Mikael Hanson scite author profile

Although natural killer (NK) cells are well known for their ability to kill tumors, few studies have addressed the interactions between resting (nonactivated) NK cells and freshly isolated human tumors. Here, we show that human leukocyte antigen class I low tumor cells isolated directly from patients with advanced ovarian carcinoma trigger degranulation by resting allogeneic NK cells. This was paralleled by induction of granzyme B and caspase-6 activities in the tumor cells and significant tumor cell lysis. Ovarian carcinoma cells displayed ubiquitous expression of the DNAX accessory molecule-1 (DNAM-1) ligand PVR and sparse/heterogeneous expression of the NKG2D ligands MICA/MICB and ULBP1, ULBP2, and ULBP3. In line with the NK receptor ligand expression profiles, antibody-mediated blockade of activating receptor pathways revealed a dominant role for DNAM-1 and a complementary contribution of NKG2D signaling in tumor cell recognition. These results show that resting NK cells are capable of directly recognizing freshly isolated human tumor cells and identify ovarian carcinoma as a potential target for adoptive NK cell-based immunotherapy. [Cancer Res 2007;67(3):1317-25]

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Preferential Cell Death of CD8+ Effector Memory (CCR7−CD45RA−) T Cells by Hydrogen Peroxide-Induced Oxidative Stress

Takahashi

Hanson

Norell

et al. 2005

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T cells are used in many cell-based cancer treatments. However, oxidative stress that is induced during various chronic inflammatory conditions, such as cancer, can impair the immune system and have detrimental effects on T cell function. In this study, we have investigated the sensitivity of different human T cell subsets to H2O2-induced oxidative stress. We showed that central memory (CD45RA−CCR7+) and effector memory (CD45RA−CCR7−) T cells are more sensitive to H2O2 as compared with naive (CD45RA+CCR7+) T cells. Furthermore, the study showed that CD8+ effector memory T cells are more sensitive to low levels of H2O2 (5 μM) compared with other types of T cells investigated. H2O2-exposed CD45RO+ T cells showed mitochondrial depolarization prior to caspase 3 activity. Moreover, the pan-caspase inhibitor z-Val-Ala-Asp(OMe)-fluoromethylketone rescued cells from death. These experiments suggest that H2O2-induced cell death of CD45RO+ T cells acts via the mitochondrial pathway and that caspase involvement is needed. This study suggests that oxidative stress in cancer patients can be disadvantageous for T cell-based adoptive cell transfer therapies, since effector memory T cells are the primary phenotype of the cells administered.

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Transduction with the Antioxidant Enzyme Catalase Protects Human T Cells against Oxidative Stress

Ando

Mimura

Johansson

et al. 2008

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Patients with diseases characterized by chronic inflammation, caused by infection or cancer, have T cells and NK cells with impaired function. The underlying molecular mechanisms are diverse, but one of the major mediators in this immune suppression is oxidative stress caused by activated monocytes, granulocytes, or myeloid-derived suppressor cells. Reactive oxygen species can seriously hamper the efficacy of active immunotherapy and adoptive transfer of T and NK cells into patients. In this study, we have evaluated whether enhanced expression of the antioxidant enzyme catalase in human T cells can protect them against reactive oxygen species. Human CD4+ and CD8+ T cells retrovirally transduced with the catalase gene had increased intracellular expression and activity of catalase. Catalase transduction made CD4+ T cells less sensitive to H2O2-induced loss-of-function, measured by their cytokine production and ability to expand in vitro following anti-CD3 stimulation. It also enhanced the resistance to oxidative stress-induced cell death after coculture with activated granulocytes, exposure to the oxidized lipid 4-hydroxynonenal, or H2O2. Expression of catalase by CMV-specific CD8+ T cells saved cells from cell death and improved their capacity to recognize CMV peptide-loaded target cells when exposed to H2O2. These findings indicate that catalase-transduced T cells potentially are more efficacious for the immunotherapy of patients with advanced cancer or chronic viral infections.

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The CD16−CD56bright NK Cell Subset Is Resistant to Reactive Oxygen Species Produced by Activated Granulocytes and Has Higher Antioxidative Capacity Than the CD16+CD56dim Subset

Harlin

Hanson

Johansson

et al. 2007

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Human NK cells can be divided into CD56dim and CD56bright subsets. These two types of NK cells respond to different types of stimuli, with CD56dim NK cells having direct cytotoxic ability and CD56bright NK cells having mainly an immunoregulatory function. We show that the CD16+CD56dim NK subset is characterized by sensitivity to cell death induced by activated granulocytes. We identified hydrogen peroxide (H2O2) as the major effector molecule responsible for the cytotoxic effect of granulocytes on CD56dim NK cells, because the ability of granulocytes to kill CD56dim NK cells was completely abrogated in the presence of the hydrogen peroxide scavenger catalase. When exposing NK cells to H2O2, CD56dim cells showed rapid mitochondrial depolarization and down-regulation of activating NKRs, eventually resulting in cell death, whereas CD56bright cells remained unaffected. The difference in sensitivity to H2O2 was mirrored by a difference in intracellular oxidation levels between CD56dim and CD56bright NK cells, and cell lysates from the latter subset possessed a greater ability to block H2O2-mediated oxidation. Our data may explain the preferential accumulation of CD56bright NK cells often seen in environments rich in reactive oxygen species, such as at sites of chronic inflammation and in tumors.

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Mikael Hanson

DNAX Accessory Molecule-1 Mediated Recognition of Freshly Isolated Ovarian Carcinoma by Resting Natural Killer Cells

Preferential Cell Death of CD8+ Effector Memory (CCR7−CD45RA−) T Cells by Hydrogen Peroxide-Induced Oxidative Stress

Transduction with the Antioxidant Enzyme Catalase Protects Human T Cells against Oxidative Stress

The CD16−CD56bright NK Cell Subset Is Resistant to Reactive Oxygen Species Produced by Activated Granulocytes and Has Higher Antioxidative Capacity Than the CD16+CD56dim Subset

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