Pericytes of Human Skeletal Muscle Are Myogenic Precursors Distinct from Satellite Cells

Overview

Journal Nat Cell Biol

Specialty Cell Biology

Date 2007 Feb 13

PMID 17293855

Citations 437

Authors

Arianna Dellavalle

Maurilio Sampaolesi

Rossana Tonlorenzi

Enrico Tagliafico

Benedetto Sacchetti

Laura Perani

Anna Innocenzi

Beatriz G Galvez

Graziella Messina

Roberta Morosetti

Sheng Li

Marzia Belicchi

Giuseppe Peretti

Jeffrey S Chamberlain

Woodring E Wright

Yvan Torrente

Stefano Ferrari

Paolo Bianco

Giulio Cossu

Affiliations

Soon will be listed here.

Abstract

Cells derived from blood vessels of human skeletal muscle can regenerate skeletal muscle, similarly to embryonic mesoangioblasts. However, adult cells do not express endothelial markers, but instead express markers of pericytes, such as NG2 proteoglycan and alkaline phosphatase (ALP), and can be prospectively isolated from freshly dissociated ALP(+) cells. Unlike canonical myogenic precursors (satellite cells), pericyte-derived cells express myogenic markers only in differentiated myotubes, which they form spontaneously with high efficiency. When transplanted into severe combined immune deficient-X-linked, mouse muscular dystrophy (scid-mdx) mice, pericyte-derived cells colonize host muscle and generate numerous fibres expressing human dystrophin. Similar cells isolated from Duchenne patients, and engineered to express human mini-dystrophin, also give rise to many dystrophin-positive fibres in vivo. These data show that myogenic precursors, distinct from satellite cells, are associated with microvascular walls in the human skeletal muscle, may represent a correlate of embryonic 'mesoangioblasts' present after birth and may be a promising candidate for future cell-therapy protocols in patients.

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