Nicola Bates scite author profile

We report a chemically defined, efficient, scalable and reproducible protocol for differentiation of human embryonic stem cells (hESCs) toward chondrocytes. HESCs are directed through intermediate developmental stages using substrates of known matrix proteins and chemically defined media supplemented with exogenous growth factors. Gene expression analysis suggests that the hESCs progress through primitive streak or mesendoderm to mesoderm, before differentiating into a chondrocytic culture comprising cell aggregates. At this final stage, 74% (HUES1 cells) and up to 95-97% (HUES7 and HUES8 cells) express the chondrogenic transcription factor SOX9. The cell aggregates also express cell surface CD44 and aggrecan and deposit a sulfated glycosaminoglycan and cartilage-specific collagen II matrix, but show very low or no expression of genes and proteins associated with nontarget cell types. Our protocol should facilitate studies of chondrocyte differentiation and of cell replacement therapies for cartilage repair.

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Recombinant Laminins Drive the Differentiation and Self-Organization of hESC-Derived Hepatocytes

Cameron

et al. 2015

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SummaryStem cell-derived somatic cells represent an unlimited resource for basic and translational science. Although promising, there are significant hurdles that must be overcome. Our focus is on the generation of the major cell type of the human liver, the hepatocyte. Current protocols produce variable populations of hepatocytes that are the product of using undefined components in the differentiation process. This serves as a significant barrier to scale-up and application. To tackle this issue, we designed a defined differentiation process using recombinant laminin substrates to provide instruction. We demonstrate efficient hepatocyte specification, cell organization, and significant improvements in cell function and phenotype. This is driven in part by the suppression of unfavorable gene regulatory networks that control cell proliferation and migration, pluripotent stem cell self-renewal, and fibroblast and colon specification. We believe that this represents a significant advance, moving stem cell-based hepatocytes closer toward biomedical application.

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Analysis of the distinct functions of growth factors and tissue culture substrates necessary for the long-term self-renewal of human embryonic stem cell lines

Baxter

Camarasa²,

Bates³

et al. 2009

Stem Cell Research

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The role of individual supplements necessary for the self-renewal of human embryonic stem (hES) cells is poorly characterized, and furthermore we have found that previously reported feeder cell- and serum-free culture systems used for individual hES cell lines are unable to maintain HUES7 cells for more than one passage. We have therefore derived a feeder/serum-free culture system that can support the long-term (at least 10 passages) self-renewal of several euploid hES cell lines including MAN1, HUES7, and HUES1 with minimal spontaneous differentiation and without the need for manual propagation. This system contains fibroblast growth factor 2, activin A, neurotrophin 4, and the N2, B27 supplements together with a human fibronectin substrate. We demonstrate that these components exert distinct functions: both FGF2 and activin A were necessary to prevent differentiation of hES cells while NT4 promoted cell survival, FGF2 could not be substituted by IGFII, and the fibronectin substrate supported a rapid rate of hES culture expansion. Inhibition studies showed that β1 integrin-dependent attachment of hES cells to fibronectin was at least partially via the α5 subunit but independent of integrin αV.

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High quality clinical grade human embryonic stem cell lines derived from fresh discarded embryos

Bates

Soteriou

et al. 2017

Stem Cell Res Ther

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BackgroundHuman embryonic stem cells (hESCs) hold tremendous promise for cell replacement therapies for a range of degenerative diseases. In order to provide cost-effective treatments affordable by public health systems, HLA-matched allogeneic tissue banks of the highest quality clinical-grade hESCs will be required. However only a small number of existing hESC lines are suitable for clinical use; they are limited by moral and ethical concerns and none of them apply Good Manufacturing Practice (GMP) standards to the earliest and critical stages of gamete and embryo procurement. We thus aimed to derive new clinical grade hESC lines of highest quality from fresh surplus GMP grade human embryos.MethodsA comprehensive screen was performed for suitable combinations of culture media with supporting feeder cells or feeder-free matrix, at different stages, to support expansion of the inner cell mass and to establish new hESC lines.ResultsWe developed a novel two-step and sequential media system of clinical-grade hESC derivation and successfully generated seven new hESC lines of widely varying HLA type, carefully screened for genetic health, from human embryos donated under the highest ethical and moral standards under an integrated GMP system which extends from hESC banking all the way back to gamete and embryo procurement.ConclusionsThe present study, for the first time, reports the successful derivation of highest-quality clinical-grade hESC lines from fresh poor-quality surplus human embryos generated in a GMP-grade IVF laboratory. The availability of hESC lines of this status represents an important step towards more widespread application of regenerative medicine therapies.Electronic supplementary materialThe online version of this article (doi:10.1186/s13287-017-0561-y) contains supplementary material, which is available to authorized users.

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Bax targeting to mitochondria occurs via both tail anchor-dependent and -independent mechanisms

et al. 2008

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Bax is a member of the Bcl-2 family that, together with Bak, is required for permeabilisation of the outer mitochondrial membrane (OMM). Bax differs from Bak in that it is predominantly cytosolic in healthy cells and only associates with the OMM after an apoptotic signal. How Bax is targeted to the OMM is still a matter of debate, with both a C-terminal tail anchor and an N-terminal pre-sequence being implicated. We now show definitively that Bax does not contain an N-terminal import sequence, but does have a C-terminal anchor. The isolated N-terminus of Bax cannot target a heterologous protein to the OMM, whereas the C-terminus can. Furthermore, if the C-terminus is blocked, Bax fails to target to mitochondria upon receipt of an apoptotic stimulus. Zebra fish Bax, which shows a high degree of amino acid homology with mammalian Bax within the C-terminus, but not the N-terminus, can rescue the defective cell death phenotype of Bax/Bak deficient cells. Interestingly, we find that Bax mutants which themselves cannot target mitochondria or induce apoptosis are recruited to clusters of activated wildtype Bax on the OMM of apoptotic cells. This appears to be an amplification of Bax activation during cell death that is independent of the normal tail-anchor mediated targeting.

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Patient-Specific iPSC Model of a Genetic Vascular Dementia Syndrome Reveals Failure of Mural Cells to Stabilize Capillary Structures

et al. 2019

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CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy) is the most common form of genetic stroke and vascular dementia syndrome resulting from mutations in NOTCH3. To elucidate molecular mechanisms of the condition and identify drug targets, we established a patient-specific induced pluripotent stem cell (iPSC) model and demonstrated for the first time a failure of the patient iPSC-derived vascular mural cells (iPSC-MCs) in engaging and stabilizing endothelial capillary structures. The patient iPSC-MCs had reduced platelet-derived growth factor receptor b, decreased secretion of the angiogenic factor vascular endothelial growth factor (VEGF), were highly susceptible to apoptotic insults, and could induce apoptosis of adjacent endothelial cells. Supplementation of VEGF significantly rescued the capillary destabilization. Small interfering RNA knockdown of NOTCH3 in iPSC-MCs revealed a gain-of-function mechanism for the mutant NOTCH3. These disease mechanisms likely delay brain repair after stroke in CADASIL, contributing to the brain hypoperfusion and dementia in this condition, and will help to identify potential drug targets.

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Maternal nutrition modifies trophoblast giant cell phenotype and fetal growth in mice

Watkins¹,

Lucas²,

Marfy-Smith³

et al. 2015

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Mammalian placentation is dependent upon the action of trophoblast cells at the time of implantation. Appropriate fetal growth, regulated by maternal nutrition and nutrient transport across the placenta, is a critical factor for adult offspring long-term health. We have demonstrated that a mouse maternal low-protein diet (LPD) fed exclusively during preimplantation development (Emb-LPD) increases offspring growth but programmes adult cardiovascular and metabolic disease. In this study, we investigate the impact of maternal nutrition on post-implantation trophoblast phenotype and fetal growth. Ectoplacental cone explants were isolated at day 8 of gestation from female mice fed either normal protein diet (NPD: 18% casein), LPD (9% casein) or Emb-LPD and cultured in vitro. We observed enhanced spreading and cell division within proliferative and secondary trophoblast giant cells (TGCs) emerging from explants isolated from LPD-fed females when compared with NPD and Emb-LPD explants after 24 and 48 h. Moreover, both LPD and Emb-LPD explants showed substantial expansion of TGC area during 24–48 h, not observed in NPD. No difference in invasive capacity was observed between treatments using Matrigel transwell migration assays. At day 17 of gestation, LPD- and Emb-LPD-fed conceptuses displayed smaller placentas and larger fetuses respectively, resulting in increased fetal:placental ratios in both groups compared with NPD conceptuses. Analysis of placental and yolk sac nutrient signalling within the mammalian target of rapamycin complex 1 pathway revealed similar levels of total and phosphorylated downstream targets across groups. These data demonstrate that early post-implantation embryos modify trophoblast phenotype to regulate fetal growth under conditions of poor maternal nutrition.

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Lipid infusion in the management of poisoning: a report of 6 canine cases

Bates¹,

Chatterton²,

Robbins³

et al. 2013

Vet Record Case Reports

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Intravenous administration of lipid is a relatively new treatment in the management of toxicity from lipophilic compounds. It is used in human medicine in the treatment of toxicity from lipophilic local anaesthetics and cardiotoxic drugs and can result in dramatic improvement in clinical status. We present six cases of poisoning in dogs successfully treated with lipid infusion after ingestion of ivermectin (3), moxidectin (2) and baclofen (1). The dogs ranged in age from eight weeks to 14 years, and weighed 4–30 kg. Intravenous lipid therapy was started between six and eight hours and 22 hours after ingestion, and all the dogs responded well. In four dogs, there was clinical improvement within one hour; one had improved within two hours and the other within 4.5 hours of lipid administration. The only adverse effect of lipid infusion reported was mild swelling and pain after extravasation in one case which resolved with conservative management. All the dogs were discharged within 24–52 hours after exposure (7–46 hours after the start of lipid administration), and none developed any apparent sequelae.

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Nicola Bates

Directed differentiation of human embryonic stem cells toward chondrocytes

Recombinant Laminins Drive the Differentiation and Self-Organization of hESC-Derived Hepatocytes

Analysis of the distinct functions of growth factors and tissue culture substrates necessary for the long-term self-renewal of human embryonic stem cell lines

High quality clinical grade human embryonic stem cell lines derived from fresh discarded embryos

Bax targeting to mitochondria occurs via both tail anchor-dependent and -independent mechanisms

Patient-Specific iPSC Model of a Genetic Vascular Dementia Syndrome Reveals Failure of Mural Cells to Stabilize Capillary Structures

Maternal nutrition modifies trophoblast giant cell phenotype and fetal growth in mice

Lipid infusion in the management of poisoning: a report of 6 canine cases

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