P. Daniel Knott scite author profile

SummaryIdentification of human satellite cells that fulfill muscle stem cell criteria is an unmet need in regenerative medicine. This hurdle limits understanding how closely muscle stem cell properties are conserved among mice and humans and hampers translational efforts in muscle regeneration. Here, we report that PAX7 satellite cells exist at a consistent frequency of 2–4 cells/mm of fiber in muscles of the human trunk, limbs, and head. Xenotransplantation into mice of 50–70 fiber-associated, or 1,000–5,000 FACS-enriched CD56+/CD29+ human satellite cells led to stable engraftment and formation of human-derived myofibers. Human cells with characteristic PAX7, CD56, and CD29 expression patterns populated the satellite cell niche beneath the basal lamina on the periphery of regenerated fibers. After additional injury, transplanted satellite cells robustly regenerated to form hundreds of human-derived fibers. Together, these findings conclusively delineate a source of bona-fide endogenous human muscle stem cells that will aid development of clinical applications.

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Mesenchymal Chondrosarcoma of the Sinonasal Tract: A Clinicopathological Study of 13 Cases With a Review of the Literature

Knott

Gannon

Thompson

2003

The Laryngoscope

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Mesenchymal chondrosarcoma of the sinonasal tract is an aggressive tumor with a predilection for young women. The pattern of growth and scarcity of cartilaginous matrix result in frequent misdiagnosis. Recurrence develops in approximately one-third of patients and seems to predict a poor prognosis. Aggressive, exenterative surgery combined with adjuvant therapy appears to yield the best clinical outcome.

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High-Yield Purification, Preservation, and Serial Transplantation of Human Satellite Cells

et al. 2018

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SummaryInvestigation of human muscle regeneration requires robust methods to purify and transplant muscle stem and progenitor cells that collectively constitute the human satellite cell (HuSC) pool. Existing approaches have yet to make HuSCs widely accessible for researchers, and as a result human muscle stem cell research has advanced slowly. Here, we describe a robust and predictable HuSC purification process that is effective for each human skeletal muscle tested and the development of storage protocols and transplantation models in dystrophin-deficient and wild-type recipients. Enzymatic digestion, magnetic column depletion, and 6-marker flow-cytometric purification enable separation of 104 highly enriched HuSCs per gram of muscle. Cryostorage of HuSCs preserves viability, phenotype, and transplantation potential. Development of enhanced and species-specific transplantation protocols enabled serial HuSC xenotransplantation and recovery. These protocols and models provide an accessible system for basic and translational investigation and clinical development of HuSCs.

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Sensorineural hearing loss and Kawasaki disease: A prospective study

Knott¹,

Orloff²,

Harris³

et al. 2001

American Journal of Otolaryngology

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Head and neck surgery during the coronavirus‐19 pandemic: The University of California San Francisco experience

Wai

Lee

et al. 2020

Head & Neck

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P. Daniel Knott

Human Satellite Cell Transplantation and Regeneration from Diverse Skeletal Muscles

Mesenchymal Chondrosarcoma of the Sinonasal Tract: A Clinicopathological Study of 13 Cases With a Review of the Literature

High-Yield Purification, Preservation, and Serial Transplantation of Human Satellite Cells

Sensorineural hearing loss and Kawasaki disease: A prospective study

Head and neck surgery during the coronavirus‐19 pandemic: The University of California San Francisco experience

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