Nigel Smith scite author profile

Widespread provision of human embryonic stem cells (hESCs) for therapeutic use, drug screening and disease modelling will require cell lines sustainable over long periods in culture. Since the short-term, in vitro culture of mammalian embryos can result in DNA methylation changes, the epigenetic stability of hESCs warrants investigation. Existing hESC lines have been derived and cultured under diverse conditions, providing the potential for programming differential changes into the epigenome that may result in inter-line variability over and above that inherited from the embryo. By examining the DNA methylation profiles of > 2000 genomic loci by Restriction Landmark Genome Scanning, we identified substantial inter-line epigenetic distance between six independently derived hESC lines. Lines were found to inherit further epigenetic changes over time in culture, with most changes arising in the earliest stages post-derivation. The loci affected varied between lines. The majority of culture-induced changes (82.3-87.5%) were stably inherited both within the undifferentiated cells and post-differentiation. Adapting a line to a serum-free culture system resulted in additional epigenetic instability. Overall 80.5% of the unstable loci uncovered in hESCs have been associated previously with an adult tumour phenotype. Our study shows that current methods of hESC propagation can rapidly programme stable and unpredictable epigenetic changes in the stem cell genome. This highlights the need for (i) novel screening strategies to determine the experimental utility and biosafety of hESCs and (ii) optimization and standardization of procedures for the derivation and culture of hESC lines that minimize culture-induced instability.

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Automated, scalable culture of human embryonic stem cells in feeder‐free conditions

Thomas

Anderson

Chandra

et al. 2008

Biotech & Bioengineering

146

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Large-scale manufacture of human embryonic stem cells (hESCs) is prerequisite to their widespread use in biomedical applications. However, current hESC culture strategies are labor-intensive and employ highly variable processes, presenting challenges for scaled production and commercial development. Here we demonstrate that passaging of the hESC lines, HUES7, and NOTT1, with trypsin in feeder-free conditions, is compatible with complete automation on the CompacT SelecT, a commercially available and industrially relevant robotic platform. Pluripotency was successfully retained, as evidenced by consistent proliferation during serial passage, expression of stem cell markers (OCT4, NANOG, TRA1-81, and SSEA-4), stable karyotype, and multi-germlayer differentiation in vitro, including to pharmacologically responsive cardiomyocytes. Automation of hESC culture will expedite cell-use in clinical, scientific, and industrial applications.

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Common culture conditions for maintenance and cardiomyocyte differentiation of the human embryonic stem cell lines, BG01 and HUES-7

Denning¹,

Allegrucci²,

Priddle³

et al. 2006

Int. J. Dev. Biol.

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Development of generic differentiation protocols that function in a range of independently-derived human embryonic stem cell (hESC) lines remains challenging due to considerable diversity in culture methods practiced between lines. Maintenance of BG01 and HUES-7 has routinely been on mouse embryonic fibroblast (MEF) feeder layers using manual-and trypsinpassaging, respectively. We adapted both lines to trypsin-passaging on feeders or on Matrigel in feeder-free conditions and assessed proliferation and cardiac differentiation. On feeders, undifferentiated proliferation of BG01 and HUES-7 was supported by all three media tested (BG-SK, HUES-C and HUES-nL), although incidence of karyotypic instability increased in both lines in BG-SK. On Matrigel, KSR-containing conditioned medium (CM) promoted undifferentiated cell proliferation, while differentiation occurred in CM containing Plasmanate or ES-screened Fetal Bovine Serum (FBS) and in unconditioned medium containing 100 ng/ml bFGF. Matrigel cultures were advantageous for transfection but detrimental to embryoid body (EB) formation. However, transfer of hESCs from Matrigel back to feeders and culturing to confluence was found to rescue EB formation. EBs formed efficiently when hESCs on feeders were treated with collagenase, harvested by scraping and then cultured in suspension in CM. Subsequent culture in FBS-containing medium produced spontaneously contracting EBs, for which the mean beat rate was 37.2 ± 2.3 and 41.1 ± 3.1 beats / min for BG01-EBs and HUES-7-EBs, respectively. Derived cardiomyocytes expressed cardiac genes and responded to pharmacological stimulation. Therefore the same culture and differentiation conditions functioned in two independently-derived hESC lines. Similar studies in other lines may facilitate development of universal protocols.

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17q12 microdeletion syndrome: Three patients illustrating the phenotypic spectrum

Dixit¹,

Patel²,

Harrison³

et al. 2012

American J of Med Genetics Pt A

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Deletions of 17q12 are associated with renal cysts and maturity onset diabetes of the young, and have also been identified in women with reproductive tract anomalies due to Mullerian aplasia. Although initially identified in patients with normal cognitive ability, some patients with this recurrent microdeletion syndrome have learning problems. We identified a 17q12 microdeletion in three patients with renal cystic disease by array comparative genomic hybridization and the phenotypic spectrum of the 17q12 microdeletion syndrome is illustrated by the description of these patients. Of two patients who are old enough to be assessed, one has significant speech delay, autism spectrum disorder, and mild learning difficulty, while the other patient has only mild speech delay. This highlights the variability of cognitive involvement in this condition. The third patient presented with Alagille syndrome-like features in the neonatal period. All three patients had transient hypercalcemia in the neonatal period, a finding that has not previously been described in this condition. Moreover, two patients have mild or no dysmorphism, while one displays striking facial dysmorphism in addition to minor congenital anomalies. We suggest that while patients with 17q12 microdeletion syndrome can present with type 2 diabetes or renal cysts without any dysmorphic features, a subgroup may have dysmorphic features or present with neonatal cholestasis. Transient neonatal hypercalcemia may be a feature of this microdeletion syndrome.

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A magnetic colloid system for isolation of rare cells from blood for FISH analysis

et al. 1997

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To improve cell recovery of trophoblast and nucleated red blood cells from maternal blood for diagnosis of chromosomal abnormalities, we have investigated the use of a magnetic sorting system that utilizes a ferrofluid. The main advantage of this system is that the beads used are small enough to allow visualization of chromosome‐specific sequences by fluorescence in situ hybridization (FISH). The ferrofluid was validated using MAb340, a trophoblast‐specific antibody, and anti‐CD71, used to sort for nucleated red blood cells. Antigen‐positive cells could be efficiently sorted from a 1000‐fold excess of antigen‐negative cells and easily stained by FISH. We are currently evaluating its use on maternal blood samples. © 1997 John Wiley & Sons, Ltd.

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Nigel Smith

Restriction landmark genome scanning identifies culture-induced DNA methylation instability in the human embryonic stem cell epigenome

Automated, scalable culture of human embryonic stem cells in feeder‐free conditions

Common culture conditions for maintenance and cardiomyocyte differentiation of the human embryonic stem cell lines, BG01 and HUES-7

17q12 microdeletion syndrome: Three patients illustrating the phenotypic spectrum

A magnetic colloid system for isolation of rare cells from blood for FISH analysis

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