L. Wentworth scite author profile

L. Wentworth

4Publications

66Citation Statements Received

76Citation Statements Given

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Affiliations

William S. Middleton Memorial Veterans Hospital, University of Wisconsin–Madison

Publications

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Suppression of T-Cell Expansion by Melanoma is Exerted on Resting Cells

Russ

Wentworth

et al. 2011

Ann Surg Oncol

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Background Immunotherapeutic cancer protocols often rely on the ability to promote proliferative expansion of tumor-specific T-cell, but the influence of cancer on in vivo T-cell expansion remains largely undefined. Methods The ability of control and B16F10 melanoma-bearing C57BL/6 mice to expand lymphocytic choriomeningitis virus antigen-specific T-cell populations in response to acute viral infection was compared by using flow cytometric assays of splenocytes. Results The ability to expand virus-specific CD8+ and CD4+ T-cells was globally and markedly suppressed in tumor-bearing mice. Expanded cytotoxic T lymphocytes (CTLs) retained in vivo and in vitro functionality, suggesting that melanoma growth did not induce T-cell anergy. The magnitude of suppressed proliferative expansion was proportional to the extent of tumor burden. Melanoma-induced suppression of CTL expansion was correlated with upregulated apoptotic activity and hampered the induction of memory precursor effector cells. Adoptive transfer of resting LCMV antigen-specific T-cells before or after tumor establishment demonstrated that a critical period of in vivo exposure of resting T-cells to growing melanoma was responsible for the induction of suppressed expansion. This suppression was durable; surgical resection of melanoma after in vivo exposure to resting T-cells but before antigenic stimulation did not restore full expansion. Conclusions These data suggest that growing melanoma tumors exert a global, antigen-independent influence on resting T-cells that fundamentally reprograms their ability to undergo proliferative expansion in response to subsequent antigenic stimulation. This finding may have direct implications for T-cell-based immunotherapeutic strategies.

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Melanoma-induced suppression of tumor antigen-specific T cell expansion is comparable to suppression of global T cell expansion

Russ

Wentworth

et al. 2011

Cellular Immunology

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We have observed that in vivo interaction between melanoma and resting T cells promotes suppression of antigen-driven proliferative T cell expansion. We hypothesized that this suppression would affect tumor antigen-specific T cell populations more potently than tumor-unrelated T cell populations. A B16F10 cell line was stably transfected to express low levels of the lymphocytic choriomeningitis virus (LCMV) glycoprotein GP33 (B16GP33). Mice bearing B16F10 or B16GP33 tumors were infected with LCMV, and proliferative expansion of LCMV epitope-specific T cell populations was quantified. In vitro and in vivo assays confirmed low levels of antigenic GP33 expression by B16GP33 tumors. Suppressed expansion of GP33-specific T cells was equivalent between mice bearing B16F10 and B16GP33 tumors. These observations suggest that the ability of growing melanoma tumors to impair antigen-driven proliferative expansion of activated T cells is global and not antigen-specific, and provide further insight into the influence of cancer on activated T cell homeostasis.

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Memory T cells are uniquely resistant to melanoma-induced suppression

Wentworth

Meyers

Alam

et al. 2012

Cancer Immunol Immunother

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We have previously observed that in vivo exposure to growing melanoma tumors fundamentally alters activated T cell homeostasis by suppressing the ability of naïve T cells to undergo antigen-driven proliferative expansion. We hypothesized that exposure of T cells in later stages of differentiation to melanoma would have similar suppressive consequences. C57BL/6 mice were inoculated with media or syngeneic B16F10 melanoma tumors 8 or 60 days after infection with lymphocytic choriomeningitis virus (LCMV), and splenic populations of LCMV-specific T cells were quantified using flow cytometry 18 days after tumor inoculation. Inoculation with melanoma on post-infection day 8 potentiated the contraction of previously activated T cells. This enhanced contraction was associated with increased apoptotic susceptibility among T cells from tumor-bearing mice. In contrast, inoculation with melanoma on post-infection day 60 did not affect the ability of previously established memory T cells to maintain themselves in stable numbers. In addition, the ability of previously established memory T cells to respond to LCMV challenge was unaffected by melanoma. Following adoptive transfer into melanoma-bearing mice, tumor-specific memory T cells were significantly more effective at controlling melanoma growth than equivalent numbers of tumor-specific effector T cells. These observations suggest that memory T cells are uniquely resistant to suppressive influences exerted by melanoma on activated T cell homeostasis; these findings may have implications for T cell–based cancer immunotherapy.

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Neoadjuvant Memory T Cell Transfer: A Novel Paradigm for Cancer Immunotherapy

Meyers

Wentworth

Mahvi

et al. 2013

Journal of Surgical Research

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L. Wentworth

Suppression of T-Cell Expansion by Melanoma is Exerted on Resting Cells

Melanoma-induced suppression of tumor antigen-specific T cell expansion is comparable to suppression of global T cell expansion

Memory T cells are uniquely resistant to melanoma-induced suppression

Neoadjuvant Memory T Cell Transfer: A Novel Paradigm for Cancer Immunotherapy

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