Amy L. Firth scite author profile

Summary Embryonic stem (ES) cells are derived from blastocyst stage embryos and are believed to be functionally equivalent to the inner cell mass, which lacks the ability to produce all extraembryonic tissues. Here we report the identification of a rare transient cell population within mouse ES and induced pluripotent stem (iPS) cell cultures that express high levels of transcripts found in two-cell (2C) embryos in which the blastomeres are totipotent. We genetically tagged these 2C-like ES cells and show that they lack the ICM pluripotency proteins Oct4, Sox2, and Nanog and have acquired the ability to contribute to both embryonic and extraembryonic tissues. We show that nearly all ES cells cycle in and out of this privileged state, which we find is partially controlled by histone modifying enzymes. Transcriptome sequencing and bioinformatic analyses revealed that a significant number of 2C-transcripts are initiated from long terminal repeats derived from murine endogenous retroviruses, suggesting this foreign sequence has helped to drive cell fate regulation in placental mammals.

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Generation of multiciliated cells in functional airway epithelia from human induced pluripotent stem cells

Firth

Dargitz

Qualls

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

221

214

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Despite a significant improvement in the availability of therapeutic options to treat lung diseases, pulmonary disease still remains a major cause of morbidity and mortality around the world. Currently there are limited opportunities to study human lung disease either in vivo and in vitro. Using induced pluripotent stem cells (iPSC) we have generated a reproducible differentiation protocol to make mature post‐mitotic multiciliated cells in a functional airway epithelium. iPSC were generated from human skin biopsies and differentiated via FOXA2+SOX17+ definitive endoderm (>90% efficiency) to FOXA2+NKx2.1+ anterior foregut endoderm, FOXA2+NKx2.1+SOX2+ (~50% efficiency) pulmonary endoderm and then matured in an air liquid interface. Robust multiciliogenesis occurred when Notch signaling was inhibited and was confirmed by; i) the assembly of multiple pericentrin stained centrioles at the apical surface, ii) expression of transcription factor FOXJ1 and iii) presence of multiple acetylated tubulin labeled cilia projections in individual cells. The presence of NKx2.1+CC10+ Clara cells, MUC5A/C+ goblet cells and FOXA2+p63+ basal cells was also confirmed showing we are generating a complete polarized epithelial cell layer comprised of all relevant cell types. Functional cAMP activated and CFTRinh‐172 sensitive CFTR currents were recorded in isolated epithelial cells by whole cell patch clamp technique. Furthermore, we have corrected the deltaF508 mutation in the CFTR gene (>80% of all cases of CF) using a combination of CRISPR‐Cas9 endonuclease‐mediated genome editing and piggyBac transposase technologies, in the CF patient‐derived iPSC. The generation of mature multiciliated cells in a human iPSC differentiated respiratory epithelium and the ability to correct disease causing mutations provides a significant advancement toward modeling a number of human respiratory diseases in vitro. Grant Funding Source: Supported in part by CIRM and the Berger Foundation

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Functional Gene Correction for Cystic Fibrosis in Lung Epithelial Cells Generated from Patient iPSCs

et al. 2015

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SUMMARY Lung disease is a major cause of death in the USA, with current therapeutic approaches only serving to manage symptoms. The most common chronic and life-threatening genetic disease of the lung is Cystic fibrosis (CF) caused by mutations in the cystic fibrosis transmembrane regulator (CFTR). We have generated induced pluripotent stem cells (iPSC) from CF patients carrying a homozygous deletion of F508 in the CFTR gene, which results in defective processing of CFTR to the cell membrane. This mutation was precisely corrected using CRISPR to target corrective sequences to the endogenous CFTR genomic locus, in combination with a completely excisable selection system which significantly improved the efficiency of this correction. The corrected iPSC were subsequently differentiated to mature airway epithelial cells where recovery of normal CFTR expression and function was demonstrated. This isogenic iPSC-based model system for CF could be adapted for the development of new therapeutic approaches.

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Adenylyl Cyclase Type 6 Deletion Decreases Left Ventricular Function via Impaired Calcium Handling

et al. 2008

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Background-Adenylyl cyclases (ACs) are a family of effector molecules for G-protein-coupled receptors. The 2 ACs most abundantly expressed in cardiac myocytes are types 5 (AC5) and 6 (AC6), which have 65% amino acid homology. It has been speculated that coexpression of 2 AC types in cardiac myocytes represents redundancy, but the specific role of AC6 in cardiac physiology and its differences from AC5 remain to be defined. Methods and Results-We generated transgenic mice with targeted deletion of AC6. Deletion of AC6 was associated with reduced left ventricular contractile function (Pϭ0.026) and relaxation (Pϭ0.041). The absence of AC6 was associated with a 48% decay in ␤-adrenergic receptor-stimulated cAMP production in cardiac myocytes (Pϭ0.003) and reduced protein kinase A activity (Pϭ0.015). In addition, phospholamban phosphorylation was reduced (Pϭ0.015), sarcoplasmic reticulum Ca 2ϩ -ATPase activity was impaired (PϽ0.0001), and cardiac myocytes showed marked abnormalities in calcium transient formation (Pϭ0.001). Conclusions-The

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Amy L. Firth

Embryonic stem cell potency fluctuates with endogenous retrovirus activity

Generation of multiciliated cells in functional airway epithelia from human induced pluripotent stem cells

Functional Gene Correction for Cystic Fibrosis in Lung Epithelial Cells Generated from Patient iPSCs

Adenylyl Cyclase Type 6 Deletion Decreases Left Ventricular Function via Impaired Calcium Handling

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