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StemSpan™ SFEM

用于培养和扩增造血细胞的无血清培养基
只有 %1
¥2,248.00

产品号 #(选择产品)

产品号 #09600_C

用于培养和扩增造血细胞的无血清培养基

总览

StemSpan™ 无血清扩增培养基(SFEM)经过开发并测试可用于体外培养和扩增人造血细胞,添加适当的生长因子和添加物即可。用户可以根据实验需求灵活地配制培养基。SFEM与适当的细胞因子搭配使用时, 可用于培养和扩增从其他物种(包括小鼠、非人灵长类动物和犬)分离的造血细胞。另外,SFEM可用于培养多种造血及非造血细胞类型。搭配适当的StemSpan™扩增添加物,SFEM可用于扩增从人脐带血、动员外周血或骨髓样本中分离的CD34+细胞,或扩增和分化谱系定向祖细胞,以生成红系、髓系或巨核细胞祖细胞群。

StemSpan™ SFEM II(产品号 #09605)是 StemSpan™ SFEM 的优化版本,其性能进一步提升,以促进和支持更高的 CD34+ 扩增效果和/或细胞分化率。

包含
• Iscove’s MDM
• 牛血清白蛋白
• 重组人胰岛素
• 人转铁蛋白(铁饱和)
• 2-巯基乙醇
• 添加物
 
分类
专用培养基
 
细胞类型
造血干/祖细胞
 
种属
人,小鼠,非人灵长类,大鼠
 
应用
细胞培养,扩增
 
品牌
StemSpan
 
研究领域
药物发现和毒性检测,干细胞生物学,移植研究
 
制剂类别
无血清
 

实验数据

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 (blue bars) and AOF (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™-AOF (*p<0.001, paired t-test, n=32).

Note: Data for StemSpan™-AOF shown were generated with the original phenol red-containing version StemSpan™-ACF (Catalog #09855). However internal testing showed that the performance of the new phenol red-free, cGMP-manufactured version, StemSpan™-AOF (Catalog #100-0130) was comparable.

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

Figure 2. 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 (blue bars) and AOF (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 AOF (*p<0.001, #p<0.05, paired t-test, n=6).

Note: Data for StemSpan™-AOF shown were generated with the original phenol red-containing version StemSpan™-ACF (Catalog #09855). However internal testing showed that the performance of the new phenol red-free, cGMP-manufactured version, StemSpan™-AOF (Catalog #100-0130) was comparable.

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

Figure 3. StemSpan™ Media Support Greater Expansion of Human CD34+ and CD34bright Cells than Other Commercial Media

Purified CB-derived CD34+ cells were cultured for 7 days in select StemSpan™ media (StemSpan™ SFEM, StemSpan™ SFEM II, StemSpan™-XF, or StemSpan™-AOF, orange bars), and in five xeno-free media formulations from other suppliers (Xeno-Free Commercial Alternative, grey bars) including (in random order) CTS™ StemPro™ HSC (Thermo), SCGM (Cellgenix), X-VIVO™ 15 (Lonza), Stemline™ II (Sigma), and StemPro™-34 (Thermo). All media were supplemented with StemSpan™ CD34+ Expansion Supplement and UM171*. The (A) frequency and (B) cell expansion of viable CD34+ and CD34bright cells in culture were based on viable cell counts and flow cytometry results as shown in Figure 1. StemSpan™ showed significantly higher expansion of CD34+ and CD34bright cells (P < 0.05 when comparing StemSpan™ SFEM II to five media from other suppliers, calculated using a one-way ANOVA followed by Dunnett’s post hoc test) and StemSpan™-AOF, the only animal origin-free formulation, showed equivalent performance to all xeno-free commericals alternatives tested. Data shown are mean ± SEM (n = 8).

Note: Data for StemSpan™-AOF shown were generated with the original phenol red-containing version StemSpan™-ACF (Catalog #09855). However internal testing showed that the performance of the new phenol red-free, cGMP-manufactured version, StemSpan™-AOF (Catalog #100-0130) was comparable. *Similar results are expected when using UM729 (Catalog #72332) prepared to a final concentration of 1μM. For more information including data comparing UM171 and UM729, see Fares et al., 2014.

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

Figure 4. StemSpan™ Media Support Equal or Greater Expansion of Primitive Human CD34brightCD90+CD45RA- Cells Than Other Commercial Media

Purified CB-derived CD34+ cells were cultured for 7 days in select StemSpan™ media (StemSpan™ SFEM, StemSpan™ SFEM II, StemSpan™-XF, or StemSpan™-AOF, orange bars), and in five xeno-free media formulations from other suppliers (Commercial Alternative, grey bars) including (in random order) CTS StemPro HSC (Thermo), SCGM (Cellgenix), X-VIVO 15 (Lonza), Stemline II (Sigma), and StemPro 34 (Thermo). All media were supplemented with StemSpan™ CD34+ Expansion Supplement and UM171*. The (A) frequency and (B) cell expansion of CD34+CD90+CD45RA- (solid) and CD34brightCD90+CD45RA-(dotted overlay) cells in culture were based on viable cell counts and flow cytometry results as shown in Figure 1. StemSpan™ media showed similar or significantly higher expansion of CD34brightCD90+CD45RA- cells (P < 0.05 compared to five media from other suppliers, calculated using one-way ANOVA followed by Dunnett’s post hoc test) and StemSpan™-AOF, the only animal origin-free formulation tested, showed equivalent performance to all xeno-free commercial alternatives tested. Data shown are mean ± SEM (n = 8).

Note: Data for StemSpan™-AOF shown were generated with the original phenol red-containing version StemSpan™-ACF (Catalog #09855). However internal testing showed that the performance of the new phenol red-free, cGMP-manufactured version, StemSpan™-AOF (Catalog #100-0130) was comparable.

*Similar results are expected when using UM729 (Catalog #72332) prepared to a final concentration of 1μM. For more information including data comparing UM171 and UM729, see Fares et al. 2014.

Table 1. Production of Erythroid Cells From CD34+ Human Cord Blood Cells Cultured in StemSpan™ SFEM Serum-Free Expansion Medium Containing Erythroid Expansion Supplement

Production of Erythroid Cells From CD34 + Human Cord Blood Cells Cultured in StemSpan™ SFEM Serum-Free Expansion Medium Containing Erythroid Expansion Supplement

Numbers and percent of erythroid cells produced after 14 days of culture of enriched CD34 + cells from 14 different cord blood (CB) samples. Erythroid cells were characterized by flow cytometry on the basis of transferrin receptor (CD71) and glycophorin A (CD235) expression.*95% confidence limits, the range within which 95% of the results fall.

StemSpan™ SFEM II Serum-Free Expansion Medium Containing Megakaryocyte Expansion Supplement Supports Greater Expansion of Megakaryocytes 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 (blue bar) and AOF (orange bar), and six media from other commercial suppliers (light gray bars, commercial alternative 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).

Note: Data for StemSpan™-AOF shown were generated with the original phenol red-containing version StemSpan™-ACF (Catalog #09855). However internal testing showed that the performance of the new phenol red-free, cGMP-manufactured version, StemSpan™-AOF (Catalog #100-0130) was comparable.

Table 2. Production of Megakaryocytes From CD34+ Human Cord Blood Cells Cultured in StemSpan™ SFEM Serum-Free Expansion Medium Containing Megakaryocyte Expansion Supplement

Production of Megakaryocytes From CD34+ Human Cord Blood Cells Cultured in StemSpan™ SFEM Serum-Free Expansion Medium Containing Megakaryocyte Expansion Supplement

Numbers and percent of cells expressing the megakaryocyte marker CD41a produced after 14 days of culture of enriched CD34 + cells from 6 independent cord blood (CB) samples. *95% confidence limits, the range within which 95% of the results fall.

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 (blue bar) and AOF (orange bar), and six media from other commercial suppliers (light gray bars, Commercial Alternative 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).

Note: Data for StemSpan™-AOF shown were generated with the original phenol red-containing version StemSpan™-ACF (Catalog #09855). However internal testing showed that the performance of the new phenol red-free, cGMP-manufactured version, StemSpan™-AOF (Catalog #100-0130) was comparable.

产品说明书及文档

请在《产品说明书》中查找相关支持信息和使用说明,或浏览下方更多实验方案。

Document Type
Product Name
Catalog #
Lot #
Language
Product Name
StemSpan™ SFEM
Catalog #
09600, 09650
Lot #
All
Language
English
Document Type
Safety Data Sheet
Product Name
StemSpan™ SFEM
Catalog #
09600, 09650
Lot #
All
Language
English

应用领域

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相关材料与文献

技术资料 (12)

文献 (318)

In vitro culture of human acute myelogenous leukemia (AML) cells in serum-free media: studies of native AML blasts and AML cell lines. Bruserud O et al. Journal of hematotherapy & stem cell research 2000 DEC

Abstract

The functional characteristics were compared for acute myelogenous leukemia (AML) cells (native blasts and AML cell lines) cultured in three serum-free media (X-vivo 10,X-vivo 15,[Bio-Whitacker,Walkersville,MD] and StemSpan [Stem Cell Technologies,Vancouver,BC,Canada]) and in medium containing 10% inactivated fetal calf serum (FCS). For native AML blasts the following functions were compared: (1) autonomous and cytokine-dependent proliferation; (2) frequency of clonogenic cell; and (3) constitutive cytokine secretion. AML blast proliferation differed between patients independent of the culture medium used,and clonogenic cells were maintained after in vitro culture in all media. In contrast,constitutive cytokine secretion was higher for cells cultured in StemSpan and FCS-containing medium than for cells cultured in the X-vivo media. Native AML blasts incubated in StemSpan also showed a low frequency of apoptotic cells. The three serum-free media could also be used for long-term expansion of well-characterized AML cell lines,but the optimal medium for cell expansion and cytokine secretion differed between cell lines. We conclude that standardized serum-free culture conditions can be used for in vitro studies of native AML blasts and AML cell lines.
Induction of cytotoxic T lymphocyte and antibody responses to enhanced green fluorescent protein following transplantation of transduced CD34(+) hematopoietic cells. Rosenzweig M et al. Blood 2001 APR

Abstract

Genetic modification of hematopoietic stem cells often results in the expression of foreign proteins in pluripotent progenitor cells and their progeny. However,the potential for products of foreign genes introduced into hematopoietic stem cells to induce host immune responses is not well understood. Gene marking and induction of immune responses to enhanced green fluorescent protein (eGFP) were examined in rhesus macaques that underwent nonmyeloablative irradiation followed by infusions of CD34(+) bone marrow cells transduced with a retroviral vector expressing eGFP. CD34(+) cells were obtained from untreated animals or from animals treated with recombinant human granulocyte colony-stimulating factor (G-CSF) alone or G-CSF and recombinant human stem cell factor. Levels of eGFP-expressing cells detected by flow cytometry peaked at 0.1% to 0.5% of all leukocytes 1 to 4 weeks after transplantation. Proviral DNA was detected in 0% to 17% of bone marrow--derived colony-forming units at periods of 5 to 18 weeks after transplantation. However,5 of 6 animals studied demonstrated a vigorous eGFP-specific cytotoxic T lymphocyte (CTL) response that was associated with a loss of genetically modified cells in peripheral blood,as demonstrated by both flow cytometry and polymerase chain reaction. The eGFP-specific CTL responses were MHC-restricted,mediated by CD8(+) lymphocytes,and directed against multiple epitopes. eGFP-specific CTLs were able to efficiently lyse autologous CD34(+) cells expressing eGFP. Antibody responses to eGFP were detected in 3 of 6 animals. These data document the potential for foreign proteins expressed in CD34(+) hematopoietic cells and their progeny to induce antibody and CTL responses in the setting of a clinically applicable transplantation protocol. (Blood. 2001;97:1951-1959)
Influence of medium components on ex vivo megakaryocyte expansion. van den Oudenrijn S et al. Journal of hematotherapy & stem cell research 2001 FEB

Abstract

Reinfusion of ex vivo-expanded autologous megakaryocytes together with a stem cell transplantation may be useful to prevent or reduce the period of chemotherapy-induced thrombocytopenia. In this study,we analyzed several serum-containing and serum-free media to identify the most suitable medium for megakaryocyte expansion. Moreover,two thrombopoietin (Tpo)-mimetic peptides were tested to evaluate whether they could replace Tpo in an expansion protocol. To analyze the effects of different media on megakaryocyte expansion,we used an in vitro liquid culture system. For this purpose,CD34(+) cells were isolated from peripheral blood and cultured for 8 days in the presence of Tpo and interleukin-3 (IL-3). The presence of megakaryocytes was analyzed by flow cytometric analysis after staining for CD41 expression. For our standard culture procedure,megakaryocyte medium (MK medium) supplemented with 10% AB plasma was used. Addition of 5% or 2.5% AB plasma yielded higher numbers of megakaryocytes,implying the presence of inhibitory factors in plasma. However,some plasma components are required for optimal megakaryocyte expansion because addition of less than 1% AB plasma or addition of human serum albumin instead of AB plasma resulted in the formation of lower numbers of megakaryocytes. Two commercially available serum-free media were also tested: Cellgro and Stemspan. If CD34(+) cells were cultured in Cellgro medium similar numbers of megakaryocytes were obtained as when CD34(+) cells were cultured in MK medium supplemented with 10% AB plasma. In MK medium with 2.5% AB plasma,higher numbers of megakaryocytes were cultured than in MK medium supplemented with 10% AB plasma. Therefore,Cellgro medium is not the best alternative medium. In cultures with Stemspan medium,higher numbers of megakaryocytes were obtained compared to MK medium with 10% AB plasma. Stemspan is thus a good alternative for MK medium. Two Tpo-mimetic peptides,AF13948 and PK1M,were tested for their ability to replace Tpo. In cultures with AF13948,comparable numbers of megakaryocytes were obtained as in the presence of Tpo,but in cultures with PK1M the number of megakaryocytes was lower. This study shows that high concentrations of plasma in medium inhibits megakaryocyte formation,but some plasma components are required for optimal megakaryocyte expansion. For an ex vivo expansion protocol,it is worthwhile to test several media,because the number of megakaryocytes differs widely with the medium used.

更多信息

更多信息
物种 人, 大鼠, 小鼠, 非人灵长类
Contains • Iscove’s MDM • Bovine serum albumin • Recombinant human insulin • Human transferrin (iron-saturated) • 2-Mercaptoethanol • Supplements
配方 无血清
质量保证:

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