Jonathan Bayerl scite author profile

Most migrating cells extrude their front by the force of actin polymerization. Polymerization requires an initial nucleation step, which is mediated by factors establishing either parallel filaments in the case of filopodia or branched filaments that form the branched lamellipodial network. Branches are considered essential for regular cell motility and are initiated by the Arp2/3 complex, which in turn is activated by nucleation-promoting factors of the WASP and WAVE families. Here we employed rapid amoeboid crawling leukocytes and found that deletion of the WAVE complex eliminated actin branching and thus lamellipodia formation. The cells were left with parallel filaments at the leading edge, which translated, depending on the differentiation status of the cell, into a unipolar pointed cell shape or cells with multiple filopodia. Remarkably, unipolar cells migrated with increased speed and enormous directional persistence, while they were unable to turn towards chemotactic gradients. Cells with multiple filopodia retained chemotactic activity but their migration was progressively impaired with increasing geometrical complexity of the extracellular environment. These findings establish that diversified leading edge protrusions serve as explorative structures while they slow down actual locomotion.

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Ex utero mouse embryogenesis from pre-gastrulation to late organogenesis

Aguilera-Castrejon

Oldak

Shani

et al. 2021

Nature

133

100

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Context-dependent functional compensation between Ythdf m⁶A reader proteins

et al. 2020

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The N6-methyladenosine (m6A) modification is the most prevalent post-transcriptional mRNA modification, regulating mRNA decay and splicing. It plays a major role during normal development, differentiation, and disease progression. The modification is regulated by a set of writer, eraser, and reader proteins. The YTH domain family of proteins consists of three homologous m6A-binding proteins, Ythdf1, Ythdf2, and Ythdf3, which were suggested to have different cellular functions. However, their sequence similarity and their tendency to bind the same targets suggest that they may have overlapping roles. We systematically knocked out (KO) the Mettl3 writer, each of the Ythdf readers, and the three readers together (triple-KO). We then estimated the effect in vivo in mouse gametogenesis, postnatal viability, and in vitro in mouse embryonic stem cells (mESCs). In gametogenesis, Mettl3-KO severity is increased as the deletion occurs earlier in the process, and Ythdf2 has a dominant role that cannot be compensated by Ythdf1 or Ythdf3, due to differences in readers’ expression pattern across different cell types, both in quantity and in spatial location. Knocking out the three readers together and systematically testing viable offspring genotypes revealed a redundancy in the readers’ role during early development that is Ythdf1/2/3 gene dosage-dependent. Finally, in mESCs there is compensation between the three Ythdf reader proteins, since the resistance to differentiate and the significant effect on mRNA decay occur only in the triple-KO cells and not in the single KOs. Thus, we suggest a new model for the Ythdf readers function, in which there is profound dosage-dependent redundancy when all three readers are equivalently coexpressed in the same cell types.

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Principles of signaling pathway modulation for enhancing human naive pluripotency induction

et al. 2021

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Summary Isolating human MEK/ERK signaling-independent pluripotent stem cells (PSCs) with naive pluripotency characteristics while maintaining differentiation competence and (epi)genetic integrity remains challenging. Here, we engineer reporter systems that allow the screening for defined conditions that induce molecular and functional features of human naive pluripotency. Synergistic inhibition of WNT/β-CATENIN, protein kinase C (PKC), and SRC signaling consolidates the induction of teratoma-competent naive human PSCs, with the capacity to differentiate into trophoblast stem cells (TSCs) and extraembryonic naive endodermal (nEND) cells in vitro . Divergent signaling and transcriptional requirements for boosting naive pluripotency were found between mouse and human. P53 depletion in naive hPSCs increased their contribution to mouse-human cross-species chimeric embryos upon priming and differentiation. Finally, MEK/ERK inhibition can be substituted with the inhibition of NOTCH/RBPj, which induces alternative naive-like hPSCs with a diminished risk for deleterious global DNA hypomethylation. Our findings set a framework for defining the signaling foundations of human naive pluripotency.

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Neutralizing Gatad2a-Chd4-Mbd3/NuRD Complex Facilitates Deterministic Induction of Naive Pluripotency

et al. 2018

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Mbd3, a member of nucleosome remodeling and deacetylase (NuRD) co-repressor complex, was previously identified as an inhibitor for deterministic induced pluripotent stem cell (iPSC) reprogramming, where up to 100% of donor cells successfully complete the process. NuRD can assume multiple mutually exclusive conformations, and it remains unclear whether this deterministic phenotype can be attributed to a specific Mbd3/NuRD subcomplex. Moreover, since complete ablation of Mbd3 blocks somatic cell proliferation, we aimed to explore functionally relevant alternative ways to neutralize Mbd3-dependent NuRD activity. We identify Gatad2a, a NuRD-specific subunit, whose complete deletion specifically disrupts Mbd3/NuRD repressive activity on the pluripotency circuitry during iPSC differentiation and reprogramming without ablating somatic cell proliferation. Inhibition of Gatad2a facilitates deterministic murine iPSC reprogramming within 8 days. We validate a distinct molecular axis, Gatad2a-Chd4-Mbd3, within Mbd3/NuRD as being critical for blocking reestablishment of naive pluripotency and further highlight signaling-dependent and post-translational modifications of Mbd3/NuRD that influence its interactions and assembly.

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Deterministic Somatic Cell Reprogramming Involves Continuous Transcriptional Changes Governed by Myc and Epigenetic-Driven Modules

et al. 2019

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Genetically corrected iPSCs as cell therapy for recessive dystrophic epidermolysis bullosa

et al. 2014

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Recessive dystrophic epidermolysis bullosa (RDEB) is caused by mutations in the gene encoding type VII collagen, resulting in fragile skin and mucous membranes that blister easily in response to mechanical stress. Induced pluripotent stem cells (iPSCs) carry the potential to fundamentally change cell-based therapies for human diseases, in particular for RDEB, for which no effective treatments are available. To provide proof of principle on the applicability of iPSCs for the treatment of RDEB, we developed iPSCs from type VII collagen (Col7a1) mutant mice that exhibited skin fragility and blistering resembling human RDEB. Genetically repaired iPSCs could be differentiated into functional fibroblasts that reexpressed and secreted type VII collagen. Corrected iPSC-derived fibroblasts did not form tumors in vivo and could be traced up to 16 weeks after intradermal injection. Moreover, iPSC-based cell therapy resulted in faithful and long-term restoration of type VII collagen deposition at the epidermal-dermal junction of Col7a1 mutant mice. Intradermal injection of genetically repaired iPSC-derived fibroblasts restored the mechanical resistance to skin blistering in mice with RDEB, suggesting that RDEB skin could be effectively and safely repaired using iPSC-based cell therapy.

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SUMOylation of linker histone H1 drives chromatin condensation and restriction of embryonic cell fate identity

et al. 2022

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Jonathan Bayerl

Diversified actin protrusions promote environmental exploration but are dispensable for locomotion of leukocytes

Ex utero mouse embryogenesis from pre-gastrulation to late organogenesis

Context-dependent functional compensation between Ythdf m⁶A reader proteins

Principles of signaling pathway modulation for enhancing human naive pluripotency induction

Neutralizing Gatad2a-Chd4-Mbd3/NuRD Complex Facilitates Deterministic Induction of Naive Pluripotency

Deterministic Somatic Cell Reprogramming Involves Continuous Transcriptional Changes Governed by Myc and Epigenetic-Driven Modules

Genetically corrected iPSCs as cell therapy for recessive dystrophic epidermolysis bullosa

SUMOylation of linker histone H1 drives chromatin condensation and restriction of embryonic cell fate identity

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Jonathan Bayerl

Diversified actin protrusions promote environmental exploration but are dispensable for locomotion of leukocytes

Ex utero mouse embryogenesis from pre-gastrulation to late organogenesis

Context-dependent functional compensation between Ythdf m6A reader proteins

Principles of signaling pathway modulation for enhancing human naive pluripotency induction

Neutralizing Gatad2a-Chd4-Mbd3/NuRD Complex Facilitates Deterministic Induction of Naive Pluripotency

Deterministic Somatic Cell Reprogramming Involves Continuous Transcriptional Changes Governed by Myc and Epigenetic-Driven Modules

Genetically corrected iPSCs as cell therapy for recessive dystrophic epidermolysis bullosa

SUMOylation of linker histone H1 drives chromatin condensation and restriction of embryonic cell fate identity

Contact Info

Product

Resources

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Context-dependent functional compensation between Ythdf m⁶A reader proteins