Johana Tournois scite author profile

Human induced pluripotent stem cells (hiPSCs) are a most appealing source for cell replacement therapy in acute brain lesions. We evaluated the potential of hiPSC therapy in stroke by transplanting hiPSC-derived neural progenitor cells (NPCs) into the postischemic striatum. Grafts received host tyrosine hydroxylase-positive afferents and contained developing interneurons and homotopic GABAergic medium spiny neurons that, with time, sent axons to the host substantia nigra. Grafting reversed stroke-induced somatosensory and motor deficits. Grafting also protected the host substantia nigra from the atrophy that follows disruption of reciprocal striatonigral connections. Graft innervation by tyrosine hydoxylase fibers, substantia nigra protection, and somatosensory functional recovery were early events, temporally dissociated from the slow maturation of GABAergic neurons in the grafts and innervation of substantia nigra. This suggests that grafted hiPSC-NPCs initially exert trophic effects on host brain structures, which precede integration and potential pathway reconstruction. We believe that transplantation of NPCs derived from hiPSCs can provide useful interventions to limit the functional consequences of stroke through both neuroprotective effects and reconstruction of impaired pathways.

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Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation

Blondel

Egesipe

Picardi

et al. 2016

Cell Death Dis

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Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder characterized by a dramatic appearance of premature aging. HGPS is due to a single-base substitution in exon 11 of the LMNA gene (c.1824C>T) leading to the production of a toxic form of the prelamin A protein called progerin. Because farnesylation process had been shown to control progerin toxicity, in this study we have developed a screening method permitting to identify new pharmacological inhibitors of farnesylation. For this, we have used the unique potential of pluripotent stem cells to have access to an unlimited and relevant biological resource and test 21 608 small molecules. This study identified several compounds, called monoaminopyrimidines, which target two key enzymes of the farnesylation process, farnesyl pyrophosphate synthase and farnesyl transferase, and rescue in vitro phenotypes associated with HGPS. Our results opens up new therapeutic possibilities for the treatment of HGPS by identifying a new family of protein farnesylation inhibitors, and which may also be applicable to cancers and diseases associated with mutations that involve farnesylated proteins.

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Improvement of Culture Conditions of Human Embryoid Bodies Using a Controlled Perfused and Dialyzed Bioreactor System

Côme

Nissan

Aubry

et al. 2008

Tissue Engineering Part C: Methods

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In parallel to the active search for therapeutic and industrial applications of human embryonic stem cells (hESCs), designing automated means of producing those cells is a timely goal. Slow-turning lateral vessels (STLVs) with low shear stress have shown promise for expanding the cells at the embryoid body stage. We have improved this technology by developing two complementary systems, allowing continuous optimization of the culture conditions. First, perfused STLV bioreactors were set up, to provide continuous delivery of culture medium to the cells growing in the rotating chamber. This allowed the external control of the culture medium, and consequently optimized oxygenation, pH, nutrient supply, and waste elimination. Second, a dialysis chamber was adapted. This led to a further enhanced controlled environment and a decrease in the quantity of adjunct products (e.g., growth factors) necessary to the cells inside the bioreactor chamber. hESC aggregation and initial differentiation-taking neural induction as an example-were compared between the perfused and dialyzed STLV system and static cultures. Perfused and dialyzed STLV bioreactors promoted formation of embryoid bodies that were differentiated more rapidly and were homogeneously synchronized in a statistically significant manner.

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Johana Tournois

Human Induced Pluripotent Stem Cells Improve Stroke Outcome and Reduce Secondary Degeneration in the Recipient Brain

Drug screening on Hutchinson Gilford progeria pluripotent stem cells reveals aminopyrimidines as new modulators of farnesylation

Improvement of Culture Conditions of Human Embryoid Bodies Using a Controlled Perfused and Dialyzed Bioreactor System

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