced immune-LTS was CD4- CD8+; however, approximately 50% of those from combination-treated immune-LTS appeared to be CD4+CD8+. On day 520 immune-LTS were randomized into 2 groups. One group was re-implanted with EL4 tumor; all mice survived. The other group was killed and, even though their splenocytes developed considerable anti-EL4 activity, their allogeneic responsiveness was as reduced as that of age-matched controls. Phenotypic analysis, compared with splenocytes from young and age-matched controls, revealed changes in the makeup of each T-cell subset, except the CD4+CD8+, and all subsets, except the CD4-CD8-, had increases in CD44 positivity. On day 625, the age of these mice was equivalent to the median life-span of C57BL/6 mice; nevertheless, their splenocytes developed high anti-EL4 activity. Phenotypic analysis indicated that, compared to day 520, there was a major decrease in CD4-CD8+ splenocytes; we suggest that these cells had migrated to the site of tumor eradication.

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Establishment and characterization of a new murine cell line (SR-4987) derived from marrow stromal cells

et al. 1992

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A new murine cell line designated as SR-4987 was established by treating a long-term bone marrow culture with the supernatant from Y-1 cells which actively produce viral C-particles (MuLV). The line showed a fibroblast-like morphology and its mesodermal origin was confirmed by immunocytochemical staining. Flow cytometric analysis of DNA index evidenced a tetraploid number of chromosomes whereas cell cycle analysis showed 34.8% of cells in S phase and 60.7% in G1. In vitro growth studies demonstrated a population doubling time of 14.7 h, a good plating efficiency (52.3%) and a very poor agar clonogenic capacity (0.6%). SR-4987 was tumorigenic only in syngeneic mice in which sarcomas were induced. The line produced M-CSF in the culture supernatant whereas G-CSF, IL-3 and GM-CSF were not detected. Studies are in progress to assess the production of other cytokines and to verify if same autocrine growth factor is involved in the control of SR-4987 proliferation. Our line provides a further model of stromal cells for studying the interaction between hemopoietic progenitors and their microenvironment, as well as to study factors produced by stromal cells acting as modulators of proliferation and differentiation of related cell populations.

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