Robust PSC adherent cell culture for cell therapy

CTS StemFlex Medium product photo

Gibco CTS StemFlex Medium is a xeno-free medium that supports the robust expansion of feeder-free pluripotent stem cells (PSCs) and is optimized to support stressful applications throughout clinical production, including gene editing, clonal expansion, and single-cell passaging.

  • Reliable performance in stressful applications—achieve fast recovery and high clonal expansion efficiency following gene editing
  • Robust expansion of PSCs—maintain stable karyotype, pluripotency, and differentiation potential for >10 passages
  • Simplified workflow—reduce cost and hands-on time with one medium for both expansion and engineering
  • Intended for cell therapy manufacturing*—streamline regulatory filings with GMP manufacturing, extensive safety testing, traceability of raw materials, and regulatory documentation

Order now


Reliable performance in stressful applications

Gene editing technologies offer the potential to advance PSC-based therapies by enabling the creation of hypoimmune cells that evade immune rejection or by correcting genetic defects for therapeutic purposes. The workflow for gene editing in PSCs is shown in Figure 1. PSC recovery after electroporation and single cell clonal expansion can be challenging and require a medium that can maintain viability and pluripotency throughout this process. CTS StemFlex Medium supports the maintenance of high quality PSCs through stressful applications.

diagram
Figure 1. Workflow for generating CRISPR/Cas9 gene-edited PSCs.


Fast recovery following gene editing

The optimized formulation of CTS StemFlex Medium supports recovery of PSCs after the Cas9 complex is introduced via electroporation (Figures 2A and 2B ). CTS StemFlex Medium also maintains high levels of pluripotency and delivers editing efficiencies similar to research use only (RUO) StemFlex Medium (Figures 2C and 2D).​

results from Cas9 complex delivery

Figure 2. CTS StemFlex enables electroporation-based delivery of the CRISPR Cas9-gRNA complex targeting the CIITA gene. CTS StemFlex Medium supports fast recovery following gene editing as shown by (A) confluency and (B) fold change in the post-electroporation passage. (C) Cells also maintained high expression of pluripotency as assessed by flow cytometric analysis of OCT4 and NANOG markers. (D) RUO StemFlex and CTS StemFlex media achieve comparable editing efficiencies via next generation sequencing (NGS) at the CITTA target.


High clonal expansion efficiency

Following electroporation, edited PSC clones can be efficiently expanded in CTS StemFlex Medium (Figures 3A and 3B) without loss of pluripotency (Figure 3C) or genomic stability (Figure 3D).

Data of clonal expansion following electroporation
Figure 3. CTS StemFlex Medium supports clonal expansion of PSCs edited at the CIITA locus.


Robust recovery from single-cell passaging

PSCs cultured in CTS StemFlex Medium exhibit high viability and cumulative fold expansion similar to cells growth in research use only (RUO) StemFlex Medium (Figure 4A). In addition, PSCs expanded in CTS StemFlex Medium maintained pluripotency and gneomic stability after consecutive single cell passages (Figures 4B and 4C).

Data for expansion and pluripotency markers
Figure 4. CTS StemFlex provides consistent expansion and maintains pluripotency and genomic stability during consecutive single cell passaging.(A) PSCs exhibited consistent cumulative fold expansion over 10 single cell passages with growth similar to RUO StemFlex Medium. These PSCs also (B) maintained high expression of OCT4 and NANOG pluripotency markers as assessed by flow cytometry, and (C) maintained genomic stability as assessed by the KaryoStat assay after 10 single cell passages.

Consistent expansion of high-quality PSCs

CTS StemFlex Medium promotes consistent growth in long-term culture while also maintaining normal morphology (Figure 5A), pluripotency (Figures 5B and 5C), and genomic stability (Figure 5D) across multiple PSC lines.

Data for expansion and pluripotency markers

Figure 5. CTS StemFlex Medium maintains normal morphology, pluripotency and karyotype in long-term culture. (A) PSCs cultured in CTS StemFlex Medium demonstrate typical PSC morphology. Pluripotency is maintained over long-term culture in CTS StemFlex Medium. PSC lines grown for >10 passages exhibited high expression of pluripotent markers by (B) flow cytometry and (C) by immunocytochemistry. (D) CTS StemFlex supports genomic stability in long-term culture as confirmed by the KaryoStat Assay.


Trilineage differentiation potential

Long-term expansion of PSCs can be achieved in CTS StemFlex Medium without the loss of expansion potential, pluripotency, or genomic stability (Figure 5). In addition, PSCs maintain the ability to differentiate to all three germ layers (Figure 6).

gene-expression plots for differentiation markers

Figure 6. Trilineage differentiation potential. ESC (A) and iPSC (B) were spontaneously differentiated as embryoid bodies using CTS Essential 6 Medium. Gene expression was analyzed using the TaqMan® hPSC Scorecard Assay and showed upregulation of ectoderm, mesoderm and endoderm markers.


Transition from StemFlex Medium (RUO) to CTS StemFlex Medium

Gibco Cell Therapy Systems (CTS) products have been developed to help facilitate the transition from discovery to clinical and commercial manufacturing by providing high-quality, GMP-manufactured ancillary materials, helping ensure commercial-scale production. These materials are extensively qualified, traceable, and accompanied by regulatory documentation.

CTS StemFlex Medium has a formulation similar to that of research use only (RUO) StemFlex Medium with specific modifications in line with regulatory guidance. Using the same protocol, CTS StemFlex Medium delivers comparable performance to RUO StemFlex Medium, including cell yield (Figure 7A) and expression of pluripotency markers (Figure 7B) and is formulated for clinical PSC expansion and to support the development of PSC-derived therapies.

data for culture confluency and marker expression
Figure 7. PSCs can be transitioned to CTS StemFlex Medium. Following transition from research use media to CTS StemFlex Medium, PSCs maintain (A) consistent growth and (B) high expression of OCT4 and NANOG pluripotency markers. At least 2 passages in CTS StemFlex Medium are recommended for a full adaptation.

Transition to suspension culture

For large-scale expansion of PSCs, three-dimensional or suspension culture may be preferred. Cells cultured in CTS StemFlex Medium can be transitioned to suspension culture in CTS StemScale PSC Suspension Medium. After adapting to CTS StemScale medium, PSCs readily aggregate into high-quality spheroids (Figure 8A) that maintain expansion potential (Figure 8B) and high levels of pluripotency (Figure 8C).

microscopic view of spheroids and expansion data

Figure 8. Transitioning PSCs adapted to CTS StemFlex Medium to suspension culture. Adherent PSCs adapted to CTS StemFlex Medium were dissociated with CTS TrypLE Select and seeded for 3D spheroid initiation in CTS StemScale PSC Suspension Medium. This resulted in high-quality PSC spheroids with rounded morphology (A and B) consistent expansion (C) and maintenance of pluripotency (D).


Ordering information

*Gibco CTS products are manufactured at a site that uses methods and controls that conform with cGMP for medical devices, 21 CFR Part 820. Our FDA-registered manufacturing site is ISO 13485-certified. Specific intended-use statements, full documentation traceability, and convenient access to our Drug Master File (DMF) are available for CTS StemFlex Medium.


本页上所述产品的预期用途各不相同。关于特定的预期用途声明,请参见产品标签。