Haizea Iribar scite author profile

SummaryResident neural precursor cells (NPCs) have been reported for a number of adult tissues. Understanding their physiological function or, alternatively, their activation after tissue damage or in vitro manipulation remains an unsolved issue. Here, we investigated the source of human dermal NPCs in adult tissue. By following an unbiased, comprehensive approach employing cell-surface marker screening, cell separation, transcriptomic characterization, and in vivo fate analyses, we found that p75NTR+ precursors of human foreskin can be ascribed to the Schwann (CD56+) and perivascular (CD56−) cell lineages. Moreover, neural differentiation potential was restricted to the p75NTR+CD56+ Schwann cells and mediated by SOX2 expression levels. Double-positive NPCs were similarly obtained from human cardiospheres, indicating that this phenomenon might be widespread.

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Aurophilically cross-linked “dynamic” hydrogels mimicking healthy synovial fluid properties

Casuso

Vicente

Iribar

et al. 2014

Chem. Commun.

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HuR/ELAVL1 drives malignant peripheral nerve sheath tumor growth and metastasis

Palomo-Irigoyen¹,

Pérez-Andrés²,

Iruarrizaga‐Lejarreta³

et al. 2020

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Pericytes in Cutaneous Wound Healing

Morikawa

Iribar

Gutiérrez-Rivera

et al. 2019

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Schwann Cells in the Ventral Dermis Do Not Derive from Myf5-Expressing Precursors

et al. 2017

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SummaryThe embryonic origin of lineage precursors of the trunk dermis is somewhat controversial. Precursor cells traced by Myf5 and Twist2 (Dermo1) promoter activation (i.e., cells of presumed dermomyotomal lineage) have been reported to generate Schwann cells. On the other hand, abundant data demonstrate that dermal Schwann cells derive from the neural crest. This is relevant because dermal precursors give rise to neural lineages, and multilineage differentiation potential qualifies them as adult stem cells. However, it is currently unclear whether neural lineages arise from dedifferentiated Schwann cells instead of mesodermally derived dermal precursor cells. To clarify these discrepancies, we traced SOX2+ adult dermal precursor cells by two independent Myf5 lineage tracing strains. We demonstrate that dermal Schwann cells do not belong to the Myf5+ cell lineage, indicating that previous tracing data reflected aberrant cre recombinase expression and that bona fide Myf5+ dermal precursors cannot transdifferentiate to neural lineages in physiological conditions.

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Haizea Iribar

Neural-Competent Cells of Adult Human Dermis Belong to the Schwann Lineage

Aurophilically cross-linked “dynamic” hydrogels mimicking healthy synovial fluid properties

HuR/ELAVL1 drives malignant peripheral nerve sheath tumor growth and metastasis

Pericytes in Cutaneous Wound Healing

Schwann Cells in the Ventral Dermis Do Not Derive from Myf5-Expressing Precursors

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