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Mesoangioblasts (green) are better able to cross blood vessels (red) when they are first pretreated with cytokines (right).

Stem cells become much more efficient at muscle repair if they first get a boost of cytokines and migratory adhesion molecules, report Galvez et al. (page 231). The improved repair stems from better homing abilities.

Skeletal muscle can be repaired by a class of stem cells known as mesangioblasts, which reside within blood vessels. Injection of mesoangioblasts into the femoral artery of mice improves muscle function in a mouse model of muscular dystrophy. Only a small fraction of the injected cells enters the tissue after injection, however. With their new findings, the authors report how to increase this fraction.

The authors found that mesoangioblasts efficiently crossed endothelium-coated filters in vitro when the other side held either mature myotubes or muscle-associated cytokines, such as SDF-1. Immature myoblasts, which secrete less of these cytokines, did not induce strong migration.

In addition to cytokines, adhesion molecules also improved migration. Transfection of mesoangioblasts with L-selectin or 4 integrin increased the cells' migration efficiency across the endothelium-coated filters. L-selectin and 4 integrin are not normally expressed by mesangioblasts, but are known to help leukocytes migrate through vessels walls into nearby tissues.

In vivo experiments demonstrated that both strategies improved the stem cells' homing ability in a mouse model of muscular dystrophy. When cytokine-pretreated cells were injected in the femoral artery, 20% of the cells migrated to the thigh muscle, compared with 10% of untreated control cells. A similar improvement was detected for 4 integrin–expressing stem cells.

Both modifications together made an even better improvement. Approximately 50% of the mesoangioblasts that were pretreated with SDF-1 and that expressed 4 integrin entered the muscle.

After receiving the juiced-up stem cells, the mice had improved muscle function. Galvez et al. are now testing the same strategy in a dog model of muscular dystrophy. Moreover, they hypothesize that, with the right cytokines, a similar experimental approach could be used to improve the homing ability of other stem cell types.

Rabiya S. Tuma

rabiya{at}nasw.org

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Related Article

Complete repair of dystrophic skeletal muscle by mesoangioblasts with enhanced migration ability

Beatriz G. Galvez, Maurilio Sampaolesi, Silvia Brunelli, Diego Covarello, Manuela Gavina, Barbara Rossi, Gabriela Costantin, Yvan Torrente, and Giulio Cossu
J. Cell Biol. 2006 174: 231-243. [Abstract] [Full Text] [PDF]

This Article PDF (Full Text) PPT slides of all figures Alert me when this article is cited Services Email this article Similar articles in this journal Alert me to new content in the JCB Download to citation manager Citing Articles Citing Articles via CrossRef Citing Articles via Google Scholar Google Scholar Articles by Tuma, R. S. Search for Related Content PubMed Articles by Tuma, R. S. Related Collections Related Article Social Bookmarking                      What's this?