Jörg-Matthias Brand scite author profile

The transfusion of allogenic, in vitro expanded natural killer cells (NKC) is a novel therapy option in oncology. To date, however, the biodistribution and kinetics of allogenic NKC have not been investigated. Therefore, in this study three patients with renal cell carcinoma received 3-7 x 10(8) NKC labelled with indium-111 oxine with a tenfold excess of unlabelled cells during NKC therapy. Whole-body scintigrams were obtained (0.5-144 h) in the anterior and posterior views. Scintigrams were analysed using a region of interest technique, and single-photon emission tomography (SPET) studies of the abdomen were performed. Results were compared to those obtained with polymerase chain reaction (PCR) of the peripheral blood (determination of foreign DNA, nested PCR, limit of detection 0.01%). Shortly after transfusion of NKC, more than 50% of the activity was accumulated in the lungs. We observed redistribution effects from lungs to liver, spleen and bone marrow. No significant loss of activity could be detected. In two of four large metastases, tracer accumulation could be proven by SPET. As confirmed by scintigrams and PCR, the fraction of circulating transfused cells was low at all times. Long-term activity retention might be caused either by survival of the allogenic cells, as confirmed by PCR (up to 3 days p.i.), or by phagocytosis of labelled cellular fragments. However, PCR data and uptake in metastases indicated long survival of a portion of allogenic NKC. Such long survival and low retention of the cells in the lung are requirements for an effective immunotherapeutic approach.

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The Effects of General Anesthesia on Human Peripheral Immune Cell Distribution and Cytokine Production

Brand

Kirchner

Poppe

et al. 1997

Clinical Immunology and Immunopathology

122

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Large-Scale Generation of Natural Killer Lymphocytes for Clinical Application

Luhm

Brand

Koritke

et al. 2002

Journal of Hematotherapy & Stem Cell Research

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Natural killer (NK) lymphocytes can be used for adoptive immunotherapeutic strategies. Alternatively, they may be employed as adjuvants for stem cell/bone marrow transplantation, either to re-induce remission, or to purge autografts of contaminating malignant cells. We developed a new protocol that enables the generation of NK cells on a clinical scale in a closed system that enables good manufacturing practice (GMP) conformity. Aside from the initial NK cell inoculum, our protocol includes activated feeder cells [irradiated peripheral blood mononuclear cells (PBMC) and no transformed blasts], cytokines [interleukin-2 (IL-2) and IL-15], human serum, and a complex basic media formulation. During the whole expansion period of approximately 14 days, the cells were handled in PTFE (Teflon) bags, whereby fresh medium was added without opening the system. The use of immortalized or virus-transformed feeder cells, as used in many other current research protocols, was completely avoided. A precise controlling of a number of environmental factors was necessary to achieve reproducible results. Increases in NK cell number ranged between 80- and 200-fold. The resulting NK cells were CD56(+), CD3(-), and CD16(+) (75%). They were highly cytotoxic against different malignant target cells and did not produce significant levels of interferon-gamma. Therefore, they belonged to the cytotoxic rather than the immunoregulatory NK subpopulation. No non-specific activation against normal allogenous lymphocytes occurred. This work might permit the realization of future protocols for evaluating the clinical effect of NK lymphocytes in human disease.

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