StemSpan™ SFEM II

Serum-free medium for culture and expansion of hematopoietic cells

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Serum-free medium for culture and expansion of hematopoietic cells
From: 116 USD

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Overview

StemSpan™ Serum-Free Expansion Medium II (SFEM II) is a modified version of StemSpan™ SFEM. It has been developed for the in vitro culture and expansion of human hematopoietic cells, when the appropriate growth factors and supplements are added. This allows users the flexibility to prepare the medium to meet their requirements. Using appropriate StemSpan™ Expansion Supplements, SFEM II may be used to expand CD34+ cells isolated from human cord blood, mobilized peripheral blood or bone marrow samples, or to expand and differentiate lineage-committed progenitors to generate populations of erythroid, myeloid, or megakaryocyte progenitor cells.
Contains:
• Iscove’s MDM
• Bovine serum albumin
• Recombinant human insulin
• Human transferrin (iron-saturated)
• 2-Mercaptoethanol
• Supplements
Subtype:
Specialized Media
Cell Type:
Hematopoietic Stem and Progenitor Cells
Species:
Human
Application:
Cell Culture; Expansion
Brand:
StemSpan
Area of Interest:
Stem Cell Biology; Transplantation Research
Formulation:
Defined; Serum-Free

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Product Documentation

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Product Applications

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

Data

Expansion of CD34 + Human Cord Blood Cells Cultured in StemSpan™ Media Containing CC100 Cytokine Cocktail

Figure 1. Expansion of CD34 + Human Cord Blood Cells Cultured in StemSpan™ Media Containing CC100 Cytokine Cocktail

Purified CD34 + human cord blood (CB) cells were suspended at a concentration of 10,000 per mL in StemSpan™ SFEM (dark gray bars), SFEM II (gold bars) and ACF (orange bars) media containing CC100 Cytokine Cocktail (Catalog #02690). Cultures were maintained for 7 days, after which the cells were counted and examined for CD34 and CD45 expression by flow cytometry. Shown are the fold expansion of total nucleated cells (TNC) (A) and CD34 + cells (B) per input CD34 + cell, and the percent CD34 + cells (C). Results represent the average results of 32 different CB samples. Vertical lines indicate 95% confidence limits, the range within which 95% of results fall. The numbers of cells produced in StemSpan™ SFEM II were significantly higher than in StemSpan™ SFEM and StemSpan™-ACF (*p<0.001, paired t-test, n=32).

StemSpan™ SFEM II Serum-Free Expansion Medium Containing CC100 Cytokine Cocktail Supports Greater Expansion of Human CD34 + Cells Than Other Media Tested

Figure 2. StemSpan™ SFEM II Serum-Free Expansion Medium Containing CC100 Cytokine Cocktail Supports Greater Expansion of Human CD34 + Cells Than Other Media Tested

Expansion of CD34 + cells, normalized relative to the values obtained in StemSpan™ SFEM medium (dark gray bars) after culturing purified CD34 + CB (A, n=6) or bone marrow (BM) (B, n=3) cells for 7 days in StemSpan™ SFEM, SFEM II (gold bars) and ACF (orange bars), and six media from other commercial suppliers (light gray bars, Competitor 1-6, which included, in random order, StemPro34 (Life Technologies), X-Vivo-15 and HPGM (both from Lonza), SCGM (Cellgenix), StemLine II (Sigma) and HP01 (Macopharma)). All media were supplemented with StemSpan™ CC100 Cytokine Cocktail (Catalog #02690). Vertical lines indicate 95% confidence limits, the range within which 95% of results fall. The numbers of CB and BM cells produced in StemSpan™ SFEM II were significantly higher than in all other media, except the numbers of CB cells produced in StemSpan™-ACF (*p<0.05, paired t-test).

Expansion of CD34 + Human Cord Blood Cells Cultured in StemSpan™ Media Containing CD34 + Expansion Supplement

Figure 3. Expansion of CD34 + Human Cord Blood Cells Cultured in StemSpan™ Media Containing CD34 + Expansion Supplement

Purified CD34 + human cord blood (CB) cells were suspended at a concentration of 10,000 per mL in StemSpan™ SFEM (dark gray bars), SFEM II (gold bars) and ACF (orange bars) media containing CD34 + Expansion Supplement (Catalog #02691). Cultures were maintained for 7 days, after which the cells were counted and examined for CD34 and CD45 expression by flow cytometry. The number of colony-forming units (CFU) in the expanded population was determined by replating cells in MethoCult™ H4435 and counting the number of colonies produced 14 days later. Shown are the fold expansion of total nucleated cells (TNC) (A), CD34 + cells (B) and CFU numbers (C) per input CD34 + cell, and the percent CD34 + cells (D) in these cultures (n=6). Vertical lines indicate 95% confidence limits, the range within which 95% of results fall. The numbers of cells produced in StemSpan™ SFEM II was significantly higher than in SFEM and ACF (*p<0.001, #p<0.05, paired t-test, n=6).

StemSpan™ SFEM II Serum-Free Expansion Medium Containing CD34 + Expansion Supplement Supports Greater Expansion of Human CD34 + Cells Than Other Media Tested

Figure 4. StemSpan™ SFEM II Serum-Free Expansion Medium Containing CD34 + Expansion Supplement Supports Greater Expansion of Human CD34 + Cells Than Other Media Tested

Expansion of CD34 + cells (A) and CFUs (B), normalized relative to the values obtained in SFEM medium (dark gray bars) after culturing purified CD34 + CB cells for 7 days in StemSpan™ SFEM, SFEM II (gold bars) and ACF (orange bars), and six media from other suppliers (light gray bars, Competitor 1-6, which included, in random order, X-Vivo-15 (Lonza), HP01 (Macopharma), StemPro34 (Life Technologies), SCGM (Cellgenix), StemLine II (Sigma), and HPGM (Lonza). All media were supplemented with the StemSpan™ CD34 + Expansion Supplement (Catalog #02691). Vertical lines indicate 95% confidence limits, the range within which 95% of results fall. The numbers of cells produced in StemSpan™ SFEM II were significantly higher than in all other media (*p<0.01, paired t-test, n=6).

StemSpan™ SFEM II Serum-Free Expansion Medium Containing Erythroid Expansion Supplement Supports Greater Expansion of Erythroid Cells Than Other Media Tested

Figure 5. StemSpan™ SFEM II Serum-Free Expansion Medium Containing Erythroid Expansion Supplement Supports Greater Expansion of Erythroid Cells Than Other Media Tested

The numbers of erythroid cells, normalized relative to the values obtained in StemSpan™ SFEM medium (dark gray bar), obtained after culturing purified CD34 + CB cells for 14 days in StemSpan™ SFEM, SFEM II (gold bars) and ACF (orange bars), and six media from other commercial suppliers (light gray bars, Competitor 1-6, which included, in random order, X-Vivo-15 and HPGM (both from Lonza), StemLine II (Sigma), HP01 (Macopharma), StemPro34 (Life Technologies) and SCGM (Cellgenix). All media were supplemented with StemSpan™ Erythroid Expansion Supplement (Catalog #02692). Vertical lines indicate 95% confidence limits, the range within which 95% of results fall. The numbers of cells produced in StemSpan™ SFEM II were significantly higher than in all other media (*p<0.05, paired t-test, n=6).

StemSpan™ SFEM II Serum-Free Expansion Medium Containing Megakaryocyte Expansion Supplement Supports Greater Expansion of Megakaryocytes Than Other Media Tested

Figure 6. StemSpan™ SFEM II Serum-Free Expansion Medium Containing Megakaryocyte Expansion Supplement Supports Greater Expansion of Megakaryocytes Than Other Media Tested

The numbers of megakaryocytes, normalized relative to the values obtained in StemSpan™ SFEM medium (dark gray bar), obtained after culturing purified CD34 + CB cells for 14 days in StemSpan™ SFEM, SFEM II (gold bars) and ACF (orange bars), and six media from other commercial suppliers (light gray bars, Competitor 1-6, which included, in random order, StemLine II (Sigma), HPGM (Lonza), HP01 (Macopharma), SCGM (Cellgenix), StemPro34 (Life Technologies) and X-Vivo-15 (Lonza). All media were supplemented with StemSpan™ Megakaryocyte Expansion Supplement (Catalog #02696). Vertical lines indicate 95% confidence limits, the range within which 95% of results fall. The numbers of cells produced in the StemSpan™ media were significantly higher than in the other media (*p<0.01 paired t-test, n=6).

Figure 7. StemSpan™ SFEM II Serum-Free Expansion Medium Containing T Cell Progenitor Expansion Supplement Promotes the Expansion and Differentiation of CB-Derived CD34+ Cells into Pro- and Pre-T Cells

The average (A,C) frequencies and (B,D) numbers of (A,B) CD7+CD5+ pro-T cells and (C,D) CD7+CD1a+ pre-T cells on days 7, 14 and 21 of culture are shown for 10 - 26 independent experiments. The average frequency of (A) pro- and (C) pre-T cells were 84% and 28% respectively, after 21 days of culture. All pro- and pre-T cells were found to express intracellular CD3 (data not shown). The number of (B) CD7+CD5+ pro-T cells increased (on average) ~10 - 100-fold every week, resulting in an average number of ~2100 pro-T cells produced per input CD34+ cell on day 21. After 21 days of culture (D) pre-T cells expressing CD7 and CD1a are present in large numbers, indicating the further differentiation of pro-T cells. The yield of (D) CD7+CD1a+ cells on day 21 was ~800 per input CD34+ cell. BM-derived CD34+ cells also expanded and differentiated to pro-T cells in stroma-free cultures with approximately 70 CD7+CD5+ cells produced per input CD34+ cell at day 21 (n = 3; data not shown). Vertical lines indicate 95% confidence limits (CL), the range within which 95% of results typically fall.

Publications

(1)
Nature 2016 NOV

CRISPR/Cas9 $-globin gene targeting in human haematopoietic stem cells.

Dever DP et al.

Abstract

The $-haemoglobinopathies, such as sickle cell disease and $-thalassaemia, are caused by mutations in the $-globin (HBB) gene and affect millions of people worldwide. Ex vivo gene correction in patient-derived haematopoietic stem cells followed by autologous transplantation could be used to cure $-haemoglobinopathies. Here we present a CRISPR/Cas9 gene-editing system that combines Cas9 ribonucleoproteins and adeno-associated viral vector delivery of a homologous donor to achieve homologous recombination at the HBB gene in haematopoietic stem cells. Notably, we devise an enrichment model to purify a population of haematopoietic stem and progenitor cells with more than 90% targeted integration. We also show efficient correction of the Glu6Val mutation responsible for sickle cell disease by using patient-derived stem and progenitor cells that, after differentiation into erythrocytes, express adult $-globin (HbA) messenger RNA, which confirms intact transcriptional regulation of edited HBB alleles. Collectively, these preclinical studies outline a CRISPR-based methodology for targeting haematopoietic stem cells by homologous recombination at the HBB locus to advance the development of next-generation therapies for $-haemoglobinopathies.
STEMCELL TECHNOLOGIES INC.’S QUALITY MANAGEMENT SYSTEM IS CERTIFIED TO ISO 13485. PRODUCTS ARE FOR RESEARCH USE ONLY AND NOT INTENDED FOR HUMAN OR ANIMAL DIAGNOSTIC OR THERAPEUTIC USES UNLESS OTHERWISE STATED.
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