Anna Hoog scite author profile

Self-assembly of solid organs from single cells would greatly expand applicability of regenerative medicine. Stem/progenitor cells can self-organize into micro-sized organ units, termed organoids, partially modelling tissue function and regeneration. Here we demonstrated 3D self-assembly of adult and induced pluripotent stem cell (iPSC)-derived fibroblasts, keratinocytes and endothelial progenitors into both, planar human skin in vivo and a novel type of spheroid-shaped skin organoids in vitro, under the aegis of human platelet lysate. Methods: Primary endothelial colony forming cells (ECFCs), skin fibroblasts (FBs) and keratinocytes (KCs) were isolated from human tissues and polyclonally propagated under 2D xeno-free conditions. Human tissue-derived iPSCs were differentiated into endothelial cells (hiPSC-ECs), fibroblasts (hiPSC-FBs) and keratinocytes (hiPSC-KCs) according to efficiency-optimized protocols. Cell identity and purity were confirmed by flow cytometry and clonogenicity indicated their stem/progenitor potential. Triple cell type floating spheroids formation was promoted by human platelet-derived growth factors containing culture conditions, using nanoparticle cell labelling for monitoring the organization process. Planar human skin regeneration was assessed in full-thickness wounds of immune-deficient mice upon transplantation of hiPSC-derived single cell suspensions. Results: Organoids displayed a distinct architecture with surface-anchored keratinocytes surrounding a stromal core, and specific signaling patterns in response to inflammatory stimuli. FGF-7 mRNA transfection was required to accelerate keratinocyte long-term fitness. Stratified human skin also self-assembled within two weeks after either adult- or iPSC-derived skin cell-suspension liquid-transplantation, healing deep wounds of mice. Transplant vascularization significantly accelerated in the presence of co-transplanted endothelial progenitors. Mechanistically, extracellular vesicles mediated the multifactorial platelet-derived trophic effects. No tumorigenesis occurred upon xenografting. Conclusion: This illustrates the superordinate progenitor self-organization principle and permits novel rapid 3D skin-related pharmaceutical high-content testing opportunities with floating spheroid skin organoids. Multi-cell transplant self-organization facilitates development of iPSC-based organ regeneration strategies using cell suspension transplantation supported by human platelet factors.

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Predictable CRISPR/Cas9-Mediated COL7A1 Reframing for Dystrophic Epidermolysis Bullosa

Köcher

March

Bischof

et al. 2020

Journal of Investigative Dermatology

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End-joining-based gene editing is frequently used for efficient reframing and knockout of target genes. However, the associated random, unpredictable, and often heterogeneous repair outcomes limit its applicability for therapeutic approaches. This study revealed more precise and predictable outcomes simply on the basis of the sequence context at the CRISPR/Cas9 target site. The severe dystrophic form of the blistering skin disease epidermolysis bullosa (DEB) represents a suitable model platform to test these recent developments for the disruption and reframing of dominant and recessive alleles, respectively, both frequently seen in DEB. We delivered a CRISPR/Cas9 nuclease as ribonucleoprotein into primary wild-type and recessive DEB keratinocytes to introduce a precise predictable single adenine sense-strand insertion at the target site. We achieved type VII collagen knockout in more than 40% of ribonucleoprotein-treated primary wild-type keratinocytes and type VII collagen restoration in more than 70% of ribonucleoprotein-treated recessive DEB keratinocytes. Nextgeneration sequencing of the on-target site revealed the presence of the precise adenine insertion upstream of the pathogenic mutation in at least 17% of all analyzed COL7A1 alleles. This demonstrates that COL7A1 editing based on precise end-joining-mediated DNA repair is an efficient strategy to revert the diseaseassociated nature of DEB regardless of the mutational inheritance.

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Paired nicking-mediated COL17A1 reframing for junctional epidermolysis bullosa

et al. 2022

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Transcriptomic Profiling Identifies CD8+ T Cells in the Brain of Aged and Alzheimer’s Disease Transgenic Mice as Tissue-Resident Memory T Cells

Altendorfer

Unger

Poupardin

et al. 2022

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The funding bodies did not influence the design of the study and collection, analysis, interpretation of data, or writing of the manuscript. M.S.U. planned and designed the study, performed animal and sample preparation, helped with the FACS sort, and wrote the initially submitted manuscript. B.A. helped with the animal sample preparation and performed histology and RNA isolation in the initially submitted manuscript. After M.S.U. had left the institution and changed field, B.A. took over the lead, performed the additional experiments requested, analyzed data, prepared figures, and wrote the revised version of the manuscript. R.P. performed all bioinformatics analyses of the mRNA-seq data and comparison with other genomic datasets. A.H. performed the FACS sort. D.A. performed flow cytometry analysis. H.M. and A.B. were involved in animal work and sample preparation. I.K.G., D.A., R.G., A.E., D.G., and T.W.-C. helped with their T cell expertise and critical revision of the manuscript. D.M.B.d.S. provided critical revision of the manuscript. L.A. is the principal investigator and was involved in the experimental design and critical revision of the manuscript.

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A non-viral and selection-free COL7A1 HDR approach with improved safety profile for dystrophic epidermolysis bullosa

Köcher

Bischof

Haas

et al. 2021

Molecular Therapy - Nucleic Acids

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Gene editing via homology-directed repair (HDR) currently comprises the best strategy to obtain perfect corrections for pathogenic mutations of monogenic diseases, such as the severe recessive dystrophic form of the blistering skin disease epidermolysis bullosa (RDEB). Limitations of this strategy, in particular low efficiencies and off-target effects, hinder progress toward clinical applications. However, the severity of RDEB necessitates the development of efficient and safe geneediting therapies based on perfect repair. To this end, we sought to assess the corrective efficiencies following optimal Cas9 nuclease and nickase-based COL7A1-targeting strategies in combination with single-or double-stranded donor templates for HDR at the COL7A1 mutation site. We achieved HDR-mediated correction efficiencies of up to 21% and 10% in primary RDEB keratinocytes and fibroblasts, respectively, as analyzed by next-generation sequencing, leading to fulllength type VII collagen restoration and accurate deposition within engineered three-dimensional (3D) skin equivalents (SEs). Extensive on-and off-target analyses confirmed that the combined treatment of paired nicking and single-stranded oligonucleotides constituted a highly efficient COL7A1-editing strategy, associated with a significantly improved safety profile. Our findings, therefore, represent a further advancement in the field of traceless genome editing for genodermatoses.

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Anna Hoog

Self-assembly of differentiated progenitor cells facilitates spheroid human skin organoid formation and planar skin regeneration

Predictable CRISPR/Cas9-Mediated COL7A1 Reframing for Dystrophic Epidermolysis Bullosa

Paired nicking-mediated COL17A1 reframing for junctional epidermolysis bullosa

Transcriptomic Profiling Identifies CD8+ T Cells in the Brain of Aged and Alzheimer’s Disease Transgenic Mice as Tissue-Resident Memory T Cells

A non-viral and selection-free COL7A1 HDR approach with improved safety profile for dystrophic epidermolysis bullosa

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