Human Cord Blood Mononuclear Cells, Frozen

Primary human cells, frozen

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Primary human cells, frozen
From: 205 USD


Primary mononuclear cells (MNCs) derived from the umbilical cord blood (CB) include hematopoietic lineage cells such as lymphocytes, monocytes, stem and progenitor cells as well as mesenchymal stromal cells. MNCs are isolated from CB using density gradient separation. Citrate-phosphate-dextrose (CPD) is added to the CB during collection as an anticoagulant.

Cells were collected using consent forms and protocols approved by either an Institutional Review Board, the Food and Drug Administration, the U.S. Department of Health and Human Services, and/or an equivalent regulatory authority.

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Browse our Frequently Asked Questions (FAQs) on Primary Cells.
• CryoStor® CS10
Cell Type:
Mononuclear Cells
Cell and Tissue Source:
Cord Blood
Donor Status:

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This product is designed for use in the following research area(s) as part of the highlighted workflow stage(s). Explore these workflows to learn more about the other products we offer to support each research area.

Data and Publications


Journal of biomolecular screening 2013 DEC

A phenotypic screening approach in cord blood-derived mast cells to identify anti-inflammatory compounds.

Kaur R et al.


Mast cells are unique hematopoietic cells that are richly distributed in the skin and mucosal surfaces of the respiratory and gastrointestinal tract. They play a key role in allergic inflammation by releasing a cocktail of granular constituents, including histamine, serine proteases, and various eicosanoids and cytokines. As such, a number of drugs target either inhibition of mast cell degranulation or the products of degranulation. To identify potential novel drugs and mechanisms in mast cell biology, assays were developed to identify inhibitors of mast cell degranulation and activation in a phenotypic screen. Due to the challenges associated with obtaining primary mast cells, cord blood-derived mononuclear cells were reproducibly differentiated to mast cells and assays developed to monitor tryptase release and prostaglandin D2 generation. The tryptase assay was particularly sensitive, requiring only 500 cells per data point, which permitted a set of approximately 12,000 compounds to be screened robustly and cost-effectively. Active compounds were tested for concomitant inhibition of prostaglandin D2 generation. This study demonstrates the robustness and effectiveness of this approach in the identification of potential novel compounds and mechanisms targeting mast cell-driven inflammation, to enable innovative drug discovery efforts to be prosecuted.
Blood 2011 NOV

ETV6-RUNX1 promotes survival of early B lineage progenitor cells via a dysregulated erythropoietin receptor.

Torrano V et al.


ETV6-RUNX1 gene fusion is usually an early, prenatal event in childhood acute lymphoblastic leukemia (ALL). Transformation results in the generation of a persistent (> 14 years) preleukemic clone, which postnatally converts to ALL after the acquisition of necessary secondary genetic alterations. Many cancer cells show some expression of the erythropoietin receptor (EPOR) gene, although the functionality" of any EPOR complexes and their relevant signaling pathways in nonerythroid cells has not been validated. EPOR mRNA is selectively and ectopically expressed in ETV6-RUNX1(+) ALL but the presence of a functional EPOR on the cell surface and its role in leukemogenesis driven by ETV6-RUNX1 remains to be identified. Here we show that ETV6-RUNX1 directly binds the EPOR promoter and that expression of ETV6-RUNX1 alone in normal pre-B cells is sufficient to activate EPOR transcription. We further reveal that murine and human ETV6-RUNX1(+) cells expressing EPOR mRNA have EPO ligand binding activity that correlates with an increased cell survival through activation of the JAK2-STAT5 pathway and up-regulation of antiapoptotic BCL-XL. These data support the contention that ETV6-RUNX1 directly activates ectopic expression of a functional EPOR and provides cell survival signals that may contribute critically to persistence of covert premalignant clones in children.
Analytical biochemistry 2007 OCT

Methylation profiling using degenerated oligonucleotide primer-PCR specific for genome-wide amplification of bisulfite-modified DNA.

Yang W-H et al.


DNA methylation is one of the essential epigenetic processes that play a role in regulating gene expression. Aberrant methylation of CpG-rich promoter regions has been associated with many forms of human cancers. The current method for determining the methylation status relies mainly on bisulfite treatment of genomic DNA, followed by methylation-specific PCR (MSP). The difficulty in acquiring a methylation profiling often is limited by the amount of genomic DNA that can be recovered from a given sample, whereas complex procedures of bisulfite treatment further compromise the effective template for PCR analysis. To circumvent these obstacles, we developed degenerated oligonucleotide primer (DOP)-PCR to enable amplification of bisulfite-modified genomic DNA at a genome-wide scale. A DOP pair was specially designed as follows: first 3' DOP, CTCGAGCTGHHHHHAACTAC, where H is a mixture of base consisting of 50% A, 25% T, and 25% C; and second 5' DOP, CTCGAGCTGDDDDDGTTTAG, where D is a mixture of base consisting of 50% T, 25% G, and 25% A. Our results showed that bisulfite-modified DNAs from a cell line, cord blood cells, or cells obtained by laser capture microdissection were amplified by up to 1000-fold using this method. Subsequent MSP analysis using these amplified DNAs on nine randomly selected cancer-related genes revealed that the methylation status of these genes remained identical to that derived from the original unamplified template.