技术资料

The impact of shipping temperatures and preservation media used during transport of either peripheral blood mononuclear cells (PBMCs) or Jurkat cells was assessed,in view of implementing of a proficiency testing scheme on mononuclear cell viability. Samples were analyzed before and after shipment at different temperatures (ambient temperature,dry ice,and liquid nitrogen) and in different preservation media (serum with cryoprotectant,commercial cryopreservation solution,and room temperature transport medium). Sample quality was assessed by viability assays (Trypan Blue dye exclusion,flow cytometry,Cell Analysis System cell counting (CASY)),and by ELISpot functional assay. The liquid nitrogen storage and shipment were found to be the most stable conditions to preserve cell viability and functionality. However,we show that alternative high quality shipment conditions for viable cells are dry ice shipment and commercial cryopreservation solution. These were also cost-efficient shipment conditions,satisfying the requirements of a proficiency testing scheme for viable mononuclear cells. Room temperature transport medium dramatically and adversely affected the integrity of mononuclear cells. View Publication

BACKGROUND This article is part of a series of publications providing formal method validation for biospecimen processing in the context of accreditation in laboratories and biobanks. We report the optimization and validation for fitness-for-purpose of automated and manual protocols for isolating peripheral blood mononuclear cells (PBMCs) from whole blood,and compare the two methods. METHODS The manual method was optimized for whole blood centrifugation speed,gradient type (Ficoll,Leucosep,CPT),and freezing method (Mr Frosty,Controlled Rate Freezing). Various parameters of the automated protocol using a CPT gradient on a Tecan liquid handler were optimized. Optimal protocols were validated in parallel for reproducibility and robustness. Optimization and validation were assessed in terms of cell yield,viability,recovery,white blood cell (WBC) subpopulation distribution,gene expression,and lymphoblastoid cell line (LCL) transformation. RESULTS An initial centrifugation of whole blood at 2000 g was considered optimal for further processing,allowing isolation of plasma and PBMCs from a single sample. The three gradients gave similar outcomes in terms of cell yield,viability,and WBC subpopulation distribution. Ficoll showed some advantages and was selected for further evaluations. Optimization of the automated protocol script using a CPT gradient gave 61% cell recovery. No significant differences in quality,quantity,and WBC subpopulation distribution were seen between the two freezing methods,and Mr. Frosty was selected. The manual and automated protocols were reproducible in terms of quantity,recovery,viability,WBC subpopulation distribution,gene expression,and LCL transformation. Most (75%-100%) of the 13 robustness parameters were accepted for both methods with an 8 h pre-centrifugation delay versus 38%-85% after 24 h. Differences identified between the automated and manual methods were not considered consequential. CONCLUSIONS We validated the first fully automated method for isolating viable PBMCs,including RNA analysis and generation of LCLs. We recommend processing within 8 h of blood collection. View Publication

Identification of agents that target human leukemia stem cells is an important consideration for the development of new therapies. The present study demonstrates that rocaglamide and silvestrol,closely related natural products from the flavagline class of compounds,are able to preferentially kill functionally defined leukemia stem cells,while sparing normal stem and progenitor cells. In addition to efficacy as single agents,flavaglines sensitize leukemia cells to several anticancer compounds,including front-line chemotherapeutic drugs used to treat leukemia patients. Mechanistic studies indicate that flavaglines strongly inhibit protein synthesis,leading to the reduction of short-lived antiapoptotic proteins. Notably though,treatment with flavaglines,alone or in combination with other drugs,yields a much stronger cytotoxic activity toward leukemia cells than the translational inhibitor temsirolimus. These results indicate that the underlying cell death mechanism of flavaglines is more complex than simply inhibiting general protein translation. Global gene expression profiling and cell biological assays identified Myc inhibition and the disruption of mitochondrial integrity to be features of flavaglines,which we propose contribute to their efficacy in targeting leukemia cells. Taken together,these findings indicate that rocaglamide and silvestrol are distinct from clinically available translational inhibitors and represent promising candidates for the treatment of leukemia. View Publication