Generation of Chimeras from Porcine Induced Pluripotent Stem Cells
Pig induced pluripotent stem cells (piPSCs) offer a great opportunity and a number of advantages in the generation of transgenic animals. These immortalized cells can undergo multiple rounds of genetic modifications (e.g.,gene knock-in,knockout) and selection leading to animals that have optimized traits of biomedical or agricultural interests. In this chapter we describe the production and characterization of piPSCs,microinjection of piPSCs into embryos,embryo transfer and production of chimeric animals based on successful protocols.
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Kishimoto RK et al. (APR 2016)
Revista brasileira de hematologia e hemoterapia 38 2 113--20
Validation of interphase fluorescence in situ hybridization (iFISH) for multiple myeloma using CD138 positive cells.
BACKGROUND Multiple myeloma is a plasma cell neoplasm with acquired genetic abnormalities of clinical and prognostic importance. Multiple myeloma differs from other hematologic malignancies due to a high fraction of low proliferating malignant plasma cells and the paucity of plasma cells in bone marrow aspiration samples,making cytogenetic analysis a challenge. An abnormal karyotype is found in only one-third of patients with multiple myeloma and interphase fluorescence in situ hybridization is the most useful test for studying the chromosomal abnormalities present in almost 90% of cases. However,it is necessary to study the genetic abnormalities in plasma cells after their identification or selection by morphology,immunophenotyping or sorting. Other challenges are the selection of the most informative FISH panel and determining cut-off levels for FISH probes. This study reports the validation of interphase fluorescence in situ hybridization using CD138 positive cells,according to proposed guidelines published by the European Myeloma Network (EMN) in 2012. METHOD Bone marrow samples from patients with multiple myeloma were used to standardize a panel of five probes [1q amplification,13q14 deletion,17p deletion,t(4;14),and t(14;16)] in CD138(+) cells purified by magnetic cell sorting. RESULTS This test was validated with a low turnaround time and good reproducibility. Five of six samples showed genetic abnormalities. Monosomy/deletion 13 plus t(4;14) were found in two cases. CONCLUSION This technique together with magnetic cell sorting is effective and can be used in the routine laboratory practice. In addition,magnetic cell sorting provides a pure plasma cell population that allows other molecular and genomic studies.
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Hanson V et al. (OCT 2013)
Tissue antigens 82 4 269--75
Assessment of the purity of isolated cell populations for lineage-specific chimerism monitoring post haematopoietic stem cell transplantation.
Following haematopoietic stem cell transplantation,monitoring the proportion of donor and recipient haematopoiesis in the patient (chimerism) is an influential tool in directing further treatment choices. Short tandem repeat (STR) analysis is a method of chimerism monitoring using DNA isolated from peripheral blood,bone marrow or specific isolated cell lineages such as CD3+ T cells. For lineage-specific STR analysis on cell populations isolated from peripheral blood,a qualitative estimation of the purity of each isolated population is essential for the correct interpretation of the test data. We describe a rapid,inexpensive method for the determination of purity using a simple flow cytometry method. The method described for assessing the purity of sorted CD3+ cells can be applied to any cell population isolated using the same technology. Data obtained were comparable to results from a commercial polymerase chain reaction (PCR)-based method for the assessment of purity (Non-T Genomic Detection Kit,Accumol,Calgary,AB,Canada) (P = 0.59). Of the 303 samples tested by flow cytometry,290 (95.7%) exceeded 90% purity,and 215 (70.95%) were over 99% pure. There were some outlying samples,showing diversity between samples and the unpredictability of purity of isolated cell populations. This flow cytometry method can be easily assimilated into routine testing protocols,allowing purity assessment in multiple-sorted cell populations for lineage-specific chimerism monitoring using a single secondary antibody and giving results comparable to a PCR-based method. As purity of isolated cell lineages is affected by time after venepuncture and storage temperature,assessment of each sample is recommended to give a reliable indication of sample quality and confidence in the interpretation of the results.
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