BACKGROUND: Allogeneic natural killer (NK) cells are known to show medium to high cytotoxic activity against HLA-nonidentical leukemia or tumor cells. For a possible benefit of post transplant treatment with NK cells after haploidentical stem cell transplantation (haplo-SCT) we developed a clinical scale procedure for NK cell processing observing Good Manufacturing Practice (GMP). METHODS: Allogeneic donor NK cells were selected from 15 unstimulated leukaphereses using two rounds of immunomagnetic T cell depletion, followed by an NK cell enrichment step. CD56 (+)CD3 (-) NK cells were stimulated and expanded in vitro according to GMP. Quality control of NK cell purity, residual T cells and cytotoxic activity was done by multi-coloured flow cytometric analyses. RESULTS: Purification led to an absolute number of 234-1 237 x 10 (6) CD56 (+)CD3 (-) NK cells from leukapheresis harvests with a median purity of 95 % and a 4 to 6(1/2) log depletion of T cells. After two weeks stimulation with IL-2 a five-fold expansion of NK cells with a T cell contamination below 0.1 % was reached. Median cell viability was 95 % after purification and 99 % after expansion. The IL-2 stimulated NK cells showed a highly increased lytic activity against the MHC-I deficient K562 cells compared to freshly isolated NK cells and a medium cytotoxicity against patients' leukemic cells. CONCLUSIONS: Clinical scale enrichment and activation of allogeneic donor NK cells is feasible. High dose NK cell application may be a new treatment option for pediatric patients with leukemia or solid tumors in case of minimal residual disease or unbalanced chimerism post haplo-SCT as we could show for the first three patients .
BACKGROUND: Allogeneic natural killer (NK) cells are known to show medium to high cytotoxic activity against HLA-nonidentical leukemia or tumor cells. For a possible benefit of post transplant treatment with NK cells after haploidentical stem cell transplantation (haplo-SCT) we developed a clinical scale procedure for NK cell processing observing Good Manufacturing Practice (GMP). METHODS: Allogeneic donor NK cells were selected from 15 unstimulated leukaphereses using two rounds of immunomagnetic T cell depletion, followed by an NK cell enrichment step. CD56 (+)CD3 (-) NK cells were stimulated and expanded in vitro according to GMP. Quality control of NK cell purity, residual T cells and cytotoxic activity was done by multi-coloured flow cytometric analyses. RESULTS: Purification led to an absolute number of 234-1 237 x 10 (6) CD56 (+)CD3 (-) NK cells from leukapheresis harvests with a median purity of 95 % and a 4 to 6(1/2) log depletion of T cells. After two weeks stimulation with IL-2 a five-fold expansion of NK cells with a T cell contamination below 0.1 % was reached. Median cell viability was 95 % after purification and 99 % after expansion. The IL-2 stimulated NK cells showed a highly increased lytic activity against the MHC-I deficient K562 cells compared to freshly isolated NK cells and a medium cytotoxicity against patients' leukemic cells. CONCLUSIONS: Clinical scale enrichment and activation of allogeneic donor NK cells is feasible. High dose NK cell application may be a new treatment option for pediatric patients with leukemia or solid tumors in case of minimal residual disease or unbalanced chimerism post haplo-SCT as we could show for the first three patients .
Authors: U Koehl; K Bochennek; R Esser; A Brinkmann; R Quaritsch; M Becker; J Soerensen; P Bader; D Schwabe; T Klingebiel; J Fischer; S Y Zimmermann Journal: Int J Hematol Date: 2007-12-18 Impact factor: 2.490
Authors: Jeannette Cany; Anniek B van der Waart; Jan Spanholtz; Marleen Tordoir; Joop H Jansen; Robbert van der Voort; Nicolaas M Schaap; Harry Dolstra Journal: Oncoimmunology Date: 2015-04-01 Impact factor: 8.110
Authors: Natalia Lapteva; April G Durett; Jiali Sun; Lisa A Rollins; Leslie L Huye; Jian Fang; Varada Dandekar; Zhuyong Mei; Kimberley Jackson; Juan Vera; Jun Ando; Minhtran C Ngo; Elaine Coustan-Smith; Dario Campana; Susann Szmania; Tarun Garg; Amberly Moreno-Bost; Frits Vanrhee; Adrian P Gee; Cliona M Rooney Journal: Cytotherapy Date: 2012-08-17 Impact factor: 5.414
Authors: Jan Spanholtz; Marleen Tordoir; Diana Eissens; Frank Preijers; Arnold van der Meer; Irma Joosten; Nicolaas Schaap; Theo M de Witte; Harry Dolstra Journal: PLoS One Date: 2010-02-15 Impact factor: 3.240